/* * This file was generated automatically by gen-mterp.py for 'x86'. * * --> DO NOT EDIT <-- */ /* File: x86/header.S */ /* * Copyright (C) 2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * 32-bit x86 definitions and declarations. */ /* 386 ABI general notes: Caller save set: eax, edx, ecx, st(0)-st(7) Callee save set: ebx, esi, edi, ebp Return regs: 32-bit in eax 64-bit in edx:eax (low-order 32 in eax) fp on top of fp stack st(0) Parameters passed on stack, pushed right-to-left. On entry to target, first parm is at 4(%esp). Traditional entry code is: functEntry: push %ebp # save old frame pointer mov %ebp,%esp # establish new frame pointer sub FrameSize,%esp # Allocate storage for spill, locals & outs Once past the prologue, arguments are referenced at ((argno + 2)*4)(%ebp) Stack must be 16-byte aligned to support SSE in native code. If we're not doing variable stack allocation (alloca), the frame pointer can be eliminated and all arg references adjusted to be esp relative. Mterp notes: Some key interpreter variables will be assigned to registers. Note that each will also have an associated spill location (mostly useful for those assigned to callee save registers). nick reg purpose rPC edi interpreted program counter, used for fetching instructions rFP esi interpreted frame pointer, used for accessing locals and args rINSTw bx first 16-bit code of current instruction rINSTbl bl opcode portion of instruction word rINSTbh bh high byte of inst word, usually contains src/tgt reg names rIBASE edx base of instruction handler table Notes: o High order 16 bits of ebx must be zero on entry to handler o rPC, rFP, rINSTw/rINSTbl valid on handler entry and exit o eax and ecx are scratch, rINSTw/ebx sometimes scratch */ #define rSELF 8(%ebp) #define rPC %esi #define rFP %edi #define rINST %ebx #define rINSTw %bx #define rINSTbh %bh #define rINSTbl %bl #define rIBASE %edx /* Frame diagram while executing dvmMterpStdRun, high to low addresses */ #define IN_ARG0 ( 8) #define CALLER_RP ( 4) #define PREV_FP ( 0) /* Spill offsets relative to %ebp */ #define EDI_SPILL ( -4) #define ESI_SPILL ( -8) #define EBX_SPILL (-12) #define rPC_SPILL (-16) #define rFP_SPILL (-20) #define rINST_SPILL (-24) #define rIBASE_SPILL (-28) #define TMP_SPILL1 (-32) #define TMP_SPILL2 (-36) #define TMP_SPILL3 (-20) #define LOCAL0_OFFSET (-44) #define LOCAL1_OFFSET (-48) #define LOCAL2_OFFSET (-52) /* Out Arg offsets, relative to %esp */ #define OUT_ARG4 ( 16) #define OUT_ARG3 ( 12) #define OUT_ARG2 ( 8) #define OUT_ARG1 ( 4) #define OUT_ARG0 ( 0) /* <- dvmMterpStdRun esp */ #define FRAME_SIZE 76 #define SPILL(reg) movl reg##,reg##_SPILL(%ebp) #define UNSPILL(reg) movl reg##_SPILL(%ebp),reg #define SPILL_TMP1(reg) movl reg,TMP_SPILL1(%ebp) #define UNSPILL_TMP1(reg) movl TMP_SPILL1(%ebp),reg #define SPILL_TMP2(reg) movl reg,TMP_SPILL2(%ebp) #define UNSPILL_TMP2(reg) movl TMP_SPILL2(%ebp),reg #define SPILL_TMP3(reg) movl reg,TMP_SPILL3(%ebp) #define UNSPILL_TMP3(reg) movl TMP_SPILL3(%ebp),reg #if defined(WITH_JIT) .macro GET_JIT_PROF_TABLE _self _reg movl offThread_pJitProfTable(\_self),\_reg .endm .macro GET_JIT_THRESHOLD _self _reg movl offThread_jitThreshold(\_self),\_reg .endm #endif /* save/restore the PC and/or FP from the self struct */ .macro SAVE_PC_FP_TO_SELF _reg movl rSELF,\_reg movl rPC,offThread_pc(\_reg) movl rFP,offThread_curFrame(\_reg) .endm .macro LOAD_PC_FP_FROM_SELF movl rSELF,rFP movl offThread_pc(rFP),rPC movl offThread_curFrame(rFP),rFP .endm /* The interpreter assumes a properly aligned stack on entry, and * will preserve 16-byte alignment. */ /* * "export" the PC to the interpreted stack frame, f/b/o future exception * objects. Must be done *before* something throws. * * In C this is "SAVEAREA_FROM_FP(fp)->xtra.currentPc = pc", i.e. * fp - sizeof(StackSaveArea) + offsetof(SaveArea, xtra.currentPc) * * It's okay to do this more than once. */ .macro EXPORT_PC movl rPC, (-sizeofStackSaveArea + offStackSaveArea_currentPc)(rFP) .endm /* * Given a frame pointer, find the stack save area. * * In C this is "((StackSaveArea*)(_fp) -1)". */ .macro SAVEAREA_FROM_FP _reg leal -sizeofStackSaveArea(rFP), \_reg .endm /* * Fetch the next instruction from rPC into rINSTw. Does not advance rPC. */ .macro FETCH_INST movzwl (rPC),rINST .endm /* * Fetch the opcode byte and zero-extend it into _reg. Must be used * in conjunction with GOTO_NEXT_R */ .macro FETCH_INST_R _reg movzbl (rPC),\_reg .endm /* * Fetch the opcode byte at _count words offset from rPC and zero-extend * it into _reg. Must be used in conjunction with GOTO_NEXT_R */ .macro FETCH_INST_OPCODE _count _reg movzbl \_count*2(rPC),\_reg .endm /* * Fetch the nth instruction word from rPC into rINSTw. Does not advance * rPC, and _count is in words */ .macro FETCH_INST_WORD _count movzwl \_count*2(rPC),rINST .endm /* * Fetch instruction word indexed (used for branching). * Index is in instruction word units. */ .macro FETCH_INST_INDEXED _reg movzwl (rPC,\_reg,2),rINST .endm /* * Advance rPC by instruction count */ .macro ADVANCE_PC _count leal 2*\_count(rPC),rPC .endm /* * Advance rPC by branch offset in register */ .macro ADVANCE_PC_INDEXED _reg leal (rPC,\_reg,2),rPC .endm .macro GOTO_NEXT movzx rINSTbl,%eax movzbl rINSTbh,rINST jmp *(rIBASE,%eax,4) .endm /* * Version of GOTO_NEXT that assumes _reg preloaded with opcode. * Should be paired with FETCH_INST_R */ .macro GOTO_NEXT_R _reg movzbl 1(rPC),rINST jmp *(rIBASE,\_reg,4) .endm /* * Jumbo version of GOTO_NEXT that assumes _reg preloaded with table * offset of the jumbo instruction, which is the top half of the extended * opcode + 0x100. Loads rINST with BBBB field, similar to GOTO_NEXT_R */ .macro GOTO_NEXT_JUMBO_R _reg movzwl 6(rPC),rINST jmp *(rIBASE,\_reg,4) .endm /* * Get/set the 32-bit value from a Dalvik register. */ .macro GET_VREG_R _reg _vreg movl (rFP,\_vreg,4),\_reg .endm .macro SET_VREG _reg _vreg movl \_reg,(rFP,\_vreg,4) .endm .macro GET_VREG_WORD _reg _vreg _offset movl 4*(\_offset)(rFP,\_vreg,4),\_reg .endm .macro SET_VREG_WORD _reg _vreg _offset movl \_reg,4*(\_offset)(rFP,\_vreg,4) .endm #define sReg0 LOCAL0_OFFSET(%ebp) #define sReg1 LOCAL1_OFFSET(%ebp) #define sReg2 LOCAL2_OFFSET(%ebp) /* * Hard coded helper values. */ .balign 16 .LdoubNeg: .quad 0x8000000000000000 .L64bits: .quad 0xFFFFFFFFFFFFFFFF .LshiftMask2: .quad 0x0000000000000000 .LshiftMask: .quad 0x000000000000003F .Lvalue64: .quad 0x0000000000000040 .LvaluePosInfLong: .quad 0x7FFFFFFFFFFFFFFF .LvalueNegInfLong: .quad 0x8000000000000000 .LvalueNanLong: .quad 0x0000000000000000 .LintMin: .long 0x80000000 .LintMax: .long 0x7FFFFFFF /* * This is a #include, not a %include, because we want the C pre-processor * to expand the macros into assembler assignment statements. */ #include "../common/asm-constants.h" #if defined(WITH_JIT) #include "../common/jit-config.h" #endif .global dvmAsmInstructionStartCode .type dvmAsmInstructionStartCode, %function dvmAsmInstructionStartCode = .L_OP_NOP .text /* ------------------------------ */ .L_OP_NOP: /* 0x00 */ /* File: x86/OP_NOP.S */ FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE: /* 0x01 */ /* File: x86/OP_MOVE.S */ /* for move, move-object, long-to-int */ /* op vA, vB */ movzbl rINSTbl,%eax # eax<- BA andb $0xf,%al # eax<- A shrl $4,rINST # rINST<- B GET_VREG_R rINST rINST FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 SET_VREG rINST %eax # fp[A]<-fp[B] GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_FROM16: /* 0x02 */ /* File: x86/OP_MOVE_FROM16.S */ /* for: move/from16, move-object/from16 */ /* op vAA, vBBBB */ movzx rINSTbl,%eax # eax <= AA movw 2(rPC),rINSTw # rINSTw <= BBBB GET_VREG_R rINST rINST # rINST- fp[BBBB] FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG rINST %eax # fp[AA]<- ecx] GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_16: /* 0x03 */ /* File: x86/OP_MOVE_16.S */ /* for: move/16, move-object/16 */ /* op vAAAA, vBBBB */ movzwl 4(rPC),%ecx # ecx<- BBBB movzwl 2(rPC),%eax # eax<- AAAA GET_VREG_R rINST %ecx FETCH_INST_OPCODE 3 %ecx ADVANCE_PC 3 SET_VREG rINST %eax GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_WIDE: /* 0x04 */ /* File: x86/OP_MOVE_WIDE.S */ /* move-wide vA, vB */ /* NOTE: regs can overlap, e.g. "move v6,v7" or "move v7,v6" */ movzbl rINSTbl,%ecx # ecx <- BA sarl $4,rINST # rINST<- B GET_VREG_WORD %eax rINST 0 # eax<- v[B+0] GET_VREG_WORD rINST rINST 1 # rINST<- v[B+1] andb $0xf,%cl # ecx <- A SET_VREG_WORD rINST %ecx 1 # v[A+1]<- rINST SET_VREG_WORD %eax %ecx 0 # v[A+0]<- eax FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_WIDE_FROM16: /* 0x05 */ /* File: x86/OP_MOVE_WIDE_FROM16.S */ /* move-wide/from16 vAA, vBBBB */ /* NOTE: regs can overlap, e.g. "move v6,v7" or "move v7,v6" */ movzwl 2(rPC),%ecx # ecx<- BBBB movzbl rINSTbl,%eax # eax<- AAAA GET_VREG_WORD rINST %ecx 0 # rINST<- v[BBBB+0] GET_VREG_WORD %ecx %ecx 1 # ecx<- v[BBBB+1] SET_VREG_WORD rINST %eax 0 # v[AAAA+0]<- rINST SET_VREG_WORD %ecx %eax 1 # v[AAAA+1]<- eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_WIDE_16: /* 0x06 */ /* File: x86/OP_MOVE_WIDE_16.S */ /* move-wide/16 vAAAA, vBBBB */ /* NOTE: regs can overlap, e.g. "move v6,v7" or "move v7,v6" */ movzwl 4(rPC),%ecx # ecx<- BBBB movzwl 2(rPC),%eax # eax<- AAAA GET_VREG_WORD rINST %ecx 0 # rINSTw_WORD<- v[BBBB+0] GET_VREG_WORD %ecx %ecx 1 # ecx<- v[BBBB+1] SET_VREG_WORD rINST %eax 0 # v[AAAA+0]<- rINST SET_VREG_WORD %ecx %eax 1 # v[AAAA+1]<- ecx FETCH_INST_OPCODE 3 %ecx ADVANCE_PC 3 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_OBJECT: /* 0x07 */ /* File: x86/OP_MOVE_OBJECT.S */ /* File: x86/OP_MOVE.S */ /* for move, move-object, long-to-int */ /* op vA, vB */ movzbl rINSTbl,%eax # eax<- BA andb $0xf,%al # eax<- A shrl $4,rINST # rINST<- B GET_VREG_R rINST rINST FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 SET_VREG rINST %eax # fp[A]<-fp[B] GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_OBJECT_FROM16: /* 0x08 */ /* File: x86/OP_MOVE_OBJECT_FROM16.S */ /* File: x86/OP_MOVE_FROM16.S */ /* for: move/from16, move-object/from16 */ /* op vAA, vBBBB */ movzx rINSTbl,%eax # eax <= AA movw 2(rPC),rINSTw # rINSTw <= BBBB GET_VREG_R rINST rINST # rINST- fp[BBBB] FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG rINST %eax # fp[AA]<- ecx] GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_OBJECT_16: /* 0x09 */ /* File: x86/OP_MOVE_OBJECT_16.S */ /* File: x86/OP_MOVE_16.S */ /* for: move/16, move-object/16 */ /* op vAAAA, vBBBB */ movzwl 4(rPC),%ecx # ecx<- BBBB movzwl 2(rPC),%eax # eax<- AAAA GET_VREG_R rINST %ecx FETCH_INST_OPCODE 3 %ecx ADVANCE_PC 3 SET_VREG rINST %eax GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_RESULT: /* 0x0a */ /* File: x86/OP_MOVE_RESULT.S */ /* for: move-result, move-result-object */ /* op vAA */ movl rSELF,%eax # eax<- rSELF movl offThread_retval(%eax),%eax # eax<- self->retval.l FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 SET_VREG %eax rINST # fp[AA]<- retval.l GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_RESULT_WIDE: /* 0x0b */ /* File: x86/OP_MOVE_RESULT_WIDE.S */ /* move-result-wide vAA */ movl rSELF,%ecx movl offThread_retval(%ecx),%eax movl 4+offThread_retval(%ecx),%ecx SET_VREG_WORD %eax rINST 0 # v[AA+0] <- eax SET_VREG_WORD %ecx rINST 1 # v[AA+1] <- ecx FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_RESULT_OBJECT: /* 0x0c */ /* File: x86/OP_MOVE_RESULT_OBJECT.S */ /* File: x86/OP_MOVE_RESULT.S */ /* for: move-result, move-result-object */ /* op vAA */ movl rSELF,%eax # eax<- rSELF movl offThread_retval(%eax),%eax # eax<- self->retval.l FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 SET_VREG %eax rINST # fp[AA]<- retval.l GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MOVE_EXCEPTION: /* 0x0d */ /* File: x86/OP_MOVE_EXCEPTION.S */ /* move-exception vAA */ movl rSELF,%ecx movl offThread_exception(%ecx),%eax # eax<- dvmGetException bypass SET_VREG %eax rINST # fp[AA]<- exception object FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 movl $0,offThread_exception(%ecx) # dvmClearException bypass GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_RETURN_VOID: /* 0x0e */ /* File: x86/OP_RETURN_VOID.S */ jmp common_returnFromMethod /* ------------------------------ */ .L_OP_RETURN: /* 0x0f */ /* File: x86/OP_RETURN.S */ /* * Return a 32-bit value. Copies the return value into the "self" * structure, then jumps to the return handler. * * for: return, return-object */ /* op vAA */ movl rSELF,%ecx GET_VREG_R %eax rINST # eax<- vAA movl %eax,offThread_retval(%ecx) # retval.i <- AA jmp common_returnFromMethod /* ------------------------------ */ .L_OP_RETURN_WIDE: /* 0x10 */ /* File: x86/OP_RETURN_WIDE.S */ /* * Return a 64-bit value. Copies the return value into the "self" * structure, then jumps to the return handler. */ /* return-wide vAA */ movl rSELF,%ecx GET_VREG_WORD %eax rINST 0 # eax<- v[AA+0] GET_VREG_WORD rINST rINST 1 # rINST<- v[AA+1] movl %eax,offThread_retval(%ecx) movl rINST,4+offThread_retval(%ecx) jmp common_returnFromMethod /* ------------------------------ */ .L_OP_RETURN_OBJECT: /* 0x11 */ /* File: x86/OP_RETURN_OBJECT.S */ /* File: x86/OP_RETURN.S */ /* * Return a 32-bit value. Copies the return value into the "self" * structure, then jumps to the return handler. * * for: return, return-object */ /* op vAA */ movl rSELF,%ecx GET_VREG_R %eax rINST # eax<- vAA movl %eax,offThread_retval(%ecx) # retval.i <- AA jmp common_returnFromMethod /* ------------------------------ */ .L_OP_CONST_4: /* 0x12 */ /* File: x86/OP_CONST_4.S */ /* const/4 vA, #+B */ movsx rINSTbl,%eax # eax<-ssssssBx movl $0xf,rINST andl %eax,rINST # rINST<- A FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 sarl $4,%eax SET_VREG %eax rINST GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_CONST_16: /* 0x13 */ /* File: x86/OP_CONST_16.S */ /* const/16 vAA, #+BBBB */ movswl 2(rPC),%ecx # ecx<- ssssBBBB FETCH_INST_OPCODE 2 %eax ADVANCE_PC 2 SET_VREG %ecx rINST # vAA<- ssssBBBB GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_CONST: /* 0x14 */ /* File: x86/OP_CONST.S */ /* const vAA, #+BBBBbbbb */ movl 2(rPC),%eax # grab all 32 bits at once movl rINST,rINST # rINST<- AA FETCH_INST_OPCODE 3 %ecx ADVANCE_PC 3 SET_VREG %eax rINST # vAA<- eax GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_CONST_HIGH16: /* 0x15 */ /* File: x86/OP_CONST_HIGH16.S */ /* const/high16 vAA, #+BBBB0000 */ movzwl 2(rPC),%eax # eax<- 0000BBBB FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 sall $16,%eax # eax<- BBBB0000 SET_VREG %eax rINST # vAA<- eax GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_CONST_WIDE_16: /* 0x16 */ /* File: x86/OP_CONST_WIDE_16.S */ /* const-wide/16 vAA, #+BBBB */ movswl 2(rPC),%eax # eax<- ssssBBBB SPILL(rIBASE) # preserve rIBASE (cltd trashes it) cltd # rIBASE:eax<- ssssssssssssBBBB SET_VREG_WORD rIBASE rINST 1 # store msw FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) # restore rIBASE SET_VREG_WORD %eax rINST 0 # store lsw ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_CONST_WIDE_32: /* 0x17 */ /* File: x86/OP_CONST_WIDE_32.S */ /* const-wide/32 vAA, #+BBBBbbbb */ movl 2(rPC),%eax # eax<- BBBBbbbb SPILL(rIBASE) # save rIBASE (cltd trashes it) cltd # rIBASE:eax<- ssssssssssssBBBB SET_VREG_WORD rIBASE rINST,1 # store msw FETCH_INST_OPCODE 3 %ecx UNSPILL(rIBASE) # restore rIBASE SET_VREG_WORD %eax rINST 0 # store lsw ADVANCE_PC 3 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_CONST_WIDE: /* 0x18 */ /* File: x86/OP_CONST_WIDE.S */ /* const-wide vAA, #+HHHHhhhhBBBBbbbb */ movl 2(rPC),%eax # eax<- lsw movzbl rINSTbl,%ecx # ecx<- AA movl 6(rPC),rINST # rINST<- msw leal (rFP,%ecx,4),%ecx # dst addr movl rINST,4(%ecx) movl %eax,(%ecx) FETCH_INST_OPCODE 5 %ecx ADVANCE_PC 5 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_CONST_WIDE_HIGH16: /* 0x19 */ /* File: x86/OP_CONST_WIDE_HIGH16.S */ /* const-wide/high16 vAA, #+BBBB000000000000 */ movzwl 2(rPC),%eax # eax<- 0000BBBB FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 sall $16,%eax # eax<- BBBB0000 SET_VREG_WORD %eax rINST 1 # v[AA+1]<- eax xorl %eax,%eax SET_VREG_WORD %eax rINST 0 # v[AA+0]<- eax GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_CONST_STRING: /* 0x1a */ /* File: x86/OP_CONST_STRING.S */ /* const/string vAA, String@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- BBBB movl offThread_methodClassDex(%ecx),%ecx# ecx<- self->methodClassDex movl offDvmDex_pResStrings(%ecx),%ecx # ecx<- dvmDex->pResStrings movl (%ecx,%eax,4),%eax # eax<- rResString[BBBB] FETCH_INST_OPCODE 2 %ecx testl %eax,%eax # resolved yet? je .LOP_CONST_STRING_resolve SET_VREG %eax rINST # vAA<- rResString[BBBB] ADVANCE_PC 2 GOTO_NEXT_R %ecx /* This is the less common path, so we'll redo some work here rather than force spills on the common path */ .LOP_CONST_STRING_resolve: movl rSELF,%eax EXPORT_PC movl offThread_method(%eax),%eax # eax<- self->method movzwl 2(rPC),%ecx # ecx<- BBBB movl offMethod_clazz(%eax),%eax movl %ecx,OUT_ARG1(%esp) movl %eax,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveString # go resolve UNSPILL(rIBASE) testl %eax,%eax # failed? je common_exceptionThrown FETCH_INST_OPCODE 2 %ecx SET_VREG %eax rINST ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_CONST_STRING_JUMBO: /* 0x1b */ /* File: x86/OP_CONST_STRING_JUMBO.S */ /* const/string vAA, String@BBBBBBBB */ movl rSELF,%ecx movl 2(rPC),%eax # eax<- BBBBBBBB movl offThread_methodClassDex(%ecx),%ecx# ecx<- self->methodClassDex movl offDvmDex_pResStrings(%ecx),%ecx # ecx<- dvmDex->pResStrings movl (%ecx,%eax,4),%eax # eax<- rResString[BBBB] FETCH_INST_OPCODE 3 %ecx testl %eax,%eax # resolved yet? je .LOP_CONST_STRING_JUMBO_resolve SET_VREG %eax rINST # vAA<- rResString[BBBB] ADVANCE_PC 3 GOTO_NEXT_R %ecx /* This is the less common path, so we'll redo some work here rather than force spills on the common path */ .LOP_CONST_STRING_JUMBO_resolve: movl rSELF,%eax EXPORT_PC movl offThread_method(%eax),%eax # eax<- self->method movl 2(rPC),%ecx # ecx<- BBBBBBBB movl offMethod_clazz(%eax),%eax movl %ecx,OUT_ARG1(%esp) movl %eax,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveString # go resolve UNSPILL(rIBASE) testl %eax,%eax # failed? je common_exceptionThrown FETCH_INST_OPCODE 3 %ecx SET_VREG %eax rINST ADVANCE_PC 3 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_CONST_CLASS: /* 0x1c */ /* File: x86/OP_CONST_CLASS.S */ /* const/class vAA, Class@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- BBBB movl offThread_methodClassDex(%ecx),%ecx# ecx<- self->methodClassDex movl offDvmDex_pResClasses(%ecx),%ecx # ecx<- dvmDex->pResClasses movl (%ecx,%eax,4),%eax # eax<- rResClasses[BBBB] testl %eax,%eax # resolved yet? je .LOP_CONST_CLASS_resolve FETCH_INST_OPCODE 2 %ecx SET_VREG %eax rINST # vAA<- rResClasses[BBBB] ADVANCE_PC 2 GOTO_NEXT_R %ecx /* This is the less common path, so we'll redo some work here rather than force spills on the common path */ .LOP_CONST_CLASS_resolve: movl rSELF,%eax EXPORT_PC movl offThread_method(%eax),%eax # eax<- self->method movl $1,OUT_ARG2(%esp) # true movzwl 2(rPC),%ecx # ecx<- BBBB movl offMethod_clazz(%eax),%eax movl %ecx,OUT_ARG1(%esp) movl %eax,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveClass # go resolve UNSPILL(rIBASE) testl %eax,%eax # failed? je common_exceptionThrown FETCH_INST_OPCODE 2 %ecx SET_VREG %eax rINST ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MONITOR_ENTER: /* 0x1d */ /* File: x86/OP_MONITOR_ENTER.S */ /* * Synchronize on an object. */ /* monitor-enter vAA */ movl rSELF,%ecx GET_VREG_R %eax rINST # eax<- vAA FETCH_INST_WORD 1 testl %eax,%eax # null object? EXPORT_PC # need for precise GC je common_errNullObject movl %ecx,OUT_ARG0(%esp) movl %eax,OUT_ARG1(%esp) SPILL(rIBASE) call dvmLockObject # dvmLockObject(self,object) UNSPILL(rIBASE) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MONITOR_EXIT: /* 0x1e */ /* File: x86/OP_MONITOR_EXIT.S */ /* * Unlock an object. * * Exceptions that occur when unlocking a monitor need to appear as * if they happened at the following instruction. See the Dalvik * instruction spec. */ /* monitor-exit vAA */ GET_VREG_R %eax rINST movl rSELF,%ecx EXPORT_PC testl %eax,%eax # null object? je .LOP_MONITOR_EXIT_errNullObject # go if so movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmUnlockObject # unlock(self,obj) UNSPILL(rIBASE) FETCH_INST_OPCODE 1 %ecx testl %eax,%eax # success? ADVANCE_PC 1 je common_exceptionThrown # no, exception pending GOTO_NEXT_R %ecx .LOP_MONITOR_EXIT_errNullObject: ADVANCE_PC 1 # advance before throw jmp common_errNullObject /* ------------------------------ */ .L_OP_CHECK_CAST: /* 0x1f */ /* File: x86/OP_CHECK_CAST.S */ /* * Check to see if a cast from one class to another is allowed. */ /* check-cast vAA, class@BBBB */ movl rSELF,%ecx GET_VREG_R rINST,rINST # rINST<- vAA (object) movzwl 2(rPC),%eax # eax<- BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex testl rINST,rINST # is oject null? movl offDvmDex_pResClasses(%ecx),%ecx # ecx<- pDvmDex->pResClasses je .LOP_CHECK_CAST_okay # null obj, cast always succeeds movl (%ecx,%eax,4),%eax # eax<- resolved class movl offObject_clazz(rINST),%ecx # ecx<- obj->clazz testl %eax,%eax # have we resolved this before? je .LOP_CHECK_CAST_resolve # no, go do it now .LOP_CHECK_CAST_resolved: cmpl %eax,%ecx # same class (trivial success)? jne .LOP_CHECK_CAST_fullcheck # no, do full check .LOP_CHECK_CAST_okay: FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* * Trivial test failed, need to perform full check. This is common. * ecx holds obj->clazz * eax holds class resolved from BBBB * rINST holds object */ .LOP_CHECK_CAST_fullcheck: movl %eax,sReg0 # we'll need the desired class on failure movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmInstanceofNonTrivial # eax<- boolean result UNSPILL(rIBASE) testl %eax,%eax # failed? jne .LOP_CHECK_CAST_okay # no, success # A cast has failed. We need to throw a ClassCastException. EXPORT_PC movl offObject_clazz(rINST),%eax movl %eax,OUT_ARG0(%esp) # arg0<- obj->clazz movl sReg0,%ecx movl %ecx,OUT_ARG1(%esp) # arg1<- desired class call dvmThrowClassCastException jmp common_exceptionThrown /* * Resolution required. This is the least-likely path, and we're * going to have to recreate some data. * * rINST holds object */ .LOP_CHECK_CAST_resolve: movl rSELF,%ecx EXPORT_PC movzwl 2(rPC),%eax # eax<- BBBB movl offThread_method(%ecx),%ecx # ecx<- self->method movl %eax,OUT_ARG1(%esp) # arg1<- BBBB movl offMethod_clazz(%ecx),%ecx # ecx<- metho->clazz movl $0,OUT_ARG2(%esp) # arg2<- false movl %ecx,OUT_ARG0(%esp) # arg0<- method->clazz SPILL(rIBASE) call dvmResolveClass # eax<- resolved ClassObject ptr UNSPILL(rIBASE) testl %eax,%eax # got null? je common_exceptionThrown # yes, handle exception movl offObject_clazz(rINST),%ecx # ecx<- obj->clazz jmp .LOP_CHECK_CAST_resolved # pick up where we left off /* ------------------------------ */ .L_OP_INSTANCE_OF: /* 0x20 */ /* File: x86/OP_INSTANCE_OF.S */ /* * Check to see if an object reference is an instance of a class. * * Most common situation is a non-null object, being compared against * an already-resolved class. */ /* instance-of vA, vB, class@CCCC */ movl rINST,%eax # eax<- BA sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB (obj) movl rSELF,%ecx testl %eax,%eax # object null? movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex SPILL(rIBASE) # preserve rIBASE je .LOP_INSTANCE_OF_store # null obj, not instance, store it movzwl 2(rPC),rIBASE # rIBASE<- CCCC movl offDvmDex_pResClasses(%ecx),%ecx # ecx<- pDvmDex->pResClasses movl (%ecx,rIBASE,4),%ecx # ecx<- resolved class movl offObject_clazz(%eax),%eax # eax<- obj->clazz testl %ecx,%ecx # have we resolved this before? je .LOP_INSTANCE_OF_resolve # not resolved, do it now .LOP_INSTANCE_OF_resolved: # eax<- obj->clazz, ecx<- resolved class cmpl %eax,%ecx # same class (trivial success)? je .LOP_INSTANCE_OF_trivial # yes, trivial finish /* * Trivial test failed, need to perform full check. This is common. * eax holds obj->clazz * ecx holds class resolved from BBBB * rINST has BA */ movl %eax,OUT_ARG0(%esp) movl %ecx,OUT_ARG1(%esp) call dvmInstanceofNonTrivial # eax<- boolean result # fall through to OP_INSTANCE_OF_store /* * eax holds boolean result * rINST holds BA */ .LOP_INSTANCE_OF_store: FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) andb $0xf,rINSTbl # <- A ADVANCE_PC 2 SET_VREG %eax rINST # vA<- eax GOTO_NEXT_R %ecx /* * Trivial test succeeded, save and bail. * r9 holds A */ .LOP_INSTANCE_OF_trivial: FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) andb $0xf,rINSTbl # <- A ADVANCE_PC 2 movl $1,%eax SET_VREG %eax rINST # vA<- true GOTO_NEXT_R %ecx /* * Resolution required. This is the least-likely path. * * rIBASE holds BBBB * rINST holds BA */ .LOP_INSTANCE_OF_resolve: movl rIBASE,OUT_ARG1(%esp) # arg1<- BBBB movl rSELF,%ecx movl offThread_method(%ecx),%ecx movl $1,OUT_ARG2(%esp) # arg2<- true movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz EXPORT_PC movl %ecx,OUT_ARG0(%esp) # arg0<- method->clazz call dvmResolveClass # eax<- resolved ClassObject ptr testl %eax,%eax # success? je common_exceptionThrown # no, handle exception /* Now, we need to sync up with fast path. We need eax to * hold the obj->clazz, and ecx to hold the resolved class */ movl %eax,%ecx # ecx<- resolved class movl rINST,%eax # eax<- BA sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB (obj) movl offObject_clazz(%eax),%eax # eax<- obj->clazz jmp .LOP_INSTANCE_OF_resolved /* ------------------------------ */ .L_OP_ARRAY_LENGTH: /* 0x21 */ /* File: x86/OP_ARRAY_LENGTH.S */ /* * Return the length of an array. */ mov rINST,%eax # eax<- BA sarl $4,rINST # rINST<- B GET_VREG_R %ecx rINST # ecx<- vB (object ref) andb $0xf,%al # eax<- A testl %ecx,%ecx # is null? je common_errNullObject movl offArrayObject_length(%ecx),rINST FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 SET_VREG rINST %eax GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_NEW_INSTANCE: /* 0x22 */ /* File: x86/OP_NEW_INSTANCE.S */ /* * Create a new instance of a class. */ /* new-instance vAA, class@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex SPILL(rIBASE) movl offDvmDex_pResClasses(%ecx),%ecx # ecx<- pDvmDex->pResClasses EXPORT_PC movl (%ecx,%eax,4),%ecx # ecx<- resolved class testl %ecx,%ecx # resolved? je .LOP_NEW_INSTANCE_resolve # no, go do it .LOP_NEW_INSTANCE_resolved: # on entry, ecx<- class cmpb $CLASS_INITIALIZED,offClassObject_status(%ecx) jne .LOP_NEW_INSTANCE_needinit .LOP_NEW_INSTANCE_initialized: # on entry, ecx<- class movl $ALLOC_DONT_TRACK,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) call dvmAllocObject # eax<- new object FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) testl %eax,%eax # success? je common_exceptionThrown # no, bail out SET_VREG %eax rINST ADVANCE_PC 2 GOTO_NEXT_R %ecx /* * Class initialization required. * * ecx holds class object */ .LOP_NEW_INSTANCE_needinit: SPILL_TMP1(%ecx) # save object movl %ecx,OUT_ARG0(%esp) call dvmInitClass # initialize class UNSPILL_TMP1(%ecx) # restore object testl %eax,%eax # success? jne .LOP_NEW_INSTANCE_initialized # success, continue jmp common_exceptionThrown # go deal with init exception /* * Resolution required. This is the least-likely path. * */ .LOP_NEW_INSTANCE_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax movl offThread_method(%ecx),%ecx # ecx<- self->method movl %eax,OUT_ARG1(%esp) movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl $0,OUT_ARG2(%esp) movl %ecx,OUT_ARG0(%esp) call dvmResolveClass # call(clazz,off,flags) movl %eax,%ecx # ecx<- resolved ClassObject ptr testl %ecx,%ecx # success? jne .LOP_NEW_INSTANCE_resolved # good to go jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_NEW_ARRAY: /* 0x23 */ /* File: x86/OP_NEW_ARRAY.S */ /* * Allocate an array of objects, specified with the array class * and a count. * * The verifier guarantees that this is an array class, so we don't * check for it here. */ /* new-array vA, vB, class@CCCC */ movl rSELF,%ecx EXPORT_PC movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex movzwl 2(rPC),%eax # eax<- CCCC movl offDvmDex_pResClasses(%ecx),%ecx # ecx<- pDvmDex->pResClasses SPILL(rIBASE) movl (%ecx,%eax,4),%ecx # ecx<- resolved class movzbl rINSTbl,%eax sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB (array length) andb $0xf,rINSTbl # rINST<- A testl %eax,%eax js common_errNegativeArraySize # bail, passing len in eax testl %ecx,%ecx # already resolved? jne .LOP_NEW_ARRAY_finish # yes, fast path /* * Resolve class. (This is an uncommon case.) * ecx holds class (null here) * eax holds array length (vB) */ movl rSELF,%ecx SPILL_TMP1(%eax) # save array length movl offThread_method(%ecx),%ecx # ecx<- self->method movzwl 2(rPC),%eax # eax<- CCCC movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl $0,OUT_ARG2(%esp) movl %ecx,OUT_ARG0(%esp) call dvmResolveClass # eax<- call(clazz,ref,flag) movl %eax,%ecx UNSPILL_TMP1(%eax) testl %ecx,%ecx # successful resolution? je common_exceptionThrown # no, bail. # fall through to OP_NEW_ARRAY_finish /* * Finish allocation * * ecx holds class * eax holds array length (vB) */ .LOP_NEW_ARRAY_finish: movl %ecx,OUT_ARG0(%esp) movl %eax,OUT_ARG1(%esp) movl $ALLOC_DONT_TRACK,OUT_ARG2(%esp) call dvmAllocArrayByClass # eax<- call(clazz,length,flags) FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) testl %eax,%eax # failed? je common_exceptionThrown # yup - go handle SET_VREG %eax rINST ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_FILLED_NEW_ARRAY: /* 0x24 */ /* File: x86/OP_FILLED_NEW_ARRAY.S */ /* * Create a new array with elements filled from registers. * * for: filled-new-array, filled-new-array/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op {vCCCC..v(CCCC+AA-1)}, type@BBBB */ movl rSELF,%eax movl offThread_methodClassDex(%eax),%eax # eax<- pDvmDex movzwl 2(rPC),%ecx # ecx<- BBBB movl offDvmDex_pResClasses(%eax),%eax # eax<- pDvmDex->pResClasses SPILL(rIBASE) # preserve rIBASE movl (%eax,%ecx,4),%eax # eax<- resolved class EXPORT_PC testl %eax,%eax # already resolved? jne .LOP_FILLED_NEW_ARRAY_continue # yes, continue # less frequent path, so we'll redo some work movl rSELF,%eax movl $0,OUT_ARG2(%esp) # arg2<- false movl %ecx,OUT_ARG1(%esp) # arg1<- BBBB movl offThread_method(%eax),%eax # eax<- self->method movl offMethod_clazz(%eax),%eax # eax<- method->clazz movl %eax,OUT_ARG0(%esp) # arg0<- clazz call dvmResolveClass # eax<- call(clazz,ref,flag) testl %eax,%eax # null? je common_exceptionThrown # yes, handle it # note: fall through to .LOP_FILLED_NEW_ARRAY_continue /* * On entry: * eax holds array class [r0] * rINST holds AA or BB [r10] * ecx is scratch */ .LOP_FILLED_NEW_ARRAY_continue: movl offClassObject_descriptor(%eax),%ecx # ecx<- arrayClass->descriptor movl $ALLOC_DONT_TRACK,OUT_ARG2(%esp) # arg2<- flags movzbl 1(%ecx),%ecx # ecx<- descriptor[1] movl %eax,OUT_ARG0(%esp) # arg0<- arrayClass movl rSELF,%eax cmpb $'I',%cl # supported? je 1f cmpb $'L',%cl je 1f cmpb $'[',%cl jne .LOP_FILLED_NEW_ARRAY_notimpl # no, not handled yet 1: movl %ecx,offThread_retval+4(%eax) # save type .if (!0) SPILL_TMP1(rINST) # save copy, need "B" later sarl $4,rINST .endif movl rINST,OUT_ARG1(%esp) # arg1<- A or AA (length) call dvmAllocArrayByClass # eax<- call(arrayClass, length, flags) movl rSELF,%ecx testl %eax,%eax # alloc successful? je common_exceptionThrown # no, handle exception movl %eax,offThread_retval(%ecx) # retval.l<- new array movzwl 4(rPC),%ecx # ecx<- FEDC or CCCC leal offArrayObject_contents(%eax),%eax # eax<- newArray->contents /* at this point: * eax is pointer to tgt * rINST is length * ecx is FEDC or CCCC * TMP_SPILL1 is BA * We now need to copy values from registers into the array */ .if 0 # set up src pointer SPILL_TMP2(%esi) SPILL_TMP3(%edi) leal (rFP,%ecx,4),%esi # set up src ptr movl %eax,%edi # set up dst ptr movl rINST,%ecx # load count register rep movsd UNSPILL_TMP2(%esi) UNSPILL_TMP3(%edi) movl rSELF,%ecx movl offThread_retval+4(%ecx),%eax # eax<- type .else testl rINST,rINST je 4f UNSPILL_TMP1(rIBASE) # restore "BA" andl $0x0f,rIBASE # rIBASE<- 0000000A sall $16,rIBASE # rIBASE<- 000A0000 orl %ecx,rIBASE # rIBASE<- 000AFEDC 3: movl $0xf,%ecx andl rIBASE,%ecx # ecx<- next reg to load GET_VREG_R %ecx %ecx shrl $4,rIBASE leal 4(%eax),%eax movl %ecx,-4(%eax) sub $1,rINST jne 3b 4: movl rSELF,%ecx movl offThread_retval+4(%ecx),%eax # eax<- type .endif cmpb $'I',%al # Int array? je 5f # skip card mark if so movl offThread_retval(%ecx),%eax # eax<- object head movl offThread_cardTable(%ecx),%ecx # card table base shrl $GC_CARD_SHIFT,%eax # convert to card num movb %cl,(%ecx,%eax) # mark card based on object head 5: UNSPILL(rIBASE) # restore rIBASE FETCH_INST_OPCODE 3 %ecx ADVANCE_PC 3 GOTO_NEXT_R %ecx /* * Throw an exception indicating that we have not implemented this * mode of filled-new-array. */ .LOP_FILLED_NEW_ARRAY_notimpl: movl $.LstrFilledNewArrayNotImplA,%eax movl %eax,OUT_ARG0(%esp) call dvmThrowInternalError jmp common_exceptionThrown /* ------------------------------ */ .L_OP_FILLED_NEW_ARRAY_RANGE: /* 0x25 */ /* File: x86/OP_FILLED_NEW_ARRAY_RANGE.S */ /* File: x86/OP_FILLED_NEW_ARRAY.S */ /* * Create a new array with elements filled from registers. * * for: filled-new-array, filled-new-array/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op {vCCCC..v(CCCC+AA-1)}, type@BBBB */ movl rSELF,%eax movl offThread_methodClassDex(%eax),%eax # eax<- pDvmDex movzwl 2(rPC),%ecx # ecx<- BBBB movl offDvmDex_pResClasses(%eax),%eax # eax<- pDvmDex->pResClasses SPILL(rIBASE) # preserve rIBASE movl (%eax,%ecx,4),%eax # eax<- resolved class EXPORT_PC testl %eax,%eax # already resolved? jne .LOP_FILLED_NEW_ARRAY_RANGE_continue # yes, continue # less frequent path, so we'll redo some work movl rSELF,%eax movl $0,OUT_ARG2(%esp) # arg2<- false movl %ecx,OUT_ARG1(%esp) # arg1<- BBBB movl offThread_method(%eax),%eax # eax<- self->method movl offMethod_clazz(%eax),%eax # eax<- method->clazz movl %eax,OUT_ARG0(%esp) # arg0<- clazz call dvmResolveClass # eax<- call(clazz,ref,flag) testl %eax,%eax # null? je common_exceptionThrown # yes, handle it # note: fall through to .LOP_FILLED_NEW_ARRAY_RANGE_continue /* * On entry: * eax holds array class [r0] * rINST holds AA or BB [r10] * ecx is scratch */ .LOP_FILLED_NEW_ARRAY_RANGE_continue: movl offClassObject_descriptor(%eax),%ecx # ecx<- arrayClass->descriptor movl $ALLOC_DONT_TRACK,OUT_ARG2(%esp) # arg2<- flags movzbl 1(%ecx),%ecx # ecx<- descriptor[1] movl %eax,OUT_ARG0(%esp) # arg0<- arrayClass movl rSELF,%eax cmpb $'I',%cl # supported? je 1f cmpb $'L',%cl je 1f cmpb $'[',%cl jne .LOP_FILLED_NEW_ARRAY_RANGE_notimpl # no, not handled yet 1: movl %ecx,offThread_retval+4(%eax) # save type .if (!1) SPILL_TMP1(rINST) # save copy, need "B" later sarl $4,rINST .endif movl rINST,OUT_ARG1(%esp) # arg1<- A or AA (length) call dvmAllocArrayByClass # eax<- call(arrayClass, length, flags) movl rSELF,%ecx testl %eax,%eax # alloc successful? je common_exceptionThrown # no, handle exception movl %eax,offThread_retval(%ecx) # retval.l<- new array movzwl 4(rPC),%ecx # ecx<- FEDC or CCCC leal offArrayObject_contents(%eax),%eax # eax<- newArray->contents /* at this point: * eax is pointer to tgt * rINST is length * ecx is FEDC or CCCC * TMP_SPILL1 is BA * We now need to copy values from registers into the array */ .if 1 # set up src pointer SPILL_TMP2(%esi) SPILL_TMP3(%edi) leal (rFP,%ecx,4),%esi # set up src ptr movl %eax,%edi # set up dst ptr movl rINST,%ecx # load count register rep movsd UNSPILL_TMP2(%esi) UNSPILL_TMP3(%edi) movl rSELF,%ecx movl offThread_retval+4(%ecx),%eax # eax<- type .else testl rINST,rINST je 4f UNSPILL_TMP1(rIBASE) # restore "BA" andl $0x0f,rIBASE # rIBASE<- 0000000A sall $16,rIBASE # rIBASE<- 000A0000 orl %ecx,rIBASE # rIBASE<- 000AFEDC 3: movl $0xf,%ecx andl rIBASE,%ecx # ecx<- next reg to load GET_VREG_R %ecx %ecx shrl $4,rIBASE leal 4(%eax),%eax movl %ecx,-4(%eax) sub $1,rINST jne 3b 4: movl rSELF,%ecx movl offThread_retval+4(%ecx),%eax # eax<- type .endif cmpb $'I',%al # Int array? je 5f # skip card mark if so movl offThread_retval(%ecx),%eax # eax<- object head movl offThread_cardTable(%ecx),%ecx # card table base shrl $GC_CARD_SHIFT,%eax # convert to card num movb %cl,(%ecx,%eax) # mark card based on object head 5: UNSPILL(rIBASE) # restore rIBASE FETCH_INST_OPCODE 3 %ecx ADVANCE_PC 3 GOTO_NEXT_R %ecx /* * Throw an exception indicating that we have not implemented this * mode of filled-new-array. */ .LOP_FILLED_NEW_ARRAY_RANGE_notimpl: movl $.LstrFilledNewArrayNotImplA,%eax movl %eax,OUT_ARG0(%esp) call dvmThrowInternalError jmp common_exceptionThrown /* ------------------------------ */ .L_OP_FILL_ARRAY_DATA: /* 0x26 */ /* File: x86/OP_FILL_ARRAY_DATA.S */ /* fill-array-data vAA, +BBBBBBBB */ movl 2(rPC),%ecx # ecx<- BBBBbbbb leal (rPC,%ecx,2),%ecx # ecx<- PC + BBBBbbbb*2 GET_VREG_R %eax rINST EXPORT_PC movl %eax,OUT_ARG0(%esp) movl %ecx,OUT_ARG1(%esp) SPILL(rIBASE) call dvmInterpHandleFillArrayData UNSPILL(rIBASE) FETCH_INST_OPCODE 3 %ecx testl %eax,%eax # exception thrown? je common_exceptionThrown ADVANCE_PC 3 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_THROW: /* 0x27 */ /* File: x86/OP_THROW.S */ /* * Throw an exception object in the current thread. */ /* throw vAA */ EXPORT_PC GET_VREG_R %eax rINST # eax<- exception object movl rSELF,%ecx # ecx<- self testl %eax,%eax # null object? je common_errNullObject movl %eax,offThread_exception(%ecx) # thread->exception<- obj jmp common_exceptionThrown /* ------------------------------ */ .L_OP_GOTO: /* 0x28 */ /* File: x86/OP_GOTO.S */ /* * Unconditional branch, 8-bit offset. * * The branch distance is a signed code-unit offset, which we need to * double to get a byte offset. */ /* goto +AA */ movl rSELF,%ecx movsbl rINSTbl,%eax # eax<- ssssssAA movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_GOTO_16: /* 0x29 */ /* File: x86/OP_GOTO_16.S */ /* * Unconditional branch, 16-bit offset. * * The branch distance is a signed code-unit offset */ /* goto/16 +AAAA */ movl rSELF,%ecx movswl 2(rPC),%eax # eax<- ssssAAAA movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_GOTO_32: /* 0x2a */ /* File: x86/OP_GOTO_32.S */ /* * Unconditional branch, 32-bit offset. * * The branch distance is a signed code-unit offset. */ /* goto/32 AAAAAAAA */ movl rSELF,%ecx movl 2(rPC),%eax # eax<- AAAAAAAA movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_PACKED_SWITCH: /* 0x2b */ /* File: x86/OP_PACKED_SWITCH.S */ /* * Handle a packed-switch or sparse-switch instruction. In both cases * we decode it and hand it off to a helper function. * * We don't really expect backward branches in a switch statement, but * they're perfectly legal, so we check for them here. * * for: packed-switch, sparse-switch */ /* op vAA, +BBBB */ movl 2(rPC),%ecx # ecx<- BBBBbbbb GET_VREG_R %eax rINST # eax<- vAA leal (rPC,%ecx,2),%ecx # ecx<- PC + BBBBbbbb*2 movl %eax,OUT_ARG1(%esp) # ARG1<- vAA movl %ecx,OUT_ARG0(%esp) # ARG0<- switchData call dvmInterpHandlePackedSwitch movl rSELF,%ecx ADVANCE_PC_INDEXED %eax movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_SPARSE_SWITCH: /* 0x2c */ /* File: x86/OP_SPARSE_SWITCH.S */ /* File: x86/OP_PACKED_SWITCH.S */ /* * Handle a packed-switch or sparse-switch instruction. In both cases * we decode it and hand it off to a helper function. * * We don't really expect backward branches in a switch statement, but * they're perfectly legal, so we check for them here. * * for: packed-switch, sparse-switch */ /* op vAA, +BBBB */ movl 2(rPC),%ecx # ecx<- BBBBbbbb GET_VREG_R %eax rINST # eax<- vAA leal (rPC,%ecx,2),%ecx # ecx<- PC + BBBBbbbb*2 movl %eax,OUT_ARG1(%esp) # ARG1<- vAA movl %ecx,OUT_ARG0(%esp) # ARG0<- switchData call dvmInterpHandleSparseSwitch movl rSELF,%ecx ADVANCE_PC_INDEXED %eax movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_CMPL_FLOAT: /* 0x2d */ /* File: x86/OP_CMPL_FLOAT.S */ /* File: x86/OP_CMPG_DOUBLE.S */ /* float/double_cmp[gl] vAA, vBB, vCC */ movzbl 3(rPC),%eax # eax<- CC movzbl 2(rPC),%ecx # ecx<- BB .if 0 fldl (rFP,%eax,4) fldl (rFP,%ecx,4) .else flds (rFP,%eax,4) flds (rFP,%ecx,4) .endif xorl %ecx,%ecx fucompp # z if equal, p set if NaN, c set if st0 < st1 fnstsw %ax sahf FETCH_INST_OPCODE 2 %eax jp .LOP_CMPL_FLOAT_isNaN je .LOP_CMPL_FLOAT_finish sbbl %ecx,%ecx jb .LOP_CMPL_FLOAT_finish incl %ecx .LOP_CMPL_FLOAT_finish: SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax .LOP_CMPL_FLOAT_isNaN: movl $-1,%ecx jmp .LOP_CMPL_FLOAT_finish /* ------------------------------ */ .L_OP_CMPG_FLOAT: /* 0x2e */ /* File: x86/OP_CMPG_FLOAT.S */ /* File: x86/OP_CMPG_DOUBLE.S */ /* float/double_cmp[gl] vAA, vBB, vCC */ movzbl 3(rPC),%eax # eax<- CC movzbl 2(rPC),%ecx # ecx<- BB .if 0 fldl (rFP,%eax,4) fldl (rFP,%ecx,4) .else flds (rFP,%eax,4) flds (rFP,%ecx,4) .endif xorl %ecx,%ecx fucompp # z if equal, p set if NaN, c set if st0 < st1 fnstsw %ax sahf FETCH_INST_OPCODE 2 %eax jp .LOP_CMPG_FLOAT_isNaN je .LOP_CMPG_FLOAT_finish sbbl %ecx,%ecx jb .LOP_CMPG_FLOAT_finish incl %ecx .LOP_CMPG_FLOAT_finish: SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax .LOP_CMPG_FLOAT_isNaN: movl $1,%ecx jmp .LOP_CMPG_FLOAT_finish /* ------------------------------ */ .L_OP_CMPL_DOUBLE: /* 0x2f */ /* File: x86/OP_CMPL_DOUBLE.S */ /* File: x86/OP_CMPG_DOUBLE.S */ /* float/double_cmp[gl] vAA, vBB, vCC */ movzbl 3(rPC),%eax # eax<- CC movzbl 2(rPC),%ecx # ecx<- BB .if 1 fldl (rFP,%eax,4) fldl (rFP,%ecx,4) .else flds (rFP,%eax,4) flds (rFP,%ecx,4) .endif xorl %ecx,%ecx fucompp # z if equal, p set if NaN, c set if st0 < st1 fnstsw %ax sahf FETCH_INST_OPCODE 2 %eax jp .LOP_CMPL_DOUBLE_isNaN je .LOP_CMPL_DOUBLE_finish sbbl %ecx,%ecx jb .LOP_CMPL_DOUBLE_finish incl %ecx .LOP_CMPL_DOUBLE_finish: SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax .LOP_CMPL_DOUBLE_isNaN: movl $-1,%ecx jmp .LOP_CMPL_DOUBLE_finish /* ------------------------------ */ .L_OP_CMPG_DOUBLE: /* 0x30 */ /* File: x86/OP_CMPG_DOUBLE.S */ /* float/double_cmp[gl] vAA, vBB, vCC */ movzbl 3(rPC),%eax # eax<- CC movzbl 2(rPC),%ecx # ecx<- BB .if 1 fldl (rFP,%eax,4) fldl (rFP,%ecx,4) .else flds (rFP,%eax,4) flds (rFP,%ecx,4) .endif xorl %ecx,%ecx fucompp # z if equal, p set if NaN, c set if st0 < st1 fnstsw %ax sahf FETCH_INST_OPCODE 2 %eax jp .LOP_CMPG_DOUBLE_isNaN je .LOP_CMPG_DOUBLE_finish sbbl %ecx,%ecx jb .LOP_CMPG_DOUBLE_finish incl %ecx .LOP_CMPG_DOUBLE_finish: SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax .LOP_CMPG_DOUBLE_isNaN: movl $1,%ecx jmp .LOP_CMPG_DOUBLE_finish /* ------------------------------ */ .L_OP_CMP_LONG: /* 0x31 */ /* File: x86/OP_CMP_LONG.S */ /* * Compare two 64-bit values. Puts 0, 1, or -1 into the destination * register based on the results of the comparison. */ // TUNING: rework to avoid rIBASE spill /* cmp-long vAA, vBB, vCC */ movzbl 2(rPC),%ecx # ecx<- BB SPILL(rIBASE) movzbl 3(rPC),rIBASE # rIBASE- CC GET_VREG_WORD %eax %ecx,1 # eax<- v[BB+1] GET_VREG_WORD %ecx %ecx 0 # ecx<- v[BB+0] cmpl 4(rFP,rIBASE,4),%eax jl .LOP_CMP_LONG_smaller jg .LOP_CMP_LONG_bigger sub (rFP,rIBASE,4),%ecx ja .LOP_CMP_LONG_bigger jb .LOP_CMP_LONG_smaller SET_VREG %ecx rINST FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_CMP_LONG_bigger: movl $1,%ecx SET_VREG %ecx rINST FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_CMP_LONG_smaller: movl $-1,%ecx SET_VREG %ecx rINST FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IF_EQ: /* 0x32 */ /* File: x86/OP_IF_EQ.S */ /* File: x86/bincmp.S */ /* * Generic two-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * For: if-eq, if-ne, if-lt, if-ge, if-gt, if-le */ /* if-cmp vA, vB, +CCCC */ movzx rINSTbl,%ecx # ecx <- A+ andb $0xf,%cl # ecx <- A GET_VREG_R %eax %ecx # eax <- vA sarl $4,rINST # rINST<- B movl rSELF,%ecx cmpl (rFP,rINST,4),%eax # compare (vA, vB) movl $2,%eax # assume not taken jne 1f movswl 2(rPC),%eax # Get signed branch offset 1: movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_NE: /* 0x33 */ /* File: x86/OP_IF_NE.S */ /* File: x86/bincmp.S */ /* * Generic two-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * For: if-eq, if-ne, if-lt, if-ge, if-gt, if-le */ /* if-cmp vA, vB, +CCCC */ movzx rINSTbl,%ecx # ecx <- A+ andb $0xf,%cl # ecx <- A GET_VREG_R %eax %ecx # eax <- vA sarl $4,rINST # rINST<- B movl rSELF,%ecx cmpl (rFP,rINST,4),%eax # compare (vA, vB) movl $2,%eax # assume not taken je 1f movswl 2(rPC),%eax # Get signed branch offset 1: movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_LT: /* 0x34 */ /* File: x86/OP_IF_LT.S */ /* File: x86/bincmp.S */ /* * Generic two-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * For: if-eq, if-ne, if-lt, if-ge, if-gt, if-le */ /* if-cmp vA, vB, +CCCC */ movzx rINSTbl,%ecx # ecx <- A+ andb $0xf,%cl # ecx <- A GET_VREG_R %eax %ecx # eax <- vA sarl $4,rINST # rINST<- B movl rSELF,%ecx cmpl (rFP,rINST,4),%eax # compare (vA, vB) movl $2,%eax # assume not taken jge 1f movswl 2(rPC),%eax # Get signed branch offset 1: movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_GE: /* 0x35 */ /* File: x86/OP_IF_GE.S */ /* File: x86/bincmp.S */ /* * Generic two-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * For: if-eq, if-ne, if-lt, if-ge, if-gt, if-le */ /* if-cmp vA, vB, +CCCC */ movzx rINSTbl,%ecx # ecx <- A+ andb $0xf,%cl # ecx <- A GET_VREG_R %eax %ecx # eax <- vA sarl $4,rINST # rINST<- B movl rSELF,%ecx cmpl (rFP,rINST,4),%eax # compare (vA, vB) movl $2,%eax # assume not taken jl 1f movswl 2(rPC),%eax # Get signed branch offset 1: movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_GT: /* 0x36 */ /* File: x86/OP_IF_GT.S */ /* File: x86/bincmp.S */ /* * Generic two-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * For: if-eq, if-ne, if-lt, if-ge, if-gt, if-le */ /* if-cmp vA, vB, +CCCC */ movzx rINSTbl,%ecx # ecx <- A+ andb $0xf,%cl # ecx <- A GET_VREG_R %eax %ecx # eax <- vA sarl $4,rINST # rINST<- B movl rSELF,%ecx cmpl (rFP,rINST,4),%eax # compare (vA, vB) movl $2,%eax # assume not taken jle 1f movswl 2(rPC),%eax # Get signed branch offset 1: movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_LE: /* 0x37 */ /* File: x86/OP_IF_LE.S */ /* File: x86/bincmp.S */ /* * Generic two-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * For: if-eq, if-ne, if-lt, if-ge, if-gt, if-le */ /* if-cmp vA, vB, +CCCC */ movzx rINSTbl,%ecx # ecx <- A+ andb $0xf,%cl # ecx <- A GET_VREG_R %eax %ecx # eax <- vA sarl $4,rINST # rINST<- B movl rSELF,%ecx cmpl (rFP,rINST,4),%eax # compare (vA, vB) movl $2,%eax # assume not taken jg 1f movswl 2(rPC),%eax # Get signed branch offset 1: movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_EQZ: /* 0x38 */ /* File: x86/OP_IF_EQZ.S */ /* File: x86/zcmp.S */ /* * Generic one-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * for: if-eqz, if-nez, if-ltz, if-gez, if-gtz, if-lez */ /* if-cmp vAA, +BBBB */ cmpl $0,(rFP,rINST,4) # compare (vA, 0) movl $2,%eax # assume branch not taken jne 1f movl rSELF,%ecx movswl 2(rPC),%eax # fetch signed displacement movl offThread_curHandlerTable(%ecx),rIBASE 1: FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_NEZ: /* 0x39 */ /* File: x86/OP_IF_NEZ.S */ /* File: x86/zcmp.S */ /* * Generic one-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * for: if-eqz, if-nez, if-ltz, if-gez, if-gtz, if-lez */ /* if-cmp vAA, +BBBB */ cmpl $0,(rFP,rINST,4) # compare (vA, 0) movl $2,%eax # assume branch not taken je 1f movl rSELF,%ecx movswl 2(rPC),%eax # fetch signed displacement movl offThread_curHandlerTable(%ecx),rIBASE 1: FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_LTZ: /* 0x3a */ /* File: x86/OP_IF_LTZ.S */ /* File: x86/zcmp.S */ /* * Generic one-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * for: if-eqz, if-nez, if-ltz, if-gez, if-gtz, if-lez */ /* if-cmp vAA, +BBBB */ cmpl $0,(rFP,rINST,4) # compare (vA, 0) movl $2,%eax # assume branch not taken jge 1f movl rSELF,%ecx movswl 2(rPC),%eax # fetch signed displacement movl offThread_curHandlerTable(%ecx),rIBASE 1: FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_GEZ: /* 0x3b */ /* File: x86/OP_IF_GEZ.S */ /* File: x86/zcmp.S */ /* * Generic one-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * for: if-eqz, if-nez, if-ltz, if-gez, if-gtz, if-lez */ /* if-cmp vAA, +BBBB */ cmpl $0,(rFP,rINST,4) # compare (vA, 0) movl $2,%eax # assume branch not taken jl 1f movl rSELF,%ecx movswl 2(rPC),%eax # fetch signed displacement movl offThread_curHandlerTable(%ecx),rIBASE 1: FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_GTZ: /* 0x3c */ /* File: x86/OP_IF_GTZ.S */ /* File: x86/zcmp.S */ /* * Generic one-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * for: if-eqz, if-nez, if-ltz, if-gez, if-gtz, if-lez */ /* if-cmp vAA, +BBBB */ cmpl $0,(rFP,rINST,4) # compare (vA, 0) movl $2,%eax # assume branch not taken jle 1f movl rSELF,%ecx movswl 2(rPC),%eax # fetch signed displacement movl offThread_curHandlerTable(%ecx),rIBASE 1: FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_IF_LEZ: /* 0x3d */ /* File: x86/OP_IF_LEZ.S */ /* File: x86/zcmp.S */ /* * Generic one-operand compare-and-branch operation. Provide a "revcmp" * fragment that specifies the *reverse* comparison to perform, e.g. * for "if-le" you would use "gt". * * for: if-eqz, if-nez, if-ltz, if-gez, if-gtz, if-lez */ /* if-cmp vAA, +BBBB */ cmpl $0,(rFP,rINST,4) # compare (vA, 0) movl $2,%eax # assume branch not taken jg 1f movl rSELF,%ecx movswl 2(rPC),%eax # fetch signed displacement movl offThread_curHandlerTable(%ecx),rIBASE 1: FETCH_INST_INDEXED %eax ADVANCE_PC_INDEXED %eax GOTO_NEXT /* ------------------------------ */ .L_OP_UNUSED_3E: /* 0x3e */ /* File: x86/OP_UNUSED_3E.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_3F: /* 0x3f */ /* File: x86/OP_UNUSED_3F.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_40: /* 0x40 */ /* File: x86/OP_UNUSED_40.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_41: /* 0x41 */ /* File: x86/OP_UNUSED_41.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_42: /* 0x42 */ /* File: x86/OP_UNUSED_42.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_43: /* 0x43 */ /* File: x86/OP_UNUSED_43.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_AGET: /* 0x44 */ /* File: x86/OP_AGET.S */ /* * Array get, 32 bits or less. vAA <- vBB[vCC]. * * for: aget, aget-object, aget-boolean, aget-byte, aget-char, aget-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects # arrayObj in eax # index in ecx movl offArrayObject_contents(%eax,%ecx,4),%eax .LOP_AGET_finish: FETCH_INST_OPCODE 2 %ecx SET_VREG %eax rINST ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_AGET_WIDE: /* 0x45 */ /* File: x86/OP_AGET_WIDE.S */ /* * Array get, 64 bits. vAA <- vBB[vCC]. * */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects # arrayObj in eax # index in ecx leal offArrayObject_contents(%eax,%ecx,8),%eax movl (%eax),%ecx movl 4(%eax),%eax SET_VREG_WORD %ecx rINST 0 SET_VREG_WORD %eax rINST 1 FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_AGET_OBJECT: /* 0x46 */ /* File: x86/OP_AGET_OBJECT.S */ /* File: x86/OP_AGET.S */ /* * Array get, 32 bits or less. vAA <- vBB[vCC]. * * for: aget, aget-object, aget-boolean, aget-byte, aget-char, aget-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects # arrayObj in eax # index in ecx movl offArrayObject_contents(%eax,%ecx,4),%eax .LOP_AGET_OBJECT_finish: FETCH_INST_OPCODE 2 %ecx SET_VREG %eax rINST ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_AGET_BOOLEAN: /* 0x47 */ /* File: x86/OP_AGET_BOOLEAN.S */ /* File: x86/OP_AGET.S */ /* * Array get, 32 bits or less. vAA <- vBB[vCC]. * * for: aget, aget-object, aget-boolean, aget-byte, aget-char, aget-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects # arrayObj in eax # index in ecx movzbl offArrayObject_contents(%eax,%ecx,1),%eax .LOP_AGET_BOOLEAN_finish: FETCH_INST_OPCODE 2 %ecx SET_VREG %eax rINST ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_AGET_BYTE: /* 0x48 */ /* File: x86/OP_AGET_BYTE.S */ /* File: x86/OP_AGET.S */ /* * Array get, 32 bits or less. vAA <- vBB[vCC]. * * for: aget, aget-object, aget-boolean, aget-byte, aget-char, aget-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects # arrayObj in eax # index in ecx movsbl offArrayObject_contents(%eax,%ecx,1),%eax .LOP_AGET_BYTE_finish: FETCH_INST_OPCODE 2 %ecx SET_VREG %eax rINST ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_AGET_CHAR: /* 0x49 */ /* File: x86/OP_AGET_CHAR.S */ /* File: x86/OP_AGET.S */ /* * Array get, 32 bits or less. vAA <- vBB[vCC]. * * for: aget, aget-object, aget-boolean, aget-byte, aget-char, aget-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects # arrayObj in eax # index in ecx movzwl offArrayObject_contents(%eax,%ecx,2),%eax .LOP_AGET_CHAR_finish: FETCH_INST_OPCODE 2 %ecx SET_VREG %eax rINST ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_AGET_SHORT: /* 0x4a */ /* File: x86/OP_AGET_SHORT.S */ /* File: x86/OP_AGET.S */ /* * Array get, 32 bits or less. vAA <- vBB[vCC]. * * for: aget, aget-object, aget-boolean, aget-byte, aget-char, aget-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects # arrayObj in eax # index in ecx movswl offArrayObject_contents(%eax,%ecx,2),%eax .LOP_AGET_SHORT_finish: FETCH_INST_OPCODE 2 %ecx SET_VREG %eax rINST ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_APUT: /* 0x4b */ /* File: x86/OP_APUT.S */ /* * Array put, 32 bits or less. vBB[vCC] <- vAA * * for: aput, aput-object, aput-boolean, aput-byte, aput-char, aput-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects: # arrayObj in eax # index in ecx leal offArrayObject_contents(%eax,%ecx,4),%eax .LOP_APUT_finish: GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx movl rINST,(%eax) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_APUT_WIDE: /* 0x4c */ /* File: x86/OP_APUT_WIDE.S */ /* * Array put, 64 bits. vBB[vCC]<-vAA. * */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects: # arrayObj in eax # index in ecx leal offArrayObject_contents(%eax,%ecx,8),%eax GET_VREG_WORD %ecx rINST 0 GET_VREG_WORD rINST rINST 1 movl %ecx,(%eax) FETCH_INST_OPCODE 2 %ecx movl rINST,4(%eax) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_APUT_OBJECT: /* 0x4d */ /* File: x86/OP_APUT_OBJECT.S */ /* * Array put, 32 bits or less. vBB[vCC] <- vAA * * for: aput, aput-object, aput-boolean, aput-byte, aput-char, aput-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) GET_VREG_R rINST rINST # rINST<- vAA testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects # arrayObj in eax # index in ecx /* On entry: * eax<- array object * ecx<- index * rINST<- vAA */ leal offArrayObject_contents(%eax,%ecx,4),%ecx testl rINST,rINST # storing null reference? je .LOP_APUT_OBJECT_skip_check SPILL_TMP1(%ecx) # save target address SPILL_TMP2(%eax) # save object head movl offObject_clazz(%eax),%eax # eax<- arrayObj->clazz movl offObject_clazz(rINST),%ecx # ecx<- obj->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) movl %ecx,sReg0 # store the two classes for later movl %eax,sReg1 SPILL(rIBASE) call dvmCanPutArrayElement # test object type vs. array type UNSPILL(rIBASE) UNSPILL_TMP1(%ecx) # recover target address testl %eax,%eax movl rSELF,%eax jne .LOP_APUT_OBJECT_types_okay # The types don't match. We need to throw an ArrayStoreException. EXPORT_PC movl sReg0,%eax # restore the two classes... movl %eax,OUT_ARG0(%esp) movl sReg1,%ecx movl %ecx,OUT_ARG1(%esp) call dvmThrowArrayStoreExceptionIncompatibleElement # ...and throw jmp common_exceptionThrown .LOP_APUT_OBJECT_types_okay: movl offThread_cardTable(%eax),%eax # get card table base movl rINST,(%ecx) # store into array UNSPILL_TMP2(rINST) # recover object head FETCH_INST_OPCODE 2 %ecx shrl $GC_CARD_SHIFT,rINST # object head to card number movb %al,(%eax,rINST) # mark card using object head ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_APUT_OBJECT_skip_check: movl rINST,(%ecx) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_APUT_BOOLEAN: /* 0x4e */ /* File: x86/OP_APUT_BOOLEAN.S */ /* File: x86/OP_APUT.S */ /* * Array put, 32 bits or less. vBB[vCC] <- vAA * * for: aput, aput-object, aput-boolean, aput-byte, aput-char, aput-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects: # arrayObj in eax # index in ecx leal offArrayObject_contents(%eax,%ecx,1),%eax .LOP_APUT_BOOLEAN_finish: GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx movb rINSTbl,(%eax) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_APUT_BYTE: /* 0x4f */ /* File: x86/OP_APUT_BYTE.S */ /* File: x86/OP_APUT.S */ /* * Array put, 32 bits or less. vBB[vCC] <- vAA * * for: aput, aput-object, aput-boolean, aput-byte, aput-char, aput-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects: # arrayObj in eax # index in ecx leal offArrayObject_contents(%eax,%ecx,1),%eax .LOP_APUT_BYTE_finish: GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx movb rINSTbl,(%eax) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_APUT_CHAR: /* 0x50 */ /* File: x86/OP_APUT_CHAR.S */ /* File: x86/OP_APUT.S */ /* * Array put, 32 bits or less. vBB[vCC] <- vAA * * for: aput, aput-object, aput-boolean, aput-byte, aput-char, aput-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects: # arrayObj in eax # index in ecx leal offArrayObject_contents(%eax,%ecx,2),%eax .LOP_APUT_CHAR_finish: GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx movw rINSTw,(%eax) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_APUT_SHORT: /* 0x51 */ /* File: x86/OP_APUT_SHORT.S */ /* File: x86/OP_APUT.S */ /* * Array put, 32 bits or less. vBB[vCC] <- vAA * * for: aput, aput-object, aput-boolean, aput-byte, aput-char, aput-short */ /* op vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB (array object) GET_VREG_R %ecx %ecx # ecs<- vCC (requested index) testl %eax,%eax # null array object? je common_errNullObject # bail if so cmpl offArrayObject_length(%eax),%ecx jae common_errArrayIndex # index >= length, bail. Expects: # arrayObj in eax # index in ecx leal offArrayObject_contents(%eax,%ecx,2),%eax .LOP_APUT_SHORT_finish: GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx movw rINSTw,(%eax) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IGET: /* 0x52 */ /* File: x86/OP_IGET.S */ /* * General 32-bit instance field get. * * for: iget, iget-object, iget-boolean, iget-byte, iget-char, iget-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_finish jmp common_exceptionThrown .LOP_IGET_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 2 %eax UNSPILL(rIBASE) SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_WIDE: /* 0x53 */ /* File: x86/OP_IGET_WIDE.S */ /* * 64-bit instance field get. * */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_WIDE_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # for dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save objpointer across call movl rPC,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_WIDE_finish jmp common_exceptionThrown .LOP_IGET_WIDE_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null leal (%ecx,%eax,1),%eax # eax<- address of field movl (%eax),%ecx # ecx<- lsw movl 4(%eax),%eax # eax<- msw SET_VREG_WORD %ecx rINST 0 FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) # restore rIBASE SET_VREG_WORD %eax rINST 1 ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IGET_OBJECT: /* 0x54 */ /* File: x86/OP_IGET_OBJECT.S */ /* File: x86/OP_IGET.S */ /* * General 32-bit instance field get. * * for: iget, iget-object, iget-boolean, iget-byte, iget-char, iget-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_OBJECT_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_OBJECT_finish jmp common_exceptionThrown .LOP_IGET_OBJECT_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 2 %eax UNSPILL(rIBASE) SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_BOOLEAN: /* 0x55 */ /* File: x86/OP_IGET_BOOLEAN.S */ /* File: x86/OP_IGET.S */ /* * General 32-bit instance field get. * * for: iget, iget-object, iget-boolean, iget-byte, iget-char, iget-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_BOOLEAN_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_BOOLEAN_finish jmp common_exceptionThrown .LOP_IGET_BOOLEAN_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movzbl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 2 %eax UNSPILL(rIBASE) SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_BYTE: /* 0x56 */ /* File: x86/OP_IGET_BYTE.S */ /* File: x86/OP_IGET.S */ /* * General 32-bit instance field get. * * for: iget, iget-object, iget-boolean, iget-byte, iget-char, iget-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_BYTE_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_BYTE_finish jmp common_exceptionThrown .LOP_IGET_BYTE_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movsbl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 2 %eax UNSPILL(rIBASE) SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_CHAR: /* 0x57 */ /* File: x86/OP_IGET_CHAR.S */ /* File: x86/OP_IGET.S */ /* * General 32-bit instance field get. * * for: iget, iget-object, iget-boolean, iget-byte, iget-char, iget-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_CHAR_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_CHAR_finish jmp common_exceptionThrown .LOP_IGET_CHAR_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movzwl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 2 %eax UNSPILL(rIBASE) SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_SHORT: /* 0x58 */ /* File: x86/OP_IGET_SHORT.S */ /* File: x86/OP_IGET.S */ /* * General 32-bit instance field get. * * for: iget, iget-object, iget-boolean, iget-byte, iget-char, iget-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_SHORT_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_SHORT_finish jmp common_exceptionThrown .LOP_IGET_SHORT_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movswl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 2 %eax UNSPILL(rIBASE) SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IPUT: /* 0x59 */ /* File: x86/OP_IPUT.S */ /* * General 32-bit instance field put. * * for: iput, iput-object, iput-boolean, iput-byte, iput-char, iput-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL (rIBASE) movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_finish jmp common_exceptionThrown .LOP_IPUT_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ GET_VREG_R rINST rINST # rINST<- v[A] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl rINST,(%ecx,%eax,1) # obj.field <- v[A](8/16/32 bits) FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_WIDE: /* 0x5a */ /* File: x86/OP_IPUT_WIDE.S */ /* * 64-bit instance field put. * */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_WIDE_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # ... which returns InstrField ptr jne .LOP_IPUT_WIDE_finish jmp common_exceptionThrown .LOP_IPUT_WIDE_finish: /* * Currently: * eax holds resolved field * ecx holds object * rIBASE is scratch, but needs to be unspilled * rINST holds A */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null leal (%ecx,%eax,1),%eax # eax<- address of field GET_VREG_WORD %ecx rINST 0 # ecx<- lsw GET_VREG_WORD rINST rINST 1 # rINST<- msw movl rINST,4(%eax) movl %ecx,(%eax) FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_OBJECT: /* 0x5b */ /* File: x86/OP_IPUT_OBJECT.S */ /* * Object field put. * * for: iput-object */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_OBJECT_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_OBJECT_finish jmp common_exceptionThrown .LOP_IPUT_OBJECT_finish: /* * Currently: * eax holds resolved field * ecx holds object * rIBASE is scratch, but needs to be unspilled * rINST holds A */ GET_VREG_R rINST rINST # rINST<- v[A] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl rINST,(%ecx,%eax) # obj.field <- v[A](8/16/32 bits) movl rSELF,%eax testl rINST,rINST # stored a NULL? movl offThread_cardTable(%eax),%eax # get card table base je 1f # skip card mark if null store shrl $GC_CARD_SHIFT,%ecx # object head to card number movb %al,(%eax,%ecx) # mark card using object head 1: UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_BOOLEAN: /* 0x5c */ /* File: x86/OP_IPUT_BOOLEAN.S */ /* File: x86/OP_IPUT.S */ /* * General 32-bit instance field put. * * for: iput, iput-object, iput-boolean, iput-byte, iput-char, iput-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL (rIBASE) movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_BOOLEAN_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_BOOLEAN_finish jmp common_exceptionThrown .LOP_IPUT_BOOLEAN_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ GET_VREG_R rINST rINST # rINST<- v[A] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movb rINSTbl,(%ecx,%eax,1) # obj.field <- v[A](8/16/32 bits) FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_BYTE: /* 0x5d */ /* File: x86/OP_IPUT_BYTE.S */ /* File: x86/OP_IPUT.S */ /* * General 32-bit instance field put. * * for: iput, iput-object, iput-boolean, iput-byte, iput-char, iput-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL (rIBASE) movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_BYTE_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_BYTE_finish jmp common_exceptionThrown .LOP_IPUT_BYTE_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ GET_VREG_R rINST rINST # rINST<- v[A] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movb rINSTbl,(%ecx,%eax,1) # obj.field <- v[A](8/16/32 bits) FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_CHAR: /* 0x5e */ /* File: x86/OP_IPUT_CHAR.S */ /* File: x86/OP_IPUT.S */ /* * General 32-bit instance field put. * * for: iput, iput-object, iput-boolean, iput-byte, iput-char, iput-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL (rIBASE) movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_CHAR_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_CHAR_finish jmp common_exceptionThrown .LOP_IPUT_CHAR_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ GET_VREG_R rINST rINST # rINST<- v[A] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movw rINSTw,(%ecx,%eax,1) # obj.field <- v[A](8/16/32 bits) FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_SHORT: /* 0x5f */ /* File: x86/OP_IPUT_SHORT.S */ /* File: x86/OP_IPUT.S */ /* * General 32-bit instance field put. * * for: iput, iput-object, iput-boolean, iput-byte, iput-char, iput-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL (rIBASE) movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_SHORT_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_SHORT_finish jmp common_exceptionThrown .LOP_IPUT_SHORT_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ GET_VREG_R rINST rINST # rINST<- v[A] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movw rINSTw,(%ecx,%eax,1) # obj.field <- v[A](8/16/32 bits) FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SGET: /* 0x60 */ /* File: x86/OP_SGET.S */ /* * General 32-bit SGET handler. * * for: sget, sget-object, sget-boolean, sget-byte, sget-char, sget-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_resolve # if not, make it so .LOP_SGET_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_WIDE: /* 0x61 */ /* File: x86/OP_SGET_WIDE.S */ /* * 64-bit SGET handler. * */ /* sget-wide vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_WIDE_resolve # if not, make it so .LOP_SGET_WIDE_finish: # field ptr in eax movl offStaticField_value(%eax),%ecx # ecx<- lsw movl 4+offStaticField_value(%eax),%eax # eax<- msw SET_VREG_WORD %ecx rINST 0 FETCH_INST_OPCODE 2 %ecx SET_VREG_WORD %eax rINST 1 ADVANCE_PC 2 GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_WIDE_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_WIDE_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_OBJECT: /* 0x62 */ /* File: x86/OP_SGET_OBJECT.S */ /* File: x86/OP_SGET.S */ /* * General 32-bit SGET handler. * * for: sget, sget-object, sget-boolean, sget-byte, sget-char, sget-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_OBJECT_resolve # if not, make it so .LOP_SGET_OBJECT_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_OBJECT_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_OBJECT_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_BOOLEAN: /* 0x63 */ /* File: x86/OP_SGET_BOOLEAN.S */ /* File: x86/OP_SGET.S */ /* * General 32-bit SGET handler. * * for: sget, sget-object, sget-boolean, sget-byte, sget-char, sget-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_BOOLEAN_resolve # if not, make it so .LOP_SGET_BOOLEAN_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_BOOLEAN_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_BOOLEAN_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_BYTE: /* 0x64 */ /* File: x86/OP_SGET_BYTE.S */ /* File: x86/OP_SGET.S */ /* * General 32-bit SGET handler. * * for: sget, sget-object, sget-boolean, sget-byte, sget-char, sget-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_BYTE_resolve # if not, make it so .LOP_SGET_BYTE_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_BYTE_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_BYTE_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_CHAR: /* 0x65 */ /* File: x86/OP_SGET_CHAR.S */ /* File: x86/OP_SGET.S */ /* * General 32-bit SGET handler. * * for: sget, sget-object, sget-boolean, sget-byte, sget-char, sget-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_CHAR_resolve # if not, make it so .LOP_SGET_CHAR_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_CHAR_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_CHAR_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_SHORT: /* 0x66 */ /* File: x86/OP_SGET_SHORT.S */ /* File: x86/OP_SGET.S */ /* * General 32-bit SGET handler. * * for: sget, sget-object, sget-boolean, sget-byte, sget-char, sget-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_SHORT_resolve # if not, make it so .LOP_SGET_SHORT_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_SHORT_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_SHORT_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT: /* 0x67 */ /* File: x86/OP_SPUT.S */ /* * General 32-bit SPUT handler. * * for: sput, sput-boolean, sput-byte, sput-char, sput-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_resolve # if not, make it so .LOP_SPUT_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_WIDE: /* 0x68 */ /* File: x86/OP_SPUT_WIDE.S */ /* * General 32-bit SPUT handler. * * for: sput, sput-object, sput-boolean, sput-byte, sput-char, sput-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_WIDE_resolve # if not, make it so .LOP_SPUT_WIDE_finish: # field ptr in eax GET_VREG_WORD %ecx rINST 0 # rINST<- lsw GET_VREG_WORD rINST rINST 1 # ecx<- msw movl %ecx,offStaticField_value(%eax) FETCH_INST_OPCODE 2 %ecx movl rINST,4+offStaticField_value(%eax) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_WIDE_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_WIDE_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_OBJECT: /* 0x69 */ /* File: x86/OP_SPUT_OBJECT.S */ /* * SPUT object handler. */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField testl %eax,%eax # resolved entry null? je .LOP_SPUT_OBJECT_resolve # if not, make it so .LOP_SPUT_OBJECT_finish: # field ptr in eax movzbl rINSTbl,%ecx # ecx<- AA GET_VREG_R %ecx %ecx movl %ecx,offStaticField_value(%eax) # do the store testl %ecx,%ecx # stored null object ptr? je 1f # skip card mark if null movl rSELF,%ecx movl offField_clazz(%eax),%eax # eax<- method->clazz movl offThread_cardTable(%ecx),%ecx # get card table base shrl $GC_CARD_SHIFT,%eax # head to card number movb %cl,(%ecx,%eax) # mark card 1: FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_SPUT_OBJECT_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_OBJECT_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_BOOLEAN: /* 0x6a */ /* File: x86/OP_SPUT_BOOLEAN.S */ /* File: x86/OP_SPUT.S */ /* * General 32-bit SPUT handler. * * for: sput, sput-boolean, sput-byte, sput-char, sput-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_BOOLEAN_resolve # if not, make it so .LOP_SPUT_BOOLEAN_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_BOOLEAN_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_BOOLEAN_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_BYTE: /* 0x6b */ /* File: x86/OP_SPUT_BYTE.S */ /* File: x86/OP_SPUT.S */ /* * General 32-bit SPUT handler. * * for: sput, sput-boolean, sput-byte, sput-char, sput-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_BYTE_resolve # if not, make it so .LOP_SPUT_BYTE_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_BYTE_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_BYTE_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_CHAR: /* 0x6c */ /* File: x86/OP_SPUT_CHAR.S */ /* File: x86/OP_SPUT.S */ /* * General 32-bit SPUT handler. * * for: sput, sput-boolean, sput-byte, sput-char, sput-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_CHAR_resolve # if not, make it so .LOP_SPUT_CHAR_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_CHAR_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_CHAR_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_SHORT: /* 0x6d */ /* File: x86/OP_SPUT_SHORT.S */ /* File: x86/OP_SPUT.S */ /* * General 32-bit SPUT handler. * * for: sput, sput-boolean, sput-byte, sput-char, sput-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_SHORT_resolve # if not, make it so .LOP_SPUT_SHORT_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_SHORT_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_SHORT_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_INVOKE_VIRTUAL: /* 0x6e */ /* File: x86/OP_INVOKE_VIRTUAL.S */ /* * Handle a virtual method call. * * for: invoke-virtual, invoke-virtual/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op vAA, {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movl rSELF,%eax movzwl 2(rPC),%ecx # ecx<- BBBB movl offThread_methodClassDex(%eax),%eax # eax<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%eax),%eax # eax<- pDvmDex->pResMethods movl (%eax,%ecx,4),%eax # eax<- resolved baseMethod testl %eax,%eax # already resolved? jne .LOP_INVOKE_VIRTUAL_continue # yes, continue movl rSELF,%eax movl %ecx,OUT_ARG1(%esp) # arg1<- ref movl offThread_method(%eax),%eax # eax<- self->method movl offMethod_clazz(%eax),%eax # ecx<- method->clazz movl %eax,OUT_ARG0(%esp) # arg0<- clazz movl $METHOD_VIRTUAL,OUT_ARG2(%esp) # arg2<- flags call dvmResolveMethod # eax<- call(clazz, ref, flags) testl %eax,%eax # got null? jne .LOP_INVOKE_VIRTUAL_continue # no, continue jmp common_exceptionThrown # yes, handle exception /* At this point: * eax = resolved base method * ecx = scratch */ .LOP_INVOKE_VIRTUAL_continue: movzwl 4(rPC),%ecx # ecx<- GFED or CCCC .if (!0) andl $0xf,%ecx # ecx<- D (or stays CCCC) .endif GET_VREG_R %ecx %ecx # ecx<- "this" movzwl offMethod_methodIndex(%eax),%eax # eax<- baseMethod->methodIndex testl %ecx,%ecx # null this? je common_errNullObject # go if so movl offObject_clazz(%ecx),%ecx # ecx<- thisPtr->clazz movl offClassObject_vtable(%ecx),%ecx # ecx<- thisPtr->clazz->vtable movl (%ecx,%eax,4),%eax # eax<- vtable[methodIndex] jmp common_invokeMethodNoRange /* ------------------------------ */ .L_OP_INVOKE_SUPER: /* 0x6f */ /* File: x86/OP_INVOKE_SUPER.S */ /* * Handle a "super" method call. * * for: invoke-super, invoke-super/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op vAA, {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movl rSELF,rINST movzwl 2(rPC),%eax # eax<- BBBB movl offThread_methodClassDex(rINST),%ecx # ecx<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%ecx),%ecx # ecx<- pDvmDex->pResMethods movl (%ecx,%eax,4),%ecx # ecx<- resolved baseMethod movl offThread_method(rINST),%eax # eax<- method movzwl 4(rPC),rINST # rINST<- GFED or CCCC .if (!0) andl $0xf,rINST # rINST<- D (or stays CCCC) .endif GET_VREG_R rINST rINST # rINST<- "this" ptr testl rINST,rINST # null "this"? je common_errNullObject # yes, throw movl offMethod_clazz(%eax),%eax # eax<- method->clazz testl %ecx,%ecx # already resolved? je .LOP_INVOKE_SUPER_resolve /* * At this point: * ecx = resolved base method [r0] * eax = method->clazz [r9] */ .LOP_INVOKE_SUPER_continue: movl offClassObject_super(%eax),%eax # eax<- method->clazz->super movzwl offMethod_methodIndex(%ecx),%ecx # ecx<- baseMthod->methodIndex cmpl offClassObject_vtableCount(%eax),%ecx # compare(methodIndex,vtableCount) jae .LOP_INVOKE_SUPER_nsm # method not present in superclass movl offClassObject_vtable(%eax),%eax # eax<- ...clazz->super->vtable movl (%eax,%ecx,4),%eax # eax<- vtable[methodIndex] jmp common_invokeMethodNoRange /* At this point: * ecx = null (needs to be resolved base method) * eax = method->clazz */ .LOP_INVOKE_SUPER_resolve: SPILL_TMP1(%eax) # method->clazz movl %eax,OUT_ARG0(%esp) # arg0<- method->clazz movzwl 2(rPC),%ecx # ecx<- BBBB movl $METHOD_VIRTUAL,OUT_ARG2(%esp) # arg2<- resolver method type movl %ecx,OUT_ARG1(%esp) # arg1<- ref call dvmResolveMethod # eax<- call(clazz, ref, flags) testl %eax,%eax # got null? movl %eax,%ecx # ecx<- resolved base method UNSPILL_TMP1(%eax) # restore method->clazz jne .LOP_INVOKE_SUPER_continue # good to go - continue jmp common_exceptionThrown # handle exception /* * Throw a NoSuchMethodError with the method name as the message. * ecx = resolved base method */ .LOP_INVOKE_SUPER_nsm: movl offMethod_name(%ecx),%eax jmp common_errNoSuchMethod /* ------------------------------ */ .L_OP_INVOKE_DIRECT: /* 0x70 */ /* File: x86/OP_INVOKE_DIRECT.S */ /* * Handle a direct method call. * * (We could defer the "is 'this' pointer null" test to the common * method invocation code, and use a flag to indicate that static * calls don't count. If we do this as part of copying the arguments * out we could avoiding loading the first arg twice.) * * for: invoke-direct, invoke-direct/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%ecx),%ecx # ecx<- pDvmDex->pResMethods movzwl 4(rPC),rIBASE # rIBASE<- GFED or CCCC movl (%ecx,%eax,4),%eax # eax<- resolved methodToCall .if (!0) andl $0xf,rIBASE # rIBASE<- D (or stays CCCC) .endif testl %eax,%eax # already resolved? GET_VREG_R %ecx rIBASE # ecx<- "this" ptr je .LOP_INVOKE_DIRECT_resolve # not resolved, do it now .LOP_INVOKE_DIRECT_finish: testl %ecx,%ecx # null "this"? jne common_invokeMethodNoRange # no, continue on jmp common_errNullObject /* * On entry: * TMP_SPILL <- "this" register * Things a bit ugly on this path, but it's the less * frequent one. We'll have to do some reloading. */ .LOP_INVOKE_DIRECT_resolve: SPILL_TMP1(%ecx) movl rSELF,%ecx movl offThread_method(%ecx),%ecx # ecx<- self->method movzwl 2(rPC),%eax # reference (BBBB or CCCC) movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl $METHOD_DIRECT,OUT_ARG2(%esp) movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) call dvmResolveMethod # eax<- call(clazz, ref, flags) UNSPILL_TMP1(%ecx) testl %eax,%eax jne .LOP_INVOKE_DIRECT_finish jmp common_exceptionThrown /* ------------------------------ */ .L_OP_INVOKE_STATIC: /* 0x71 */ /* File: x86/OP_INVOKE_STATIC.S */ /* * Handle a static method call. * * for: invoke-static, invoke-static/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%ecx),%ecx # ecx<- pDvmDex->pResMethods movl (%ecx,%eax,4),%eax # eax<- resolved methodToCall testl %eax,%eax jne common_invokeMethodNoRange movl rSELF,%ecx movl offThread_method(%ecx),%ecx # ecx<- self->method movzwl 2(rPC),%eax movl offMethod_clazz(%ecx),%ecx# ecx<- method->clazz movl %eax,OUT_ARG1(%esp) # arg1<- BBBB movl %ecx,OUT_ARG0(%esp) # arg0<- clazz movl $METHOD_STATIC,%eax movl %eax,OUT_ARG2(%esp) # arg2<- flags call dvmResolveMethod # call(clazz,ref,flags) testl %eax,%eax # got null? jne common_invokeMethodNoRange jmp common_exceptionThrown /* ------------------------------ */ .L_OP_INVOKE_INTERFACE: /* 0x72 */ /* File: x86/OP_INVOKE_INTERFACE.S */ /* * Handle an interface method call. * * for: invoke-interface, invoke-interface/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movzwl 4(rPC),%eax # eax<- FEDC or CCCC movl rSELF,%ecx .if (!0) andl $0xf,%eax # eax<- C (or stays CCCC) .endif GET_VREG_R %eax %eax # eax<- "this" EXPORT_PC testl %eax,%eax # null this? je common_errNullObject # yes, fail movl offObject_clazz(%eax),%eax# eax<- thisPtr->clazz movl %eax,OUT_ARG0(%esp) # arg0<- class movl offThread_methodClassDex(%ecx),%eax # eax<- methodClassDex movl offThread_method(%ecx),%ecx # ecx<- method movl %eax,OUT_ARG3(%esp) # arg3<- dex movzwl 2(rPC),%eax # eax<- BBBB movl %ecx,OUT_ARG2(%esp) # arg2<- method movl %eax,OUT_ARG1(%esp) # arg1<- BBBB call dvmFindInterfaceMethodInCache # eax<- call(class, ref, method, dex) testl %eax,%eax je common_exceptionThrown jmp common_invokeMethodNoRange /* ------------------------------ */ .L_OP_UNUSED_73: /* 0x73 */ /* File: x86/OP_UNUSED_73.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_INVOKE_VIRTUAL_RANGE: /* 0x74 */ /* File: x86/OP_INVOKE_VIRTUAL_RANGE.S */ /* File: x86/OP_INVOKE_VIRTUAL.S */ /* * Handle a virtual method call. * * for: invoke-virtual, invoke-virtual/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op vAA, {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movl rSELF,%eax movzwl 2(rPC),%ecx # ecx<- BBBB movl offThread_methodClassDex(%eax),%eax # eax<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%eax),%eax # eax<- pDvmDex->pResMethods movl (%eax,%ecx,4),%eax # eax<- resolved baseMethod testl %eax,%eax # already resolved? jne .LOP_INVOKE_VIRTUAL_RANGE_continue # yes, continue movl rSELF,%eax movl %ecx,OUT_ARG1(%esp) # arg1<- ref movl offThread_method(%eax),%eax # eax<- self->method movl offMethod_clazz(%eax),%eax # ecx<- method->clazz movl %eax,OUT_ARG0(%esp) # arg0<- clazz movl $METHOD_VIRTUAL,OUT_ARG2(%esp) # arg2<- flags call dvmResolveMethod # eax<- call(clazz, ref, flags) testl %eax,%eax # got null? jne .LOP_INVOKE_VIRTUAL_RANGE_continue # no, continue jmp common_exceptionThrown # yes, handle exception /* At this point: * eax = resolved base method * ecx = scratch */ .LOP_INVOKE_VIRTUAL_RANGE_continue: movzwl 4(rPC),%ecx # ecx<- GFED or CCCC .if (!1) andl $0xf,%ecx # ecx<- D (or stays CCCC) .endif GET_VREG_R %ecx %ecx # ecx<- "this" movzwl offMethod_methodIndex(%eax),%eax # eax<- baseMethod->methodIndex testl %ecx,%ecx # null this? je common_errNullObject # go if so movl offObject_clazz(%ecx),%ecx # ecx<- thisPtr->clazz movl offClassObject_vtable(%ecx),%ecx # ecx<- thisPtr->clazz->vtable movl (%ecx,%eax,4),%eax # eax<- vtable[methodIndex] jmp common_invokeMethodRange /* ------------------------------ */ .L_OP_INVOKE_SUPER_RANGE: /* 0x75 */ /* File: x86/OP_INVOKE_SUPER_RANGE.S */ /* File: x86/OP_INVOKE_SUPER.S */ /* * Handle a "super" method call. * * for: invoke-super, invoke-super/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op vAA, {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movl rSELF,rINST movzwl 2(rPC),%eax # eax<- BBBB movl offThread_methodClassDex(rINST),%ecx # ecx<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%ecx),%ecx # ecx<- pDvmDex->pResMethods movl (%ecx,%eax,4),%ecx # ecx<- resolved baseMethod movl offThread_method(rINST),%eax # eax<- method movzwl 4(rPC),rINST # rINST<- GFED or CCCC .if (!1) andl $0xf,rINST # rINST<- D (or stays CCCC) .endif GET_VREG_R rINST rINST # rINST<- "this" ptr testl rINST,rINST # null "this"? je common_errNullObject # yes, throw movl offMethod_clazz(%eax),%eax # eax<- method->clazz testl %ecx,%ecx # already resolved? je .LOP_INVOKE_SUPER_RANGE_resolve /* * At this point: * ecx = resolved base method [r0] * eax = method->clazz [r9] */ .LOP_INVOKE_SUPER_RANGE_continue: movl offClassObject_super(%eax),%eax # eax<- method->clazz->super movzwl offMethod_methodIndex(%ecx),%ecx # ecx<- baseMthod->methodIndex cmpl offClassObject_vtableCount(%eax),%ecx # compare(methodIndex,vtableCount) jae .LOP_INVOKE_SUPER_RANGE_nsm # method not present in superclass movl offClassObject_vtable(%eax),%eax # eax<- ...clazz->super->vtable movl (%eax,%ecx,4),%eax # eax<- vtable[methodIndex] jmp common_invokeMethodRange /* At this point: * ecx = null (needs to be resolved base method) * eax = method->clazz */ .LOP_INVOKE_SUPER_RANGE_resolve: SPILL_TMP1(%eax) # method->clazz movl %eax,OUT_ARG0(%esp) # arg0<- method->clazz movzwl 2(rPC),%ecx # ecx<- BBBB movl $METHOD_VIRTUAL,OUT_ARG2(%esp) # arg2<- resolver method type movl %ecx,OUT_ARG1(%esp) # arg1<- ref call dvmResolveMethod # eax<- call(clazz, ref, flags) testl %eax,%eax # got null? movl %eax,%ecx # ecx<- resolved base method UNSPILL_TMP1(%eax) # restore method->clazz jne .LOP_INVOKE_SUPER_RANGE_continue # good to go - continue jmp common_exceptionThrown # handle exception /* * Throw a NoSuchMethodError with the method name as the message. * ecx = resolved base method */ .LOP_INVOKE_SUPER_RANGE_nsm: movl offMethod_name(%ecx),%eax jmp common_errNoSuchMethod /* ------------------------------ */ .L_OP_INVOKE_DIRECT_RANGE: /* 0x76 */ /* File: x86/OP_INVOKE_DIRECT_RANGE.S */ /* File: x86/OP_INVOKE_DIRECT.S */ /* * Handle a direct method call. * * (We could defer the "is 'this' pointer null" test to the common * method invocation code, and use a flag to indicate that static * calls don't count. If we do this as part of copying the arguments * out we could avoiding loading the first arg twice.) * * for: invoke-direct, invoke-direct/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%ecx),%ecx # ecx<- pDvmDex->pResMethods movzwl 4(rPC),rIBASE # rIBASE<- GFED or CCCC movl (%ecx,%eax,4),%eax # eax<- resolved methodToCall .if (!1) andl $0xf,rIBASE # rIBASE<- D (or stays CCCC) .endif testl %eax,%eax # already resolved? GET_VREG_R %ecx rIBASE # ecx<- "this" ptr je .LOP_INVOKE_DIRECT_RANGE_resolve # not resolved, do it now .LOP_INVOKE_DIRECT_RANGE_finish: testl %ecx,%ecx # null "this"? jne common_invokeMethodRange # no, continue on jmp common_errNullObject /* * On entry: * TMP_SPILL <- "this" register * Things a bit ugly on this path, but it's the less * frequent one. We'll have to do some reloading. */ .LOP_INVOKE_DIRECT_RANGE_resolve: SPILL_TMP1(%ecx) movl rSELF,%ecx movl offThread_method(%ecx),%ecx # ecx<- self->method movzwl 2(rPC),%eax # reference (BBBB or CCCC) movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl $METHOD_DIRECT,OUT_ARG2(%esp) movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) call dvmResolveMethod # eax<- call(clazz, ref, flags) UNSPILL_TMP1(%ecx) testl %eax,%eax jne .LOP_INVOKE_DIRECT_RANGE_finish jmp common_exceptionThrown /* ------------------------------ */ .L_OP_INVOKE_STATIC_RANGE: /* 0x77 */ /* File: x86/OP_INVOKE_STATIC_RANGE.S */ /* File: x86/OP_INVOKE_STATIC.S */ /* * Handle a static method call. * * for: invoke-static, invoke-static/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%ecx),%ecx # ecx<- pDvmDex->pResMethods movl (%ecx,%eax,4),%eax # eax<- resolved methodToCall testl %eax,%eax jne common_invokeMethodRange movl rSELF,%ecx movl offThread_method(%ecx),%ecx # ecx<- self->method movzwl 2(rPC),%eax movl offMethod_clazz(%ecx),%ecx# ecx<- method->clazz movl %eax,OUT_ARG1(%esp) # arg1<- BBBB movl %ecx,OUT_ARG0(%esp) # arg0<- clazz movl $METHOD_STATIC,%eax movl %eax,OUT_ARG2(%esp) # arg2<- flags call dvmResolveMethod # call(clazz,ref,flags) testl %eax,%eax # got null? jne common_invokeMethodRange jmp common_exceptionThrown /* ------------------------------ */ .L_OP_INVOKE_INTERFACE_RANGE: /* 0x78 */ /* File: x86/OP_INVOKE_INTERFACE_RANGE.S */ /* File: x86/OP_INVOKE_INTERFACE.S */ /* * Handle an interface method call. * * for: invoke-interface, invoke-interface/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movzwl 4(rPC),%eax # eax<- FEDC or CCCC movl rSELF,%ecx .if (!1) andl $0xf,%eax # eax<- C (or stays CCCC) .endif GET_VREG_R %eax %eax # eax<- "this" EXPORT_PC testl %eax,%eax # null this? je common_errNullObject # yes, fail movl offObject_clazz(%eax),%eax# eax<- thisPtr->clazz movl %eax,OUT_ARG0(%esp) # arg0<- class movl offThread_methodClassDex(%ecx),%eax # eax<- methodClassDex movl offThread_method(%ecx),%ecx # ecx<- method movl %eax,OUT_ARG3(%esp) # arg3<- dex movzwl 2(rPC),%eax # eax<- BBBB movl %ecx,OUT_ARG2(%esp) # arg2<- method movl %eax,OUT_ARG1(%esp) # arg1<- BBBB call dvmFindInterfaceMethodInCache # eax<- call(class, ref, method, dex) testl %eax,%eax je common_exceptionThrown jmp common_invokeMethodRange /* ------------------------------ */ .L_OP_UNUSED_79: /* 0x79 */ /* File: x86/OP_UNUSED_79.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_7A: /* 0x7a */ /* File: x86/OP_UNUSED_7A.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_NEG_INT: /* 0x7b */ /* File: x86/OP_NEG_INT.S */ /* File: x86/unop.S */ /* * Generic 32-bit unary operation. Provide an "instr" line that * specifies an instruction that performs "result = op eax". */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A negl %eax SET_VREG %eax %ecx FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_NOT_INT: /* 0x7c */ /* File: x86/OP_NOT_INT.S */ /* File: x86/unop.S */ /* * Generic 32-bit unary operation. Provide an "instr" line that * specifies an instruction that performs "result = op eax". */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A notl %eax SET_VREG %eax %ecx FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_NEG_LONG: /* 0x7d */ /* File: x86/OP_NEG_LONG.S */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B andb $0xf,rINSTbl # rINST<- A GET_VREG_WORD %eax %ecx 0 # eax<- v[B+0] GET_VREG_WORD %ecx %ecx 1 # ecx<- v[B+1] negl %eax adcl $0,%ecx negl %ecx SET_VREG_WORD %eax rINST 0 # v[A+0]<- eax FETCH_INST_OPCODE 1 %eax SET_VREG_WORD %ecx rINST 1 # v[A+1]<- ecx ADVANCE_PC 1 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_NOT_LONG: /* 0x7e */ /* File: x86/OP_NOT_LONG.S */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B andb $0xf,rINSTbl # rINST<- A GET_VREG_WORD %eax %ecx 0 # eax<- v[B+0] GET_VREG_WORD %ecx %ecx 1 # ecx<- v[B+1] notl %eax notl %ecx SET_VREG_WORD %eax rINST 0 # v[A+0]<- eax FETCH_INST_OPCODE 1 %eax SET_VREG_WORD %ecx rINST 1 # v[A+1]<- ecx ADVANCE_PC 1 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_NEG_FLOAT: /* 0x7f */ /* File: x86/OP_NEG_FLOAT.S */ /* File: x86/fpcvt.S */ /* * Generic 32-bit FP conversion operation. */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B flds (rFP,rINST,4) # %st0<- vB andb $0xf,%cl # ecx<- A fchs fstps (rFP,%ecx,4) # vA<- %st0 FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_NEG_DOUBLE: /* 0x80 */ /* File: x86/OP_NEG_DOUBLE.S */ /* File: x86/fpcvt.S */ /* * Generic 32-bit FP conversion operation. */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B fldl (rFP,rINST,4) # %st0<- vB andb $0xf,%cl # ecx<- A fchs fstpl (rFP,%ecx,4) # vA<- %st0 FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_INT_TO_LONG: /* 0x81 */ /* File: x86/OP_INT_TO_LONG.S */ /* int to long vA, vB */ movzbl rINSTbl,%eax # eax<- +A sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB andb $0xf,rINSTbl # rINST<- A SPILL(rIBASE) # cltd trashes rIBASE/edx cltd # rINST:eax<- sssssssBBBBBBBB SET_VREG_WORD rIBASE rINST 1 # v[A+1]<- rIBASE/rPC FETCH_INST_OPCODE 1 %ecx UNSPILL(rIBASE) SET_VREG_WORD %eax rINST 0 # v[A+0]<- %eax ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_INT_TO_FLOAT: /* 0x82 */ /* File: x86/OP_INT_TO_FLOAT.S */ /* File: x86/fpcvt.S */ /* * Generic 32-bit FP conversion operation. */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B fildl (rFP,rINST,4) # %st0<- vB andb $0xf,%cl # ecx<- A fstps (rFP,%ecx,4) # vA<- %st0 FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_INT_TO_DOUBLE: /* 0x83 */ /* File: x86/OP_INT_TO_DOUBLE.S */ /* File: x86/fpcvt.S */ /* * Generic 32-bit FP conversion operation. */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B fildl (rFP,rINST,4) # %st0<- vB andb $0xf,%cl # ecx<- A fstpl (rFP,%ecx,4) # vA<- %st0 FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_LONG_TO_INT: /* 0x84 */ /* File: x86/OP_LONG_TO_INT.S */ /* we ignore the high word, making this equivalent to a 32-bit reg move */ /* File: x86/OP_MOVE.S */ /* for move, move-object, long-to-int */ /* op vA, vB */ movzbl rINSTbl,%eax # eax<- BA andb $0xf,%al # eax<- A shrl $4,rINST # rINST<- B GET_VREG_R rINST rINST FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 SET_VREG rINST %eax # fp[A]<-fp[B] GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_LONG_TO_FLOAT: /* 0x85 */ /* File: x86/OP_LONG_TO_FLOAT.S */ /* File: x86/fpcvt.S */ /* * Generic 32-bit FP conversion operation. */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B fildll (rFP,rINST,4) # %st0<- vB andb $0xf,%cl # ecx<- A fstps (rFP,%ecx,4) # vA<- %st0 FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_LONG_TO_DOUBLE: /* 0x86 */ /* File: x86/OP_LONG_TO_DOUBLE.S */ /* File: x86/fpcvt.S */ /* * Generic 32-bit FP conversion operation. */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B fildll (rFP,rINST,4) # %st0<- vB andb $0xf,%cl # ecx<- A fstpl (rFP,%ecx,4) # vA<- %st0 FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_FLOAT_TO_INT: /* 0x87 */ /* File: x86/OP_FLOAT_TO_INT.S */ /* File: x86/cvtfp_int.S */ /* On fp to int conversions, Java requires that * if the result > maxint, it should be clamped to maxint. If it is less * than minint, it should be clamped to minint. If it is a nan, the result * should be zero. Further, the rounding mode is to truncate. This model * differs from what is delivered normally via the x86 fpu, so we have * to play some games. */ /* float/double to int/long vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B .if 0 fldl (rFP,rINST,4) # %st0<- vB .else flds (rFP,rINST,4) # %st0<- vB .endif ftst fnstcw LOCAL0_OFFSET(%ebp) # remember original rounding mode movzwl LOCAL0_OFFSET(%ebp),%eax movb $0xc,%ah movw %ax,LOCAL0_OFFSET+2(%ebp) fldcw LOCAL0_OFFSET+2(%ebp) # set "to zero" rounding mode andb $0xf,%cl # ecx<- A .if 0 fistpll (rFP,%ecx,4) # convert and store .else fistpl (rFP,%ecx,4) # convert and store .endif fldcw LOCAL0_OFFSET(%ebp) # restore previous rounding mode .if 0 movl $0x80000000,%eax xorl 4(rFP,%ecx,4),%eax orl (rFP,%ecx,4),%eax .else cmpl $0x80000000,(rFP,%ecx,4) .endif je .LOP_FLOAT_TO_INT_special_case # fix up result .LOP_FLOAT_TO_INT_finish: FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx .LOP_FLOAT_TO_INT_special_case: fnstsw %ax sahf jp .LOP_FLOAT_TO_INT_isNaN adcl $-1,(rFP,%ecx,4) .if 0 adcl $-1,4(rFP,%ecx,4) .endif jmp .LOP_FLOAT_TO_INT_finish .LOP_FLOAT_TO_INT_isNaN: movl $0,(rFP,%ecx,4) .if 0 movl $0,4(rFP,%ecx,4) .endif jmp .LOP_FLOAT_TO_INT_finish /* ------------------------------ */ .L_OP_FLOAT_TO_LONG: /* 0x88 */ /* File: x86/OP_FLOAT_TO_LONG.S */ /* File: x86/cvtfp_int.S */ /* On fp to int conversions, Java requires that * if the result > maxint, it should be clamped to maxint. If it is less * than minint, it should be clamped to minint. If it is a nan, the result * should be zero. Further, the rounding mode is to truncate. This model * differs from what is delivered normally via the x86 fpu, so we have * to play some games. */ /* float/double to int/long vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B .if 0 fldl (rFP,rINST,4) # %st0<- vB .else flds (rFP,rINST,4) # %st0<- vB .endif ftst fnstcw LOCAL0_OFFSET(%ebp) # remember original rounding mode movzwl LOCAL0_OFFSET(%ebp),%eax movb $0xc,%ah movw %ax,LOCAL0_OFFSET+2(%ebp) fldcw LOCAL0_OFFSET+2(%ebp) # set "to zero" rounding mode andb $0xf,%cl # ecx<- A .if 1 fistpll (rFP,%ecx,4) # convert and store .else fistpl (rFP,%ecx,4) # convert and store .endif fldcw LOCAL0_OFFSET(%ebp) # restore previous rounding mode .if 1 movl $0x80000000,%eax xorl 4(rFP,%ecx,4),%eax orl (rFP,%ecx,4),%eax .else cmpl $0x80000000,(rFP,%ecx,4) .endif je .LOP_FLOAT_TO_LONG_special_case # fix up result .LOP_FLOAT_TO_LONG_finish: FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx .LOP_FLOAT_TO_LONG_special_case: fnstsw %ax sahf jp .LOP_FLOAT_TO_LONG_isNaN adcl $-1,(rFP,%ecx,4) .if 1 adcl $-1,4(rFP,%ecx,4) .endif jmp .LOP_FLOAT_TO_LONG_finish .LOP_FLOAT_TO_LONG_isNaN: movl $0,(rFP,%ecx,4) .if 1 movl $0,4(rFP,%ecx,4) .endif jmp .LOP_FLOAT_TO_LONG_finish /* ------------------------------ */ .L_OP_FLOAT_TO_DOUBLE: /* 0x89 */ /* File: x86/OP_FLOAT_TO_DOUBLE.S */ /* File: x86/fpcvt.S */ /* * Generic 32-bit FP conversion operation. */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B flds (rFP,rINST,4) # %st0<- vB andb $0xf,%cl # ecx<- A fstpl (rFP,%ecx,4) # vA<- %st0 FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_DOUBLE_TO_INT: /* 0x8a */ /* File: x86/OP_DOUBLE_TO_INT.S */ /* File: x86/cvtfp_int.S */ /* On fp to int conversions, Java requires that * if the result > maxint, it should be clamped to maxint. If it is less * than minint, it should be clamped to minint. If it is a nan, the result * should be zero. Further, the rounding mode is to truncate. This model * differs from what is delivered normally via the x86 fpu, so we have * to play some games. */ /* float/double to int/long vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B .if 1 fldl (rFP,rINST,4) # %st0<- vB .else flds (rFP,rINST,4) # %st0<- vB .endif ftst fnstcw LOCAL0_OFFSET(%ebp) # remember original rounding mode movzwl LOCAL0_OFFSET(%ebp),%eax movb $0xc,%ah movw %ax,LOCAL0_OFFSET+2(%ebp) fldcw LOCAL0_OFFSET+2(%ebp) # set "to zero" rounding mode andb $0xf,%cl # ecx<- A .if 0 fistpll (rFP,%ecx,4) # convert and store .else fistpl (rFP,%ecx,4) # convert and store .endif fldcw LOCAL0_OFFSET(%ebp) # restore previous rounding mode .if 0 movl $0x80000000,%eax xorl 4(rFP,%ecx,4),%eax orl (rFP,%ecx,4),%eax .else cmpl $0x80000000,(rFP,%ecx,4) .endif je .LOP_DOUBLE_TO_INT_special_case # fix up result .LOP_DOUBLE_TO_INT_finish: FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx .LOP_DOUBLE_TO_INT_special_case: fnstsw %ax sahf jp .LOP_DOUBLE_TO_INT_isNaN adcl $-1,(rFP,%ecx,4) .if 0 adcl $-1,4(rFP,%ecx,4) .endif jmp .LOP_DOUBLE_TO_INT_finish .LOP_DOUBLE_TO_INT_isNaN: movl $0,(rFP,%ecx,4) .if 0 movl $0,4(rFP,%ecx,4) .endif jmp .LOP_DOUBLE_TO_INT_finish /* ------------------------------ */ .L_OP_DOUBLE_TO_LONG: /* 0x8b */ /* File: x86/OP_DOUBLE_TO_LONG.S */ /* File: x86/cvtfp_int.S */ /* On fp to int conversions, Java requires that * if the result > maxint, it should be clamped to maxint. If it is less * than minint, it should be clamped to minint. If it is a nan, the result * should be zero. Further, the rounding mode is to truncate. This model * differs from what is delivered normally via the x86 fpu, so we have * to play some games. */ /* float/double to int/long vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B .if 1 fldl (rFP,rINST,4) # %st0<- vB .else flds (rFP,rINST,4) # %st0<- vB .endif ftst fnstcw LOCAL0_OFFSET(%ebp) # remember original rounding mode movzwl LOCAL0_OFFSET(%ebp),%eax movb $0xc,%ah movw %ax,LOCAL0_OFFSET+2(%ebp) fldcw LOCAL0_OFFSET+2(%ebp) # set "to zero" rounding mode andb $0xf,%cl # ecx<- A .if 1 fistpll (rFP,%ecx,4) # convert and store .else fistpl (rFP,%ecx,4) # convert and store .endif fldcw LOCAL0_OFFSET(%ebp) # restore previous rounding mode .if 1 movl $0x80000000,%eax xorl 4(rFP,%ecx,4),%eax orl (rFP,%ecx,4),%eax .else cmpl $0x80000000,(rFP,%ecx,4) .endif je .LOP_DOUBLE_TO_LONG_special_case # fix up result .LOP_DOUBLE_TO_LONG_finish: FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx .LOP_DOUBLE_TO_LONG_special_case: fnstsw %ax sahf jp .LOP_DOUBLE_TO_LONG_isNaN adcl $-1,(rFP,%ecx,4) .if 1 adcl $-1,4(rFP,%ecx,4) .endif jmp .LOP_DOUBLE_TO_LONG_finish .LOP_DOUBLE_TO_LONG_isNaN: movl $0,(rFP,%ecx,4) .if 1 movl $0,4(rFP,%ecx,4) .endif jmp .LOP_DOUBLE_TO_LONG_finish /* ------------------------------ */ .L_OP_DOUBLE_TO_FLOAT: /* 0x8c */ /* File: x86/OP_DOUBLE_TO_FLOAT.S */ /* File: x86/fpcvt.S */ /* * Generic 32-bit FP conversion operation. */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B fldl (rFP,rINST,4) # %st0<- vB andb $0xf,%cl # ecx<- A fstps (rFP,%ecx,4) # vA<- %st0 FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_INT_TO_BYTE: /* 0x8d */ /* File: x86/OP_INT_TO_BYTE.S */ /* File: x86/unop.S */ /* * Generic 32-bit unary operation. Provide an "instr" line that * specifies an instruction that performs "result = op eax". */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A movsbl %al,%eax SET_VREG %eax %ecx FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_INT_TO_CHAR: /* 0x8e */ /* File: x86/OP_INT_TO_CHAR.S */ /* File: x86/unop.S */ /* * Generic 32-bit unary operation. Provide an "instr" line that * specifies an instruction that performs "result = op eax". */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A movzwl %ax,%eax SET_VREG %eax %ecx FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_INT_TO_SHORT: /* 0x8f */ /* File: x86/OP_INT_TO_SHORT.S */ /* File: x86/unop.S */ /* * Generic 32-bit unary operation. Provide an "instr" line that * specifies an instruction that performs "result = op eax". */ /* unop vA, vB */ movzbl rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A movswl %ax,%eax SET_VREG %eax %ecx FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_ADD_INT: /* 0x90 */ /* File: x86/OP_ADD_INT.S */ /* File: x86/binop.S */ /* * Generic 32-bit binary operation. Provide an "instr" line that * specifies an instruction that performs "result = eax op (rFP,%ecx,4)". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than eax, you can override "result".) * * For: add-int, sub-int, and-int, or-int, * xor-int, shl-int, shr-int, ushr-int */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB addl (rFP,%ecx,4),%eax # ex: addl (rFP,%ecx,4),%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SUB_INT: /* 0x91 */ /* File: x86/OP_SUB_INT.S */ /* File: x86/binop.S */ /* * Generic 32-bit binary operation. Provide an "instr" line that * specifies an instruction that performs "result = eax op (rFP,%ecx,4)". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than eax, you can override "result".) * * For: add-int, sub-int, and-int, or-int, * xor-int, shl-int, shr-int, ushr-int */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB subl (rFP,%ecx,4),%eax # ex: addl (rFP,%ecx,4),%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MUL_INT: /* 0x92 */ /* File: x86/OP_MUL_INT.S */ /* * 32-bit binary multiplication. */ /* mul vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB SPILL(rIBASE) imull (rFP,%ecx,4),%eax # trashes rIBASE/edx UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_DIV_INT: /* 0x93 */ /* File: x86/OP_DIV_INT.S */ /* File: x86/bindiv.S */ /* * 32-bit binary div/rem operation. Handles special case of op0=minint and * op1=-1. */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB GET_VREG_R %ecx %ecx # eax<- vBB SPILL(rIBASE) cmpl $0,%ecx je common_errDivideByZero cmpl $-1,%ecx jne .LOP_DIV_INT_continue_div cmpl $0x80000000,%eax jne .LOP_DIV_INT_continue_div movl $0x80000000,%eax SET_VREG %eax rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_DIV_INT_continue_div: cltd idivl %ecx SET_VREG %eax rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_REM_INT: /* 0x94 */ /* File: x86/OP_REM_INT.S */ /* File: x86/bindiv.S */ /* * 32-bit binary div/rem operation. Handles special case of op0=minint and * op1=-1. */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB GET_VREG_R %ecx %ecx # eax<- vBB SPILL(rIBASE) cmpl $0,%ecx je common_errDivideByZero cmpl $-1,%ecx jne .LOP_REM_INT_continue_div cmpl $0x80000000,%eax jne .LOP_REM_INT_continue_div movl $0,rIBASE SET_VREG rIBASE rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_REM_INT_continue_div: cltd idivl %ecx SET_VREG rIBASE rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_AND_INT: /* 0x95 */ /* File: x86/OP_AND_INT.S */ /* File: x86/binop.S */ /* * Generic 32-bit binary operation. Provide an "instr" line that * specifies an instruction that performs "result = eax op (rFP,%ecx,4)". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than eax, you can override "result".) * * For: add-int, sub-int, and-int, or-int, * xor-int, shl-int, shr-int, ushr-int */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB andl (rFP,%ecx,4),%eax # ex: addl (rFP,%ecx,4),%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_OR_INT: /* 0x96 */ /* File: x86/OP_OR_INT.S */ /* File: x86/binop.S */ /* * Generic 32-bit binary operation. Provide an "instr" line that * specifies an instruction that performs "result = eax op (rFP,%ecx,4)". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than eax, you can override "result".) * * For: add-int, sub-int, and-int, or-int, * xor-int, shl-int, shr-int, ushr-int */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB orl (rFP,%ecx,4),%eax # ex: addl (rFP,%ecx,4),%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_XOR_INT: /* 0x97 */ /* File: x86/OP_XOR_INT.S */ /* File: x86/binop.S */ /* * Generic 32-bit binary operation. Provide an "instr" line that * specifies an instruction that performs "result = eax op (rFP,%ecx,4)". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than eax, you can override "result".) * * For: add-int, sub-int, and-int, or-int, * xor-int, shl-int, shr-int, ushr-int */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB xorl (rFP,%ecx,4),%eax # ex: addl (rFP,%ecx,4),%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SHL_INT: /* 0x98 */ /* File: x86/OP_SHL_INT.S */ /* File: x86/binop1.S */ /* * Generic 32-bit binary operation in which both operands loaded to * registers (op0 in eax, op1 in ecx). */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB GET_VREG_R %ecx %ecx # eax<- vBB sall %cl,%eax # ex: addl %ecx,%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SHR_INT: /* 0x99 */ /* File: x86/OP_SHR_INT.S */ /* File: x86/binop1.S */ /* * Generic 32-bit binary operation in which both operands loaded to * registers (op0 in eax, op1 in ecx). */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB GET_VREG_R %ecx %ecx # eax<- vBB sarl %cl,%eax # ex: addl %ecx,%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_USHR_INT: /* 0x9a */ /* File: x86/OP_USHR_INT.S */ /* File: x86/binop1.S */ /* * Generic 32-bit binary operation in which both operands loaded to * registers (op0 in eax, op1 in ecx). */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC GET_VREG_R %eax %eax # eax<- vBB GET_VREG_R %ecx %ecx # eax<- vBB shrl %cl,%eax # ex: addl %ecx,%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_ADD_LONG: /* 0x9b */ /* File: x86/OP_ADD_LONG.S */ /* File: x86/binopWide.S */ /* * Generic 64-bit binary operation. */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC SPILL(rIBASE) # save rIBASE GET_VREG_WORD rIBASE %eax 0 # rIBASE<- v[BB+0] GET_VREG_WORD %eax %eax 1 # eax<- v[BB+1] addl (rFP,%ecx,4),rIBASE # ex: addl (rFP,%ecx,4),rIBASE adcl 4(rFP,%ecx,4),%eax # ex: adcl 4(rFP,%ecx,4),%eax SET_VREG_WORD rIBASE rINST 0 # v[AA+0] <- rIBASE FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) # restore rIBASE SET_VREG_WORD %eax rINST 1 # v[AA+1] <- eax ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SUB_LONG: /* 0x9c */ /* File: x86/OP_SUB_LONG.S */ /* File: x86/binopWide.S */ /* * Generic 64-bit binary operation. */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC SPILL(rIBASE) # save rIBASE GET_VREG_WORD rIBASE %eax 0 # rIBASE<- v[BB+0] GET_VREG_WORD %eax %eax 1 # eax<- v[BB+1] subl (rFP,%ecx,4),rIBASE # ex: addl (rFP,%ecx,4),rIBASE sbbl 4(rFP,%ecx,4),%eax # ex: adcl 4(rFP,%ecx,4),%eax SET_VREG_WORD rIBASE rINST 0 # v[AA+0] <- rIBASE FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) # restore rIBASE SET_VREG_WORD %eax rINST 1 # v[AA+1] <- eax ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MUL_LONG: /* 0x9d */ /* File: x86/OP_MUL_LONG.S */ /* * Signed 64-bit integer multiply. * * We could definately use more free registers for * this code. We spill rINSTw (ebx), * giving us eax, ebc, ecx and edx as computational * temps. On top of that, we'll spill edi (rFP) * for use as the vB pointer and esi (rPC) for use * as the vC pointer. Yuck. */ /* mul-long vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- B movzbl 3(rPC),%ecx # ecx<- C SPILL_TMP2(%esi) # save Dalvik PC SPILL(rFP) SPILL(rINST) SPILL(rIBASE) leal (rFP,%eax,4),%esi # esi<- &v[B] leal (rFP,%ecx,4),rFP # rFP<- &v[C] movl 4(%esi),%ecx # ecx<- Bmsw imull (rFP),%ecx # ecx<- (Bmsw*Clsw) movl 4(rFP),%eax # eax<- Cmsw imull (%esi),%eax # eax<- (Cmsw*Blsw) addl %eax,%ecx # ecx<- (Bmsw*Clsw)+(Cmsw*Blsw) movl (rFP),%eax # eax<- Clsw mull (%esi) # eax<- (Clsw*Alsw) UNSPILL(rINST) UNSPILL(rFP) leal (%ecx,rIBASE),rIBASE # full result now in rIBASE:%eax UNSPILL_TMP2(%esi) # Restore Dalvik PC FETCH_INST_OPCODE 2 %ecx # Fetch next instruction movl rIBASE,4(rFP,rINST,4)# v[B+1]<- rIBASE UNSPILL(rIBASE) movl %eax,(rFP,rINST,4) # v[B]<- %eax ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_DIV_LONG: /* 0x9e */ /* File: x86/OP_DIV_LONG.S */ /* div vAA, vBB, vCC */ movzbl 3(rPC),%eax # eax<- CC movzbl 2(rPC),%ecx # ecx<- BB SPILL(rIBASE) # save rIBASE/%edx GET_VREG_WORD rIBASE %eax 0 GET_VREG_WORD %eax %eax 1 movl rIBASE,OUT_ARG2(%esp) testl %eax,%eax je .LOP_DIV_LONG_check_zero cmpl $-1,%eax je .LOP_DIV_LONG_check_neg1 .LOP_DIV_LONG_notSpecial: GET_VREG_WORD rIBASE %ecx 0 GET_VREG_WORD %ecx %ecx 1 .LOP_DIV_LONG_notSpecial1: movl %eax,OUT_ARG3(%esp) movl rIBASE,OUT_ARG0(%esp) movl %ecx,OUT_ARG1(%esp) call __divdi3 .LOP_DIV_LONG_finish: SET_VREG_WORD rIBASE rINST 1 UNSPILL(rIBASE) # restore rIBASE/%edx SET_VREG_WORD %eax rINST 0 FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_DIV_LONG_check_zero: testl rIBASE,rIBASE jne .LOP_DIV_LONG_notSpecial jmp common_errDivideByZero .LOP_DIV_LONG_check_neg1: testl rIBASE,%eax jne .LOP_DIV_LONG_notSpecial GET_VREG_WORD rIBASE %ecx 0 GET_VREG_WORD %ecx %ecx 1 testl rIBASE,rIBASE jne .LOP_DIV_LONG_notSpecial1 cmpl $0x80000000,%ecx jne .LOP_DIV_LONG_notSpecial1 /* minint / -1, return minint on div, 0 on rem */ xorl %eax,%eax movl $0x80000000,rIBASE jmp .LOP_DIV_LONG_finish /* ------------------------------ */ .L_OP_REM_LONG: /* 0x9f */ /* File: x86/OP_REM_LONG.S */ /* File: x86/OP_DIV_LONG.S */ /* div vAA, vBB, vCC */ movzbl 3(rPC),%eax # eax<- CC movzbl 2(rPC),%ecx # ecx<- BB SPILL(rIBASE) # save rIBASE/%edx GET_VREG_WORD rIBASE %eax 0 GET_VREG_WORD %eax %eax 1 movl rIBASE,OUT_ARG2(%esp) testl %eax,%eax je .LOP_REM_LONG_check_zero cmpl $-1,%eax je .LOP_REM_LONG_check_neg1 .LOP_REM_LONG_notSpecial: GET_VREG_WORD rIBASE %ecx 0 GET_VREG_WORD %ecx %ecx 1 .LOP_REM_LONG_notSpecial1: movl %eax,OUT_ARG3(%esp) movl rIBASE,OUT_ARG0(%esp) movl %ecx,OUT_ARG1(%esp) call __moddi3 .LOP_REM_LONG_finish: SET_VREG_WORD rIBASE rINST 1 UNSPILL(rIBASE) # restore rIBASE/%edx SET_VREG_WORD %eax rINST 0 FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_REM_LONG_check_zero: testl rIBASE,rIBASE jne .LOP_REM_LONG_notSpecial jmp common_errDivideByZero .LOP_REM_LONG_check_neg1: testl rIBASE,%eax jne .LOP_REM_LONG_notSpecial GET_VREG_WORD rIBASE %ecx 0 GET_VREG_WORD %ecx %ecx 1 testl rIBASE,rIBASE jne .LOP_REM_LONG_notSpecial1 cmpl $0x80000000,%ecx jne .LOP_REM_LONG_notSpecial1 /* minint / -1, return minint on div, 0 on rem */ xorl %eax,%eax movl $0,rIBASE jmp .LOP_REM_LONG_finish /* ------------------------------ */ .L_OP_AND_LONG: /* 0xa0 */ /* File: x86/OP_AND_LONG.S */ /* File: x86/binopWide.S */ /* * Generic 64-bit binary operation. */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC SPILL(rIBASE) # save rIBASE GET_VREG_WORD rIBASE %eax 0 # rIBASE<- v[BB+0] GET_VREG_WORD %eax %eax 1 # eax<- v[BB+1] andl (rFP,%ecx,4),rIBASE # ex: addl (rFP,%ecx,4),rIBASE andl 4(rFP,%ecx,4),%eax # ex: adcl 4(rFP,%ecx,4),%eax SET_VREG_WORD rIBASE rINST 0 # v[AA+0] <- rIBASE FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) # restore rIBASE SET_VREG_WORD %eax rINST 1 # v[AA+1] <- eax ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_OR_LONG: /* 0xa1 */ /* File: x86/OP_OR_LONG.S */ /* File: x86/binopWide.S */ /* * Generic 64-bit binary operation. */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC SPILL(rIBASE) # save rIBASE GET_VREG_WORD rIBASE %eax 0 # rIBASE<- v[BB+0] GET_VREG_WORD %eax %eax 1 # eax<- v[BB+1] orl (rFP,%ecx,4),rIBASE # ex: addl (rFP,%ecx,4),rIBASE orl 4(rFP,%ecx,4),%eax # ex: adcl 4(rFP,%ecx,4),%eax SET_VREG_WORD rIBASE rINST 0 # v[AA+0] <- rIBASE FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) # restore rIBASE SET_VREG_WORD %eax rINST 1 # v[AA+1] <- eax ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_XOR_LONG: /* 0xa2 */ /* File: x86/OP_XOR_LONG.S */ /* File: x86/binopWide.S */ /* * Generic 64-bit binary operation. */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC SPILL(rIBASE) # save rIBASE GET_VREG_WORD rIBASE %eax 0 # rIBASE<- v[BB+0] GET_VREG_WORD %eax %eax 1 # eax<- v[BB+1] xorl (rFP,%ecx,4),rIBASE # ex: addl (rFP,%ecx,4),rIBASE xorl 4(rFP,%ecx,4),%eax # ex: adcl 4(rFP,%ecx,4),%eax SET_VREG_WORD rIBASE rINST 0 # v[AA+0] <- rIBASE FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) # restore rIBASE SET_VREG_WORD %eax rINST 1 # v[AA+1] <- eax ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SHL_LONG: /* 0xa3 */ /* File: x86/OP_SHL_LONG.S */ /* * Long integer shift. This is different from the generic 32/64-bit * binary operations because vAA/vBB are 64-bit but vCC (the shift * distance) is 32-bit. Also, Dalvik requires us to mask off the low * 6 bits of the shift distance. x86 shifts automatically mask off * the low 5 bits of %cl, so have to handle the 64 > shiftcount > 31 * case specially. */ /* shl-long vAA, vBB, vCC */ /* ecx gets shift count */ /* Need to spill rINST */ /* rINSTw gets AA */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC SPILL(rIBASE) GET_VREG_WORD rIBASE %eax 1 # ecx<- v[BB+1] GET_VREG_R %ecx %ecx # ecx<- vCC GET_VREG_WORD %eax %eax 0 # eax<- v[BB+0] shldl %eax,rIBASE sall %cl,%eax testb $32,%cl je 2f movl %eax,rIBASE xorl %eax,%eax 2: SET_VREG_WORD rIBASE rINST 1 # v[AA+1]<- rIBASE FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) SET_VREG_WORD %eax rINST 0 # v[AA+0]<- %eax ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SHR_LONG: /* 0xa4 */ /* File: x86/OP_SHR_LONG.S */ /* * Long integer shift. This is different from the generic 32/64-bit * binary operations because vAA/vBB are 64-bit but vCC (the shift * distance) is 32-bit. Also, Dalvik requires us to mask off the low * 6 bits of the shift distance. x86 shifts automatically mask off * the low 5 bits of %cl, so have to handle the 64 > shiftcount > 31 * case specially. */ /* shr-long vAA, vBB, vCC */ /* ecx gets shift count */ /* Need to spill rIBASE */ /* rINSTw gets AA */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC SPILL(rIBASE) GET_VREG_WORD rIBASE %eax 1 # rIBASE<- v[BB+1] GET_VREG_R %ecx %ecx # ecx<- vCC GET_VREG_WORD %eax %eax 0 # eax<- v[BB+0] shrdl rIBASE,%eax sarl %cl,rIBASE testb $32,%cl je 2f movl rIBASE,%eax sarl $31,rIBASE 2: SET_VREG_WORD rIBASE rINST 1 # v[AA+1]<- rIBASE FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) SET_VREG_WORD %eax rINST 0 # v[AA+0]<- eax ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_USHR_LONG: /* 0xa5 */ /* File: x86/OP_USHR_LONG.S */ /* * Long integer shift. This is different from the generic 32/64-bit * binary operations because vAA/vBB are 64-bit but vCC (the shift * distance) is 32-bit. Also, Dalvik requires us to mask off the low * 6 bits of the shift distance. x86 shifts automatically mask off * the low 5 bits of %cl, so have to handle the 64 > shiftcount > 31 * case specially. */ /* shr-long vAA, vBB, vCC */ /* ecx gets shift count */ /* Need to spill rIBASE */ /* rINSTw gets AA */ movzbl 2(rPC),%eax # eax<- BB movzbl 3(rPC),%ecx # ecx<- CC SPILL(rIBASE) GET_VREG_WORD rIBASE %eax 1 # rIBASE<- v[BB+1] GET_VREG_R %ecx %ecx # ecx<- vCC GET_VREG_WORD %eax %eax 0 # eax<- v[BB+0] shrdl rIBASE,%eax shrl %cl,rIBASE testb $32,%cl je 2f movl rIBASE,%eax xorl rIBASE,rIBASE 2: SET_VREG_WORD rIBASE rINST 1 # v[AA+1]<- rIBASE FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) SET_VREG_WORD %eax rINST 0 # v[BB+0]<- eax ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_ADD_FLOAT: /* 0xa6 */ /* File: x86/OP_ADD_FLOAT.S */ /* File: x86/binflop.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- CC movzbl 3(rPC),%ecx # ecx<- BB flds (rFP,%eax,4) # vCC to fp stack fadds (rFP,%ecx,4) # ex: faddp FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 fstps (rFP,rINST,4) # %st to vAA GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SUB_FLOAT: /* 0xa7 */ /* File: x86/OP_SUB_FLOAT.S */ /* File: x86/binflop.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- CC movzbl 3(rPC),%ecx # ecx<- BB flds (rFP,%eax,4) # vCC to fp stack fsubs (rFP,%ecx,4) # ex: faddp FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 fstps (rFP,rINST,4) # %st to vAA GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MUL_FLOAT: /* 0xa8 */ /* File: x86/OP_MUL_FLOAT.S */ /* File: x86/binflop.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- CC movzbl 3(rPC),%ecx # ecx<- BB flds (rFP,%eax,4) # vCC to fp stack fmuls (rFP,%ecx,4) # ex: faddp FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 fstps (rFP,rINST,4) # %st to vAA GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_DIV_FLOAT: /* 0xa9 */ /* File: x86/OP_DIV_FLOAT.S */ /* File: x86/binflop.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- CC movzbl 3(rPC),%ecx # ecx<- BB flds (rFP,%eax,4) # vCC to fp stack fdivs (rFP,%ecx,4) # ex: faddp FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 fstps (rFP,rINST,4) # %st to vAA GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_REM_FLOAT: /* 0xaa */ /* File: x86/OP_REM_FLOAT.S */ /* rem_float vAA, vBB, vCC */ movzbl 3(rPC),%ecx # ecx<- BB movzbl 2(rPC),%eax # eax<- CC flds (rFP,%ecx,4) # vCC to fp stack flds (rFP,%eax,4) # vCC to fp stack movzbl rINSTbl,%ecx # ecx<- AA 1: fprem fstsw %ax sahf jp 1b fstp %st(1) FETCH_INST_OPCODE 2 %eax ADVANCE_PC 2 fstps (rFP,%ecx,4) # %st to vAA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_ADD_DOUBLE: /* 0xab */ /* File: x86/OP_ADD_DOUBLE.S */ /* File: x86/binflop.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- CC movzbl 3(rPC),%ecx # ecx<- BB fldl (rFP,%eax,4) # vCC to fp stack faddl (rFP,%ecx,4) # ex: faddp FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 fstpl (rFP,rINST,4) # %st to vAA GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SUB_DOUBLE: /* 0xac */ /* File: x86/OP_SUB_DOUBLE.S */ /* File: x86/binflop.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- CC movzbl 3(rPC),%ecx # ecx<- BB fldl (rFP,%eax,4) # vCC to fp stack fsubl (rFP,%ecx,4) # ex: faddp FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 fstpl (rFP,rINST,4) # %st to vAA GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MUL_DOUBLE: /* 0xad */ /* File: x86/OP_MUL_DOUBLE.S */ /* File: x86/binflop.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- CC movzbl 3(rPC),%ecx # ecx<- BB fldl (rFP,%eax,4) # vCC to fp stack fmull (rFP,%ecx,4) # ex: faddp FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 fstpl (rFP,rINST,4) # %st to vAA GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_DIV_DOUBLE: /* 0xae */ /* File: x86/OP_DIV_DOUBLE.S */ /* File: x86/binflop.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop vAA, vBB, vCC */ movzbl 2(rPC),%eax # eax<- CC movzbl 3(rPC),%ecx # ecx<- BB fldl (rFP,%eax,4) # vCC to fp stack fdivl (rFP,%ecx,4) # ex: faddp FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 fstpl (rFP,rINST,4) # %st to vAA GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_REM_DOUBLE: /* 0xaf */ /* File: x86/OP_REM_DOUBLE.S */ /* rem_float vAA, vBB, vCC */ movzbl 3(rPC),%ecx # ecx<- BB movzbl 2(rPC),%eax # eax<- CC fldl (rFP,%ecx,4) # vCC to fp stack fldl (rFP,%eax,4) # vCC to fp stack FETCH_INST_OPCODE 2 %ecx 1: fprem fstsw %ax sahf jp 1b fstp %st(1) ADVANCE_PC 2 fstpl (rFP,rINST,4) # %st to vAA GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_ADD_INT_2ADDR: /* 0xb0 */ /* File: x86/OP_ADD_INT_2ADDR.S */ /* File: x86/binop2addr.S */ /* * Generic 32-bit "/2addr" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = r0 op r1". * This could be an ARM instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * If "chkzero" is set to 1, we perform a divide-by-zero check on * vCC (r1). Useful for integer division and modulus. * * For: add-int/2addr, sub-int/2addr, mul-int/2addr, div-int/2addr, * rem-int/2addr, and-int/2addr, or-int/2addr, xor-int/2addr, * shl-int/2addr, shr-int/2addr, ushr-int/2addr, add-float/2addr, * sub-float/2addr, mul-float/2addr, div-float/2addr, rem-float/2addr */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A addl %eax,(rFP,%ecx,4) # for ex: addl %eax,(rFP,%ecx,4) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SUB_INT_2ADDR: /* 0xb1 */ /* File: x86/OP_SUB_INT_2ADDR.S */ /* File: x86/binop2addr.S */ /* * Generic 32-bit "/2addr" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = r0 op r1". * This could be an ARM instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * If "chkzero" is set to 1, we perform a divide-by-zero check on * vCC (r1). Useful for integer division and modulus. * * For: add-int/2addr, sub-int/2addr, mul-int/2addr, div-int/2addr, * rem-int/2addr, and-int/2addr, or-int/2addr, xor-int/2addr, * shl-int/2addr, shr-int/2addr, ushr-int/2addr, add-float/2addr, * sub-float/2addr, mul-float/2addr, div-float/2addr, rem-float/2addr */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A subl %eax,(rFP,%ecx,4) # for ex: addl %eax,(rFP,%ecx,4) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MUL_INT_2ADDR: /* 0xb2 */ /* File: x86/OP_MUL_INT_2ADDR.S */ /* mul vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A SPILL(rIBASE) imull (rFP,%ecx,4),%eax # trashes rIBASE/edx UNSPILL(rIBASE) SET_VREG %eax %ecx FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_DIV_INT_2ADDR: /* 0xb3 */ /* File: x86/OP_DIV_INT_2ADDR.S */ /* File: x86/bindiv2addr.S */ /* * 32-bit binary div/rem operation. Handles special case of op0=minint and * op1=-1. */ /* div/rem/2addr vA, vB */ movzx rINSTbl,%ecx # eax<- BA SPILL(rIBASE) sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # eax<- vBB andb $0xf,rINSTbl # rINST<- A GET_VREG_R %eax rINST # eax<- vBB cmpl $0,%ecx je common_errDivideByZero cmpl $-1,%ecx jne .LOP_DIV_INT_2ADDR_continue_div2addr cmpl $0x80000000,%eax jne .LOP_DIV_INT_2ADDR_continue_div2addr movl $0x80000000,%eax SET_VREG %eax rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx .LOP_DIV_INT_2ADDR_continue_div2addr: cltd idivl %ecx SET_VREG %eax rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_REM_INT_2ADDR: /* 0xb4 */ /* File: x86/OP_REM_INT_2ADDR.S */ /* File: x86/bindiv2addr.S */ /* * 32-bit binary div/rem operation. Handles special case of op0=minint and * op1=-1. */ /* div/rem/2addr vA, vB */ movzx rINSTbl,%ecx # eax<- BA SPILL(rIBASE) sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # eax<- vBB andb $0xf,rINSTbl # rINST<- A GET_VREG_R %eax rINST # eax<- vBB cmpl $0,%ecx je common_errDivideByZero cmpl $-1,%ecx jne .LOP_REM_INT_2ADDR_continue_div2addr cmpl $0x80000000,%eax jne .LOP_REM_INT_2ADDR_continue_div2addr movl $0,rIBASE SET_VREG rIBASE rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx .LOP_REM_INT_2ADDR_continue_div2addr: cltd idivl %ecx SET_VREG rIBASE rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_AND_INT_2ADDR: /* 0xb5 */ /* File: x86/OP_AND_INT_2ADDR.S */ /* File: x86/binop2addr.S */ /* * Generic 32-bit "/2addr" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = r0 op r1". * This could be an ARM instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * If "chkzero" is set to 1, we perform a divide-by-zero check on * vCC (r1). Useful for integer division and modulus. * * For: add-int/2addr, sub-int/2addr, mul-int/2addr, div-int/2addr, * rem-int/2addr, and-int/2addr, or-int/2addr, xor-int/2addr, * shl-int/2addr, shr-int/2addr, ushr-int/2addr, add-float/2addr, * sub-float/2addr, mul-float/2addr, div-float/2addr, rem-float/2addr */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A andl %eax,(rFP,%ecx,4) # for ex: addl %eax,(rFP,%ecx,4) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_OR_INT_2ADDR: /* 0xb6 */ /* File: x86/OP_OR_INT_2ADDR.S */ /* File: x86/binop2addr.S */ /* * Generic 32-bit "/2addr" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = r0 op r1". * This could be an ARM instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * If "chkzero" is set to 1, we perform a divide-by-zero check on * vCC (r1). Useful for integer division and modulus. * * For: add-int/2addr, sub-int/2addr, mul-int/2addr, div-int/2addr, * rem-int/2addr, and-int/2addr, or-int/2addr, xor-int/2addr, * shl-int/2addr, shr-int/2addr, ushr-int/2addr, add-float/2addr, * sub-float/2addr, mul-float/2addr, div-float/2addr, rem-float/2addr */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A orl %eax,(rFP,%ecx,4) # for ex: addl %eax,(rFP,%ecx,4) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_XOR_INT_2ADDR: /* 0xb7 */ /* File: x86/OP_XOR_INT_2ADDR.S */ /* File: x86/binop2addr.S */ /* * Generic 32-bit "/2addr" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = r0 op r1". * This could be an ARM instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * If "chkzero" is set to 1, we perform a divide-by-zero check on * vCC (r1). Useful for integer division and modulus. * * For: add-int/2addr, sub-int/2addr, mul-int/2addr, div-int/2addr, * rem-int/2addr, and-int/2addr, or-int/2addr, xor-int/2addr, * shl-int/2addr, shr-int/2addr, ushr-int/2addr, add-float/2addr, * sub-float/2addr, mul-float/2addr, div-float/2addr, rem-float/2addr */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B GET_VREG_R %eax rINST # eax<- vB andb $0xf,%cl # ecx<- A xorl %eax,(rFP,%ecx,4) # for ex: addl %eax,(rFP,%ecx,4) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SHL_INT_2ADDR: /* 0xb8 */ /* File: x86/OP_SHL_INT_2ADDR.S */ /* File: x86/shop2addr.S */ /* * Generic 32-bit "shift/2addr" operation. */ /* shift/2addr vA, vB */ movzx rINSTbl,%ecx # eax<- BA sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # eax<- vBB andb $0xf,rINSTbl # rINST<- A GET_VREG_R %eax rINST # eax<- vAA sall %cl,%eax # ex: sarl %cl,%eax FETCH_INST_OPCODE 1 %ecx SET_VREG %eax rINST ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SHR_INT_2ADDR: /* 0xb9 */ /* File: x86/OP_SHR_INT_2ADDR.S */ /* File: x86/shop2addr.S */ /* * Generic 32-bit "shift/2addr" operation. */ /* shift/2addr vA, vB */ movzx rINSTbl,%ecx # eax<- BA sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # eax<- vBB andb $0xf,rINSTbl # rINST<- A GET_VREG_R %eax rINST # eax<- vAA sarl %cl,%eax # ex: sarl %cl,%eax FETCH_INST_OPCODE 1 %ecx SET_VREG %eax rINST ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_USHR_INT_2ADDR: /* 0xba */ /* File: x86/OP_USHR_INT_2ADDR.S */ /* File: x86/shop2addr.S */ /* * Generic 32-bit "shift/2addr" operation. */ /* shift/2addr vA, vB */ movzx rINSTbl,%ecx # eax<- BA sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # eax<- vBB andb $0xf,rINSTbl # rINST<- A GET_VREG_R %eax rINST # eax<- vAA shrl %cl,%eax # ex: sarl %cl,%eax FETCH_INST_OPCODE 1 %ecx SET_VREG %eax rINST ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_ADD_LONG_2ADDR: /* 0xbb */ /* File: x86/OP_ADD_LONG_2ADDR.S */ /* File: x86/binopWide2addr.S */ /* * Generic 64-bit binary operation. */ /* binop/2addr vA, vB */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_WORD %eax %ecx 0 # eax<- v[B+0] GET_VREG_WORD %ecx %ecx 1 # eax<- v[B+1] andb $0xF,rINSTbl # rINST<- A addl %eax,(rFP,rINST,4) # example: addl %eax,(rFP,rINST,4) adcl %ecx,4(rFP,rINST,4) # example: adcl %ecx,4(rFP,rINST,4) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SUB_LONG_2ADDR: /* 0xbc */ /* File: x86/OP_SUB_LONG_2ADDR.S */ /* File: x86/binopWide2addr.S */ /* * Generic 64-bit binary operation. */ /* binop/2addr vA, vB */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_WORD %eax %ecx 0 # eax<- v[B+0] GET_VREG_WORD %ecx %ecx 1 # eax<- v[B+1] andb $0xF,rINSTbl # rINST<- A subl %eax,(rFP,rINST,4) # example: addl %eax,(rFP,rINST,4) sbbl %ecx,4(rFP,rINST,4) # example: adcl %ecx,4(rFP,rINST,4) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MUL_LONG_2ADDR: /* 0xbd */ /* File: x86/OP_MUL_LONG_2ADDR.S */ /* * Signed 64-bit integer multiply, 2-addr version * * We could definately use more free registers for * this code. We must spill %edx (rIBASE) because it * is used by imul. We'll also spill rINST (ebx), * giving us eax, ebc, ecx and rIBASE as computational * temps. On top of that, we'll spill %esi (edi) * for use as the vA pointer and rFP (esi) for use * as the vB pointer. Yuck. */ /* mul-long/2addr vA, vB */ movzbl rINSTbl,%eax # eax<- BA andb $0xf,%al # eax<- A sarl $4,rINST # rINST<- B SPILL_TMP2(%esi) SPILL(rFP) SPILL(rIBASE) leal (rFP,%eax,4),%esi # %esi<- &v[A] leal (rFP,rINST,4),rFP # rFP<- &v[B] movl 4(%esi),%ecx # ecx<- Amsw imull (rFP),%ecx # ecx<- (Amsw*Blsw) movl 4(rFP),%eax # eax<- Bmsw imull (%esi),%eax # eax<- (Bmsw*Alsw) addl %eax,%ecx # ecx<- (Amsw*Blsw)+(Bmsw*Alsw) movl (rFP),%eax # eax<- Blsw mull (%esi) # eax<- (Blsw*Alsw) leal (%ecx,rIBASE),rIBASE # full result now in %edx:%eax movl rIBASE,4(%esi) # v[A+1]<- rIBASE movl %eax,(%esi) # v[A]<- %eax UNSPILL_TMP2(%esi) FETCH_INST_OPCODE 1 %ecx UNSPILL(rIBASE) UNSPILL(rFP) ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_DIV_LONG_2ADDR: /* 0xbe */ /* File: x86/OP_DIV_LONG_2ADDR.S */ /* div/2addr vA, vB */ movzbl rINSTbl,%eax shrl $4,%eax # eax<- B andb $0xf,rINSTbl # rINST<- A SPILL(rIBASE) # save rIBASE/%edx GET_VREG_WORD rIBASE %eax 0 GET_VREG_WORD %eax %eax 1 movl rIBASE,OUT_ARG2(%esp) testl %eax,%eax je .LOP_DIV_LONG_2ADDR_check_zero cmpl $-1,%eax je .LOP_DIV_LONG_2ADDR_check_neg1 .LOP_DIV_LONG_2ADDR_notSpecial: GET_VREG_WORD rIBASE rINST 0 GET_VREG_WORD %ecx rINST 1 .LOP_DIV_LONG_2ADDR_notSpecial1: movl %eax,OUT_ARG3(%esp) movl rIBASE,OUT_ARG0(%esp) movl %ecx,OUT_ARG1(%esp) call __divdi3 .LOP_DIV_LONG_2ADDR_finish: SET_VREG_WORD rIBASE rINST 1 UNSPILL(rIBASE) # restore rIBASE/%edx SET_VREG_WORD %eax rINST 0 FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx .LOP_DIV_LONG_2ADDR_check_zero: testl rIBASE,rIBASE jne .LOP_DIV_LONG_2ADDR_notSpecial jmp common_errDivideByZero .LOP_DIV_LONG_2ADDR_check_neg1: testl rIBASE,%eax jne .LOP_DIV_LONG_2ADDR_notSpecial GET_VREG_WORD rIBASE rINST 0 GET_VREG_WORD %ecx rINST 1 testl rIBASE,rIBASE jne .LOP_DIV_LONG_2ADDR_notSpecial1 cmpl $0x80000000,%ecx jne .LOP_DIV_LONG_2ADDR_notSpecial1 /* minint / -1, return minint on div, 0 on rem */ xorl %eax,%eax movl $0x80000000,rIBASE jmp .LOP_DIV_LONG_2ADDR_finish /* ------------------------------ */ .L_OP_REM_LONG_2ADDR: /* 0xbf */ /* File: x86/OP_REM_LONG_2ADDR.S */ /* File: x86/OP_DIV_LONG_2ADDR.S */ /* div/2addr vA, vB */ movzbl rINSTbl,%eax shrl $4,%eax # eax<- B andb $0xf,rINSTbl # rINST<- A SPILL(rIBASE) # save rIBASE/%edx GET_VREG_WORD rIBASE %eax 0 GET_VREG_WORD %eax %eax 1 movl rIBASE,OUT_ARG2(%esp) testl %eax,%eax je .LOP_REM_LONG_2ADDR_check_zero cmpl $-1,%eax je .LOP_REM_LONG_2ADDR_check_neg1 .LOP_REM_LONG_2ADDR_notSpecial: GET_VREG_WORD rIBASE rINST 0 GET_VREG_WORD %ecx rINST 1 .LOP_REM_LONG_2ADDR_notSpecial1: movl %eax,OUT_ARG3(%esp) movl rIBASE,OUT_ARG0(%esp) movl %ecx,OUT_ARG1(%esp) call __moddi3 .LOP_REM_LONG_2ADDR_finish: SET_VREG_WORD rIBASE rINST 1 UNSPILL(rIBASE) # restore rIBASE/%edx SET_VREG_WORD %eax rINST 0 FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx .LOP_REM_LONG_2ADDR_check_zero: testl rIBASE,rIBASE jne .LOP_REM_LONG_2ADDR_notSpecial jmp common_errDivideByZero .LOP_REM_LONG_2ADDR_check_neg1: testl rIBASE,%eax jne .LOP_REM_LONG_2ADDR_notSpecial GET_VREG_WORD rIBASE rINST 0 GET_VREG_WORD %ecx rINST 1 testl rIBASE,rIBASE jne .LOP_REM_LONG_2ADDR_notSpecial1 cmpl $0x80000000,%ecx jne .LOP_REM_LONG_2ADDR_notSpecial1 /* minint / -1, return minint on div, 0 on rem */ xorl %eax,%eax movl $0,rIBASE jmp .LOP_REM_LONG_2ADDR_finish /* ------------------------------ */ .L_OP_AND_LONG_2ADDR: /* 0xc0 */ /* File: x86/OP_AND_LONG_2ADDR.S */ /* File: x86/binopWide2addr.S */ /* * Generic 64-bit binary operation. */ /* binop/2addr vA, vB */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_WORD %eax %ecx 0 # eax<- v[B+0] GET_VREG_WORD %ecx %ecx 1 # eax<- v[B+1] andb $0xF,rINSTbl # rINST<- A andl %eax,(rFP,rINST,4) # example: addl %eax,(rFP,rINST,4) andl %ecx,4(rFP,rINST,4) # example: adcl %ecx,4(rFP,rINST,4) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_OR_LONG_2ADDR: /* 0xc1 */ /* File: x86/OP_OR_LONG_2ADDR.S */ /* File: x86/binopWide2addr.S */ /* * Generic 64-bit binary operation. */ /* binop/2addr vA, vB */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_WORD %eax %ecx 0 # eax<- v[B+0] GET_VREG_WORD %ecx %ecx 1 # eax<- v[B+1] andb $0xF,rINSTbl # rINST<- A orl %eax,(rFP,rINST,4) # example: addl %eax,(rFP,rINST,4) orl %ecx,4(rFP,rINST,4) # example: adcl %ecx,4(rFP,rINST,4) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_XOR_LONG_2ADDR: /* 0xc2 */ /* File: x86/OP_XOR_LONG_2ADDR.S */ /* File: x86/binopWide2addr.S */ /* * Generic 64-bit binary operation. */ /* binop/2addr vA, vB */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_WORD %eax %ecx 0 # eax<- v[B+0] GET_VREG_WORD %ecx %ecx 1 # eax<- v[B+1] andb $0xF,rINSTbl # rINST<- A xorl %eax,(rFP,rINST,4) # example: addl %eax,(rFP,rINST,4) xorl %ecx,4(rFP,rINST,4) # example: adcl %ecx,4(rFP,rINST,4) FETCH_INST_OPCODE 1 %ecx ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SHL_LONG_2ADDR: /* 0xc3 */ /* File: x86/OP_SHL_LONG_2ADDR.S */ /* * Long integer shift, 2addr version. vA is 64-bit value/result, vB is * 32-bit shift distance. */ /* shl-long/2addr vA, vB */ /* ecx gets shift count */ /* Need to spill rIBASE */ /* rINSTw gets AA */ movzbl rINSTbl,%ecx # ecx<- BA andb $0xf,rINSTbl # rINST<- A GET_VREG_WORD %eax rINST 0 # eax<- v[AA+0] sarl $4,%ecx # ecx<- B SPILL(rIBASE) GET_VREG_WORD rIBASE rINST 1 # rIBASE<- v[AA+1] GET_VREG_R %ecx %ecx # ecx<- vBB shldl %eax,rIBASE sall %cl,%eax testb $32,%cl je 2f movl %eax,rIBASE xorl %eax,%eax 2: SET_VREG_WORD rIBASE rINST 1 # v[AA+1]<- rIBASE UNSPILL(rIBASE) FETCH_INST_OPCODE 1 %ecx SET_VREG_WORD %eax rINST 0 # v[AA+0]<- eax ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SHR_LONG_2ADDR: /* 0xc4 */ /* File: x86/OP_SHR_LONG_2ADDR.S */ /* * Long integer shift, 2addr version. vA is 64-bit value/result, vB is * 32-bit shift distance. */ /* shl-long/2addr vA, vB */ /* ecx gets shift count */ /* Need to spill rIBASE */ /* rINSTw gets AA */ movzbl rINSTbl,%ecx # ecx<- BA andb $0xf,rINSTbl # rINST<- A GET_VREG_WORD %eax rINST 0 # eax<- v[AA+0] sarl $4,%ecx # ecx<- B SPILL(rIBASE) GET_VREG_WORD rIBASE rINST 1 # rIBASE<- v[AA+1] GET_VREG_R %ecx %ecx # ecx<- vBB shrdl rIBASE,%eax sarl %cl,rIBASE testb $32,%cl je 2f movl rIBASE,%eax sarl $31,rIBASE 2: SET_VREG_WORD rIBASE rINST 1 # v[AA+1]<- rIBASE UNSPILL(rIBASE) FETCH_INST_OPCODE 1 %ecx SET_VREG_WORD %eax rINST 0 # v[AA+0]<- eax ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_USHR_LONG_2ADDR: /* 0xc5 */ /* File: x86/OP_USHR_LONG_2ADDR.S */ /* * Long integer shift, 2addr version. vA is 64-bit value/result, vB is * 32-bit shift distance. */ /* shl-long/2addr vA, vB */ /* ecx gets shift count */ /* Need to spill rIBASE */ /* rINSTw gets AA */ movzbl rINSTbl,%ecx # ecx<- BA andb $0xf,rINSTbl # rINST<- A GET_VREG_WORD %eax rINST 0 # eax<- v[AA+0] sarl $4,%ecx # ecx<- B SPILL(rIBASE) GET_VREG_WORD rIBASE rINST 1 # rIBASE<- v[AA+1] GET_VREG_R %ecx %ecx # ecx<- vBB shrdl rIBASE,%eax shrl %cl,rIBASE testb $32,%cl je 2f movl rIBASE,%eax xorl rIBASE,rIBASE 2: SET_VREG_WORD rIBASE rINST 1 # v[AA+1]<- rIBASE FETCH_INST_OPCODE 1 %ecx UNSPILL(rIBASE) SET_VREG_WORD %eax rINST 0 # v[AA+0]<- eax ADVANCE_PC 1 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_ADD_FLOAT_2ADDR: /* 0xc6 */ /* File: x86/OP_ADD_FLOAT_2ADDR.S */ /* File: x86/binflop2addr.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ andb $0xf,%cl # ecx<- A flds (rFP,%ecx,4) # vAA to fp stack sarl $4,rINST # rINST<- B fadds (rFP,rINST,4) # ex: faddp FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 fstps (rFP,%ecx,4) # %st to vA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_SUB_FLOAT_2ADDR: /* 0xc7 */ /* File: x86/OP_SUB_FLOAT_2ADDR.S */ /* File: x86/binflop2addr.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ andb $0xf,%cl # ecx<- A flds (rFP,%ecx,4) # vAA to fp stack sarl $4,rINST # rINST<- B fsubs (rFP,rINST,4) # ex: faddp FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 fstps (rFP,%ecx,4) # %st to vA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_MUL_FLOAT_2ADDR: /* 0xc8 */ /* File: x86/OP_MUL_FLOAT_2ADDR.S */ /* File: x86/binflop2addr.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ andb $0xf,%cl # ecx<- A flds (rFP,%ecx,4) # vAA to fp stack sarl $4,rINST # rINST<- B fmuls (rFP,rINST,4) # ex: faddp FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 fstps (rFP,%ecx,4) # %st to vA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_DIV_FLOAT_2ADDR: /* 0xc9 */ /* File: x86/OP_DIV_FLOAT_2ADDR.S */ /* File: x86/binflop2addr.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ andb $0xf,%cl # ecx<- A flds (rFP,%ecx,4) # vAA to fp stack sarl $4,rINST # rINST<- B fdivs (rFP,rINST,4) # ex: faddp FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 fstps (rFP,%ecx,4) # %st to vA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_REM_FLOAT_2ADDR: /* 0xca */ /* File: x86/OP_REM_FLOAT_2ADDR.S */ /* rem_float/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B flds (rFP,rINST,4) # vBB to fp stack andb $0xf,%cl # ecx<- A flds (rFP,%ecx,4) # vAA to fp stack 1: fprem fstsw %ax sahf jp 1b fstp %st(1) FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 fstps (rFP,%ecx,4) # %st to vA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_ADD_DOUBLE_2ADDR: /* 0xcb */ /* File: x86/OP_ADD_DOUBLE_2ADDR.S */ /* File: x86/binflop2addr.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ andb $0xf,%cl # ecx<- A fldl (rFP,%ecx,4) # vAA to fp stack sarl $4,rINST # rINST<- B faddl (rFP,rINST,4) # ex: faddp FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 fstpl (rFP,%ecx,4) # %st to vA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_SUB_DOUBLE_2ADDR: /* 0xcc */ /* File: x86/OP_SUB_DOUBLE_2ADDR.S */ /* File: x86/binflop2addr.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ andb $0xf,%cl # ecx<- A fldl (rFP,%ecx,4) # vAA to fp stack sarl $4,rINST # rINST<- B fsubl (rFP,rINST,4) # ex: faddp FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 fstpl (rFP,%ecx,4) # %st to vA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_MUL_DOUBLE_2ADDR: /* 0xcd */ /* File: x86/OP_MUL_DOUBLE_2ADDR.S */ /* File: x86/binflop2addr.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ andb $0xf,%cl # ecx<- A fldl (rFP,%ecx,4) # vAA to fp stack sarl $4,rINST # rINST<- B fmull (rFP,rINST,4) # ex: faddp FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 fstpl (rFP,%ecx,4) # %st to vA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_DIV_DOUBLE_2ADDR: /* 0xce */ /* File: x86/OP_DIV_DOUBLE_2ADDR.S */ /* File: x86/binflop2addr.S */ /* * Generic 32-bit binary float operation. * * For: add-fp, sub-fp, mul-fp, div-fp */ /* binop/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ andb $0xf,%cl # ecx<- A fldl (rFP,%ecx,4) # vAA to fp stack sarl $4,rINST # rINST<- B fdivl (rFP,rINST,4) # ex: faddp FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 fstpl (rFP,%ecx,4) # %st to vA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_REM_DOUBLE_2ADDR: /* 0xcf */ /* File: x86/OP_REM_DOUBLE_2ADDR.S */ /* rem_float/2addr vA, vB */ movzx rINSTbl,%ecx # ecx<- A+ sarl $4,rINST # rINST<- B fldl (rFP,rINST,4) # vBB to fp stack andb $0xf,%cl # ecx<- A fldl (rFP,%ecx,4) # vAA to fp stack 1: fprem fstsw %ax sahf jp 1b fstp %st(1) FETCH_INST_OPCODE 1 %eax ADVANCE_PC 1 fstpl (rFP,%ecx,4) # %st to vA GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_ADD_INT_LIT16: /* 0xd0 */ /* File: x86/OP_ADD_INT_LIT16.S */ /* File: x86/binopLit16.S */ /* * Generic 32-bit "lit16" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than eax, you can override "result".) * * For: add-int/lit16, rsub-int, * and-int/lit16, or-int/lit16, xor-int/lit16 */ /* binop/lit16 vA, vB, #+CCCC */ movzbl rINSTbl,%eax # eax<- 000000BA sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB movswl 2(rPC),%ecx # ecx<- ssssCCCC andb $0xf,rINSTbl # rINST<- A addl %ecx,%eax # for example: addl %ecx, %eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_RSUB_INT: /* 0xd1 */ /* File: x86/OP_RSUB_INT.S */ /* File: x86/binopLit16.S */ /* * Generic 32-bit "lit16" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than eax, you can override "result".) * * For: add-int/lit16, rsub-int, * and-int/lit16, or-int/lit16, xor-int/lit16 */ /* binop/lit16 vA, vB, #+CCCC */ movzbl rINSTbl,%eax # eax<- 000000BA sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB movswl 2(rPC),%ecx # ecx<- ssssCCCC andb $0xf,rINSTbl # rINST<- A subl %eax,%ecx # for example: addl %ecx, %eax SET_VREG %ecx rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MUL_INT_LIT16: /* 0xd2 */ /* File: x86/OP_MUL_INT_LIT16.S */ /* mul/lit16 vA, vB, #+CCCC */ /* Need A in rINST, ssssCCCC in ecx, vB in eax */ movzbl rINSTbl,%eax # eax<- 000000BA sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB movswl 2(rPC),%ecx # ecx<- ssssCCCC andb $0xf,rINSTbl # rINST<- A SPILL(rIBASE) imull %ecx,%eax # trashes rIBASE/edx UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_DIV_INT_LIT16: /* 0xd3 */ /* File: x86/OP_DIV_INT_LIT16.S */ /* File: x86/bindivLit16.S */ /* * 32-bit binary div/rem operation. Handles special case of op0=minint and * op1=-1. */ /* div/rem/lit16 vA, vB, #+CCCC */ /* Need A in rINST, ssssCCCC in ecx, vB in eax */ movzbl rINSTbl,%eax # eax<- 000000BA SPILL(rIBASE) sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB movswl 2(rPC),%ecx # ecx<- ssssCCCC andb $0xf,rINSTbl # rINST<- A cmpl $0,%ecx je common_errDivideByZero cmpl $-1,%ecx jne .LOP_DIV_INT_LIT16_continue_div cmpl $0x80000000,%eax jne .LOP_DIV_INT_LIT16_continue_div movl $0x80000000,%eax SET_VREG %eax rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_DIV_INT_LIT16_continue_div: cltd idivl %ecx SET_VREG %eax rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_REM_INT_LIT16: /* 0xd4 */ /* File: x86/OP_REM_INT_LIT16.S */ /* File: x86/bindivLit16.S */ /* * 32-bit binary div/rem operation. Handles special case of op0=minint and * op1=-1. */ /* div/rem/lit16 vA, vB, #+CCCC */ /* Need A in rINST, ssssCCCC in ecx, vB in eax */ movzbl rINSTbl,%eax # eax<- 000000BA SPILL(rIBASE) sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB movswl 2(rPC),%ecx # ecx<- ssssCCCC andb $0xf,rINSTbl # rINST<- A cmpl $0,%ecx je common_errDivideByZero cmpl $-1,%ecx jne .LOP_REM_INT_LIT16_continue_div cmpl $0x80000000,%eax jne .LOP_REM_INT_LIT16_continue_div movl $0,rIBASE SET_VREG rIBASE rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_REM_INT_LIT16_continue_div: cltd idivl %ecx SET_VREG rIBASE rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_AND_INT_LIT16: /* 0xd5 */ /* File: x86/OP_AND_INT_LIT16.S */ /* File: x86/binopLit16.S */ /* * Generic 32-bit "lit16" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than eax, you can override "result".) * * For: add-int/lit16, rsub-int, * and-int/lit16, or-int/lit16, xor-int/lit16 */ /* binop/lit16 vA, vB, #+CCCC */ movzbl rINSTbl,%eax # eax<- 000000BA sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB movswl 2(rPC),%ecx # ecx<- ssssCCCC andb $0xf,rINSTbl # rINST<- A andl %ecx,%eax # for example: addl %ecx, %eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_OR_INT_LIT16: /* 0xd6 */ /* File: x86/OP_OR_INT_LIT16.S */ /* File: x86/binopLit16.S */ /* * Generic 32-bit "lit16" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than eax, you can override "result".) * * For: add-int/lit16, rsub-int, * and-int/lit16, or-int/lit16, xor-int/lit16 */ /* binop/lit16 vA, vB, #+CCCC */ movzbl rINSTbl,%eax # eax<- 000000BA sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB movswl 2(rPC),%ecx # ecx<- ssssCCCC andb $0xf,rINSTbl # rINST<- A orl %ecx,%eax # for example: addl %ecx, %eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_XOR_INT_LIT16: /* 0xd7 */ /* File: x86/OP_XOR_INT_LIT16.S */ /* File: x86/binopLit16.S */ /* * Generic 32-bit "lit16" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than eax, you can override "result".) * * For: add-int/lit16, rsub-int, * and-int/lit16, or-int/lit16, xor-int/lit16 */ /* binop/lit16 vA, vB, #+CCCC */ movzbl rINSTbl,%eax # eax<- 000000BA sarl $4,%eax # eax<- B GET_VREG_R %eax %eax # eax<- vB movswl 2(rPC),%ecx # ecx<- ssssCCCC andb $0xf,rINSTbl # rINST<- A xor %ecx,%eax # for example: addl %ecx, %eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_ADD_INT_LIT8: /* 0xd8 */ /* File: x86/OP_ADD_INT_LIT8.S */ /* File: x86/binopLit8.S */ /* * Generic 32-bit "lit8" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * For: add-int/lit8, rsub-int/lit8 * and-int/lit8, or-int/lit8, xor-int/lit8, * shl-int/lit8, shr-int/lit8, ushr-int/lit8 */ /* binop/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC GET_VREG_R %eax %eax # eax<- rBB addl %ecx,%eax # ex: addl %ecx,%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_RSUB_INT_LIT8: /* 0xd9 */ /* File: x86/OP_RSUB_INT_LIT8.S */ /* File: x86/binopLit8.S */ /* * Generic 32-bit "lit8" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * For: add-int/lit8, rsub-int/lit8 * and-int/lit8, or-int/lit8, xor-int/lit8, * shl-int/lit8, shr-int/lit8, ushr-int/lit8 */ /* binop/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC GET_VREG_R %eax %eax # eax<- rBB subl %eax,%ecx # ex: addl %ecx,%eax SET_VREG %ecx rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_MUL_INT_LIT8: /* 0xda */ /* File: x86/OP_MUL_INT_LIT8.S */ /* mul/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC GET_VREG_R %eax %eax # eax<- rBB SPILL(rIBASE) imull %ecx,%eax # trashes rIBASE/edx UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_DIV_INT_LIT8: /* 0xdb */ /* File: x86/OP_DIV_INT_LIT8.S */ /* File: x86/bindivLit8.S */ /* * 32-bit div/rem "lit8" binary operation. Handles special case of * op0=minint & op1=-1 */ /* div/rem/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC SPILL(rIBASE) GET_VREG_R %eax %eax # eax<- rBB cmpl $0,%ecx je common_errDivideByZero cmpl $0x80000000,%eax jne .LOP_DIV_INT_LIT8_continue_div cmpl $-1,%ecx jne .LOP_DIV_INT_LIT8_continue_div movl $0x80000000,%eax SET_VREG %eax rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_DIV_INT_LIT8_continue_div: cltd idivl %ecx SET_VREG %eax rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_REM_INT_LIT8: /* 0xdc */ /* File: x86/OP_REM_INT_LIT8.S */ /* File: x86/bindivLit8.S */ /* * 32-bit div/rem "lit8" binary operation. Handles special case of * op0=minint & op1=-1 */ /* div/rem/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC SPILL(rIBASE) GET_VREG_R %eax %eax # eax<- rBB cmpl $0,%ecx je common_errDivideByZero cmpl $0x80000000,%eax jne .LOP_REM_INT_LIT8_continue_div cmpl $-1,%ecx jne .LOP_REM_INT_LIT8_continue_div movl $0,rIBASE SET_VREG rIBASE rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_REM_INT_LIT8_continue_div: cltd idivl %ecx SET_VREG rIBASE rINST UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_AND_INT_LIT8: /* 0xdd */ /* File: x86/OP_AND_INT_LIT8.S */ /* File: x86/binopLit8.S */ /* * Generic 32-bit "lit8" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * For: add-int/lit8, rsub-int/lit8 * and-int/lit8, or-int/lit8, xor-int/lit8, * shl-int/lit8, shr-int/lit8, ushr-int/lit8 */ /* binop/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC GET_VREG_R %eax %eax # eax<- rBB andl %ecx,%eax # ex: addl %ecx,%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_OR_INT_LIT8: /* 0xde */ /* File: x86/OP_OR_INT_LIT8.S */ /* File: x86/binopLit8.S */ /* * Generic 32-bit "lit8" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * For: add-int/lit8, rsub-int/lit8 * and-int/lit8, or-int/lit8, xor-int/lit8, * shl-int/lit8, shr-int/lit8, ushr-int/lit8 */ /* binop/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC GET_VREG_R %eax %eax # eax<- rBB orl %ecx,%eax # ex: addl %ecx,%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_XOR_INT_LIT8: /* 0xdf */ /* File: x86/OP_XOR_INT_LIT8.S */ /* File: x86/binopLit8.S */ /* * Generic 32-bit "lit8" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * For: add-int/lit8, rsub-int/lit8 * and-int/lit8, or-int/lit8, xor-int/lit8, * shl-int/lit8, shr-int/lit8, ushr-int/lit8 */ /* binop/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC GET_VREG_R %eax %eax # eax<- rBB xor %ecx,%eax # ex: addl %ecx,%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SHL_INT_LIT8: /* 0xe0 */ /* File: x86/OP_SHL_INT_LIT8.S */ /* File: x86/binopLit8.S */ /* * Generic 32-bit "lit8" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * For: add-int/lit8, rsub-int/lit8 * and-int/lit8, or-int/lit8, xor-int/lit8, * shl-int/lit8, shr-int/lit8, ushr-int/lit8 */ /* binop/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC GET_VREG_R %eax %eax # eax<- rBB sall %cl,%eax # ex: addl %ecx,%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SHR_INT_LIT8: /* 0xe1 */ /* File: x86/OP_SHR_INT_LIT8.S */ /* File: x86/binopLit8.S */ /* * Generic 32-bit "lit8" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * For: add-int/lit8, rsub-int/lit8 * and-int/lit8, or-int/lit8, xor-int/lit8, * shl-int/lit8, shr-int/lit8, ushr-int/lit8 */ /* binop/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC GET_VREG_R %eax %eax # eax<- rBB sarl %cl,%eax # ex: addl %ecx,%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_USHR_INT_LIT8: /* 0xe2 */ /* File: x86/OP_USHR_INT_LIT8.S */ /* File: x86/binopLit8.S */ /* * Generic 32-bit "lit8" binary operation. Provide an "instr" line * that specifies an instruction that performs "result = eax op ecx". * This could be an x86 instruction or a function call. (If the result * comes back in a register other than r0, you can override "result".) * * For: add-int/lit8, rsub-int/lit8 * and-int/lit8, or-int/lit8, xor-int/lit8, * shl-int/lit8, shr-int/lit8, ushr-int/lit8 */ /* binop/lit8 vAA, vBB, #+CC */ movzbl 2(rPC),%eax # eax<- BB movsbl 3(rPC),%ecx # ecx<- ssssssCC GET_VREG_R %eax %eax # eax<- rBB shrl %cl,%eax # ex: addl %ecx,%eax SET_VREG %eax rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IGET_VOLATILE: /* 0xe3 */ /* File: x86/OP_IGET_VOLATILE.S */ /* File: x86/OP_IGET.S */ /* * General 32-bit instance field get. * * for: iget, iget-object, iget-boolean, iget-byte, iget-char, iget-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_VOLATILE_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_VOLATILE_finish jmp common_exceptionThrown .LOP_IGET_VOLATILE_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 2 %eax UNSPILL(rIBASE) SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IPUT_VOLATILE: /* 0xe4 */ /* File: x86/OP_IPUT_VOLATILE.S */ /* File: x86/OP_IPUT.S */ /* * General 32-bit instance field put. * * for: iput, iput-object, iput-boolean, iput-byte, iput-char, iput-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL (rIBASE) movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_VOLATILE_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_VOLATILE_finish jmp common_exceptionThrown .LOP_IPUT_VOLATILE_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ GET_VREG_R rINST rINST # rINST<- v[A] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl rINST,(%ecx,%eax,1) # obj.field <- v[A](8/16/32 bits) FETCH_INST_OPCODE 2 %ecx UNSPILL(rIBASE) ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SGET_VOLATILE: /* 0xe5 */ /* File: x86/OP_SGET_VOLATILE.S */ /* File: x86/OP_SGET.S */ /* * General 32-bit SGET handler. * * for: sget, sget-object, sget-boolean, sget-byte, sget-char, sget-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_VOLATILE_resolve # if not, make it so .LOP_SGET_VOLATILE_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_VOLATILE_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_VOLATILE_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_VOLATILE: /* 0xe6 */ /* File: x86/OP_SPUT_VOLATILE.S */ /* File: x86/OP_SPUT.S */ /* * General 32-bit SPUT handler. * * for: sput, sput-boolean, sput-byte, sput-char, sput-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_VOLATILE_resolve # if not, make it so .LOP_SPUT_VOLATILE_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_VOLATILE_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_VOLATILE_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_IGET_OBJECT_VOLATILE: /* 0xe7 */ /* File: x86/OP_IGET_OBJECT_VOLATILE.S */ /* File: x86/OP_IGET.S */ /* * General 32-bit instance field get. * * for: iget, iget-object, iget-boolean, iget-byte, iget-char, iget-short */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_OBJECT_VOLATILE_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_OBJECT_VOLATILE_finish jmp common_exceptionThrown .LOP_IGET_OBJECT_VOLATILE_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds A */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 2 %eax UNSPILL(rIBASE) SET_VREG %ecx rINST ADVANCE_PC 2 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_WIDE_VOLATILE: /* 0xe8 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_IGET_WIDE_VOLATILE # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_IPUT_WIDE_VOLATILE: /* 0xe9 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_IPUT_WIDE_VOLATILE # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_SGET_WIDE_VOLATILE: /* 0xea */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_SGET_WIDE_VOLATILE # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_SPUT_WIDE_VOLATILE: /* 0xeb */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_SPUT_WIDE_VOLATILE # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_BREAKPOINT: /* 0xec */ /* File: x86/OP_BREAKPOINT.S */ /* * Breakpoint handler. * * Restart this instruction with the original opcode. By * the time we get here, the breakpoint will have already been * handled. We also assume that all other special "checkBefore" * actions have been handled, so we'll transition directly * to the real handler */ SPILL(rIBASE) movl rPC,OUT_ARG0(%esp) call dvmGetOriginalOpcode UNSPILL(rIBASE) movl rSELF,%ecx movzbl 1(rPC),rINST movl offThread_mainHandlerTable(%ecx),%ecx jmp *(%ecx,%eax,4) /* ------------------------------ */ .L_OP_THROW_VERIFICATION_ERROR: /* 0xed */ /* File: x86/OP_THROW_VERIFICATION_ERROR.S */ /* * Handle a throw-verification-error instruction. This throws an * exception for an error discovered during verification. The * exception is indicated by AA, with some detail provided by BBBB. */ /* op AA, ref@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- BBBB movl offThread_method(%ecx),%ecx # ecx<- self->method EXPORT_PC movl %eax,OUT_ARG2(%esp) # arg2<- BBBB movl rINST,OUT_ARG1(%esp) # arg1<- AA movl %ecx,OUT_ARG0(%esp) # arg0<- method call dvmThrowVerificationError # call(method, kind, ref) jmp common_exceptionThrown # handle exception /* ------------------------------ */ .L_OP_EXECUTE_INLINE: /* 0xee */ /* File: x86/OP_EXECUTE_INLINE.S */ /* * Execute a "native inline" instruction. * * We will be calling through a function table: * * (*gDvmInlineOpsTable[opIndex].func)(arg0, arg1, arg2, arg3, pResult) * * Ignores argument count - always loads 4. * */ /* [opt] execute-inline vAA, {vC, vD, vE, vF}, inline@BBBB */ movl rSELF,%ecx EXPORT_PC movzwl 2(rPC),%eax # eax<- BBBB leal offThread_retval(%ecx),%ecx # ecx<- & self->retval SPILL(rIBASE) # preserve rIBASE movl %ecx,OUT_ARG4(%esp) call .LOP_EXECUTE_INLINE_continue # make call; will return after UNSPILL(rIBASE) # restore rIBASE testl %eax,%eax # successful? FETCH_INST_OPCODE 3 %ecx je common_exceptionThrown # no, handle exception ADVANCE_PC 3 GOTO_NEXT_R %ecx .LOP_EXECUTE_INLINE_continue: /* * Extract args, call function. * ecx = #of args (0-4) * eax = call index * @esp = return addr * esp is -4 from normal * * Go ahead and load all 4 args, even if not used. */ movzwl 4(rPC),rIBASE movl $0xf,%ecx andl rIBASE,%ecx GET_VREG_R %ecx %ecx sarl $4,rIBASE movl %ecx,4+OUT_ARG0(%esp) movl $0xf,%ecx andl rIBASE,%ecx GET_VREG_R %ecx %ecx sarl $4,rIBASE movl %ecx,4+OUT_ARG1(%esp) movl $0xf,%ecx andl rIBASE,%ecx GET_VREG_R %ecx %ecx sarl $4,rIBASE movl %ecx,4+OUT_ARG2(%esp) movl $0xf,%ecx andl rIBASE,%ecx GET_VREG_R %ecx %ecx sarl $4,rIBASE movl %ecx,4+OUT_ARG3(%esp) sall $4,%eax # index *= sizeof(table entry) jmp *gDvmInlineOpsTable(%eax) # will return to caller of .LOP_EXECUTE_INLINE_continue /* ------------------------------ */ .L_OP_EXECUTE_INLINE_RANGE: /* 0xef */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_EXECUTE_INLINE_RANGE # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_INVOKE_OBJECT_INIT_RANGE: /* 0xf0 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_INVOKE_OBJECT_INIT_RANGE # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_RETURN_VOID_BARRIER: /* 0xf1 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_RETURN_VOID_BARRIER # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_IGET_QUICK: /* 0xf2 */ /* File: x86/OP_IGET_QUICK.S */ /* For: iget-quick, iget-object-quick */ /* op vA, vB, offset@CCCC */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # vB (object we're operating on) movzwl 2(rPC),%eax # eax<- field byte offset cmpl $0,%ecx # is object null? je common_errNullObject movl (%ecx,%eax,1),%eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 andb $0xf,rINSTbl # rINST<- A SET_VREG %eax rINST # fp[A]<- result GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IGET_WIDE_QUICK: /* 0xf3 */ /* File: x86/OP_IGET_WIDE_QUICK.S */ /* For: iget-wide-quick */ /* op vA, vB, offset@CCCC */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # vB (object we're operating on) movzwl 2(rPC),%eax # eax<- field byte offset cmpl $0,%ecx # is object null? je common_errNullObject leal (%ecx,%eax,1),%eax # eax<- address of 64-bit source movl (%eax),%ecx # ecx<- lsw movl 4(%eax),%eax # eax<- msw andb $0xf,rINSTbl # rINST<- A SET_VREG_WORD %ecx rINST 0 # v[A+0]<- lsw FETCH_INST_OPCODE 2 %ecx SET_VREG_WORD %eax rINST 1 # v[A+1]<- msw ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IGET_OBJECT_QUICK: /* 0xf4 */ /* File: x86/OP_IGET_OBJECT_QUICK.S */ /* File: x86/OP_IGET_QUICK.S */ /* For: iget-quick, iget-object-quick */ /* op vA, vB, offset@CCCC */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # vB (object we're operating on) movzwl 2(rPC),%eax # eax<- field byte offset cmpl $0,%ecx # is object null? je common_errNullObject movl (%ecx,%eax,1),%eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 andb $0xf,rINSTbl # rINST<- A SET_VREG %eax rINST # fp[A]<- result GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_QUICK: /* 0xf5 */ /* File: x86/OP_IPUT_QUICK.S */ /* For: iput-quick */ /* op vA, vB, offset@CCCC */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # vB (object we're operating on) andb $0xf,rINSTbl # rINST<- A GET_VREG_R rINST,rINST # rINST<- v[A] movzwl 2(rPC),%eax # eax<- field byte offset testl %ecx,%ecx # is object null? je common_errNullObject movl rINST,(%ecx,%eax,1) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_WIDE_QUICK: /* 0xf6 */ /* File: x86/OP_IPUT_WIDE_QUICK.S */ /* For: iput-wide-quick */ /* op vA, vB, offset@CCCC */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # vB (object we're operating on) movzwl 2(rPC),%eax # eax<- field byte offset testl %ecx,%ecx # is object null? je common_errNullObject leal (%ecx,%eax,1),%ecx # ecx<- Address of 64-bit target andb $0xf,rINSTbl # rINST<- A GET_VREG_WORD %eax rINST 0 # eax<- lsw GET_VREG_WORD rINST rINST 1 # rINST<- msw movl %eax,(%ecx) movl rINST,4(%ecx) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_OBJECT_QUICK: /* 0xf7 */ /* File: x86/OP_IPUT_OBJECT_QUICK.S */ /* For: iput-object-quick */ /* op vA, vB, offset@CCCC */ movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B GET_VREG_R %ecx %ecx # vB (object we're operating on) andb $0xf,rINSTbl # rINST<- A GET_VREG_R rINST rINST # rINST<- v[A] movzwl 2(rPC),%eax # eax<- field byte offset testl %ecx,%ecx # is object null? je common_errNullObject movl rINST,(%ecx,%eax,1) movl rSELF,%eax testl rINST,rINST # did we store null? movl offThread_cardTable(%eax),%eax # get card table base je 1f # skip card mark if null store shrl $GC_CARD_SHIFT,%ecx # object head to card number movb %al,(%eax,%ecx) # mark card based on object head 1: FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_INVOKE_VIRTUAL_QUICK: /* 0xf8 */ /* File: x86/OP_INVOKE_VIRTUAL_QUICK.S */ /* * Handle an optimized virtual method call. * * for: [opt] invoke-virtual-quick, invoke-virtual-quick/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op vAA, {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movzwl 4(rPC),%eax # eax<- FEDC or CCCC movzwl 2(rPC),%ecx # ecx<- BBBB .if (!0) andl $0xf,%eax # eax<- C (or stays CCCC) .endif GET_VREG_R %eax %eax # eax<- vC ("this" ptr) testl %eax,%eax # null? je common_errNullObject # yep, throw exception movl offObject_clazz(%eax),%eax # eax<- thisPtr->clazz movl offClassObject_vtable(%eax),%eax # eax<- thisPtr->clazz->vtable EXPORT_PC # might throw later - get ready movl (%eax,%ecx,4),%eax # eax<- vtable[BBBB] jmp common_invokeMethodNoRange /* ------------------------------ */ .L_OP_INVOKE_VIRTUAL_QUICK_RANGE: /* 0xf9 */ /* File: x86/OP_INVOKE_VIRTUAL_QUICK_RANGE.S */ /* File: x86/OP_INVOKE_VIRTUAL_QUICK.S */ /* * Handle an optimized virtual method call. * * for: [opt] invoke-virtual-quick, invoke-virtual-quick/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op vAA, {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movzwl 4(rPC),%eax # eax<- FEDC or CCCC movzwl 2(rPC),%ecx # ecx<- BBBB .if (!1) andl $0xf,%eax # eax<- C (or stays CCCC) .endif GET_VREG_R %eax %eax # eax<- vC ("this" ptr) testl %eax,%eax # null? je common_errNullObject # yep, throw exception movl offObject_clazz(%eax),%eax # eax<- thisPtr->clazz movl offClassObject_vtable(%eax),%eax # eax<- thisPtr->clazz->vtable EXPORT_PC # might throw later - get ready movl (%eax,%ecx,4),%eax # eax<- vtable[BBBB] jmp common_invokeMethodRange /* ------------------------------ */ .L_OP_INVOKE_SUPER_QUICK: /* 0xfa */ /* File: x86/OP_INVOKE_SUPER_QUICK.S */ /* * Handle an optimized "super" method call. * * for: [opt] invoke-super-quick, invoke-super-quick/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op vAA, {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movl rSELF,%ecx movzwl 4(rPC),%eax # eax<- GFED or CCCC movl offThread_method(%ecx),%ecx # ecx<- current method .if (!0) andl $0xf,%eax # eax<- D (or stays CCCC) .endif movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz GET_VREG_R %eax %eax # eax<- "this" movl offClassObject_super(%ecx),%ecx # ecx<- method->clazz->super testl %eax,%eax # null "this"? je common_errNullObject # "this" is null, throw exception movzwl 2(rPC),%eax # eax<- BBBB movl offClassObject_vtable(%ecx),%ecx # ecx<- vtable EXPORT_PC movl (%ecx,%eax,4),%eax # eax<- super->vtable[BBBB] jmp common_invokeMethodNoRange /* ------------------------------ */ .L_OP_INVOKE_SUPER_QUICK_RANGE: /* 0xfb */ /* File: x86/OP_INVOKE_SUPER_QUICK_RANGE.S */ /* File: x86/OP_INVOKE_SUPER_QUICK.S */ /* * Handle an optimized "super" method call. * * for: [opt] invoke-super-quick, invoke-super-quick/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op vAA, {vCCCC..v(CCCC+AA-1)}, meth@BBBB */ movl rSELF,%ecx movzwl 4(rPC),%eax # eax<- GFED or CCCC movl offThread_method(%ecx),%ecx # ecx<- current method .if (!1) andl $0xf,%eax # eax<- D (or stays CCCC) .endif movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz GET_VREG_R %eax %eax # eax<- "this" movl offClassObject_super(%ecx),%ecx # ecx<- method->clazz->super testl %eax,%eax # null "this"? je common_errNullObject # "this" is null, throw exception movzwl 2(rPC),%eax # eax<- BBBB movl offClassObject_vtable(%ecx),%ecx # ecx<- vtable EXPORT_PC movl (%ecx,%eax,4),%eax # eax<- super->vtable[BBBB] jmp common_invokeMethodRange /* ------------------------------ */ .L_OP_IPUT_OBJECT_VOLATILE: /* 0xfc */ /* File: x86/OP_IPUT_OBJECT_VOLATILE.S */ /* File: x86/OP_IPUT_OBJECT.S */ /* * Object field put. * * for: iput-object */ /* op vA, vB, field@CCCC */ movl rSELF,%ecx SPILL(rIBASE) movzwl 2(rPC),rIBASE # rIBASE<- 0000CCCC movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzbl rINSTbl,%ecx # ecx<- BA sarl $4,%ecx # ecx<- B movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields andb $0xf,rINSTbl # rINST<- A GET_VREG_R %ecx %ecx # ecx<- fp[B], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_OBJECT_VOLATILE_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_OBJECT_VOLATILE_finish jmp common_exceptionThrown .LOP_IPUT_OBJECT_VOLATILE_finish: /* * Currently: * eax holds resolved field * ecx holds object * rIBASE is scratch, but needs to be unspilled * rINST holds A */ GET_VREG_R rINST rINST # rINST<- v[A] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl rINST,(%ecx,%eax) # obj.field <- v[A](8/16/32 bits) movl rSELF,%eax testl rINST,rINST # stored a NULL? movl offThread_cardTable(%eax),%eax # get card table base je 1f # skip card mark if null store shrl $GC_CARD_SHIFT,%ecx # object head to card number movb %al,(%eax,%ecx) # mark card using object head 1: UNSPILL(rIBASE) FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SGET_OBJECT_VOLATILE: /* 0xfd */ /* File: x86/OP_SGET_OBJECT_VOLATILE.S */ /* File: x86/OP_SGET.S */ /* * General 32-bit SGET handler. * * for: sget, sget-object, sget-boolean, sget-byte, sget-char, sget-short */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_OBJECT_VOLATILE_resolve # if not, make it so .LOP_SGET_OBJECT_VOLATILE_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_OBJECT_VOLATILE_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_OBJECT_VOLATILE_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_OBJECT_VOLATILE: /* 0xfe */ /* File: x86/OP_SPUT_OBJECT_VOLATILE.S */ /* File: x86/OP_SPUT_OBJECT.S */ /* * SPUT object handler. */ /* op vAA, field@BBBB */ movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField testl %eax,%eax # resolved entry null? je .LOP_SPUT_OBJECT_VOLATILE_resolve # if not, make it so .LOP_SPUT_OBJECT_VOLATILE_finish: # field ptr in eax movzbl rINSTbl,%ecx # ecx<- AA GET_VREG_R %ecx %ecx movl %ecx,offStaticField_value(%eax) # do the store testl %ecx,%ecx # stored null object ptr? je 1f # skip card mark if null movl rSELF,%ecx movl offField_clazz(%eax),%eax # eax<- method->clazz movl offThread_cardTable(%ecx),%ecx # get card table base shrl $GC_CARD_SHIFT,%eax # head to card number movb %cl,(%ecx,%eax) # mark card 1: FETCH_INST_OPCODE 2 %ecx ADVANCE_PC 2 GOTO_NEXT_R %ecx .LOP_SPUT_OBJECT_VOLATILE_resolve: movl rSELF,%ecx movzwl 2(rPC),%eax # eax<- field ref BBBB movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_OBJECT_VOLATILE_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_DISPATCH_FF: /* 0xff */ /* File: x86/OP_DISPATCH_FF.S */ leal 256(rINST),%ecx GOTO_NEXT_JUMBO_R %ecx /* ------------------------------ */ .L_OP_CONST_CLASS_JUMBO: /* 0x100 */ /* File: x86/OP_CONST_CLASS_JUMBO.S */ /* const-class/jumbo vBBBB, Class@AAAAAAAA */ movl rSELF,%ecx movl 2(rPC),%eax # eax<- AAAAAAAA movl offThread_methodClassDex(%ecx),%ecx# ecx<- self->methodClassDex movl offDvmDex_pResClasses(%ecx),%ecx # ecx<- dvmDex->pResClasses movl (%ecx,%eax,4),%eax # eax<- rResClasses[AAAAAAAA] FETCH_INST_OPCODE 4 %ecx testl %eax,%eax # resolved yet? je .LOP_CONST_CLASS_JUMBO_resolve SET_VREG %eax rINST # vBBBB<- rResClasses[AAAAAAAA] ADVANCE_PC 4 GOTO_NEXT_R %ecx /* This is the less common path, so we'll redo some work here rather than force spills on the common path */ .LOP_CONST_CLASS_JUMBO_resolve: movl rSELF,%eax EXPORT_PC movl offThread_method(%eax),%eax # eax<- self->method movl $1,OUT_ARG2(%esp) # true movl 2(rPC),%ecx # ecx<- AAAAAAAA movl offMethod_clazz(%eax),%eax movl %ecx,OUT_ARG1(%esp) movl %eax,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveClass # go resolve UNSPILL(rIBASE) testl %eax,%eax # failed? je common_exceptionThrown FETCH_INST_OPCODE 4 %ecx SET_VREG %eax rINST ADVANCE_PC 4 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_CHECK_CAST_JUMBO: /* 0x101 */ /* File: x86/OP_CHECK_CAST_JUMBO.S */ /* * Check to see if a cast from one class to another is allowed. */ /* check-cast/jumbo vBBBB, class@AAAAAAAA */ movl rSELF,%ecx GET_VREG_R rINST,rINST # rINST<- vBBBB (object) movl 2(rPC),%eax # eax<- AAAAAAAA movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex testl rINST,rINST # is oject null? movl offDvmDex_pResClasses(%ecx),%ecx # ecx<- pDvmDex->pResClasses je .LOP_CHECK_CAST_JUMBO_okay # null obj, cast always succeeds movl (%ecx,%eax,4),%eax # eax<- resolved class movl offObject_clazz(rINST),%ecx # ecx<- obj->clazz testl %eax,%eax # have we resolved this before? je .LOP_CHECK_CAST_JUMBO_resolve # no, go do it now .LOP_CHECK_CAST_JUMBO_resolved: cmpl %eax,%ecx # same class (trivial success)? jne .LOP_CHECK_CAST_JUMBO_fullcheck # no, do full check .LOP_CHECK_CAST_JUMBO_okay: FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 GOTO_NEXT_R %ecx /* * Trivial test failed, need to perform full check. This is common. * ecx holds obj->clazz * eax holds class resolved from AAAAAAAA * rINST holds object */ .LOP_CHECK_CAST_JUMBO_fullcheck: movl %eax,sReg0 # we'll need the desired class on failure movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmInstanceofNonTrivial # eax<- boolean result UNSPILL(rIBASE) testl %eax,%eax # failed? jne .LOP_CHECK_CAST_JUMBO_okay # no, success # A cast has failed. We need to throw a ClassCastException. EXPORT_PC movl offObject_clazz(rINST),%eax movl %eax,OUT_ARG0(%esp) # arg0<- obj->clazz movl sReg0,%ecx movl %ecx,OUT_ARG1(%esp) # arg1<- desired class call dvmThrowClassCastException jmp common_exceptionThrown /* * Resolution required. This is the least-likely path, and we're * going to have to recreate some data. * * rINST holds object */ .LOP_CHECK_CAST_JUMBO_resolve: movl rSELF,%ecx EXPORT_PC movl 2(rPC),%eax # eax<- AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- self->method movl %eax,OUT_ARG1(%esp) # arg1<- AAAAAAAA movl offMethod_clazz(%ecx),%ecx # ecx<- metho->clazz movl $0,OUT_ARG2(%esp) # arg2<- false movl %ecx,OUT_ARG0(%esp) # arg0<- method->clazz SPILL(rIBASE) call dvmResolveClass # eax<- resolved ClassObject ptr UNSPILL(rIBASE) testl %eax,%eax # got null? je common_exceptionThrown # yes, handle exception movl offObject_clazz(rINST),%ecx # ecx<- obj->clazz jmp .LOP_CHECK_CAST_JUMBO_resolved # pick up where we left off /* ------------------------------ */ .L_OP_INSTANCE_OF_JUMBO: /* 0x102 */ /* File: x86/OP_INSTANCE_OF_JUMBO.S */ /* * Check to see if an object reference is an instance of a class. * * Most common situation is a non-null object, being compared against * an already-resolved class. */ /* instance-of/jumbo vBBBB, vCCCC, class@AAAAAAAA */ movzwl 8(rPC),%eax # eax<- CCCC GET_VREG_R %eax %eax # eax<- vCCCC (obj) movl rSELF,%ecx testl %eax,%eax # object null? movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex SPILL(rIBASE) # preserve rIBASE je .LOP_INSTANCE_OF_JUMBO_store # null obj, not instance, store it movl 2(rPC),rIBASE # edx<- AAAAAAAA movl offDvmDex_pResClasses(%ecx),%ecx # ecx<- pDvmDex->pResClasses movl (%ecx,rIBASE,4),%ecx # ecx<- resolved class movl offObject_clazz(%eax),%eax # eax<- obj->clazz testl %ecx,%ecx # have we resolved this before? je .LOP_INSTANCE_OF_JUMBO_resolve # not resolved, do it now .LOP_INSTANCE_OF_JUMBO_resolved: # eax<- obj->clazz, ecx<- resolved class cmpl %eax,%ecx # same class (trivial success)? je .LOP_INSTANCE_OF_JUMBO_trivial # yes, trivial finish /* * Trivial test failed, need to perform full check. This is common. * eax holds obj->clazz * ecx holds class resolved from BBBB * rINST has BA */ movl %eax,OUT_ARG0(%esp) movl %ecx,OUT_ARG1(%esp) call dvmInstanceofNonTrivial # eax<- boolean result # fall through to OP_INSTANCE_OF_JUMBO_store /* * eax holds boolean result * rINST holds BBBB */ .LOP_INSTANCE_OF_JUMBO_store: FETCH_INST_OPCODE 5 %ecx UNSPILL(rIBASE) ADVANCE_PC 5 SET_VREG %eax rINST # vBBBB<- eax GOTO_NEXT_R %ecx /* * Trivial test succeeded, save and bail. * r9 holds BBBB */ .LOP_INSTANCE_OF_JUMBO_trivial: FETCH_INST_OPCODE 5 %ecx UNSPILL(rIBASE) ADVANCE_PC 5 movl $1,%eax SET_VREG %eax rINST # vBBBB<- true GOTO_NEXT_R %ecx /* * Resolution required. This is the least-likely path. * * edx holds AAAAAAAA */ .LOP_INSTANCE_OF_JUMBO_resolve: movl rIBASE,OUT_ARG1(%esp) # arg1<- AAAAAAAA movl rSELF,%ecx movl offThread_method(%ecx),%ecx movl $1,OUT_ARG2(%esp) # arg2<- true movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz EXPORT_PC movl %ecx,OUT_ARG0(%esp) # arg0<- method->clazz call dvmResolveClass # eax<- resolved ClassObject ptr testl %eax,%eax # success? je common_exceptionThrown # no, handle exception /* Now, we need to sync up with fast path. We need eax to * hold the obj->clazz, and ecx to hold the resolved class */ movl %eax,%ecx # ecx<- resolved class movzwl 8(rPC),%eax # eax<- CCCC GET_VREG_R %eax %eax # eax<- vCCCC (obj) movl offObject_clazz(%eax),%eax # eax<- obj->clazz jmp .LOP_INSTANCE_OF_JUMBO_resolved /* ------------------------------ */ .L_OP_NEW_INSTANCE_JUMBO: /* 0x103 */ /* File: x86/OP_NEW_INSTANCE_JUMBO.S */ /* * Create a new instance of a class. */ /* new-instance/jumbo vBBBB, class@AAAAAAAA */ movl rSELF,%ecx movl 2(rPC),%eax # eax<- AAAAAAAA movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex movl offDvmDex_pResClasses(%ecx),%ecx # ecx<- pDvmDex->pResClasses EXPORT_PC movl (%ecx,%eax,4),%ecx # ecx<- resolved class SPILL(rIBASE) testl %ecx,%ecx # resolved? je .LOP_NEW_INSTANCE_JUMBO_resolve # no, go do it .LOP_NEW_INSTANCE_JUMBO_resolved: # on entry, ecx<- class cmpb $CLASS_INITIALIZED,offClassObject_status(%ecx) jne .LOP_NEW_INSTANCE_JUMBO_needinit .LOP_NEW_INSTANCE_JUMBO_initialized: # on entry, ecx<- class movl $ALLOC_DONT_TRACK,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) call dvmAllocObject # eax<- new object UNSPILL(rIBASE) FETCH_INST_OPCODE 4 %ecx testl %eax,%eax # success? je common_exceptionThrown # no, bail out SET_VREG %eax rINST ADVANCE_PC 4 GOTO_NEXT_R %ecx /* * Class initialization required. * * ecx holds class object */ .LOP_NEW_INSTANCE_JUMBO_needinit: SPILL_TMP1(%ecx) # save object movl %ecx,OUT_ARG0(%esp) call dvmInitClass # initialize class UNSPILL_TMP1(%ecx) # restore object testl %eax,%eax # success? jne .LOP_NEW_INSTANCE_JUMBO_initialized # success, continue jmp common_exceptionThrown # go deal with init exception /* * Resolution required. This is the least-likely path. * */ .LOP_NEW_INSTANCE_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- self->method movl %eax,OUT_ARG1(%esp) movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl $0,OUT_ARG2(%esp) movl %ecx,OUT_ARG0(%esp) call dvmResolveClass # call(clazz,off,flags) movl %eax,%ecx # ecx<- resolved ClassObject ptr testl %ecx,%ecx # success? jne .LOP_NEW_INSTANCE_JUMBO_resolved # good to go jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_NEW_ARRAY_JUMBO: /* 0x104 */ /* File: x86/OP_NEW_ARRAY_JUMBO.S */ /* * Allocate an array of objects, specified with the array class * and a count. * * The verifier guarantees that this is an array class, so we don't * check for it here. */ /* new-array/jumbo vBBBB, vCCCC, class@AAAAAAAA */ movl rSELF,%ecx EXPORT_PC movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex movl 2(rPC),%eax # eax<- AAAAAAAA movl offDvmDex_pResClasses(%ecx),%ecx # ecx<- pDvmDex->pResClasses SPILL(rIBASE) movl (%ecx,%eax,4),%ecx # ecx<- resolved class movzwl 8(rPC),%eax # eax<- CCCC GET_VREG_R %eax %eax # eax<- vCCCC (array length) testl %eax,%eax js common_errNegativeArraySize # bail, passing len in eax testl %ecx,%ecx # already resolved? jne .LOP_NEW_ARRAY_JUMBO_finish # yes, fast path /* * Resolve class. (This is an uncommon case.) * ecx holds class (null here) * eax holds array length (vCCCC) */ movl rSELF,%ecx SPILL_TMP1(%eax) # save array length movl offThread_method(%ecx),%ecx # ecx<- self->method movl 2(rPC),%eax # eax<- AAAAAAAA movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl $0,OUT_ARG2(%esp) movl %ecx,OUT_ARG0(%esp) call dvmResolveClass # eax<- call(clazz,ref,flag) movl %eax,%ecx UNSPILL_TMP1(%eax) testl %ecx,%ecx # successful resolution? je common_exceptionThrown # no, bail. # fall through to OP_NEW_ARRAY_JUMBO_finish /* * Finish allocation * * ecx holds class * eax holds array length (vCCCC) */ .LOP_NEW_ARRAY_JUMBO_finish: movl %ecx,OUT_ARG0(%esp) movl %eax,OUT_ARG1(%esp) movl $ALLOC_DONT_TRACK,OUT_ARG2(%esp) call dvmAllocArrayByClass # eax<- call(clazz,length,flags) UNSPILL(rIBASE) FETCH_INST_OPCODE 5 %ecx testl %eax,%eax # failed? je common_exceptionThrown # yup - go handle SET_VREG %eax rINST ADVANCE_PC 5 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_FILLED_NEW_ARRAY_JUMBO: /* 0x105 */ /* File: x86/OP_FILLED_NEW_ARRAY_JUMBO.S */ /* * Create a new array with elements filled from registers. */ /* filled-new-array/jumbo {vCCCC..v(CCCC+BBBB-1)}, type@AAAAAAAA */ movl rSELF,%eax movl offThread_methodClassDex(%eax),%eax # eax<- pDvmDex movl 2(rPC),%ecx # ecx<- AAAAAAAA movl offDvmDex_pResClasses(%eax),%eax # eax<- pDvmDex->pResClasses movl (%eax,%ecx,4),%eax # eax<- resolved class EXPORT_PC testl %eax,%eax # already resolved? jne .LOP_FILLED_NEW_ARRAY_JUMBO_continue # yes, continue # less frequent path, so we'll redo some work movl rSELF,%eax movl $0,OUT_ARG2(%esp) # arg2<- false movl %ecx,OUT_ARG1(%esp) # arg1<- AAAAAAAA movl offThread_method(%eax),%eax # eax<- self->method movl offMethod_clazz(%eax),%eax # eax<- method->clazz movl %eax,OUT_ARG0(%esp) # arg0<- clazz SPILL(rIBASE) call dvmResolveClass # eax<- call(clazz,ref,flag) UNSPILL(rIBASE) testl %eax,%eax # null? je common_exceptionThrown # yes, handle it # note: fall through to .LOP_FILLED_NEW_ARRAY_JUMBO_continue /* * On entry: * eax holds array class [r0] * ecx is scratch */ .LOP_FILLED_NEW_ARRAY_JUMBO_continue: movl offClassObject_descriptor(%eax),%ecx # ecx<- arrayClass->descriptor movl $ALLOC_DONT_TRACK,OUT_ARG2(%esp) # arg2<- flags movzbl 1(%ecx),%ecx # ecx<- descriptor[1] movl %eax,OUT_ARG0(%esp) # arg0<- arrayClass movl rSELF,%eax cmpb $'I',%cl # supported? je 1f cmpb $'L',%cl je 1f cmpb $'[',%cl jne .LOP_FILLED_NEW_ARRAY_JUMBO_notimpl # no, not handled yet 1: movl %ecx,offThread_retval+4(%eax) # save type movl rINST,OUT_ARG1(%esp) # arg1<- BBBB (length) SPILL(rIBASE) call dvmAllocArrayByClass # eax<- call(arrayClass, length, flags) UNSPILL(rIBASE) movl rSELF,%ecx testl %eax,%eax # alloc successful? je common_exceptionThrown # no, handle exception movl %eax,offThread_retval(%ecx) # retval.l<- new array movzwl 8(rPC),%ecx # ecx<- CCCC leal offArrayObject_contents(%eax),%eax # eax<- newArray->contents /* at this point: * eax is pointer to tgt * rINST is length * ecx is CCCC * We now need to copy values from registers into the array */ # set up src pointer SPILL_TMP2(%esi) SPILL_TMP3(%edi) leal (rFP,%ecx,4),%esi # set up src ptr movl %eax,%edi # set up dst ptr movl rINST,%ecx # load count register rep movsd UNSPILL_TMP2(%esi) UNSPILL_TMP3(%edi) movl rSELF,%ecx movl offThread_retval+4(%ecx),%eax # eax<- type cmpb $'I',%al # Int array? je 5f # skip card mark if so movl offThread_retval(%ecx),%eax # eax<- object head movl offThread_cardTable(%ecx),%ecx # card table base shrl $GC_CARD_SHIFT,%eax # convert to card num movb %cl,(%ecx,%eax) # mark card based on object head 5: FETCH_INST_OPCODE 5 %ecx ADVANCE_PC 5 GOTO_NEXT_R %ecx /* * Throw an exception indicating that we have not implemented this * mode of filled-new-array. */ .LOP_FILLED_NEW_ARRAY_JUMBO_notimpl: movl $.LstrFilledNewArrayNotImplA,%eax movl %eax,OUT_ARG0(%esp) call dvmThrowInternalError jmp common_exceptionThrown /* ------------------------------ */ .L_OP_IGET_JUMBO: /* 0x106 */ /* File: x86/OP_IGET_JUMBO.S */ /* * Jumbo 32-bit instance field get. * * for: iget/jumbo, iget-object/jumbo, iget-boolean/jumbo, iget-byte/jumbo, * iget-char/jumbo, iget-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_JUMBO_finish jmp common_exceptionThrown .LOP_IGET_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 5 %eax UNSPILL(rIBASE) # restore rIBASE SET_VREG %ecx rINST ADVANCE_PC 5 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_WIDE_JUMBO: /* 0x107 */ /* File: x86/OP_IGET_WIDE_JUMBO.S */ /* * Jumbo 64-bit instance field get. */ /* iget-wide/jumbo vBBBB, vCCCC, field@AAAA */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_WIDE_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # for dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save objpointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_WIDE_JUMBO_finish jmp common_exceptionThrown .LOP_IGET_WIDE_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null leal (%ecx,%eax,1),%eax # eax<- address of field movl (%eax),%ecx # ecx<- lsw movl 4(%eax),%eax # eax<- msw SET_VREG_WORD %ecx rINST 0 FETCH_INST_OPCODE 5 %ecx UNSPILL(rIBASE) # restore rIBASE SET_VREG_WORD %eax rINST 1 ADVANCE_PC 5 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IGET_OBJECT_JUMBO: /* 0x108 */ /* File: x86/OP_IGET_OBJECT_JUMBO.S */ /* File: x86/OP_IGET_JUMBO.S */ /* * Jumbo 32-bit instance field get. * * for: iget/jumbo, iget-object/jumbo, iget-boolean/jumbo, iget-byte/jumbo, * iget-char/jumbo, iget-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_OBJECT_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_OBJECT_JUMBO_finish jmp common_exceptionThrown .LOP_IGET_OBJECT_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 5 %eax UNSPILL(rIBASE) # restore rIBASE SET_VREG %ecx rINST ADVANCE_PC 5 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_BOOLEAN_JUMBO: /* 0x109 */ /* File: x86/OP_IGET_BOOLEAN_JUMBO.S */ /* File: x86/OP_IGET_JUMBO.S */ /* * Jumbo 32-bit instance field get. * * for: iget/jumbo, iget-object/jumbo, iget-boolean/jumbo, iget-byte/jumbo, * iget-char/jumbo, iget-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_BOOLEAN_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_BOOLEAN_JUMBO_finish jmp common_exceptionThrown .LOP_IGET_BOOLEAN_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movzbl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 5 %eax UNSPILL(rIBASE) # restore rIBASE SET_VREG %ecx rINST ADVANCE_PC 5 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_BYTE_JUMBO: /* 0x10a */ /* File: x86/OP_IGET_BYTE_JUMBO.S */ /* File: x86/OP_IGET_JUMBO.S */ /* * Jumbo 32-bit instance field get. * * for: iget/jumbo, iget-object/jumbo, iget-boolean/jumbo, iget-byte/jumbo, * iget-char/jumbo, iget-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_BYTE_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_BYTE_JUMBO_finish jmp common_exceptionThrown .LOP_IGET_BYTE_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movsbl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 5 %eax UNSPILL(rIBASE) # restore rIBASE SET_VREG %ecx rINST ADVANCE_PC 5 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_CHAR_JUMBO: /* 0x10b */ /* File: x86/OP_IGET_CHAR_JUMBO.S */ /* File: x86/OP_IGET_JUMBO.S */ /* * Jumbo 32-bit instance field get. * * for: iget/jumbo, iget-object/jumbo, iget-boolean/jumbo, iget-byte/jumbo, * iget-char/jumbo, iget-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_CHAR_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_CHAR_JUMBO_finish jmp common_exceptionThrown .LOP_IGET_CHAR_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movzwl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 5 %eax UNSPILL(rIBASE) # restore rIBASE SET_VREG %ecx rINST ADVANCE_PC 5 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IGET_SHORT_JUMBO: /* 0x10c */ /* File: x86/OP_IGET_SHORT_JUMBO.S */ /* File: x86/OP_IGET_JUMBO.S */ /* * Jumbo 32-bit instance field get. * * for: iget/jumbo, iget-object/jumbo, iget-boolean/jumbo, iget-byte/jumbo, * iget-char/jumbo, iget-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) # preserve rIBASE movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IGET_SHORT_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) # needed by dvmResolveInstField movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IGET_SHORT_JUMBO_finish jmp common_exceptionThrown .LOP_IGET_SHORT_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movswl (%ecx,%eax,1),%ecx # ecx<- obj.field (8/16/32 bits) FETCH_INST_OPCODE 5 %eax UNSPILL(rIBASE) # restore rIBASE SET_VREG %ecx rINST ADVANCE_PC 5 GOTO_NEXT_R %eax /* ------------------------------ */ .L_OP_IPUT_JUMBO: /* 0x10d */ /* File: x86/OP_IPUT_JUMBO.S */ /* * Jumbo 32-bit instance field put. * * for: iput/jumbo, iput-object/jumbo, iput-boolean/jumbo, iput-byte/jumbo, iput-char/jumbo, iput-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_JUMBO_finish jmp common_exceptionThrown .LOP_IPUT_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ GET_VREG_R rINST rINST # rINST<- v[BBBB] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl rINST,(%ecx,%eax,1) # obj.field <- v[BBBB](8/16/32 bits) FETCH_INST_OPCODE 5 %ecx UNSPILL(rIBASE) ADVANCE_PC 5 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_WIDE_JUMBO: /* 0x10e */ /* File: x86/OP_IPUT_WIDE_JUMBO.S */ /* * Jumbo 64-bit instance field put. */ /* iput-wide/jumbo vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_WIDE_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # ... which returns InstrField ptr jne .LOP_IPUT_WIDE_JUMBO_finish jmp common_exceptionThrown .LOP_IPUT_WIDE_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rIBASE is scratch, but needs to be unspilled * rINST holds BBBB */ movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null leal (%ecx,%eax,1),%eax # eax<- address of field GET_VREG_WORD %ecx rINST 0 # ecx<- lsw GET_VREG_WORD rINST rINST 1 # rINST<- msw movl rINST,4(%eax) movl %ecx,(%eax) FETCH_INST_OPCODE 5 %ecx UNSPILL(rIBASE) ADVANCE_PC 5 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_OBJECT_JUMBO: /* 0x10f */ /* File: x86/OP_IPUT_OBJECT_JUMBO.S */ /* * Jumbo object field put. */ /* iput-object/jumbo vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_OBJECT_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_OBJECT_JUMBO_finish jmp common_exceptionThrown .LOP_IPUT_OBJECT_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rIBASE is scratch, but needs to be unspilled * rINST holds BBBB */ GET_VREG_R rINST rINST # rINST<- v[BBBB] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movl rINST,(%ecx,%eax) # obj.field <- v[BBBB](8/16/32 bits) movl rSELF,%eax testl rINST,rINST # stored a NULL? movl offThread_cardTable(%eax),%eax # get card table base je 1f # skip card mark if null store shrl $GC_CARD_SHIFT,%ecx # object head to card number movb %al,(%eax,%ecx) # mark card using object head 1: FETCH_INST_OPCODE 5 %ecx UNSPILL(rIBASE) ADVANCE_PC 5 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_BOOLEAN_JUMBO: /* 0x110 */ /* File: x86/OP_IPUT_BOOLEAN_JUMBO.S */ /* File: x86/OP_IPUT_JUMBO.S */ /* * Jumbo 32-bit instance field put. * * for: iput/jumbo, iput-object/jumbo, iput-boolean/jumbo, iput-byte/jumbo, iput-char/jumbo, iput-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_BOOLEAN_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_BOOLEAN_JUMBO_finish jmp common_exceptionThrown .LOP_IPUT_BOOLEAN_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ GET_VREG_R rINST rINST # rINST<- v[BBBB] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movb rINSTbl,(%ecx,%eax,1) # obj.field <- v[BBBB](8/16/32 bits) FETCH_INST_OPCODE 5 %ecx UNSPILL(rIBASE) ADVANCE_PC 5 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_BYTE_JUMBO: /* 0x111 */ /* File: x86/OP_IPUT_BYTE_JUMBO.S */ /* File: x86/OP_IPUT_JUMBO.S */ /* * Jumbo 32-bit instance field put. * * for: iput/jumbo, iput-object/jumbo, iput-boolean/jumbo, iput-byte/jumbo, iput-char/jumbo, iput-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_BYTE_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_BYTE_JUMBO_finish jmp common_exceptionThrown .LOP_IPUT_BYTE_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ GET_VREG_R rINST rINST # rINST<- v[BBBB] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movb rINSTbl,(%ecx,%eax,1) # obj.field <- v[BBBB](8/16/32 bits) FETCH_INST_OPCODE 5 %ecx UNSPILL(rIBASE) ADVANCE_PC 5 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_CHAR_JUMBO: /* 0x112 */ /* File: x86/OP_IPUT_CHAR_JUMBO.S */ /* File: x86/OP_IPUT_JUMBO.S */ /* * Jumbo 32-bit instance field put. * * for: iput/jumbo, iput-object/jumbo, iput-boolean/jumbo, iput-byte/jumbo, iput-char/jumbo, iput-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_CHAR_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_CHAR_JUMBO_finish jmp common_exceptionThrown .LOP_IPUT_CHAR_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ GET_VREG_R rINST rINST # rINST<- v[BBBB] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movw rINSTw,(%ecx,%eax,1) # obj.field <- v[BBBB](8/16/32 bits) FETCH_INST_OPCODE 5 %ecx UNSPILL(rIBASE) ADVANCE_PC 5 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_IPUT_SHORT_JUMBO: /* 0x113 */ /* File: x86/OP_IPUT_SHORT_JUMBO.S */ /* File: x86/OP_IPUT_JUMBO.S */ /* * Jumbo 32-bit instance field put. * * for: iput/jumbo, iput-object/jumbo, iput-boolean/jumbo, iput-byte/jumbo, iput-char/jumbo, iput-short/jumbo */ /* exop vBBBB, vCCCC, field@AAAAAAAA */ movl rSELF,%ecx SPILL(rIBASE) movl 2(rPC),rIBASE # rIBASE<- AAAAAAAA movl offThread_methodClassDex(%ecx),%eax # eax<- DvmDex movzwl 8(rPC),%ecx # ecx<- CCCC movl offDvmDex_pResFields(%eax),%eax # eax<- pDvmDex->pResFields GET_VREG_R %ecx %ecx # ecx<- fp[CCCC], the object ptr movl (%eax,rIBASE,4),%eax # resolved entry testl %eax,%eax # is resolved entry null? jne .LOP_IPUT_SHORT_JUMBO_finish # no, already resolved movl rIBASE,OUT_ARG1(%esp) movl rSELF,rIBASE EXPORT_PC movl offThread_method(rIBASE),rIBASE # rIBASE<- current method movl offMethod_clazz(rIBASE),rIBASE # rIBASE<- method->clazz SPILL_TMP1(%ecx) # save obj pointer across call movl rIBASE,OUT_ARG0(%esp) # pass in method->clazz call dvmResolveInstField # ... to dvmResolveInstField UNSPILL_TMP1(%ecx) testl %eax,%eax # returns InstrField ptr jne .LOP_IPUT_SHORT_JUMBO_finish jmp common_exceptionThrown .LOP_IPUT_SHORT_JUMBO_finish: /* * Currently: * eax holds resolved field * ecx holds object * rINST holds BBBB */ GET_VREG_R rINST rINST # rINST<- v[BBBB] movl offInstField_byteOffset(%eax),%eax # eax<- byte offset of field testl %ecx,%ecx # object null? je common_errNullObject # object was null movw rINSTw,(%ecx,%eax,1) # obj.field <- v[BBBB](8/16/32 bits) FETCH_INST_OPCODE 5 %ecx UNSPILL(rIBASE) ADVANCE_PC 5 GOTO_NEXT_R %ecx /* ------------------------------ */ .L_OP_SGET_JUMBO: /* 0x114 */ /* File: x86/OP_SGET_JUMBO.S */ /* * Jumbo 32-bit SGET handler. * * for: sget/jumbo, sget-object/jumbo, sget-boolean/jumbo, sget-byte/jumbo, * sget-char/jumbo, sget-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_JUMBO_resolve # if not, make it so .LOP_SGET_JUMBO_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_WIDE_JUMBO: /* 0x115 */ /* File: x86/OP_SGET_WIDE_JUMBO.S */ /* * Jumbo 64-bit SGET handler. * */ /* sget-wide/jumbo vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_WIDE_JUMBO_resolve # if not, make it so .LOP_SGET_WIDE_JUMBO_finish: # field ptr in eax movl offStaticField_value(%eax),%ecx # ecx<- lsw movl 4+offStaticField_value(%eax),%eax # eax<- msw SET_VREG_WORD %ecx rINST 0 FETCH_INST_OPCODE 2 %ecx SET_VREG_WORD %eax rINST 1 ADVANCE_PC 2 GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_WIDE_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_WIDE_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_OBJECT_JUMBO: /* 0x116 */ /* File: x86/OP_SGET_OBJECT_JUMBO.S */ /* File: x86/OP_SGET_JUMBO.S */ /* * Jumbo 32-bit SGET handler. * * for: sget/jumbo, sget-object/jumbo, sget-boolean/jumbo, sget-byte/jumbo, * sget-char/jumbo, sget-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_OBJECT_JUMBO_resolve # if not, make it so .LOP_SGET_OBJECT_JUMBO_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_OBJECT_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_OBJECT_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_BOOLEAN_JUMBO: /* 0x117 */ /* File: x86/OP_SGET_BOOLEAN_JUMBO.S */ /* File: x86/OP_SGET_JUMBO.S */ /* * Jumbo 32-bit SGET handler. * * for: sget/jumbo, sget-object/jumbo, sget-boolean/jumbo, sget-byte/jumbo, * sget-char/jumbo, sget-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_BOOLEAN_JUMBO_resolve # if not, make it so .LOP_SGET_BOOLEAN_JUMBO_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_BOOLEAN_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_BOOLEAN_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_BYTE_JUMBO: /* 0x118 */ /* File: x86/OP_SGET_BYTE_JUMBO.S */ /* File: x86/OP_SGET_JUMBO.S */ /* * Jumbo 32-bit SGET handler. * * for: sget/jumbo, sget-object/jumbo, sget-boolean/jumbo, sget-byte/jumbo, * sget-char/jumbo, sget-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_BYTE_JUMBO_resolve # if not, make it so .LOP_SGET_BYTE_JUMBO_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_BYTE_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_BYTE_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_CHAR_JUMBO: /* 0x119 */ /* File: x86/OP_SGET_CHAR_JUMBO.S */ /* File: x86/OP_SGET_JUMBO.S */ /* * Jumbo 32-bit SGET handler. * * for: sget/jumbo, sget-object/jumbo, sget-boolean/jumbo, sget-byte/jumbo, * sget-char/jumbo, sget-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_CHAR_JUMBO_resolve # if not, make it so .LOP_SGET_CHAR_JUMBO_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_CHAR_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_CHAR_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SGET_SHORT_JUMBO: /* 0x11a */ /* File: x86/OP_SGET_SHORT_JUMBO.S */ /* File: x86/OP_SGET_JUMBO.S */ /* * Jumbo 32-bit SGET handler. * * for: sget/jumbo, sget-object/jumbo, sget-boolean/jumbo, sget-byte/jumbo, * sget-char/jumbo, sget-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SGET_SHORT_JUMBO_resolve # if not, make it so .LOP_SGET_SHORT_JUMBO_finish: # field ptr in eax movl offStaticField_value(%eax),%eax FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 SET_VREG %eax rINST GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SGET_SHORT_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SGET_SHORT_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_JUMBO: /* 0x11b */ /* File: x86/OP_SPUT_JUMBO.S */ /* * Jumbo 32-bit SPUT handler. * * for: sput/jumbo, sput-boolean/jumbo, sput-byte/jumbo, sput-char/jumbo, * sput-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_JUMBO_resolve # if not, make it so .LOP_SPUT_JUMBO_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_WIDE_JUMBO: /* 0x11c */ /* File: x86/OP_SPUT_WIDE_JUMBO.S */ /* * Jumbo 64-bit SPUT handler. */ /* sput-wide/jumbo vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_WIDE_JUMBO_resolve # if not, make it so .LOP_SPUT_WIDE_JUMBO_finish: # field ptr in eax GET_VREG_WORD %ecx rINST 0 # ecx<- lsw GET_VREG_WORD rINST rINST 1 # rINST<- msw movl %ecx,offStaticField_value(%eax) FETCH_INST_OPCODE 4 %ecx movl rINST,4+offStaticField_value(%eax) ADVANCE_PC 4 GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_WIDE_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_WIDE_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_OBJECT_JUMBO: /* 0x11d */ /* File: x86/OP_SPUT_OBJECT_JUMBO.S */ /* * Jumbo SPUT object handler. */ /* sput-object/jumbo vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField testl %eax,%eax # resolved entry null? je .LOP_SPUT_OBJECT_JUMBO_resolve # if not, make it so .LOP_SPUT_OBJECT_JUMBO_finish: # field ptr in eax GET_VREG_R %ecx rINST movl %ecx,offStaticField_value(%eax) # do the store testl %ecx,%ecx # stored null object ptr? je 1f # skip card mark if null movl rSELF,%ecx movl offField_clazz(%eax),%eax # eax<- method->clazz movl offThread_cardTable(%ecx),%ecx # get card table base shrl $GC_CARD_SHIFT,%eax # head to card number movb %cl,(%ecx,%eax) # mark card 1: FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 GOTO_NEXT_R %ecx .LOP_SPUT_OBJECT_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_OBJECT_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_BOOLEAN_JUMBO: /* 0x11e */ /* File: x86/OP_SPUT_BOOLEAN_JUMBO.S */ /* File: x86/OP_SPUT_JUMBO.S */ /* * Jumbo 32-bit SPUT handler. * * for: sput/jumbo, sput-boolean/jumbo, sput-byte/jumbo, sput-char/jumbo, * sput-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_BOOLEAN_JUMBO_resolve # if not, make it so .LOP_SPUT_BOOLEAN_JUMBO_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_BOOLEAN_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_BOOLEAN_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_BYTE_JUMBO: /* 0x11f */ /* File: x86/OP_SPUT_BYTE_JUMBO.S */ /* File: x86/OP_SPUT_JUMBO.S */ /* * Jumbo 32-bit SPUT handler. * * for: sput/jumbo, sput-boolean/jumbo, sput-byte/jumbo, sput-char/jumbo, * sput-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_BYTE_JUMBO_resolve # if not, make it so .LOP_SPUT_BYTE_JUMBO_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_BYTE_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_BYTE_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_CHAR_JUMBO: /* 0x120 */ /* File: x86/OP_SPUT_CHAR_JUMBO.S */ /* File: x86/OP_SPUT_JUMBO.S */ /* * Jumbo 32-bit SPUT handler. * * for: sput/jumbo, sput-boolean/jumbo, sput-byte/jumbo, sput-char/jumbo, * sput-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_CHAR_JUMBO_resolve # if not, make it so .LOP_SPUT_CHAR_JUMBO_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_CHAR_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_CHAR_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_SPUT_SHORT_JUMBO: /* 0x121 */ /* File: x86/OP_SPUT_SHORT_JUMBO.S */ /* File: x86/OP_SPUT_JUMBO.S */ /* * Jumbo 32-bit SPUT handler. * * for: sput/jumbo, sput-boolean/jumbo, sput-byte/jumbo, sput-char/jumbo, * sput-short/jumbo */ /* exop vBBBB, field@AAAAAAAA */ movl rSELF,%ecx movl offThread_methodClassDex(%ecx),%ecx # ecx<- DvmDex movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offDvmDex_pResFields(%ecx),%ecx # ecx<- dvmDex->pResFields movl (%ecx,%eax,4),%eax # eax<- resolved StaticField ptr testl %eax,%eax # resolved entry null? je .LOP_SPUT_SHORT_JUMBO_resolve # if not, make it so .LOP_SPUT_SHORT_JUMBO_finish: # field ptr in eax GET_VREG_R rINST rINST FETCH_INST_OPCODE 4 %ecx ADVANCE_PC 4 movl rINST,offStaticField_value(%eax) GOTO_NEXT_R %ecx /* * Go resolve the field */ .LOP_SPUT_SHORT_JUMBO_resolve: movl rSELF,%ecx movl 2(rPC),%eax # eax<- field ref AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- current method EXPORT_PC # could throw, need to export movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) SPILL(rIBASE) call dvmResolveStaticField # eax<- resolved StaticField ptr UNSPILL(rIBASE) testl %eax,%eax jne .LOP_SPUT_SHORT_JUMBO_finish # success, continue jmp common_exceptionThrown # no, handle exception /* ------------------------------ */ .L_OP_INVOKE_VIRTUAL_JUMBO: /* 0x122 */ /* File: x86/OP_INVOKE_VIRTUAL_JUMBO.S */ /* * Handle a jumbo virtual method call. */ /* invoke-virtual/jumbo vBBBB, {vCCCC..v(CCCC+BBBB-1)}, meth@AAAAAAAA */ movl rSELF,%eax movl 2(rPC),%ecx # ecx<- AAAAAAAA movl offThread_methodClassDex(%eax),%eax # eax<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%eax),%eax # eax<- pDvmDex->pResMethods movl (%eax,%ecx,4),%eax # eax<- resolved baseMethod testl %eax,%eax # already resolved? jne .LOP_INVOKE_VIRTUAL_JUMBO_continue # yes, continue movl rSELF,%eax movl %ecx,OUT_ARG1(%esp) # arg1<- ref movl offThread_method(%eax),%eax # eax<- self->method movl offMethod_clazz(%eax),%eax # ecx<- method->clazz movl %eax,OUT_ARG0(%esp) # arg0<- clazz movl $METHOD_VIRTUAL,OUT_ARG2(%esp) # arg2<- flags call dvmResolveMethod # eax<- call(clazz, ref, flags) testl %eax,%eax # got null? jne .LOP_INVOKE_VIRTUAL_JUMBO_continue # no, continue jmp common_exceptionThrown # yes, handle exception /* At this point: * eax = resolved base method * ecx = scratch */ .LOP_INVOKE_VIRTUAL_JUMBO_continue: movzwl 8(rPC),%ecx # ecx<- CCCC GET_VREG_R %ecx %ecx # ecx<- "this" movzwl offMethod_methodIndex(%eax),%eax # eax<- baseMethod->methodIndex testl %ecx,%ecx # null this? je common_errNullObject # go if so movl offObject_clazz(%ecx),%ecx # ecx<- thisPtr->clazz movl offClassObject_vtable(%ecx),%ecx # ecx<- thisPtr->clazz->vtable movl (%ecx,%eax,4),%eax # eax<- vtable[methodIndex] jmp common_invokeMethodJumbo /* ------------------------------ */ .L_OP_INVOKE_SUPER_JUMBO: /* 0x123 */ /* File: x86/OP_INVOKE_SUPER_JUMBO.S */ /* * Handle a jumbo "super" method call. */ /* invoke-super/jumbo {vCCCC..v(CCCC+BBBB-1)}, meth@AAAAAAAA */ movl rSELF,rINST movl 2(rPC),%eax # eax<- AAAAAAAA movl offThread_methodClassDex(rINST),%ecx # ecx<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%ecx),%ecx # ecx<- pDvmDex->pResMethods movl (%ecx,%eax,4),%ecx # ecx<- resolved baseMethod movl offThread_method(rINST),%eax # eax<- method movzwl 8(rPC),rINST # rINST<- CCCC GET_VREG_R rINST rINST # rINST<- "this" ptr testl rINST,rINST # null "this"? je common_errNullObject # yes, throw movl offMethod_clazz(%eax),%eax # eax<- method->clazz testl %ecx,%ecx # already resolved? je .LOP_INVOKE_SUPER_JUMBO_resolve /* * At this point: * ecx = resolved base method [r0] * eax = method->clazz [r9] */ .LOP_INVOKE_SUPER_JUMBO_continue: movl offClassObject_super(%eax),%eax # eax<- method->clazz->super movzwl offMethod_methodIndex(%ecx),%ecx # ecx<- baseMthod->methodIndex cmpl offClassObject_vtableCount(%eax),%ecx # compare(methodIndex,vtableCount) jae .LOP_INVOKE_SUPER_JUMBO_nsm # method not present in superclass movl offClassObject_vtable(%eax),%eax # eax<- ...clazz->super->vtable movl (%eax,%ecx,4),%eax # eax<- vtable[methodIndex] jmp common_invokeMethodJumbo /* At this point: * ecx = null (needs to be resolved base method) * eax = method->clazz */ .LOP_INVOKE_SUPER_JUMBO_resolve: SPILL_TMP1(%eax) # method->clazz movl %eax,OUT_ARG0(%esp) # arg0<- method->clazz movl 2(rPC),%ecx # ecx<- AAAAAAAA movl $METHOD_VIRTUAL,OUT_ARG2(%esp) # arg2<- resolver method type movl %ecx,OUT_ARG1(%esp) # arg1<- ref call dvmResolveMethod # eax<- call(clazz, ref, flags) testl %eax,%eax # got null? movl %eax,%ecx # ecx<- resolved base method UNSPILL_TMP1(%eax) # restore method->clazz jne .LOP_INVOKE_SUPER_JUMBO_continue # good to go - continue jmp common_exceptionThrown # handle exception /* * Throw a NoSuchMethodError with the method name as the message. * ecx = resolved base method */ .LOP_INVOKE_SUPER_JUMBO_nsm: movl offMethod_name(%ecx),%eax jmp common_errNoSuchMethod /* ------------------------------ */ .L_OP_INVOKE_DIRECT_JUMBO: /* 0x124 */ /* File: x86/OP_INVOKE_DIRECT_JUMBO.S */ /* * Handle a jumbo direct method call. * * (We could defer the "is 'this' pointer null" test to the common * method invocation code, and use a flag to indicate that static * calls don't count. If we do this as part of copying the arguments * out we could avoiding loading the first arg twice.) */ /* invoke-direct/jumbo {vCCCC..v(CCCC+BBBB-1)}, meth@AAAAAAAA */ movl rSELF,%ecx movl 2(rPC),%eax # eax<- AAAAAAAA movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%ecx),%ecx # ecx<- pDvmDex->pResMethods movzwl 8(rPC),rIBASE # rIBASE<- CCCC movl (%ecx,%eax,4),%eax # eax<- resolved methodToCall testl %eax,%eax # already resolved? GET_VREG_R %ecx rIBASE # ecx<- "this" ptr je .LOP_INVOKE_DIRECT_JUMBO_resolve # not resolved, do it now .LOP_INVOKE_DIRECT_JUMBO_finish: testl %ecx,%ecx # null "this"? jne common_invokeMethodJumbo # no, continue on jmp common_errNullObject /* * On entry: * TMP_SPILL <- "this" register * Things a bit ugly on this path, but it's the less * frequent one. We'll have to do some reloading. */ .LOP_INVOKE_DIRECT_JUMBO_resolve: SPILL_TMP1(%ecx) movl rSELF,%ecx movl offThread_method(%ecx),%ecx # ecx<- self->method movl 2(rPC),%eax # reference AAAAAAAA movl offMethod_clazz(%ecx),%ecx # ecx<- method->clazz movl $METHOD_DIRECT,OUT_ARG2(%esp) movl %eax,OUT_ARG1(%esp) movl %ecx,OUT_ARG0(%esp) call dvmResolveMethod # eax<- call(clazz, ref, flags) UNSPILL_TMP1(%ecx) testl %eax,%eax jne .LOP_INVOKE_DIRECT_JUMBO_finish jmp common_exceptionThrown /* ------------------------------ */ .L_OP_INVOKE_STATIC_JUMBO: /* 0x125 */ /* File: x86/OP_INVOKE_STATIC_JUMBO.S */ /* * Handle a jumbo static method call. */ /* invoke-static/jumbo {vCCCC..v(CCCC+BBBB-1)}, meth@AAAAAAAA */ movl rSELF,%ecx movl 2(rPC),%eax # eax<- AAAAAAAA movl offThread_methodClassDex(%ecx),%ecx # ecx<- pDvmDex EXPORT_PC movl offDvmDex_pResMethods(%ecx),%ecx # ecx<- pDvmDex->pResMethods movl (%ecx,%eax,4),%eax # eax<- resolved methodToCall testl %eax,%eax jne common_invokeMethodJumbo movl rSELF,%ecx movl offThread_method(%ecx),%ecx # ecx<- self->method movl 2(rPC),%eax # eax<- AAAAAAAA movl offMethod_clazz(%ecx),%ecx# ecx<- method->clazz movl %eax,OUT_ARG1(%esp) # arg1<- AAAAAAAA movl %ecx,OUT_ARG0(%esp) # arg0<- clazz movl $METHOD_STATIC,%eax movl %eax,OUT_ARG2(%esp) # arg2<- flags call dvmResolveMethod # call(clazz,ref,flags) testl %eax,%eax # got null? jne common_invokeMethodJumbo jmp common_exceptionThrown /* ------------------------------ */ .L_OP_INVOKE_INTERFACE_JUMBO: /* 0x126 */ /* File: x86/OP_INVOKE_INTERFACE_JUMBO.S */ /* * Handle a jumbo interface method call. */ /* invoke-interface/jumbo {vCCCC..v(CCCC+BBBB-1)}, meth@AAAAAAAA */ movzwl 8(rPC),%eax # eax<- CCCC movl rSELF,%ecx GET_VREG_R %eax %eax # eax<- "this" EXPORT_PC testl %eax,%eax # null this? je common_errNullObject # yes, fail movl offObject_clazz(%eax),%eax# eax<- thisPtr->clazz movl %eax,OUT_ARG0(%esp) # arg0<- class movl offThread_methodClassDex(%ecx),%eax # eax<- methodClassDex movl offThread_method(%ecx),%ecx # ecx<- method movl %eax,OUT_ARG3(%esp) # arg3<- dex movl 2(rPC),%eax # eax<- AAAAAAAA movl %ecx,OUT_ARG2(%esp) # arg2<- method movl %eax,OUT_ARG1(%esp) # arg1<- AAAAAAAA call dvmFindInterfaceMethodInCache # eax<- call(class, ref, method, dex) testl %eax,%eax je common_exceptionThrown jmp common_invokeMethodJumbo /* ------------------------------ */ .L_OP_UNUSED_27FF: /* 0x127 */ /* File: x86/OP_UNUSED_27FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_28FF: /* 0x128 */ /* File: x86/OP_UNUSED_28FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_29FF: /* 0x129 */ /* File: x86/OP_UNUSED_29FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_2AFF: /* 0x12a */ /* File: x86/OP_UNUSED_2AFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_2BFF: /* 0x12b */ /* File: x86/OP_UNUSED_2BFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_2CFF: /* 0x12c */ /* File: x86/OP_UNUSED_2CFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_2DFF: /* 0x12d */ /* File: x86/OP_UNUSED_2DFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_2EFF: /* 0x12e */ /* File: x86/OP_UNUSED_2EFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_2FFF: /* 0x12f */ /* File: x86/OP_UNUSED_2FFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_30FF: /* 0x130 */ /* File: x86/OP_UNUSED_30FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_31FF: /* 0x131 */ /* File: x86/OP_UNUSED_31FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_32FF: /* 0x132 */ /* File: x86/OP_UNUSED_32FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_33FF: /* 0x133 */ /* File: x86/OP_UNUSED_33FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_34FF: /* 0x134 */ /* File: x86/OP_UNUSED_34FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_35FF: /* 0x135 */ /* File: x86/OP_UNUSED_35FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_36FF: /* 0x136 */ /* File: x86/OP_UNUSED_36FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_37FF: /* 0x137 */ /* File: x86/OP_UNUSED_37FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_38FF: /* 0x138 */ /* File: x86/OP_UNUSED_38FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_39FF: /* 0x139 */ /* File: x86/OP_UNUSED_39FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_3AFF: /* 0x13a */ /* File: x86/OP_UNUSED_3AFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_3BFF: /* 0x13b */ /* File: x86/OP_UNUSED_3BFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_3CFF: /* 0x13c */ /* File: x86/OP_UNUSED_3CFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_3DFF: /* 0x13d */ /* File: x86/OP_UNUSED_3DFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_3EFF: /* 0x13e */ /* File: x86/OP_UNUSED_3EFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_3FFF: /* 0x13f */ /* File: x86/OP_UNUSED_3FFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_40FF: /* 0x140 */ /* File: x86/OP_UNUSED_40FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_41FF: /* 0x141 */ /* File: x86/OP_UNUSED_41FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_42FF: /* 0x142 */ /* File: x86/OP_UNUSED_42FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_43FF: /* 0x143 */ /* File: x86/OP_UNUSED_43FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_44FF: /* 0x144 */ /* File: x86/OP_UNUSED_44FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_45FF: /* 0x145 */ /* File: x86/OP_UNUSED_45FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_46FF: /* 0x146 */ /* File: x86/OP_UNUSED_46FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_47FF: /* 0x147 */ /* File: x86/OP_UNUSED_47FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_48FF: /* 0x148 */ /* File: x86/OP_UNUSED_48FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_49FF: /* 0x149 */ /* File: x86/OP_UNUSED_49FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_4AFF: /* 0x14a */ /* File: x86/OP_UNUSED_4AFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_4BFF: /* 0x14b */ /* File: x86/OP_UNUSED_4BFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_4CFF: /* 0x14c */ /* File: x86/OP_UNUSED_4CFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_4DFF: /* 0x14d */ /* File: x86/OP_UNUSED_4DFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_4EFF: /* 0x14e */ /* File: x86/OP_UNUSED_4EFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_4FFF: /* 0x14f */ /* File: x86/OP_UNUSED_4FFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_50FF: /* 0x150 */ /* File: x86/OP_UNUSED_50FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_51FF: /* 0x151 */ /* File: x86/OP_UNUSED_51FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_52FF: /* 0x152 */ /* File: x86/OP_UNUSED_52FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_53FF: /* 0x153 */ /* File: x86/OP_UNUSED_53FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_54FF: /* 0x154 */ /* File: x86/OP_UNUSED_54FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_55FF: /* 0x155 */ /* File: x86/OP_UNUSED_55FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_56FF: /* 0x156 */ /* File: x86/OP_UNUSED_56FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_57FF: /* 0x157 */ /* File: x86/OP_UNUSED_57FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_58FF: /* 0x158 */ /* File: x86/OP_UNUSED_58FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_59FF: /* 0x159 */ /* File: x86/OP_UNUSED_59FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_5AFF: /* 0x15a */ /* File: x86/OP_UNUSED_5AFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_5BFF: /* 0x15b */ /* File: x86/OP_UNUSED_5BFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_5CFF: /* 0x15c */ /* File: x86/OP_UNUSED_5CFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_5DFF: /* 0x15d */ /* File: x86/OP_UNUSED_5DFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_5EFF: /* 0x15e */ /* File: x86/OP_UNUSED_5EFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_5FFF: /* 0x15f */ /* File: x86/OP_UNUSED_5FFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_60FF: /* 0x160 */ /* File: x86/OP_UNUSED_60FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_61FF: /* 0x161 */ /* File: x86/OP_UNUSED_61FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_62FF: /* 0x162 */ /* File: x86/OP_UNUSED_62FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_63FF: /* 0x163 */ /* File: x86/OP_UNUSED_63FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_64FF: /* 0x164 */ /* File: x86/OP_UNUSED_64FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_65FF: /* 0x165 */ /* File: x86/OP_UNUSED_65FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_66FF: /* 0x166 */ /* File: x86/OP_UNUSED_66FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_67FF: /* 0x167 */ /* File: x86/OP_UNUSED_67FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_68FF: /* 0x168 */ /* File: x86/OP_UNUSED_68FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_69FF: /* 0x169 */ /* File: x86/OP_UNUSED_69FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_6AFF: /* 0x16a */ /* File: x86/OP_UNUSED_6AFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_6BFF: /* 0x16b */ /* File: x86/OP_UNUSED_6BFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_6CFF: /* 0x16c */ /* File: x86/OP_UNUSED_6CFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_6DFF: /* 0x16d */ /* File: x86/OP_UNUSED_6DFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_6EFF: /* 0x16e */ /* File: x86/OP_UNUSED_6EFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_6FFF: /* 0x16f */ /* File: x86/OP_UNUSED_6FFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_70FF: /* 0x170 */ /* File: x86/OP_UNUSED_70FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_71FF: /* 0x171 */ /* File: x86/OP_UNUSED_71FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_72FF: /* 0x172 */ /* File: x86/OP_UNUSED_72FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_73FF: /* 0x173 */ /* File: x86/OP_UNUSED_73FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_74FF: /* 0x174 */ /* File: x86/OP_UNUSED_74FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_75FF: /* 0x175 */ /* File: x86/OP_UNUSED_75FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_76FF: /* 0x176 */ /* File: x86/OP_UNUSED_76FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_77FF: /* 0x177 */ /* File: x86/OP_UNUSED_77FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_78FF: /* 0x178 */ /* File: x86/OP_UNUSED_78FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_79FF: /* 0x179 */ /* File: x86/OP_UNUSED_79FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_7AFF: /* 0x17a */ /* File: x86/OP_UNUSED_7AFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_7BFF: /* 0x17b */ /* File: x86/OP_UNUSED_7BFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_7CFF: /* 0x17c */ /* File: x86/OP_UNUSED_7CFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_7DFF: /* 0x17d */ /* File: x86/OP_UNUSED_7DFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_7EFF: /* 0x17e */ /* File: x86/OP_UNUSED_7EFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_7FFF: /* 0x17f */ /* File: x86/OP_UNUSED_7FFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_80FF: /* 0x180 */ /* File: x86/OP_UNUSED_80FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_81FF: /* 0x181 */ /* File: x86/OP_UNUSED_81FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_82FF: /* 0x182 */ /* File: x86/OP_UNUSED_82FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_83FF: /* 0x183 */ /* File: x86/OP_UNUSED_83FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_84FF: /* 0x184 */ /* File: x86/OP_UNUSED_84FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_85FF: /* 0x185 */ /* File: x86/OP_UNUSED_85FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_86FF: /* 0x186 */ /* File: x86/OP_UNUSED_86FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_87FF: /* 0x187 */ /* File: x86/OP_UNUSED_87FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_88FF: /* 0x188 */ /* File: x86/OP_UNUSED_88FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_89FF: /* 0x189 */ /* File: x86/OP_UNUSED_89FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_8AFF: /* 0x18a */ /* File: x86/OP_UNUSED_8AFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_8BFF: /* 0x18b */ /* File: x86/OP_UNUSED_8BFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_8CFF: /* 0x18c */ /* File: x86/OP_UNUSED_8CFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_8DFF: /* 0x18d */ /* File: x86/OP_UNUSED_8DFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_8EFF: /* 0x18e */ /* File: x86/OP_UNUSED_8EFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_8FFF: /* 0x18f */ /* File: x86/OP_UNUSED_8FFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_90FF: /* 0x190 */ /* File: x86/OP_UNUSED_90FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_91FF: /* 0x191 */ /* File: x86/OP_UNUSED_91FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_92FF: /* 0x192 */ /* File: x86/OP_UNUSED_92FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_93FF: /* 0x193 */ /* File: x86/OP_UNUSED_93FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_94FF: /* 0x194 */ /* File: x86/OP_UNUSED_94FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_95FF: /* 0x195 */ /* File: x86/OP_UNUSED_95FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_96FF: /* 0x196 */ /* File: x86/OP_UNUSED_96FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_97FF: /* 0x197 */ /* File: x86/OP_UNUSED_97FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_98FF: /* 0x198 */ /* File: x86/OP_UNUSED_98FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_99FF: /* 0x199 */ /* File: x86/OP_UNUSED_99FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_9AFF: /* 0x19a */ /* File: x86/OP_UNUSED_9AFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_9BFF: /* 0x19b */ /* File: x86/OP_UNUSED_9BFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_9CFF: /* 0x19c */ /* File: x86/OP_UNUSED_9CFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_9DFF: /* 0x19d */ /* File: x86/OP_UNUSED_9DFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_9EFF: /* 0x19e */ /* File: x86/OP_UNUSED_9EFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_9FFF: /* 0x19f */ /* File: x86/OP_UNUSED_9FFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_A0FF: /* 0x1a0 */ /* File: x86/OP_UNUSED_A0FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_A1FF: /* 0x1a1 */ /* File: x86/OP_UNUSED_A1FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_A2FF: /* 0x1a2 */ /* File: x86/OP_UNUSED_A2FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_A3FF: /* 0x1a3 */ /* File: x86/OP_UNUSED_A3FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_A4FF: /* 0x1a4 */ /* File: x86/OP_UNUSED_A4FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_A5FF: /* 0x1a5 */ /* File: x86/OP_UNUSED_A5FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_A6FF: /* 0x1a6 */ /* File: x86/OP_UNUSED_A6FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_A7FF: /* 0x1a7 */ /* File: x86/OP_UNUSED_A7FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_A8FF: /* 0x1a8 */ /* File: x86/OP_UNUSED_A8FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_A9FF: /* 0x1a9 */ /* File: x86/OP_UNUSED_A9FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_AAFF: /* 0x1aa */ /* File: x86/OP_UNUSED_AAFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_ABFF: /* 0x1ab */ /* File: x86/OP_UNUSED_ABFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_ACFF: /* 0x1ac */ /* File: x86/OP_UNUSED_ACFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_ADFF: /* 0x1ad */ /* File: x86/OP_UNUSED_ADFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_AEFF: /* 0x1ae */ /* File: x86/OP_UNUSED_AEFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_AFFF: /* 0x1af */ /* File: x86/OP_UNUSED_AFFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_B0FF: /* 0x1b0 */ /* File: x86/OP_UNUSED_B0FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_B1FF: /* 0x1b1 */ /* File: x86/OP_UNUSED_B1FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_B2FF: /* 0x1b2 */ /* File: x86/OP_UNUSED_B2FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_B3FF: /* 0x1b3 */ /* File: x86/OP_UNUSED_B3FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_B4FF: /* 0x1b4 */ /* File: x86/OP_UNUSED_B4FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_B5FF: /* 0x1b5 */ /* File: x86/OP_UNUSED_B5FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_B6FF: /* 0x1b6 */ /* File: x86/OP_UNUSED_B6FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_B7FF: /* 0x1b7 */ /* File: x86/OP_UNUSED_B7FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_B8FF: /* 0x1b8 */ /* File: x86/OP_UNUSED_B8FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_B9FF: /* 0x1b9 */ /* File: x86/OP_UNUSED_B9FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_BAFF: /* 0x1ba */ /* File: x86/OP_UNUSED_BAFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_BBFF: /* 0x1bb */ /* File: x86/OP_UNUSED_BBFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_BCFF: /* 0x1bc */ /* File: x86/OP_UNUSED_BCFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_BDFF: /* 0x1bd */ /* File: x86/OP_UNUSED_BDFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_BEFF: /* 0x1be */ /* File: x86/OP_UNUSED_BEFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_BFFF: /* 0x1bf */ /* File: x86/OP_UNUSED_BFFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_C0FF: /* 0x1c0 */ /* File: x86/OP_UNUSED_C0FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_C1FF: /* 0x1c1 */ /* File: x86/OP_UNUSED_C1FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_C2FF: /* 0x1c2 */ /* File: x86/OP_UNUSED_C2FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_C3FF: /* 0x1c3 */ /* File: x86/OP_UNUSED_C3FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_C4FF: /* 0x1c4 */ /* File: x86/OP_UNUSED_C4FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_C5FF: /* 0x1c5 */ /* File: x86/OP_UNUSED_C5FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_C6FF: /* 0x1c6 */ /* File: x86/OP_UNUSED_C6FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_C7FF: /* 0x1c7 */ /* File: x86/OP_UNUSED_C7FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_C8FF: /* 0x1c8 */ /* File: x86/OP_UNUSED_C8FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_C9FF: /* 0x1c9 */ /* File: x86/OP_UNUSED_C9FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_CAFF: /* 0x1ca */ /* File: x86/OP_UNUSED_CAFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_CBFF: /* 0x1cb */ /* File: x86/OP_UNUSED_CBFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_CCFF: /* 0x1cc */ /* File: x86/OP_UNUSED_CCFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_CDFF: /* 0x1cd */ /* File: x86/OP_UNUSED_CDFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_CEFF: /* 0x1ce */ /* File: x86/OP_UNUSED_CEFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_CFFF: /* 0x1cf */ /* File: x86/OP_UNUSED_CFFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_D0FF: /* 0x1d0 */ /* File: x86/OP_UNUSED_D0FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_D1FF: /* 0x1d1 */ /* File: x86/OP_UNUSED_D1FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_D2FF: /* 0x1d2 */ /* File: x86/OP_UNUSED_D2FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_D3FF: /* 0x1d3 */ /* File: x86/OP_UNUSED_D3FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_D4FF: /* 0x1d4 */ /* File: x86/OP_UNUSED_D4FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_D5FF: /* 0x1d5 */ /* File: x86/OP_UNUSED_D5FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_D6FF: /* 0x1d6 */ /* File: x86/OP_UNUSED_D6FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_D7FF: /* 0x1d7 */ /* File: x86/OP_UNUSED_D7FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_D8FF: /* 0x1d8 */ /* File: x86/OP_UNUSED_D8FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_D9FF: /* 0x1d9 */ /* File: x86/OP_UNUSED_D9FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_DAFF: /* 0x1da */ /* File: x86/OP_UNUSED_DAFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_DBFF: /* 0x1db */ /* File: x86/OP_UNUSED_DBFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_DCFF: /* 0x1dc */ /* File: x86/OP_UNUSED_DCFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_DDFF: /* 0x1dd */ /* File: x86/OP_UNUSED_DDFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_DEFF: /* 0x1de */ /* File: x86/OP_UNUSED_DEFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_DFFF: /* 0x1df */ /* File: x86/OP_UNUSED_DFFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_E0FF: /* 0x1e0 */ /* File: x86/OP_UNUSED_E0FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_E1FF: /* 0x1e1 */ /* File: x86/OP_UNUSED_E1FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_E2FF: /* 0x1e2 */ /* File: x86/OP_UNUSED_E2FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_E3FF: /* 0x1e3 */ /* File: x86/OP_UNUSED_E3FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_E4FF: /* 0x1e4 */ /* File: x86/OP_UNUSED_E4FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_E5FF: /* 0x1e5 */ /* File: x86/OP_UNUSED_E5FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_E6FF: /* 0x1e6 */ /* File: x86/OP_UNUSED_E6FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_E7FF: /* 0x1e7 */ /* File: x86/OP_UNUSED_E7FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_E8FF: /* 0x1e8 */ /* File: x86/OP_UNUSED_E8FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_E9FF: /* 0x1e9 */ /* File: x86/OP_UNUSED_E9FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_EAFF: /* 0x1ea */ /* File: x86/OP_UNUSED_EAFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_EBFF: /* 0x1eb */ /* File: x86/OP_UNUSED_EBFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_ECFF: /* 0x1ec */ /* File: x86/OP_UNUSED_ECFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_EDFF: /* 0x1ed */ /* File: x86/OP_UNUSED_EDFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_EEFF: /* 0x1ee */ /* File: x86/OP_UNUSED_EEFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_EFFF: /* 0x1ef */ /* File: x86/OP_UNUSED_EFFF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_F0FF: /* 0x1f0 */ /* File: x86/OP_UNUSED_F0FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_UNUSED_F1FF: /* 0x1f1 */ /* File: x86/OP_UNUSED_F1FF.S */ /* File: x86/unused.S */ jmp common_abort /* ------------------------------ */ .L_OP_INVOKE_OBJECT_INIT_JUMBO: /* 0x1f2 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_INVOKE_OBJECT_INIT_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_IGET_VOLATILE_JUMBO: /* 0x1f3 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_IGET_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_IGET_WIDE_VOLATILE_JUMBO: /* 0x1f4 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_IGET_WIDE_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_IGET_OBJECT_VOLATILE_JUMBO: /* 0x1f5 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_IGET_OBJECT_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_IPUT_VOLATILE_JUMBO: /* 0x1f6 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_IPUT_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_IPUT_WIDE_VOLATILE_JUMBO: /* 0x1f7 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_IPUT_WIDE_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_IPUT_OBJECT_VOLATILE_JUMBO: /* 0x1f8 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_IPUT_OBJECT_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_SGET_VOLATILE_JUMBO: /* 0x1f9 */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_SGET_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_SGET_WIDE_VOLATILE_JUMBO: /* 0x1fa */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_SGET_WIDE_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_SGET_OBJECT_VOLATILE_JUMBO: /* 0x1fb */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_SGET_OBJECT_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_SPUT_VOLATILE_JUMBO: /* 0x1fc */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_SPUT_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_SPUT_WIDE_VOLATILE_JUMBO: /* 0x1fd */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_SPUT_WIDE_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_SPUT_OBJECT_VOLATILE_JUMBO: /* 0x1fe */ /* (stub) */ SAVE_PC_FP_TO_SELF %ecx # leaves rSELF in %ecx movl %ecx,OUT_ARG0(%esp) # self is first arg to function call dvmMterp_OP_SPUT_OBJECT_VOLATILE_JUMBO # do the real work movl rSELF,%ecx LOAD_PC_FP_FROM_SELF # retrieve updated values movl offThread_curHandlerTable(%ecx),rIBASE # set up rIBASE FETCH_INST GOTO_NEXT /* ------------------------------ */ .L_OP_THROW_VERIFICATION_ERROR_JUMBO: /* 0x1ff */ /* File: x86/OP_THROW_VERIFICATION_ERROR_JUMBO.S */ /* * Handle a jumbo throw-verification-error instruction. This throws an * exception for an error discovered during verification. The * exception is indicated by BBBB, with some detail provided by AAAAAAAA. */ /* exop BBBB, ref@AAAAAAAA */ movl rSELF,%ecx movl 2(rPC),%eax # eax<- AAAAAAAA movl offThread_method(%ecx),%ecx # ecx<- self->method EXPORT_PC movl %eax,OUT_ARG2(%esp) # arg2<- AAAAAAAA movl rINST,OUT_ARG1(%esp) # arg1<- BBBB movl %ecx,OUT_ARG0(%esp) # arg0<- method call dvmThrowVerificationError # call(method, kind, ref) jmp common_exceptionThrown # handle exception .size dvmAsmInstructionStartCode, .-dvmAsmInstructionStartCode .global dvmAsmInstructionEndCode dvmAsmInstructionEndCode: .global dvmAsmAltInstructionStartCode .type dvmAsmAltInstructionStartCode, %function .text dvmAsmAltInstructionStartCode = .L_ALT_OP_NOP /* ------------------------------ */ .L_ALT_OP_NOP: /* 0x00 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(0*4) /* ------------------------------ */ .L_ALT_OP_MOVE: /* 0x01 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(1*4) /* ------------------------------ */ .L_ALT_OP_MOVE_FROM16: /* 0x02 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(2*4) /* ------------------------------ */ .L_ALT_OP_MOVE_16: /* 0x03 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(3*4) /* ------------------------------ */ .L_ALT_OP_MOVE_WIDE: /* 0x04 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(4*4) /* ------------------------------ */ .L_ALT_OP_MOVE_WIDE_FROM16: /* 0x05 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(5*4) /* ------------------------------ */ .L_ALT_OP_MOVE_WIDE_16: /* 0x06 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(6*4) /* ------------------------------ */ .L_ALT_OP_MOVE_OBJECT: /* 0x07 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(7*4) /* ------------------------------ */ .L_ALT_OP_MOVE_OBJECT_FROM16: /* 0x08 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(8*4) /* ------------------------------ */ .L_ALT_OP_MOVE_OBJECT_16: /* 0x09 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(9*4) /* ------------------------------ */ .L_ALT_OP_MOVE_RESULT: /* 0x0a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(10*4) /* ------------------------------ */ .L_ALT_OP_MOVE_RESULT_WIDE: /* 0x0b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(11*4) /* ------------------------------ */ .L_ALT_OP_MOVE_RESULT_OBJECT: /* 0x0c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(12*4) /* ------------------------------ */ .L_ALT_OP_MOVE_EXCEPTION: /* 0x0d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(13*4) /* ------------------------------ */ .L_ALT_OP_RETURN_VOID: /* 0x0e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(14*4) /* ------------------------------ */ .L_ALT_OP_RETURN: /* 0x0f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(15*4) /* ------------------------------ */ .L_ALT_OP_RETURN_WIDE: /* 0x10 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(16*4) /* ------------------------------ */ .L_ALT_OP_RETURN_OBJECT: /* 0x11 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(17*4) /* ------------------------------ */ .L_ALT_OP_CONST_4: /* 0x12 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(18*4) /* ------------------------------ */ .L_ALT_OP_CONST_16: /* 0x13 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(19*4) /* ------------------------------ */ .L_ALT_OP_CONST: /* 0x14 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(20*4) /* ------------------------------ */ .L_ALT_OP_CONST_HIGH16: /* 0x15 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(21*4) /* ------------------------------ */ .L_ALT_OP_CONST_WIDE_16: /* 0x16 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(22*4) /* ------------------------------ */ .L_ALT_OP_CONST_WIDE_32: /* 0x17 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(23*4) /* ------------------------------ */ .L_ALT_OP_CONST_WIDE: /* 0x18 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(24*4) /* ------------------------------ */ .L_ALT_OP_CONST_WIDE_HIGH16: /* 0x19 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(25*4) /* ------------------------------ */ .L_ALT_OP_CONST_STRING: /* 0x1a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(26*4) /* ------------------------------ */ .L_ALT_OP_CONST_STRING_JUMBO: /* 0x1b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(27*4) /* ------------------------------ */ .L_ALT_OP_CONST_CLASS: /* 0x1c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(28*4) /* ------------------------------ */ .L_ALT_OP_MONITOR_ENTER: /* 0x1d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(29*4) /* ------------------------------ */ .L_ALT_OP_MONITOR_EXIT: /* 0x1e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(30*4) /* ------------------------------ */ .L_ALT_OP_CHECK_CAST: /* 0x1f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(31*4) /* ------------------------------ */ .L_ALT_OP_INSTANCE_OF: /* 0x20 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(32*4) /* ------------------------------ */ .L_ALT_OP_ARRAY_LENGTH: /* 0x21 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(33*4) /* ------------------------------ */ .L_ALT_OP_NEW_INSTANCE: /* 0x22 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(34*4) /* ------------------------------ */ .L_ALT_OP_NEW_ARRAY: /* 0x23 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(35*4) /* ------------------------------ */ .L_ALT_OP_FILLED_NEW_ARRAY: /* 0x24 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(36*4) /* ------------------------------ */ .L_ALT_OP_FILLED_NEW_ARRAY_RANGE: /* 0x25 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(37*4) /* ------------------------------ */ .L_ALT_OP_FILL_ARRAY_DATA: /* 0x26 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(38*4) /* ------------------------------ */ .L_ALT_OP_THROW: /* 0x27 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(39*4) /* ------------------------------ */ .L_ALT_OP_GOTO: /* 0x28 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(40*4) /* ------------------------------ */ .L_ALT_OP_GOTO_16: /* 0x29 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(41*4) /* ------------------------------ */ .L_ALT_OP_GOTO_32: /* 0x2a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(42*4) /* ------------------------------ */ .L_ALT_OP_PACKED_SWITCH: /* 0x2b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(43*4) /* ------------------------------ */ .L_ALT_OP_SPARSE_SWITCH: /* 0x2c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(44*4) /* ------------------------------ */ .L_ALT_OP_CMPL_FLOAT: /* 0x2d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(45*4) /* ------------------------------ */ .L_ALT_OP_CMPG_FLOAT: /* 0x2e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(46*4) /* ------------------------------ */ .L_ALT_OP_CMPL_DOUBLE: /* 0x2f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(47*4) /* ------------------------------ */ .L_ALT_OP_CMPG_DOUBLE: /* 0x30 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(48*4) /* ------------------------------ */ .L_ALT_OP_CMP_LONG: /* 0x31 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(49*4) /* ------------------------------ */ .L_ALT_OP_IF_EQ: /* 0x32 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(50*4) /* ------------------------------ */ .L_ALT_OP_IF_NE: /* 0x33 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(51*4) /* ------------------------------ */ .L_ALT_OP_IF_LT: /* 0x34 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(52*4) /* ------------------------------ */ .L_ALT_OP_IF_GE: /* 0x35 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(53*4) /* ------------------------------ */ .L_ALT_OP_IF_GT: /* 0x36 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(54*4) /* ------------------------------ */ .L_ALT_OP_IF_LE: /* 0x37 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(55*4) /* ------------------------------ */ .L_ALT_OP_IF_EQZ: /* 0x38 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(56*4) /* ------------------------------ */ .L_ALT_OP_IF_NEZ: /* 0x39 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(57*4) /* ------------------------------ */ .L_ALT_OP_IF_LTZ: /* 0x3a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(58*4) /* ------------------------------ */ .L_ALT_OP_IF_GEZ: /* 0x3b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(59*4) /* ------------------------------ */ .L_ALT_OP_IF_GTZ: /* 0x3c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(60*4) /* ------------------------------ */ .L_ALT_OP_IF_LEZ: /* 0x3d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(61*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_3E: /* 0x3e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(62*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_3F: /* 0x3f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(63*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_40: /* 0x40 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(64*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_41: /* 0x41 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(65*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_42: /* 0x42 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(66*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_43: /* 0x43 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(67*4) /* ------------------------------ */ .L_ALT_OP_AGET: /* 0x44 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(68*4) /* ------------------------------ */ .L_ALT_OP_AGET_WIDE: /* 0x45 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(69*4) /* ------------------------------ */ .L_ALT_OP_AGET_OBJECT: /* 0x46 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(70*4) /* ------------------------------ */ .L_ALT_OP_AGET_BOOLEAN: /* 0x47 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(71*4) /* ------------------------------ */ .L_ALT_OP_AGET_BYTE: /* 0x48 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(72*4) /* ------------------------------ */ .L_ALT_OP_AGET_CHAR: /* 0x49 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(73*4) /* ------------------------------ */ .L_ALT_OP_AGET_SHORT: /* 0x4a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(74*4) /* ------------------------------ */ .L_ALT_OP_APUT: /* 0x4b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(75*4) /* ------------------------------ */ .L_ALT_OP_APUT_WIDE: /* 0x4c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(76*4) /* ------------------------------ */ .L_ALT_OP_APUT_OBJECT: /* 0x4d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(77*4) /* ------------------------------ */ .L_ALT_OP_APUT_BOOLEAN: /* 0x4e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(78*4) /* ------------------------------ */ .L_ALT_OP_APUT_BYTE: /* 0x4f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(79*4) /* ------------------------------ */ .L_ALT_OP_APUT_CHAR: /* 0x50 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(80*4) /* ------------------------------ */ .L_ALT_OP_APUT_SHORT: /* 0x51 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(81*4) /* ------------------------------ */ .L_ALT_OP_IGET: /* 0x52 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(82*4) /* ------------------------------ */ .L_ALT_OP_IGET_WIDE: /* 0x53 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(83*4) /* ------------------------------ */ .L_ALT_OP_IGET_OBJECT: /* 0x54 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(84*4) /* ------------------------------ */ .L_ALT_OP_IGET_BOOLEAN: /* 0x55 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(85*4) /* ------------------------------ */ .L_ALT_OP_IGET_BYTE: /* 0x56 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(86*4) /* ------------------------------ */ .L_ALT_OP_IGET_CHAR: /* 0x57 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(87*4) /* ------------------------------ */ .L_ALT_OP_IGET_SHORT: /* 0x58 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(88*4) /* ------------------------------ */ .L_ALT_OP_IPUT: /* 0x59 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(89*4) /* ------------------------------ */ .L_ALT_OP_IPUT_WIDE: /* 0x5a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(90*4) /* ------------------------------ */ .L_ALT_OP_IPUT_OBJECT: /* 0x5b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(91*4) /* ------------------------------ */ .L_ALT_OP_IPUT_BOOLEAN: /* 0x5c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(92*4) /* ------------------------------ */ .L_ALT_OP_IPUT_BYTE: /* 0x5d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(93*4) /* ------------------------------ */ .L_ALT_OP_IPUT_CHAR: /* 0x5e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(94*4) /* ------------------------------ */ .L_ALT_OP_IPUT_SHORT: /* 0x5f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(95*4) /* ------------------------------ */ .L_ALT_OP_SGET: /* 0x60 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(96*4) /* ------------------------------ */ .L_ALT_OP_SGET_WIDE: /* 0x61 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(97*4) /* ------------------------------ */ .L_ALT_OP_SGET_OBJECT: /* 0x62 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(98*4) /* ------------------------------ */ .L_ALT_OP_SGET_BOOLEAN: /* 0x63 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(99*4) /* ------------------------------ */ .L_ALT_OP_SGET_BYTE: /* 0x64 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(100*4) /* ------------------------------ */ .L_ALT_OP_SGET_CHAR: /* 0x65 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(101*4) /* ------------------------------ */ .L_ALT_OP_SGET_SHORT: /* 0x66 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(102*4) /* ------------------------------ */ .L_ALT_OP_SPUT: /* 0x67 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(103*4) /* ------------------------------ */ .L_ALT_OP_SPUT_WIDE: /* 0x68 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(104*4) /* ------------------------------ */ .L_ALT_OP_SPUT_OBJECT: /* 0x69 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(105*4) /* ------------------------------ */ .L_ALT_OP_SPUT_BOOLEAN: /* 0x6a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(106*4) /* ------------------------------ */ .L_ALT_OP_SPUT_BYTE: /* 0x6b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(107*4) /* ------------------------------ */ .L_ALT_OP_SPUT_CHAR: /* 0x6c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(108*4) /* ------------------------------ */ .L_ALT_OP_SPUT_SHORT: /* 0x6d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(109*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_VIRTUAL: /* 0x6e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(110*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_SUPER: /* 0x6f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(111*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_DIRECT: /* 0x70 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(112*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_STATIC: /* 0x71 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(113*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_INTERFACE: /* 0x72 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(114*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_73: /* 0x73 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(115*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_VIRTUAL_RANGE: /* 0x74 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(116*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_SUPER_RANGE: /* 0x75 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(117*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_DIRECT_RANGE: /* 0x76 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(118*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_STATIC_RANGE: /* 0x77 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(119*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_INTERFACE_RANGE: /* 0x78 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(120*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_79: /* 0x79 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(121*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_7A: /* 0x7a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(122*4) /* ------------------------------ */ .L_ALT_OP_NEG_INT: /* 0x7b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(123*4) /* ------------------------------ */ .L_ALT_OP_NOT_INT: /* 0x7c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(124*4) /* ------------------------------ */ .L_ALT_OP_NEG_LONG: /* 0x7d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(125*4) /* ------------------------------ */ .L_ALT_OP_NOT_LONG: /* 0x7e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(126*4) /* ------------------------------ */ .L_ALT_OP_NEG_FLOAT: /* 0x7f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(127*4) /* ------------------------------ */ .L_ALT_OP_NEG_DOUBLE: /* 0x80 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(128*4) /* ------------------------------ */ .L_ALT_OP_INT_TO_LONG: /* 0x81 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(129*4) /* ------------------------------ */ .L_ALT_OP_INT_TO_FLOAT: /* 0x82 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(130*4) /* ------------------------------ */ .L_ALT_OP_INT_TO_DOUBLE: /* 0x83 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(131*4) /* ------------------------------ */ .L_ALT_OP_LONG_TO_INT: /* 0x84 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(132*4) /* ------------------------------ */ .L_ALT_OP_LONG_TO_FLOAT: /* 0x85 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(133*4) /* ------------------------------ */ .L_ALT_OP_LONG_TO_DOUBLE: /* 0x86 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(134*4) /* ------------------------------ */ .L_ALT_OP_FLOAT_TO_INT: /* 0x87 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(135*4) /* ------------------------------ */ .L_ALT_OP_FLOAT_TO_LONG: /* 0x88 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(136*4) /* ------------------------------ */ .L_ALT_OP_FLOAT_TO_DOUBLE: /* 0x89 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(137*4) /* ------------------------------ */ .L_ALT_OP_DOUBLE_TO_INT: /* 0x8a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(138*4) /* ------------------------------ */ .L_ALT_OP_DOUBLE_TO_LONG: /* 0x8b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(139*4) /* ------------------------------ */ .L_ALT_OP_DOUBLE_TO_FLOAT: /* 0x8c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(140*4) /* ------------------------------ */ .L_ALT_OP_INT_TO_BYTE: /* 0x8d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(141*4) /* ------------------------------ */ .L_ALT_OP_INT_TO_CHAR: /* 0x8e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(142*4) /* ------------------------------ */ .L_ALT_OP_INT_TO_SHORT: /* 0x8f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(143*4) /* ------------------------------ */ .L_ALT_OP_ADD_INT: /* 0x90 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(144*4) /* ------------------------------ */ .L_ALT_OP_SUB_INT: /* 0x91 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(145*4) /* ------------------------------ */ .L_ALT_OP_MUL_INT: /* 0x92 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(146*4) /* ------------------------------ */ .L_ALT_OP_DIV_INT: /* 0x93 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(147*4) /* ------------------------------ */ .L_ALT_OP_REM_INT: /* 0x94 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(148*4) /* ------------------------------ */ .L_ALT_OP_AND_INT: /* 0x95 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(149*4) /* ------------------------------ */ .L_ALT_OP_OR_INT: /* 0x96 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(150*4) /* ------------------------------ */ .L_ALT_OP_XOR_INT: /* 0x97 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(151*4) /* ------------------------------ */ .L_ALT_OP_SHL_INT: /* 0x98 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(152*4) /* ------------------------------ */ .L_ALT_OP_SHR_INT: /* 0x99 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(153*4) /* ------------------------------ */ .L_ALT_OP_USHR_INT: /* 0x9a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(154*4) /* ------------------------------ */ .L_ALT_OP_ADD_LONG: /* 0x9b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(155*4) /* ------------------------------ */ .L_ALT_OP_SUB_LONG: /* 0x9c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(156*4) /* ------------------------------ */ .L_ALT_OP_MUL_LONG: /* 0x9d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(157*4) /* ------------------------------ */ .L_ALT_OP_DIV_LONG: /* 0x9e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(158*4) /* ------------------------------ */ .L_ALT_OP_REM_LONG: /* 0x9f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(159*4) /* ------------------------------ */ .L_ALT_OP_AND_LONG: /* 0xa0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(160*4) /* ------------------------------ */ .L_ALT_OP_OR_LONG: /* 0xa1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(161*4) /* ------------------------------ */ .L_ALT_OP_XOR_LONG: /* 0xa2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(162*4) /* ------------------------------ */ .L_ALT_OP_SHL_LONG: /* 0xa3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(163*4) /* ------------------------------ */ .L_ALT_OP_SHR_LONG: /* 0xa4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(164*4) /* ------------------------------ */ .L_ALT_OP_USHR_LONG: /* 0xa5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(165*4) /* ------------------------------ */ .L_ALT_OP_ADD_FLOAT: /* 0xa6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(166*4) /* ------------------------------ */ .L_ALT_OP_SUB_FLOAT: /* 0xa7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(167*4) /* ------------------------------ */ .L_ALT_OP_MUL_FLOAT: /* 0xa8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(168*4) /* ------------------------------ */ .L_ALT_OP_DIV_FLOAT: /* 0xa9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(169*4) /* ------------------------------ */ .L_ALT_OP_REM_FLOAT: /* 0xaa */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(170*4) /* ------------------------------ */ .L_ALT_OP_ADD_DOUBLE: /* 0xab */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(171*4) /* ------------------------------ */ .L_ALT_OP_SUB_DOUBLE: /* 0xac */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(172*4) /* ------------------------------ */ .L_ALT_OP_MUL_DOUBLE: /* 0xad */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(173*4) /* ------------------------------ */ .L_ALT_OP_DIV_DOUBLE: /* 0xae */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(174*4) /* ------------------------------ */ .L_ALT_OP_REM_DOUBLE: /* 0xaf */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(175*4) /* ------------------------------ */ .L_ALT_OP_ADD_INT_2ADDR: /* 0xb0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(176*4) /* ------------------------------ */ .L_ALT_OP_SUB_INT_2ADDR: /* 0xb1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(177*4) /* ------------------------------ */ .L_ALT_OP_MUL_INT_2ADDR: /* 0xb2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(178*4) /* ------------------------------ */ .L_ALT_OP_DIV_INT_2ADDR: /* 0xb3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(179*4) /* ------------------------------ */ .L_ALT_OP_REM_INT_2ADDR: /* 0xb4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(180*4) /* ------------------------------ */ .L_ALT_OP_AND_INT_2ADDR: /* 0xb5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(181*4) /* ------------------------------ */ .L_ALT_OP_OR_INT_2ADDR: /* 0xb6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(182*4) /* ------------------------------ */ .L_ALT_OP_XOR_INT_2ADDR: /* 0xb7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(183*4) /* ------------------------------ */ .L_ALT_OP_SHL_INT_2ADDR: /* 0xb8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(184*4) /* ------------------------------ */ .L_ALT_OP_SHR_INT_2ADDR: /* 0xb9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(185*4) /* ------------------------------ */ .L_ALT_OP_USHR_INT_2ADDR: /* 0xba */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(186*4) /* ------------------------------ */ .L_ALT_OP_ADD_LONG_2ADDR: /* 0xbb */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(187*4) /* ------------------------------ */ .L_ALT_OP_SUB_LONG_2ADDR: /* 0xbc */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(188*4) /* ------------------------------ */ .L_ALT_OP_MUL_LONG_2ADDR: /* 0xbd */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(189*4) /* ------------------------------ */ .L_ALT_OP_DIV_LONG_2ADDR: /* 0xbe */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(190*4) /* ------------------------------ */ .L_ALT_OP_REM_LONG_2ADDR: /* 0xbf */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(191*4) /* ------------------------------ */ .L_ALT_OP_AND_LONG_2ADDR: /* 0xc0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(192*4) /* ------------------------------ */ .L_ALT_OP_OR_LONG_2ADDR: /* 0xc1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(193*4) /* ------------------------------ */ .L_ALT_OP_XOR_LONG_2ADDR: /* 0xc2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(194*4) /* ------------------------------ */ .L_ALT_OP_SHL_LONG_2ADDR: /* 0xc3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(195*4) /* ------------------------------ */ .L_ALT_OP_SHR_LONG_2ADDR: /* 0xc4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(196*4) /* ------------------------------ */ .L_ALT_OP_USHR_LONG_2ADDR: /* 0xc5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(197*4) /* ------------------------------ */ .L_ALT_OP_ADD_FLOAT_2ADDR: /* 0xc6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(198*4) /* ------------------------------ */ .L_ALT_OP_SUB_FLOAT_2ADDR: /* 0xc7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(199*4) /* ------------------------------ */ .L_ALT_OP_MUL_FLOAT_2ADDR: /* 0xc8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(200*4) /* ------------------------------ */ .L_ALT_OP_DIV_FLOAT_2ADDR: /* 0xc9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(201*4) /* ------------------------------ */ .L_ALT_OP_REM_FLOAT_2ADDR: /* 0xca */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(202*4) /* ------------------------------ */ .L_ALT_OP_ADD_DOUBLE_2ADDR: /* 0xcb */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(203*4) /* ------------------------------ */ .L_ALT_OP_SUB_DOUBLE_2ADDR: /* 0xcc */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(204*4) /* ------------------------------ */ .L_ALT_OP_MUL_DOUBLE_2ADDR: /* 0xcd */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(205*4) /* ------------------------------ */ .L_ALT_OP_DIV_DOUBLE_2ADDR: /* 0xce */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(206*4) /* ------------------------------ */ .L_ALT_OP_REM_DOUBLE_2ADDR: /* 0xcf */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(207*4) /* ------------------------------ */ .L_ALT_OP_ADD_INT_LIT16: /* 0xd0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(208*4) /* ------------------------------ */ .L_ALT_OP_RSUB_INT: /* 0xd1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(209*4) /* ------------------------------ */ .L_ALT_OP_MUL_INT_LIT16: /* 0xd2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(210*4) /* ------------------------------ */ .L_ALT_OP_DIV_INT_LIT16: /* 0xd3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(211*4) /* ------------------------------ */ .L_ALT_OP_REM_INT_LIT16: /* 0xd4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(212*4) /* ------------------------------ */ .L_ALT_OP_AND_INT_LIT16: /* 0xd5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(213*4) /* ------------------------------ */ .L_ALT_OP_OR_INT_LIT16: /* 0xd6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(214*4) /* ------------------------------ */ .L_ALT_OP_XOR_INT_LIT16: /* 0xd7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(215*4) /* ------------------------------ */ .L_ALT_OP_ADD_INT_LIT8: /* 0xd8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(216*4) /* ------------------------------ */ .L_ALT_OP_RSUB_INT_LIT8: /* 0xd9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(217*4) /* ------------------------------ */ .L_ALT_OP_MUL_INT_LIT8: /* 0xda */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(218*4) /* ------------------------------ */ .L_ALT_OP_DIV_INT_LIT8: /* 0xdb */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(219*4) /* ------------------------------ */ .L_ALT_OP_REM_INT_LIT8: /* 0xdc */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(220*4) /* ------------------------------ */ .L_ALT_OP_AND_INT_LIT8: /* 0xdd */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(221*4) /* ------------------------------ */ .L_ALT_OP_OR_INT_LIT8: /* 0xde */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(222*4) /* ------------------------------ */ .L_ALT_OP_XOR_INT_LIT8: /* 0xdf */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(223*4) /* ------------------------------ */ .L_ALT_OP_SHL_INT_LIT8: /* 0xe0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(224*4) /* ------------------------------ */ .L_ALT_OP_SHR_INT_LIT8: /* 0xe1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(225*4) /* ------------------------------ */ .L_ALT_OP_USHR_INT_LIT8: /* 0xe2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(226*4) /* ------------------------------ */ .L_ALT_OP_IGET_VOLATILE: /* 0xe3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(227*4) /* ------------------------------ */ .L_ALT_OP_IPUT_VOLATILE: /* 0xe4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(228*4) /* ------------------------------ */ .L_ALT_OP_SGET_VOLATILE: /* 0xe5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(229*4) /* ------------------------------ */ .L_ALT_OP_SPUT_VOLATILE: /* 0xe6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(230*4) /* ------------------------------ */ .L_ALT_OP_IGET_OBJECT_VOLATILE: /* 0xe7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(231*4) /* ------------------------------ */ .L_ALT_OP_IGET_WIDE_VOLATILE: /* 0xe8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(232*4) /* ------------------------------ */ .L_ALT_OP_IPUT_WIDE_VOLATILE: /* 0xe9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(233*4) /* ------------------------------ */ .L_ALT_OP_SGET_WIDE_VOLATILE: /* 0xea */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(234*4) /* ------------------------------ */ .L_ALT_OP_SPUT_WIDE_VOLATILE: /* 0xeb */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(235*4) /* ------------------------------ */ .L_ALT_OP_BREAKPOINT: /* 0xec */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(236*4) /* ------------------------------ */ .L_ALT_OP_THROW_VERIFICATION_ERROR: /* 0xed */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(237*4) /* ------------------------------ */ .L_ALT_OP_EXECUTE_INLINE: /* 0xee */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(238*4) /* ------------------------------ */ .L_ALT_OP_EXECUTE_INLINE_RANGE: /* 0xef */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(239*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_OBJECT_INIT_RANGE: /* 0xf0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(240*4) /* ------------------------------ */ .L_ALT_OP_RETURN_VOID_BARRIER: /* 0xf1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(241*4) /* ------------------------------ */ .L_ALT_OP_IGET_QUICK: /* 0xf2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(242*4) /* ------------------------------ */ .L_ALT_OP_IGET_WIDE_QUICK: /* 0xf3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(243*4) /* ------------------------------ */ .L_ALT_OP_IGET_OBJECT_QUICK: /* 0xf4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(244*4) /* ------------------------------ */ .L_ALT_OP_IPUT_QUICK: /* 0xf5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(245*4) /* ------------------------------ */ .L_ALT_OP_IPUT_WIDE_QUICK: /* 0xf6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(246*4) /* ------------------------------ */ .L_ALT_OP_IPUT_OBJECT_QUICK: /* 0xf7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(247*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_VIRTUAL_QUICK: /* 0xf8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(248*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_VIRTUAL_QUICK_RANGE: /* 0xf9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(249*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_SUPER_QUICK: /* 0xfa */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(250*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_SUPER_QUICK_RANGE: /* 0xfb */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(251*4) /* ------------------------------ */ .L_ALT_OP_IPUT_OBJECT_VOLATILE: /* 0xfc */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(252*4) /* ------------------------------ */ .L_ALT_OP_SGET_OBJECT_VOLATILE: /* 0xfd */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(253*4) /* ------------------------------ */ .L_ALT_OP_SPUT_OBJECT_VOLATILE: /* 0xfe */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(254*4) /* ------------------------------ */ .L_ALT_OP_DISPATCH_FF: /* 0xff */ /* File: x86/ALT_OP_DISPATCH_FF.S */ /* * Unlike other alt stubs, we don't want to call dvmCheckBefore() here. * Instead, just treat this as a trampoline to reach the real alt * handler (which will do the dvmCheckBefore() call. */ leal 256(rINST),%ecx GOTO_NEXT_JUMBO_R %ecx /* ------------------------------ */ .L_ALT_OP_CONST_CLASS_JUMBO: /* 0x100 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(256*4) /* ------------------------------ */ .L_ALT_OP_CHECK_CAST_JUMBO: /* 0x101 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(257*4) /* ------------------------------ */ .L_ALT_OP_INSTANCE_OF_JUMBO: /* 0x102 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(258*4) /* ------------------------------ */ .L_ALT_OP_NEW_INSTANCE_JUMBO: /* 0x103 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(259*4) /* ------------------------------ */ .L_ALT_OP_NEW_ARRAY_JUMBO: /* 0x104 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(260*4) /* ------------------------------ */ .L_ALT_OP_FILLED_NEW_ARRAY_JUMBO: /* 0x105 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(261*4) /* ------------------------------ */ .L_ALT_OP_IGET_JUMBO: /* 0x106 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(262*4) /* ------------------------------ */ .L_ALT_OP_IGET_WIDE_JUMBO: /* 0x107 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(263*4) /* ------------------------------ */ .L_ALT_OP_IGET_OBJECT_JUMBO: /* 0x108 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(264*4) /* ------------------------------ */ .L_ALT_OP_IGET_BOOLEAN_JUMBO: /* 0x109 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(265*4) /* ------------------------------ */ .L_ALT_OP_IGET_BYTE_JUMBO: /* 0x10a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(266*4) /* ------------------------------ */ .L_ALT_OP_IGET_CHAR_JUMBO: /* 0x10b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(267*4) /* ------------------------------ */ .L_ALT_OP_IGET_SHORT_JUMBO: /* 0x10c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(268*4) /* ------------------------------ */ .L_ALT_OP_IPUT_JUMBO: /* 0x10d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(269*4) /* ------------------------------ */ .L_ALT_OP_IPUT_WIDE_JUMBO: /* 0x10e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(270*4) /* ------------------------------ */ .L_ALT_OP_IPUT_OBJECT_JUMBO: /* 0x10f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(271*4) /* ------------------------------ */ .L_ALT_OP_IPUT_BOOLEAN_JUMBO: /* 0x110 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(272*4) /* ------------------------------ */ .L_ALT_OP_IPUT_BYTE_JUMBO: /* 0x111 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(273*4) /* ------------------------------ */ .L_ALT_OP_IPUT_CHAR_JUMBO: /* 0x112 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(274*4) /* ------------------------------ */ .L_ALT_OP_IPUT_SHORT_JUMBO: /* 0x113 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(275*4) /* ------------------------------ */ .L_ALT_OP_SGET_JUMBO: /* 0x114 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(276*4) /* ------------------------------ */ .L_ALT_OP_SGET_WIDE_JUMBO: /* 0x115 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(277*4) /* ------------------------------ */ .L_ALT_OP_SGET_OBJECT_JUMBO: /* 0x116 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(278*4) /* ------------------------------ */ .L_ALT_OP_SGET_BOOLEAN_JUMBO: /* 0x117 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(279*4) /* ------------------------------ */ .L_ALT_OP_SGET_BYTE_JUMBO: /* 0x118 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(280*4) /* ------------------------------ */ .L_ALT_OP_SGET_CHAR_JUMBO: /* 0x119 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(281*4) /* ------------------------------ */ .L_ALT_OP_SGET_SHORT_JUMBO: /* 0x11a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(282*4) /* ------------------------------ */ .L_ALT_OP_SPUT_JUMBO: /* 0x11b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(283*4) /* ------------------------------ */ .L_ALT_OP_SPUT_WIDE_JUMBO: /* 0x11c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(284*4) /* ------------------------------ */ .L_ALT_OP_SPUT_OBJECT_JUMBO: /* 0x11d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(285*4) /* ------------------------------ */ .L_ALT_OP_SPUT_BOOLEAN_JUMBO: /* 0x11e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(286*4) /* ------------------------------ */ .L_ALT_OP_SPUT_BYTE_JUMBO: /* 0x11f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(287*4) /* ------------------------------ */ .L_ALT_OP_SPUT_CHAR_JUMBO: /* 0x120 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(288*4) /* ------------------------------ */ .L_ALT_OP_SPUT_SHORT_JUMBO: /* 0x121 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(289*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_VIRTUAL_JUMBO: /* 0x122 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(290*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_SUPER_JUMBO: /* 0x123 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(291*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_DIRECT_JUMBO: /* 0x124 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(292*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_STATIC_JUMBO: /* 0x125 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(293*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_INTERFACE_JUMBO: /* 0x126 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(294*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_27FF: /* 0x127 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(295*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_28FF: /* 0x128 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(296*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_29FF: /* 0x129 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(297*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_2AFF: /* 0x12a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(298*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_2BFF: /* 0x12b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(299*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_2CFF: /* 0x12c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(300*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_2DFF: /* 0x12d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(301*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_2EFF: /* 0x12e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(302*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_2FFF: /* 0x12f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(303*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_30FF: /* 0x130 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(304*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_31FF: /* 0x131 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(305*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_32FF: /* 0x132 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(306*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_33FF: /* 0x133 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(307*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_34FF: /* 0x134 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(308*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_35FF: /* 0x135 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(309*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_36FF: /* 0x136 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(310*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_37FF: /* 0x137 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(311*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_38FF: /* 0x138 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(312*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_39FF: /* 0x139 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(313*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_3AFF: /* 0x13a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(314*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_3BFF: /* 0x13b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(315*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_3CFF: /* 0x13c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(316*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_3DFF: /* 0x13d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(317*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_3EFF: /* 0x13e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(318*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_3FFF: /* 0x13f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(319*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_40FF: /* 0x140 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(320*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_41FF: /* 0x141 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(321*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_42FF: /* 0x142 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(322*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_43FF: /* 0x143 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(323*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_44FF: /* 0x144 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(324*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_45FF: /* 0x145 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(325*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_46FF: /* 0x146 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(326*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_47FF: /* 0x147 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(327*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_48FF: /* 0x148 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(328*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_49FF: /* 0x149 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(329*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_4AFF: /* 0x14a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(330*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_4BFF: /* 0x14b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(331*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_4CFF: /* 0x14c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(332*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_4DFF: /* 0x14d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(333*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_4EFF: /* 0x14e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(334*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_4FFF: /* 0x14f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(335*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_50FF: /* 0x150 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(336*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_51FF: /* 0x151 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(337*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_52FF: /* 0x152 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(338*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_53FF: /* 0x153 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(339*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_54FF: /* 0x154 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(340*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_55FF: /* 0x155 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(341*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_56FF: /* 0x156 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(342*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_57FF: /* 0x157 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(343*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_58FF: /* 0x158 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(344*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_59FF: /* 0x159 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(345*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_5AFF: /* 0x15a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(346*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_5BFF: /* 0x15b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(347*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_5CFF: /* 0x15c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(348*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_5DFF: /* 0x15d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(349*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_5EFF: /* 0x15e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(350*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_5FFF: /* 0x15f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(351*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_60FF: /* 0x160 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(352*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_61FF: /* 0x161 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(353*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_62FF: /* 0x162 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(354*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_63FF: /* 0x163 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(355*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_64FF: /* 0x164 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(356*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_65FF: /* 0x165 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(357*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_66FF: /* 0x166 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(358*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_67FF: /* 0x167 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(359*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_68FF: /* 0x168 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(360*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_69FF: /* 0x169 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(361*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_6AFF: /* 0x16a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(362*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_6BFF: /* 0x16b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(363*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_6CFF: /* 0x16c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(364*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_6DFF: /* 0x16d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(365*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_6EFF: /* 0x16e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(366*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_6FFF: /* 0x16f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(367*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_70FF: /* 0x170 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(368*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_71FF: /* 0x171 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(369*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_72FF: /* 0x172 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(370*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_73FF: /* 0x173 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(371*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_74FF: /* 0x174 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(372*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_75FF: /* 0x175 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(373*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_76FF: /* 0x176 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(374*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_77FF: /* 0x177 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(375*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_78FF: /* 0x178 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(376*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_79FF: /* 0x179 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(377*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_7AFF: /* 0x17a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(378*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_7BFF: /* 0x17b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(379*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_7CFF: /* 0x17c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(380*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_7DFF: /* 0x17d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(381*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_7EFF: /* 0x17e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(382*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_7FFF: /* 0x17f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(383*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_80FF: /* 0x180 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(384*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_81FF: /* 0x181 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(385*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_82FF: /* 0x182 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(386*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_83FF: /* 0x183 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(387*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_84FF: /* 0x184 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(388*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_85FF: /* 0x185 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(389*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_86FF: /* 0x186 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(390*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_87FF: /* 0x187 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(391*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_88FF: /* 0x188 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(392*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_89FF: /* 0x189 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(393*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_8AFF: /* 0x18a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(394*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_8BFF: /* 0x18b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(395*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_8CFF: /* 0x18c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(396*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_8DFF: /* 0x18d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(397*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_8EFF: /* 0x18e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(398*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_8FFF: /* 0x18f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(399*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_90FF: /* 0x190 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(400*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_91FF: /* 0x191 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(401*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_92FF: /* 0x192 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(402*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_93FF: /* 0x193 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(403*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_94FF: /* 0x194 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(404*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_95FF: /* 0x195 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(405*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_96FF: /* 0x196 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(406*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_97FF: /* 0x197 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(407*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_98FF: /* 0x198 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(408*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_99FF: /* 0x199 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(409*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_9AFF: /* 0x19a */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(410*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_9BFF: /* 0x19b */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(411*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_9CFF: /* 0x19c */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(412*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_9DFF: /* 0x19d */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(413*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_9EFF: /* 0x19e */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(414*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_9FFF: /* 0x19f */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(415*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_A0FF: /* 0x1a0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(416*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_A1FF: /* 0x1a1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(417*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_A2FF: /* 0x1a2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(418*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_A3FF: /* 0x1a3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(419*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_A4FF: /* 0x1a4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(420*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_A5FF: /* 0x1a5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(421*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_A6FF: /* 0x1a6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(422*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_A7FF: /* 0x1a7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(423*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_A8FF: /* 0x1a8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(424*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_A9FF: /* 0x1a9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(425*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_AAFF: /* 0x1aa */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(426*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_ABFF: /* 0x1ab */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(427*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_ACFF: /* 0x1ac */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(428*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_ADFF: /* 0x1ad */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(429*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_AEFF: /* 0x1ae */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(430*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_AFFF: /* 0x1af */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(431*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_B0FF: /* 0x1b0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(432*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_B1FF: /* 0x1b1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(433*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_B2FF: /* 0x1b2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(434*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_B3FF: /* 0x1b3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(435*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_B4FF: /* 0x1b4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(436*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_B5FF: /* 0x1b5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(437*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_B6FF: /* 0x1b6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(438*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_B7FF: /* 0x1b7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(439*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_B8FF: /* 0x1b8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(440*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_B9FF: /* 0x1b9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(441*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_BAFF: /* 0x1ba */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(442*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_BBFF: /* 0x1bb */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(443*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_BCFF: /* 0x1bc */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(444*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_BDFF: /* 0x1bd */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(445*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_BEFF: /* 0x1be */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(446*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_BFFF: /* 0x1bf */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(447*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_C0FF: /* 0x1c0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(448*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_C1FF: /* 0x1c1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(449*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_C2FF: /* 0x1c2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(450*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_C3FF: /* 0x1c3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(451*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_C4FF: /* 0x1c4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(452*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_C5FF: /* 0x1c5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(453*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_C6FF: /* 0x1c6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(454*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_C7FF: /* 0x1c7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(455*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_C8FF: /* 0x1c8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(456*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_C9FF: /* 0x1c9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(457*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_CAFF: /* 0x1ca */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(458*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_CBFF: /* 0x1cb */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(459*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_CCFF: /* 0x1cc */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(460*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_CDFF: /* 0x1cd */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(461*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_CEFF: /* 0x1ce */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(462*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_CFFF: /* 0x1cf */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(463*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_D0FF: /* 0x1d0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(464*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_D1FF: /* 0x1d1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(465*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_D2FF: /* 0x1d2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(466*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_D3FF: /* 0x1d3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(467*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_D4FF: /* 0x1d4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(468*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_D5FF: /* 0x1d5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(469*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_D6FF: /* 0x1d6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(470*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_D7FF: /* 0x1d7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(471*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_D8FF: /* 0x1d8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(472*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_D9FF: /* 0x1d9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(473*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_DAFF: /* 0x1da */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(474*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_DBFF: /* 0x1db */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(475*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_DCFF: /* 0x1dc */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(476*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_DDFF: /* 0x1dd */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(477*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_DEFF: /* 0x1de */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(478*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_DFFF: /* 0x1df */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(479*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_E0FF: /* 0x1e0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(480*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_E1FF: /* 0x1e1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(481*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_E2FF: /* 0x1e2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(482*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_E3FF: /* 0x1e3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(483*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_E4FF: /* 0x1e4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(484*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_E5FF: /* 0x1e5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(485*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_E6FF: /* 0x1e6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(486*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_E7FF: /* 0x1e7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(487*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_E8FF: /* 0x1e8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(488*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_E9FF: /* 0x1e9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(489*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_EAFF: /* 0x1ea */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(490*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_EBFF: /* 0x1eb */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(491*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_ECFF: /* 0x1ec */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(492*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_EDFF: /* 0x1ed */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(493*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_EEFF: /* 0x1ee */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(494*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_EFFF: /* 0x1ef */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(495*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_F0FF: /* 0x1f0 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(496*4) /* ------------------------------ */ .L_ALT_OP_UNUSED_F1FF: /* 0x1f1 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(497*4) /* ------------------------------ */ .L_ALT_OP_INVOKE_OBJECT_INIT_JUMBO: /* 0x1f2 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(498*4) /* ------------------------------ */ .L_ALT_OP_IGET_VOLATILE_JUMBO: /* 0x1f3 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(499*4) /* ------------------------------ */ .L_ALT_OP_IGET_WIDE_VOLATILE_JUMBO: /* 0x1f4 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(500*4) /* ------------------------------ */ .L_ALT_OP_IGET_OBJECT_VOLATILE_JUMBO: /* 0x1f5 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(501*4) /* ------------------------------ */ .L_ALT_OP_IPUT_VOLATILE_JUMBO: /* 0x1f6 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(502*4) /* ------------------------------ */ .L_ALT_OP_IPUT_WIDE_VOLATILE_JUMBO: /* 0x1f7 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(503*4) /* ------------------------------ */ .L_ALT_OP_IPUT_OBJECT_VOLATILE_JUMBO: /* 0x1f8 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(504*4) /* ------------------------------ */ .L_ALT_OP_SGET_VOLATILE_JUMBO: /* 0x1f9 */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(505*4) /* ------------------------------ */ .L_ALT_OP_SGET_WIDE_VOLATILE_JUMBO: /* 0x1fa */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(506*4) /* ------------------------------ */ .L_ALT_OP_SGET_OBJECT_VOLATILE_JUMBO: /* 0x1fb */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(507*4) /* ------------------------------ */ .L_ALT_OP_SPUT_VOLATILE_JUMBO: /* 0x1fc */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(508*4) /* ------------------------------ */ .L_ALT_OP_SPUT_WIDE_VOLATILE_JUMBO: /* 0x1fd */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(509*4) /* ------------------------------ */ .L_ALT_OP_SPUT_OBJECT_VOLATILE_JUMBO: /* 0x1fe */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(510*4) /* ------------------------------ */ .L_ALT_OP_THROW_VERIFICATION_ERROR_JUMBO: /* 0x1ff */ /* File: x86/alt_stub.S */ /* * Inter-instruction transfer stub. Call out to dvmCheckBefore to handle * any interesting requests and then jump to the real instruction * handler. Unlike the Arm handler, we can't do this as a tail call * because rIBASE is caller save and we need to reload it. * * Note that unlike in the Arm implementation, we should never arrive * here with a zero breakFlag because we always refresh rIBASE on * return. */ EXPORT_PC movl rSELF, %eax movl rPC, OUT_ARG0(%esp) cmpb $0,offThread_breakFlags(%eax) # anything to do? movl rFP, OUT_ARG1(%esp) je 1f # reload rIBASE & resume if not movl %eax, OUT_ARG2(%esp) call dvmCheckBefore # (dPC, dFP, self) movl rSELF, %eax 1: movl offThread_curHandlerTable(%eax), rIBASE # reload rIBASE jmp *dvmAsmInstructionStart+(511*4) .size dvmAsmAltInstructionStartCode, .-dvmAsmAltInstructionStartCode .global dvmAsmAltInstructionEndCode dvmAsmAltInstructionEndCode: .global dvmAsmInstructionStart .text dvmAsmInstructionStart: .long .L_OP_NOP /* 0x00 */ .long .L_OP_MOVE /* 0x01 */ .long .L_OP_MOVE_FROM16 /* 0x02 */ .long .L_OP_MOVE_16 /* 0x03 */ .long .L_OP_MOVE_WIDE /* 0x04 */ .long .L_OP_MOVE_WIDE_FROM16 /* 0x05 */ .long .L_OP_MOVE_WIDE_16 /* 0x06 */ .long .L_OP_MOVE_OBJECT /* 0x07 */ .long .L_OP_MOVE_OBJECT_FROM16 /* 0x08 */ .long .L_OP_MOVE_OBJECT_16 /* 0x09 */ .long .L_OP_MOVE_RESULT /* 0x0a */ .long .L_OP_MOVE_RESULT_WIDE /* 0x0b */ .long .L_OP_MOVE_RESULT_OBJECT /* 0x0c */ .long .L_OP_MOVE_EXCEPTION /* 0x0d */ .long .L_OP_RETURN_VOID /* 0x0e */ .long .L_OP_RETURN /* 0x0f */ .long .L_OP_RETURN_WIDE /* 0x10 */ .long .L_OP_RETURN_OBJECT /* 0x11 */ .long .L_OP_CONST_4 /* 0x12 */ .long .L_OP_CONST_16 /* 0x13 */ .long .L_OP_CONST /* 0x14 */ .long .L_OP_CONST_HIGH16 /* 0x15 */ .long .L_OP_CONST_WIDE_16 /* 0x16 */ .long .L_OP_CONST_WIDE_32 /* 0x17 */ .long .L_OP_CONST_WIDE /* 0x18 */ .long .L_OP_CONST_WIDE_HIGH16 /* 0x19 */ .long .L_OP_CONST_STRING /* 0x1a */ .long .L_OP_CONST_STRING_JUMBO /* 0x1b */ .long .L_OP_CONST_CLASS /* 0x1c */ .long .L_OP_MONITOR_ENTER /* 0x1d */ .long .L_OP_MONITOR_EXIT /* 0x1e */ .long .L_OP_CHECK_CAST /* 0x1f */ .long .L_OP_INSTANCE_OF /* 0x20 */ .long .L_OP_ARRAY_LENGTH /* 0x21 */ .long .L_OP_NEW_INSTANCE /* 0x22 */ .long .L_OP_NEW_ARRAY /* 0x23 */ .long .L_OP_FILLED_NEW_ARRAY /* 0x24 */ .long .L_OP_FILLED_NEW_ARRAY_RANGE /* 0x25 */ .long .L_OP_FILL_ARRAY_DATA /* 0x26 */ .long .L_OP_THROW /* 0x27 */ .long .L_OP_GOTO /* 0x28 */ .long .L_OP_GOTO_16 /* 0x29 */ .long .L_OP_GOTO_32 /* 0x2a */ .long .L_OP_PACKED_SWITCH /* 0x2b */ .long .L_OP_SPARSE_SWITCH /* 0x2c */ .long .L_OP_CMPL_FLOAT /* 0x2d */ .long .L_OP_CMPG_FLOAT /* 0x2e */ .long .L_OP_CMPL_DOUBLE /* 0x2f */ .long .L_OP_CMPG_DOUBLE /* 0x30 */ .long .L_OP_CMP_LONG /* 0x31 */ .long .L_OP_IF_EQ /* 0x32 */ .long .L_OP_IF_NE /* 0x33 */ .long .L_OP_IF_LT /* 0x34 */ .long .L_OP_IF_GE /* 0x35 */ .long .L_OP_IF_GT /* 0x36 */ .long .L_OP_IF_LE /* 0x37 */ .long .L_OP_IF_EQZ /* 0x38 */ .long .L_OP_IF_NEZ /* 0x39 */ .long .L_OP_IF_LTZ /* 0x3a */ .long .L_OP_IF_GEZ /* 0x3b */ .long .L_OP_IF_GTZ /* 0x3c */ .long .L_OP_IF_LEZ /* 0x3d */ .long .L_OP_UNUSED_3E /* 0x3e */ .long .L_OP_UNUSED_3F /* 0x3f */ .long .L_OP_UNUSED_40 /* 0x40 */ .long .L_OP_UNUSED_41 /* 0x41 */ .long .L_OP_UNUSED_42 /* 0x42 */ .long .L_OP_UNUSED_43 /* 0x43 */ .long .L_OP_AGET /* 0x44 */ .long .L_OP_AGET_WIDE /* 0x45 */ .long .L_OP_AGET_OBJECT /* 0x46 */ .long .L_OP_AGET_BOOLEAN /* 0x47 */ .long .L_OP_AGET_BYTE /* 0x48 */ .long .L_OP_AGET_CHAR /* 0x49 */ .long .L_OP_AGET_SHORT /* 0x4a */ .long .L_OP_APUT /* 0x4b */ .long .L_OP_APUT_WIDE /* 0x4c */ .long .L_OP_APUT_OBJECT /* 0x4d */ .long .L_OP_APUT_BOOLEAN /* 0x4e */ .long .L_OP_APUT_BYTE /* 0x4f */ .long .L_OP_APUT_CHAR /* 0x50 */ .long .L_OP_APUT_SHORT /* 0x51 */ .long .L_OP_IGET /* 0x52 */ .long .L_OP_IGET_WIDE /* 0x53 */ .long .L_OP_IGET_OBJECT /* 0x54 */ .long .L_OP_IGET_BOOLEAN /* 0x55 */ .long .L_OP_IGET_BYTE /* 0x56 */ .long .L_OP_IGET_CHAR /* 0x57 */ .long .L_OP_IGET_SHORT /* 0x58 */ .long .L_OP_IPUT /* 0x59 */ .long .L_OP_IPUT_WIDE /* 0x5a */ .long .L_OP_IPUT_OBJECT /* 0x5b */ .long .L_OP_IPUT_BOOLEAN /* 0x5c */ .long .L_OP_IPUT_BYTE /* 0x5d */ .long .L_OP_IPUT_CHAR /* 0x5e */ .long .L_OP_IPUT_SHORT /* 0x5f */ .long .L_OP_SGET /* 0x60 */ .long .L_OP_SGET_WIDE /* 0x61 */ .long .L_OP_SGET_OBJECT /* 0x62 */ .long .L_OP_SGET_BOOLEAN /* 0x63 */ .long .L_OP_SGET_BYTE /* 0x64 */ .long .L_OP_SGET_CHAR /* 0x65 */ .long .L_OP_SGET_SHORT /* 0x66 */ .long .L_OP_SPUT /* 0x67 */ .long .L_OP_SPUT_WIDE /* 0x68 */ .long .L_OP_SPUT_OBJECT /* 0x69 */ .long .L_OP_SPUT_BOOLEAN /* 0x6a */ .long .L_OP_SPUT_BYTE /* 0x6b */ .long .L_OP_SPUT_CHAR /* 0x6c */ .long .L_OP_SPUT_SHORT /* 0x6d */ .long .L_OP_INVOKE_VIRTUAL /* 0x6e */ .long .L_OP_INVOKE_SUPER /* 0x6f */ .long .L_OP_INVOKE_DIRECT /* 0x70 */ .long .L_OP_INVOKE_STATIC /* 0x71 */ .long .L_OP_INVOKE_INTERFACE /* 0x72 */ .long .L_OP_UNUSED_73 /* 0x73 */ .long .L_OP_INVOKE_VIRTUAL_RANGE /* 0x74 */ .long .L_OP_INVOKE_SUPER_RANGE /* 0x75 */ .long .L_OP_INVOKE_DIRECT_RANGE /* 0x76 */ .long .L_OP_INVOKE_STATIC_RANGE /* 0x77 */ .long .L_OP_INVOKE_INTERFACE_RANGE /* 0x78 */ .long .L_OP_UNUSED_79 /* 0x79 */ .long .L_OP_UNUSED_7A /* 0x7a */ .long .L_OP_NEG_INT /* 0x7b */ .long .L_OP_NOT_INT /* 0x7c */ .long .L_OP_NEG_LONG /* 0x7d */ .long .L_OP_NOT_LONG /* 0x7e */ .long .L_OP_NEG_FLOAT /* 0x7f */ .long .L_OP_NEG_DOUBLE /* 0x80 */ .long .L_OP_INT_TO_LONG /* 0x81 */ .long .L_OP_INT_TO_FLOAT /* 0x82 */ .long .L_OP_INT_TO_DOUBLE /* 0x83 */ .long .L_OP_LONG_TO_INT /* 0x84 */ .long .L_OP_LONG_TO_FLOAT /* 0x85 */ .long .L_OP_LONG_TO_DOUBLE /* 0x86 */ .long .L_OP_FLOAT_TO_INT /* 0x87 */ .long .L_OP_FLOAT_TO_LONG /* 0x88 */ .long .L_OP_FLOAT_TO_DOUBLE /* 0x89 */ .long .L_OP_DOUBLE_TO_INT /* 0x8a */ .long .L_OP_DOUBLE_TO_LONG /* 0x8b */ .long .L_OP_DOUBLE_TO_FLOAT /* 0x8c */ .long .L_OP_INT_TO_BYTE /* 0x8d */ .long .L_OP_INT_TO_CHAR /* 0x8e */ .long .L_OP_INT_TO_SHORT /* 0x8f */ .long .L_OP_ADD_INT /* 0x90 */ .long .L_OP_SUB_INT /* 0x91 */ .long .L_OP_MUL_INT /* 0x92 */ .long .L_OP_DIV_INT /* 0x93 */ .long .L_OP_REM_INT /* 0x94 */ .long .L_OP_AND_INT /* 0x95 */ .long .L_OP_OR_INT /* 0x96 */ .long .L_OP_XOR_INT /* 0x97 */ .long .L_OP_SHL_INT /* 0x98 */ .long .L_OP_SHR_INT /* 0x99 */ .long .L_OP_USHR_INT /* 0x9a */ .long .L_OP_ADD_LONG /* 0x9b */ .long .L_OP_SUB_LONG /* 0x9c */ .long .L_OP_MUL_LONG /* 0x9d */ .long .L_OP_DIV_LONG /* 0x9e */ .long .L_OP_REM_LONG /* 0x9f */ .long .L_OP_AND_LONG /* 0xa0 */ .long .L_OP_OR_LONG /* 0xa1 */ .long .L_OP_XOR_LONG /* 0xa2 */ .long .L_OP_SHL_LONG /* 0xa3 */ .long .L_OP_SHR_LONG /* 0xa4 */ .long .L_OP_USHR_LONG /* 0xa5 */ .long .L_OP_ADD_FLOAT /* 0xa6 */ .long .L_OP_SUB_FLOAT /* 0xa7 */ .long .L_OP_MUL_FLOAT /* 0xa8 */ .long .L_OP_DIV_FLOAT /* 0xa9 */ .long .L_OP_REM_FLOAT /* 0xaa */ .long .L_OP_ADD_DOUBLE /* 0xab */ .long .L_OP_SUB_DOUBLE /* 0xac */ .long .L_OP_MUL_DOUBLE /* 0xad */ .long .L_OP_DIV_DOUBLE /* 0xae */ .long .L_OP_REM_DOUBLE /* 0xaf */ .long .L_OP_ADD_INT_2ADDR /* 0xb0 */ .long .L_OP_SUB_INT_2ADDR /* 0xb1 */ .long .L_OP_MUL_INT_2ADDR /* 0xb2 */ .long .L_OP_DIV_INT_2ADDR /* 0xb3 */ .long .L_OP_REM_INT_2ADDR /* 0xb4 */ .long .L_OP_AND_INT_2ADDR /* 0xb5 */ .long .L_OP_OR_INT_2ADDR /* 0xb6 */ .long .L_OP_XOR_INT_2ADDR /* 0xb7 */ .long .L_OP_SHL_INT_2ADDR /* 0xb8 */ .long .L_OP_SHR_INT_2ADDR /* 0xb9 */ .long .L_OP_USHR_INT_2ADDR /* 0xba */ .long .L_OP_ADD_LONG_2ADDR /* 0xbb */ .long .L_OP_SUB_LONG_2ADDR /* 0xbc */ .long .L_OP_MUL_LONG_2ADDR /* 0xbd */ .long .L_OP_DIV_LONG_2ADDR /* 0xbe */ .long .L_OP_REM_LONG_2ADDR /* 0xbf */ .long .L_OP_AND_LONG_2ADDR /* 0xc0 */ .long .L_OP_OR_LONG_2ADDR /* 0xc1 */ .long .L_OP_XOR_LONG_2ADDR /* 0xc2 */ .long .L_OP_SHL_LONG_2ADDR /* 0xc3 */ .long .L_OP_SHR_LONG_2ADDR /* 0xc4 */ .long .L_OP_USHR_LONG_2ADDR /* 0xc5 */ .long .L_OP_ADD_FLOAT_2ADDR /* 0xc6 */ .long .L_OP_SUB_FLOAT_2ADDR /* 0xc7 */ .long .L_OP_MUL_FLOAT_2ADDR /* 0xc8 */ .long .L_OP_DIV_FLOAT_2ADDR /* 0xc9 */ .long .L_OP_REM_FLOAT_2ADDR /* 0xca */ .long .L_OP_ADD_DOUBLE_2ADDR /* 0xcb */ .long .L_OP_SUB_DOUBLE_2ADDR /* 0xcc */ .long .L_OP_MUL_DOUBLE_2ADDR /* 0xcd */ .long .L_OP_DIV_DOUBLE_2ADDR /* 0xce */ .long .L_OP_REM_DOUBLE_2ADDR /* 0xcf */ .long .L_OP_ADD_INT_LIT16 /* 0xd0 */ .long .L_OP_RSUB_INT /* 0xd1 */ .long .L_OP_MUL_INT_LIT16 /* 0xd2 */ .long .L_OP_DIV_INT_LIT16 /* 0xd3 */ .long .L_OP_REM_INT_LIT16 /* 0xd4 */ .long .L_OP_AND_INT_LIT16 /* 0xd5 */ .long .L_OP_OR_INT_LIT16 /* 0xd6 */ .long .L_OP_XOR_INT_LIT16 /* 0xd7 */ .long .L_OP_ADD_INT_LIT8 /* 0xd8 */ .long .L_OP_RSUB_INT_LIT8 /* 0xd9 */ .long .L_OP_MUL_INT_LIT8 /* 0xda */ .long .L_OP_DIV_INT_LIT8 /* 0xdb */ .long .L_OP_REM_INT_LIT8 /* 0xdc */ .long .L_OP_AND_INT_LIT8 /* 0xdd */ .long .L_OP_OR_INT_LIT8 /* 0xde */ .long .L_OP_XOR_INT_LIT8 /* 0xdf */ .long .L_OP_SHL_INT_LIT8 /* 0xe0 */ .long .L_OP_SHR_INT_LIT8 /* 0xe1 */ .long .L_OP_USHR_INT_LIT8 /* 0xe2 */ .long .L_OP_IGET_VOLATILE /* 0xe3 */ .long .L_OP_IPUT_VOLATILE /* 0xe4 */ .long .L_OP_SGET_VOLATILE /* 0xe5 */ .long .L_OP_SPUT_VOLATILE /* 0xe6 */ .long .L_OP_IGET_OBJECT_VOLATILE /* 0xe7 */ .long .L_OP_IGET_WIDE_VOLATILE /* 0xe8 */ .long .L_OP_IPUT_WIDE_VOLATILE /* 0xe9 */ .long .L_OP_SGET_WIDE_VOLATILE /* 0xea */ .long .L_OP_SPUT_WIDE_VOLATILE /* 0xeb */ .long .L_OP_BREAKPOINT /* 0xec */ .long .L_OP_THROW_VERIFICATION_ERROR /* 0xed */ .long .L_OP_EXECUTE_INLINE /* 0xee */ .long .L_OP_EXECUTE_INLINE_RANGE /* 0xef */ .long .L_OP_INVOKE_OBJECT_INIT_RANGE /* 0xf0 */ .long .L_OP_RETURN_VOID_BARRIER /* 0xf1 */ .long .L_OP_IGET_QUICK /* 0xf2 */ .long .L_OP_IGET_WIDE_QUICK /* 0xf3 */ .long .L_OP_IGET_OBJECT_QUICK /* 0xf4 */ .long .L_OP_IPUT_QUICK /* 0xf5 */ .long .L_OP_IPUT_WIDE_QUICK /* 0xf6 */ .long .L_OP_IPUT_OBJECT_QUICK /* 0xf7 */ .long .L_OP_INVOKE_VIRTUAL_QUICK /* 0xf8 */ .long .L_OP_INVOKE_VIRTUAL_QUICK_RANGE /* 0xf9 */ .long .L_OP_INVOKE_SUPER_QUICK /* 0xfa */ .long .L_OP_INVOKE_SUPER_QUICK_RANGE /* 0xfb */ .long .L_OP_IPUT_OBJECT_VOLATILE /* 0xfc */ .long .L_OP_SGET_OBJECT_VOLATILE /* 0xfd */ .long .L_OP_SPUT_OBJECT_VOLATILE /* 0xfe */ .long .L_OP_DISPATCH_FF /* 0xff */ .long .L_OP_CONST_CLASS_JUMBO /* 0x100 */ .long .L_OP_CHECK_CAST_JUMBO /* 0x101 */ .long .L_OP_INSTANCE_OF_JUMBO /* 0x102 */ .long .L_OP_NEW_INSTANCE_JUMBO /* 0x103 */ .long .L_OP_NEW_ARRAY_JUMBO /* 0x104 */ .long .L_OP_FILLED_NEW_ARRAY_JUMBO /* 0x105 */ .long .L_OP_IGET_JUMBO /* 0x106 */ .long .L_OP_IGET_WIDE_JUMBO /* 0x107 */ .long .L_OP_IGET_OBJECT_JUMBO /* 0x108 */ .long .L_OP_IGET_BOOLEAN_JUMBO /* 0x109 */ .long .L_OP_IGET_BYTE_JUMBO /* 0x10a */ .long .L_OP_IGET_CHAR_JUMBO /* 0x10b */ .long .L_OP_IGET_SHORT_JUMBO /* 0x10c */ .long .L_OP_IPUT_JUMBO /* 0x10d */ .long .L_OP_IPUT_WIDE_JUMBO /* 0x10e */ .long .L_OP_IPUT_OBJECT_JUMBO /* 0x10f */ .long .L_OP_IPUT_BOOLEAN_JUMBO /* 0x110 */ .long .L_OP_IPUT_BYTE_JUMBO /* 0x111 */ .long .L_OP_IPUT_CHAR_JUMBO /* 0x112 */ .long .L_OP_IPUT_SHORT_JUMBO /* 0x113 */ .long .L_OP_SGET_JUMBO /* 0x114 */ .long .L_OP_SGET_WIDE_JUMBO /* 0x115 */ .long .L_OP_SGET_OBJECT_JUMBO /* 0x116 */ .long .L_OP_SGET_BOOLEAN_JUMBO /* 0x117 */ .long .L_OP_SGET_BYTE_JUMBO /* 0x118 */ .long .L_OP_SGET_CHAR_JUMBO /* 0x119 */ .long .L_OP_SGET_SHORT_JUMBO /* 0x11a */ .long .L_OP_SPUT_JUMBO /* 0x11b */ .long .L_OP_SPUT_WIDE_JUMBO /* 0x11c */ .long .L_OP_SPUT_OBJECT_JUMBO /* 0x11d */ .long .L_OP_SPUT_BOOLEAN_JUMBO /* 0x11e */ .long .L_OP_SPUT_BYTE_JUMBO /* 0x11f */ .long .L_OP_SPUT_CHAR_JUMBO /* 0x120 */ .long .L_OP_SPUT_SHORT_JUMBO /* 0x121 */ .long .L_OP_INVOKE_VIRTUAL_JUMBO /* 0x122 */ .long .L_OP_INVOKE_SUPER_JUMBO /* 0x123 */ .long .L_OP_INVOKE_DIRECT_JUMBO /* 0x124 */ .long .L_OP_INVOKE_STATIC_JUMBO /* 0x125 */ .long .L_OP_INVOKE_INTERFACE_JUMBO /* 0x126 */ .long .L_OP_UNUSED_27FF /* 0x127 */ .long .L_OP_UNUSED_28FF /* 0x128 */ .long .L_OP_UNUSED_29FF /* 0x129 */ .long .L_OP_UNUSED_2AFF /* 0x12a */ .long .L_OP_UNUSED_2BFF /* 0x12b */ .long .L_OP_UNUSED_2CFF /* 0x12c */ .long .L_OP_UNUSED_2DFF /* 0x12d */ .long .L_OP_UNUSED_2EFF /* 0x12e */ .long .L_OP_UNUSED_2FFF /* 0x12f */ .long .L_OP_UNUSED_30FF /* 0x130 */ .long .L_OP_UNUSED_31FF /* 0x131 */ .long .L_OP_UNUSED_32FF /* 0x132 */ .long .L_OP_UNUSED_33FF /* 0x133 */ .long .L_OP_UNUSED_34FF /* 0x134 */ .long .L_OP_UNUSED_35FF /* 0x135 */ .long .L_OP_UNUSED_36FF /* 0x136 */ .long .L_OP_UNUSED_37FF /* 0x137 */ .long .L_OP_UNUSED_38FF /* 0x138 */ .long .L_OP_UNUSED_39FF /* 0x139 */ .long .L_OP_UNUSED_3AFF /* 0x13a */ .long .L_OP_UNUSED_3BFF /* 0x13b */ .long .L_OP_UNUSED_3CFF /* 0x13c */ .long .L_OP_UNUSED_3DFF /* 0x13d */ .long .L_OP_UNUSED_3EFF /* 0x13e */ .long .L_OP_UNUSED_3FFF /* 0x13f */ .long .L_OP_UNUSED_40FF /* 0x140 */ .long .L_OP_UNUSED_41FF /* 0x141 */ .long .L_OP_UNUSED_42FF /* 0x142 */ .long .L_OP_UNUSED_43FF /* 0x143 */ .long .L_OP_UNUSED_44FF /* 0x144 */ .long .L_OP_UNUSED_45FF /* 0x145 */ .long .L_OP_UNUSED_46FF /* 0x146 */ .long .L_OP_UNUSED_47FF /* 0x147 */ .long .L_OP_UNUSED_48FF /* 0x148 */ .long .L_OP_UNUSED_49FF /* 0x149 */ .long .L_OP_UNUSED_4AFF /* 0x14a */ .long .L_OP_UNUSED_4BFF /* 0x14b */ .long .L_OP_UNUSED_4CFF /* 0x14c */ .long .L_OP_UNUSED_4DFF /* 0x14d */ .long .L_OP_UNUSED_4EFF /* 0x14e */ .long .L_OP_UNUSED_4FFF /* 0x14f */ .long .L_OP_UNUSED_50FF /* 0x150 */ .long .L_OP_UNUSED_51FF /* 0x151 */ .long .L_OP_UNUSED_52FF /* 0x152 */ .long .L_OP_UNUSED_53FF /* 0x153 */ .long .L_OP_UNUSED_54FF /* 0x154 */ .long .L_OP_UNUSED_55FF /* 0x155 */ .long .L_OP_UNUSED_56FF /* 0x156 */ .long .L_OP_UNUSED_57FF /* 0x157 */ .long .L_OP_UNUSED_58FF /* 0x158 */ .long .L_OP_UNUSED_59FF /* 0x159 */ .long .L_OP_UNUSED_5AFF /* 0x15a */ .long .L_OP_UNUSED_5BFF /* 0x15b */ .long .L_OP_UNUSED_5CFF /* 0x15c */ .long .L_OP_UNUSED_5DFF /* 0x15d */ .long .L_OP_UNUSED_5EFF /* 0x15e */ .long .L_OP_UNUSED_5FFF /* 0x15f */ .long .L_OP_UNUSED_60FF /* 0x160 */ .long .L_OP_UNUSED_61FF /* 0x161 */ .long .L_OP_UNUSED_62FF /* 0x162 */ .long .L_OP_UNUSED_63FF /* 0x163 */ .long .L_OP_UNUSED_64FF /* 0x164 */ .long .L_OP_UNUSED_65FF /* 0x165 */ .long .L_OP_UNUSED_66FF /* 0x166 */ .long .L_OP_UNUSED_67FF /* 0x167 */ .long .L_OP_UNUSED_68FF /* 0x168 */ .long .L_OP_UNUSED_69FF /* 0x169 */ .long .L_OP_UNUSED_6AFF /* 0x16a */ .long .L_OP_UNUSED_6BFF /* 0x16b */ .long .L_OP_UNUSED_6CFF /* 0x16c */ .long .L_OP_UNUSED_6DFF /* 0x16d */ .long .L_OP_UNUSED_6EFF /* 0x16e */ .long .L_OP_UNUSED_6FFF /* 0x16f */ .long .L_OP_UNUSED_70FF /* 0x170 */ .long .L_OP_UNUSED_71FF /* 0x171 */ .long .L_OP_UNUSED_72FF /* 0x172 */ .long .L_OP_UNUSED_73FF /* 0x173 */ .long .L_OP_UNUSED_74FF /* 0x174 */ .long .L_OP_UNUSED_75FF /* 0x175 */ .long .L_OP_UNUSED_76FF /* 0x176 */ .long .L_OP_UNUSED_77FF /* 0x177 */ .long .L_OP_UNUSED_78FF /* 0x178 */ .long .L_OP_UNUSED_79FF /* 0x179 */ .long .L_OP_UNUSED_7AFF /* 0x17a */ .long .L_OP_UNUSED_7BFF /* 0x17b */ .long .L_OP_UNUSED_7CFF /* 0x17c */ .long .L_OP_UNUSED_7DFF /* 0x17d */ .long .L_OP_UNUSED_7EFF /* 0x17e */ .long .L_OP_UNUSED_7FFF /* 0x17f */ .long .L_OP_UNUSED_80FF /* 0x180 */ .long .L_OP_UNUSED_81FF /* 0x181 */ .long .L_OP_UNUSED_82FF /* 0x182 */ .long .L_OP_UNUSED_83FF /* 0x183 */ .long .L_OP_UNUSED_84FF /* 0x184 */ .long .L_OP_UNUSED_85FF /* 0x185 */ .long .L_OP_UNUSED_86FF /* 0x186 */ .long .L_OP_UNUSED_87FF /* 0x187 */ .long .L_OP_UNUSED_88FF /* 0x188 */ .long .L_OP_UNUSED_89FF /* 0x189 */ .long .L_OP_UNUSED_8AFF /* 0x18a */ .long .L_OP_UNUSED_8BFF /* 0x18b */ .long .L_OP_UNUSED_8CFF /* 0x18c */ .long .L_OP_UNUSED_8DFF /* 0x18d */ .long .L_OP_UNUSED_8EFF /* 0x18e */ .long .L_OP_UNUSED_8FFF /* 0x18f */ .long .L_OP_UNUSED_90FF /* 0x190 */ .long .L_OP_UNUSED_91FF /* 0x191 */ .long .L_OP_UNUSED_92FF /* 0x192 */ .long .L_OP_UNUSED_93FF /* 0x193 */ .long .L_OP_UNUSED_94FF /* 0x194 */ .long .L_OP_UNUSED_95FF /* 0x195 */ .long .L_OP_UNUSED_96FF /* 0x196 */ .long .L_OP_UNUSED_97FF /* 0x197 */ .long .L_OP_UNUSED_98FF /* 0x198 */ .long .L_OP_UNUSED_99FF /* 0x199 */ .long .L_OP_UNUSED_9AFF /* 0x19a */ .long .L_OP_UNUSED_9BFF /* 0x19b */ .long .L_OP_UNUSED_9CFF /* 0x19c */ .long .L_OP_UNUSED_9DFF /* 0x19d */ .long .L_OP_UNUSED_9EFF /* 0x19e */ .long .L_OP_UNUSED_9FFF /* 0x19f */ .long .L_OP_UNUSED_A0FF /* 0x1a0 */ .long .L_OP_UNUSED_A1FF /* 0x1a1 */ .long .L_OP_UNUSED_A2FF /* 0x1a2 */ .long .L_OP_UNUSED_A3FF /* 0x1a3 */ .long .L_OP_UNUSED_A4FF /* 0x1a4 */ .long .L_OP_UNUSED_A5FF /* 0x1a5 */ .long .L_OP_UNUSED_A6FF /* 0x1a6 */ .long .L_OP_UNUSED_A7FF /* 0x1a7 */ .long .L_OP_UNUSED_A8FF /* 0x1a8 */ .long .L_OP_UNUSED_A9FF /* 0x1a9 */ .long .L_OP_UNUSED_AAFF /* 0x1aa */ .long .L_OP_UNUSED_ABFF /* 0x1ab */ .long .L_OP_UNUSED_ACFF /* 0x1ac */ .long .L_OP_UNUSED_ADFF /* 0x1ad */ .long .L_OP_UNUSED_AEFF /* 0x1ae */ .long .L_OP_UNUSED_AFFF /* 0x1af */ .long .L_OP_UNUSED_B0FF /* 0x1b0 */ .long .L_OP_UNUSED_B1FF /* 0x1b1 */ .long .L_OP_UNUSED_B2FF /* 0x1b2 */ .long .L_OP_UNUSED_B3FF /* 0x1b3 */ .long .L_OP_UNUSED_B4FF /* 0x1b4 */ .long .L_OP_UNUSED_B5FF /* 0x1b5 */ .long .L_OP_UNUSED_B6FF /* 0x1b6 */ .long .L_OP_UNUSED_B7FF /* 0x1b7 */ .long .L_OP_UNUSED_B8FF /* 0x1b8 */ .long .L_OP_UNUSED_B9FF /* 0x1b9 */ .long .L_OP_UNUSED_BAFF /* 0x1ba */ .long .L_OP_UNUSED_BBFF /* 0x1bb */ .long .L_OP_UNUSED_BCFF /* 0x1bc */ .long .L_OP_UNUSED_BDFF /* 0x1bd */ .long .L_OP_UNUSED_BEFF /* 0x1be */ .long .L_OP_UNUSED_BFFF /* 0x1bf */ .long .L_OP_UNUSED_C0FF /* 0x1c0 */ .long .L_OP_UNUSED_C1FF /* 0x1c1 */ .long .L_OP_UNUSED_C2FF /* 0x1c2 */ .long .L_OP_UNUSED_C3FF /* 0x1c3 */ .long .L_OP_UNUSED_C4FF /* 0x1c4 */ .long .L_OP_UNUSED_C5FF /* 0x1c5 */ .long .L_OP_UNUSED_C6FF /* 0x1c6 */ .long .L_OP_UNUSED_C7FF /* 0x1c7 */ .long .L_OP_UNUSED_C8FF /* 0x1c8 */ .long .L_OP_UNUSED_C9FF /* 0x1c9 */ .long .L_OP_UNUSED_CAFF /* 0x1ca */ .long .L_OP_UNUSED_CBFF /* 0x1cb */ .long .L_OP_UNUSED_CCFF /* 0x1cc */ .long .L_OP_UNUSED_CDFF /* 0x1cd */ .long .L_OP_UNUSED_CEFF /* 0x1ce */ .long .L_OP_UNUSED_CFFF /* 0x1cf */ .long .L_OP_UNUSED_D0FF /* 0x1d0 */ .long .L_OP_UNUSED_D1FF /* 0x1d1 */ .long .L_OP_UNUSED_D2FF /* 0x1d2 */ .long .L_OP_UNUSED_D3FF /* 0x1d3 */ .long .L_OP_UNUSED_D4FF /* 0x1d4 */ .long .L_OP_UNUSED_D5FF /* 0x1d5 */ .long .L_OP_UNUSED_D6FF /* 0x1d6 */ .long .L_OP_UNUSED_D7FF /* 0x1d7 */ .long .L_OP_UNUSED_D8FF /* 0x1d8 */ .long .L_OP_UNUSED_D9FF /* 0x1d9 */ .long .L_OP_UNUSED_DAFF /* 0x1da */ .long .L_OP_UNUSED_DBFF /* 0x1db */ .long .L_OP_UNUSED_DCFF /* 0x1dc */ .long .L_OP_UNUSED_DDFF /* 0x1dd */ .long .L_OP_UNUSED_DEFF /* 0x1de */ .long .L_OP_UNUSED_DFFF /* 0x1df */ .long .L_OP_UNUSED_E0FF /* 0x1e0 */ .long .L_OP_UNUSED_E1FF /* 0x1e1 */ .long .L_OP_UNUSED_E2FF /* 0x1e2 */ .long .L_OP_UNUSED_E3FF /* 0x1e3 */ .long .L_OP_UNUSED_E4FF /* 0x1e4 */ .long .L_OP_UNUSED_E5FF /* 0x1e5 */ .long .L_OP_UNUSED_E6FF /* 0x1e6 */ .long .L_OP_UNUSED_E7FF /* 0x1e7 */ .long .L_OP_UNUSED_E8FF /* 0x1e8 */ .long .L_OP_UNUSED_E9FF /* 0x1e9 */ .long .L_OP_UNUSED_EAFF /* 0x1ea */ .long .L_OP_UNUSED_EBFF /* 0x1eb */ .long .L_OP_UNUSED_ECFF /* 0x1ec */ .long .L_OP_UNUSED_EDFF /* 0x1ed */ .long .L_OP_UNUSED_EEFF /* 0x1ee */ .long .L_OP_UNUSED_EFFF /* 0x1ef */ .long .L_OP_UNUSED_F0FF /* 0x1f0 */ .long .L_OP_UNUSED_F1FF /* 0x1f1 */ .long .L_OP_INVOKE_OBJECT_INIT_JUMBO /* 0x1f2 */ .long .L_OP_IGET_VOLATILE_JUMBO /* 0x1f3 */ .long .L_OP_IGET_WIDE_VOLATILE_JUMBO /* 0x1f4 */ .long .L_OP_IGET_OBJECT_VOLATILE_JUMBO /* 0x1f5 */ .long .L_OP_IPUT_VOLATILE_JUMBO /* 0x1f6 */ .long .L_OP_IPUT_WIDE_VOLATILE_JUMBO /* 0x1f7 */ .long .L_OP_IPUT_OBJECT_VOLATILE_JUMBO /* 0x1f8 */ .long .L_OP_SGET_VOLATILE_JUMBO /* 0x1f9 */ .long .L_OP_SGET_WIDE_VOLATILE_JUMBO /* 0x1fa */ .long .L_OP_SGET_OBJECT_VOLATILE_JUMBO /* 0x1fb */ .long .L_OP_SPUT_VOLATILE_JUMBO /* 0x1fc */ .long .L_OP_SPUT_WIDE_VOLATILE_JUMBO /* 0x1fd */ .long .L_OP_SPUT_OBJECT_VOLATILE_JUMBO /* 0x1fe */ .long .L_OP_THROW_VERIFICATION_ERROR_JUMBO /* 0x1ff */ .global dvmAsmAltInstructionStart .text dvmAsmAltInstructionStart: .long .L_ALT_OP_NOP /* 0x00 */ .long .L_ALT_OP_MOVE /* 0x01 */ .long .L_ALT_OP_MOVE_FROM16 /* 0x02 */ .long .L_ALT_OP_MOVE_16 /* 0x03 */ .long .L_ALT_OP_MOVE_WIDE /* 0x04 */ .long .L_ALT_OP_MOVE_WIDE_FROM16 /* 0x05 */ .long .L_ALT_OP_MOVE_WIDE_16 /* 0x06 */ .long .L_ALT_OP_MOVE_OBJECT /* 0x07 */ .long .L_ALT_OP_MOVE_OBJECT_FROM16 /* 0x08 */ .long .L_ALT_OP_MOVE_OBJECT_16 /* 0x09 */ .long .L_ALT_OP_MOVE_RESULT /* 0x0a */ .long .L_ALT_OP_MOVE_RESULT_WIDE /* 0x0b */ .long .L_ALT_OP_MOVE_RESULT_OBJECT /* 0x0c */ .long .L_ALT_OP_MOVE_EXCEPTION /* 0x0d */ .long .L_ALT_OP_RETURN_VOID /* 0x0e */ .long .L_ALT_OP_RETURN /* 0x0f */ .long .L_ALT_OP_RETURN_WIDE /* 0x10 */ .long .L_ALT_OP_RETURN_OBJECT /* 0x11 */ .long .L_ALT_OP_CONST_4 /* 0x12 */ .long .L_ALT_OP_CONST_16 /* 0x13 */ .long .L_ALT_OP_CONST /* 0x14 */ .long .L_ALT_OP_CONST_HIGH16 /* 0x15 */ .long .L_ALT_OP_CONST_WIDE_16 /* 0x16 */ .long .L_ALT_OP_CONST_WIDE_32 /* 0x17 */ .long .L_ALT_OP_CONST_WIDE /* 0x18 */ .long .L_ALT_OP_CONST_WIDE_HIGH16 /* 0x19 */ .long .L_ALT_OP_CONST_STRING /* 0x1a */ .long .L_ALT_OP_CONST_STRING_JUMBO /* 0x1b */ .long .L_ALT_OP_CONST_CLASS /* 0x1c */ .long .L_ALT_OP_MONITOR_ENTER /* 0x1d */ .long .L_ALT_OP_MONITOR_EXIT /* 0x1e */ .long .L_ALT_OP_CHECK_CAST /* 0x1f */ .long .L_ALT_OP_INSTANCE_OF /* 0x20 */ .long .L_ALT_OP_ARRAY_LENGTH /* 0x21 */ .long .L_ALT_OP_NEW_INSTANCE /* 0x22 */ .long .L_ALT_OP_NEW_ARRAY /* 0x23 */ .long .L_ALT_OP_FILLED_NEW_ARRAY /* 0x24 */ .long .L_ALT_OP_FILLED_NEW_ARRAY_RANGE /* 0x25 */ .long .L_ALT_OP_FILL_ARRAY_DATA /* 0x26 */ .long .L_ALT_OP_THROW /* 0x27 */ .long .L_ALT_OP_GOTO /* 0x28 */ .long .L_ALT_OP_GOTO_16 /* 0x29 */ .long .L_ALT_OP_GOTO_32 /* 0x2a */ .long .L_ALT_OP_PACKED_SWITCH /* 0x2b */ .long .L_ALT_OP_SPARSE_SWITCH /* 0x2c */ .long .L_ALT_OP_CMPL_FLOAT /* 0x2d */ .long .L_ALT_OP_CMPG_FLOAT /* 0x2e */ .long .L_ALT_OP_CMPL_DOUBLE /* 0x2f */ .long .L_ALT_OP_CMPG_DOUBLE /* 0x30 */ .long .L_ALT_OP_CMP_LONG /* 0x31 */ .long .L_ALT_OP_IF_EQ /* 0x32 */ .long .L_ALT_OP_IF_NE /* 0x33 */ .long .L_ALT_OP_IF_LT /* 0x34 */ .long .L_ALT_OP_IF_GE /* 0x35 */ .long .L_ALT_OP_IF_GT /* 0x36 */ .long .L_ALT_OP_IF_LE /* 0x37 */ .long .L_ALT_OP_IF_EQZ /* 0x38 */ .long .L_ALT_OP_IF_NEZ /* 0x39 */ .long .L_ALT_OP_IF_LTZ /* 0x3a */ .long .L_ALT_OP_IF_GEZ /* 0x3b */ .long .L_ALT_OP_IF_GTZ /* 0x3c */ .long .L_ALT_OP_IF_LEZ /* 0x3d */ .long .L_ALT_OP_UNUSED_3E /* 0x3e */ .long .L_ALT_OP_UNUSED_3F /* 0x3f */ .long .L_ALT_OP_UNUSED_40 /* 0x40 */ .long .L_ALT_OP_UNUSED_41 /* 0x41 */ .long .L_ALT_OP_UNUSED_42 /* 0x42 */ .long .L_ALT_OP_UNUSED_43 /* 0x43 */ .long .L_ALT_OP_AGET /* 0x44 */ .long .L_ALT_OP_AGET_WIDE /* 0x45 */ .long .L_ALT_OP_AGET_OBJECT /* 0x46 */ .long .L_ALT_OP_AGET_BOOLEAN /* 0x47 */ .long .L_ALT_OP_AGET_BYTE /* 0x48 */ .long .L_ALT_OP_AGET_CHAR /* 0x49 */ .long .L_ALT_OP_AGET_SHORT /* 0x4a */ .long .L_ALT_OP_APUT /* 0x4b */ .long .L_ALT_OP_APUT_WIDE /* 0x4c */ .long .L_ALT_OP_APUT_OBJECT /* 0x4d */ .long .L_ALT_OP_APUT_BOOLEAN /* 0x4e */ .long .L_ALT_OP_APUT_BYTE /* 0x4f */ .long .L_ALT_OP_APUT_CHAR /* 0x50 */ .long .L_ALT_OP_APUT_SHORT /* 0x51 */ .long .L_ALT_OP_IGET /* 0x52 */ .long .L_ALT_OP_IGET_WIDE /* 0x53 */ .long .L_ALT_OP_IGET_OBJECT /* 0x54 */ .long .L_ALT_OP_IGET_BOOLEAN /* 0x55 */ .long .L_ALT_OP_IGET_BYTE /* 0x56 */ .long .L_ALT_OP_IGET_CHAR /* 0x57 */ .long .L_ALT_OP_IGET_SHORT /* 0x58 */ .long .L_ALT_OP_IPUT /* 0x59 */ .long .L_ALT_OP_IPUT_WIDE /* 0x5a */ .long .L_ALT_OP_IPUT_OBJECT /* 0x5b */ .long .L_ALT_OP_IPUT_BOOLEAN /* 0x5c */ .long .L_ALT_OP_IPUT_BYTE /* 0x5d */ .long .L_ALT_OP_IPUT_CHAR /* 0x5e */ .long .L_ALT_OP_IPUT_SHORT /* 0x5f */ .long .L_ALT_OP_SGET /* 0x60 */ .long .L_ALT_OP_SGET_WIDE /* 0x61 */ .long .L_ALT_OP_SGET_OBJECT /* 0x62 */ .long .L_ALT_OP_SGET_BOOLEAN /* 0x63 */ .long .L_ALT_OP_SGET_BYTE /* 0x64 */ .long .L_ALT_OP_SGET_CHAR /* 0x65 */ .long .L_ALT_OP_SGET_SHORT /* 0x66 */ .long .L_ALT_OP_SPUT /* 0x67 */ .long .L_ALT_OP_SPUT_WIDE /* 0x68 */ .long .L_ALT_OP_SPUT_OBJECT /* 0x69 */ .long .L_ALT_OP_SPUT_BOOLEAN /* 0x6a */ .long .L_ALT_OP_SPUT_BYTE /* 0x6b */ .long .L_ALT_OP_SPUT_CHAR /* 0x6c */ .long .L_ALT_OP_SPUT_SHORT /* 0x6d */ .long .L_ALT_OP_INVOKE_VIRTUAL /* 0x6e */ .long .L_ALT_OP_INVOKE_SUPER /* 0x6f */ .long .L_ALT_OP_INVOKE_DIRECT /* 0x70 */ .long .L_ALT_OP_INVOKE_STATIC /* 0x71 */ .long .L_ALT_OP_INVOKE_INTERFACE /* 0x72 */ .long .L_ALT_OP_UNUSED_73 /* 0x73 */ .long .L_ALT_OP_INVOKE_VIRTUAL_RANGE /* 0x74 */ .long .L_ALT_OP_INVOKE_SUPER_RANGE /* 0x75 */ .long .L_ALT_OP_INVOKE_DIRECT_RANGE /* 0x76 */ .long .L_ALT_OP_INVOKE_STATIC_RANGE /* 0x77 */ .long .L_ALT_OP_INVOKE_INTERFACE_RANGE /* 0x78 */ .long .L_ALT_OP_UNUSED_79 /* 0x79 */ .long .L_ALT_OP_UNUSED_7A /* 0x7a */ .long .L_ALT_OP_NEG_INT /* 0x7b */ .long .L_ALT_OP_NOT_INT /* 0x7c */ .long .L_ALT_OP_NEG_LONG /* 0x7d */ .long .L_ALT_OP_NOT_LONG /* 0x7e */ .long .L_ALT_OP_NEG_FLOAT /* 0x7f */ .long .L_ALT_OP_NEG_DOUBLE /* 0x80 */ .long .L_ALT_OP_INT_TO_LONG /* 0x81 */ .long .L_ALT_OP_INT_TO_FLOAT /* 0x82 */ .long .L_ALT_OP_INT_TO_DOUBLE /* 0x83 */ .long .L_ALT_OP_LONG_TO_INT /* 0x84 */ .long .L_ALT_OP_LONG_TO_FLOAT /* 0x85 */ .long .L_ALT_OP_LONG_TO_DOUBLE /* 0x86 */ .long .L_ALT_OP_FLOAT_TO_INT /* 0x87 */ .long .L_ALT_OP_FLOAT_TO_LONG /* 0x88 */ .long .L_ALT_OP_FLOAT_TO_DOUBLE /* 0x89 */ .long .L_ALT_OP_DOUBLE_TO_INT /* 0x8a */ .long .L_ALT_OP_DOUBLE_TO_LONG /* 0x8b */ .long .L_ALT_OP_DOUBLE_TO_FLOAT /* 0x8c */ .long .L_ALT_OP_INT_TO_BYTE /* 0x8d */ .long .L_ALT_OP_INT_TO_CHAR /* 0x8e */ .long .L_ALT_OP_INT_TO_SHORT /* 0x8f */ .long .L_ALT_OP_ADD_INT /* 0x90 */ .long .L_ALT_OP_SUB_INT /* 0x91 */ .long .L_ALT_OP_MUL_INT /* 0x92 */ .long .L_ALT_OP_DIV_INT /* 0x93 */ .long .L_ALT_OP_REM_INT /* 0x94 */ .long .L_ALT_OP_AND_INT /* 0x95 */ .long .L_ALT_OP_OR_INT /* 0x96 */ .long .L_ALT_OP_XOR_INT /* 0x97 */ .long .L_ALT_OP_SHL_INT /* 0x98 */ .long .L_ALT_OP_SHR_INT /* 0x99 */ .long .L_ALT_OP_USHR_INT /* 0x9a */ .long .L_ALT_OP_ADD_LONG /* 0x9b */ .long .L_ALT_OP_SUB_LONG /* 0x9c */ .long .L_ALT_OP_MUL_LONG /* 0x9d */ .long .L_ALT_OP_DIV_LONG /* 0x9e */ .long .L_ALT_OP_REM_LONG /* 0x9f */ .long .L_ALT_OP_AND_LONG /* 0xa0 */ .long .L_ALT_OP_OR_LONG /* 0xa1 */ .long .L_ALT_OP_XOR_LONG /* 0xa2 */ .long .L_ALT_OP_SHL_LONG /* 0xa3 */ .long .L_ALT_OP_SHR_LONG /* 0xa4 */ .long .L_ALT_OP_USHR_LONG /* 0xa5 */ .long .L_ALT_OP_ADD_FLOAT /* 0xa6 */ .long .L_ALT_OP_SUB_FLOAT /* 0xa7 */ .long .L_ALT_OP_MUL_FLOAT /* 0xa8 */ .long .L_ALT_OP_DIV_FLOAT /* 0xa9 */ .long .L_ALT_OP_REM_FLOAT /* 0xaa */ .long .L_ALT_OP_ADD_DOUBLE /* 0xab */ .long .L_ALT_OP_SUB_DOUBLE /* 0xac */ .long .L_ALT_OP_MUL_DOUBLE /* 0xad */ .long .L_ALT_OP_DIV_DOUBLE /* 0xae */ .long .L_ALT_OP_REM_DOUBLE /* 0xaf */ .long .L_ALT_OP_ADD_INT_2ADDR /* 0xb0 */ .long .L_ALT_OP_SUB_INT_2ADDR /* 0xb1 */ .long .L_ALT_OP_MUL_INT_2ADDR /* 0xb2 */ .long .L_ALT_OP_DIV_INT_2ADDR /* 0xb3 */ .long .L_ALT_OP_REM_INT_2ADDR /* 0xb4 */ .long .L_ALT_OP_AND_INT_2ADDR /* 0xb5 */ .long .L_ALT_OP_OR_INT_2ADDR /* 0xb6 */ .long .L_ALT_OP_XOR_INT_2ADDR /* 0xb7 */ .long .L_ALT_OP_SHL_INT_2ADDR /* 0xb8 */ .long .L_ALT_OP_SHR_INT_2ADDR /* 0xb9 */ .long .L_ALT_OP_USHR_INT_2ADDR /* 0xba */ .long .L_ALT_OP_ADD_LONG_2ADDR /* 0xbb */ .long .L_ALT_OP_SUB_LONG_2ADDR /* 0xbc */ .long .L_ALT_OP_MUL_LONG_2ADDR /* 0xbd */ .long .L_ALT_OP_DIV_LONG_2ADDR /* 0xbe */ .long .L_ALT_OP_REM_LONG_2ADDR /* 0xbf */ .long .L_ALT_OP_AND_LONG_2ADDR /* 0xc0 */ .long .L_ALT_OP_OR_LONG_2ADDR /* 0xc1 */ .long .L_ALT_OP_XOR_LONG_2ADDR /* 0xc2 */ .long .L_ALT_OP_SHL_LONG_2ADDR /* 0xc3 */ .long .L_ALT_OP_SHR_LONG_2ADDR /* 0xc4 */ .long .L_ALT_OP_USHR_LONG_2ADDR /* 0xc5 */ .long .L_ALT_OP_ADD_FLOAT_2ADDR /* 0xc6 */ .long .L_ALT_OP_SUB_FLOAT_2ADDR /* 0xc7 */ .long .L_ALT_OP_MUL_FLOAT_2ADDR /* 0xc8 */ .long .L_ALT_OP_DIV_FLOAT_2ADDR /* 0xc9 */ .long .L_ALT_OP_REM_FLOAT_2ADDR /* 0xca */ .long .L_ALT_OP_ADD_DOUBLE_2ADDR /* 0xcb */ .long .L_ALT_OP_SUB_DOUBLE_2ADDR /* 0xcc */ .long .L_ALT_OP_MUL_DOUBLE_2ADDR /* 0xcd */ .long .L_ALT_OP_DIV_DOUBLE_2ADDR /* 0xce */ .long .L_ALT_OP_REM_DOUBLE_2ADDR /* 0xcf */ .long .L_ALT_OP_ADD_INT_LIT16 /* 0xd0 */ .long .L_ALT_OP_RSUB_INT /* 0xd1 */ .long .L_ALT_OP_MUL_INT_LIT16 /* 0xd2 */ .long .L_ALT_OP_DIV_INT_LIT16 /* 0xd3 */ .long .L_ALT_OP_REM_INT_LIT16 /* 0xd4 */ .long .L_ALT_OP_AND_INT_LIT16 /* 0xd5 */ .long .L_ALT_OP_OR_INT_LIT16 /* 0xd6 */ .long .L_ALT_OP_XOR_INT_LIT16 /* 0xd7 */ .long .L_ALT_OP_ADD_INT_LIT8 /* 0xd8 */ .long .L_ALT_OP_RSUB_INT_LIT8 /* 0xd9 */ .long .L_ALT_OP_MUL_INT_LIT8 /* 0xda */ .long .L_ALT_OP_DIV_INT_LIT8 /* 0xdb */ .long .L_ALT_OP_REM_INT_LIT8 /* 0xdc */ .long .L_ALT_OP_AND_INT_LIT8 /* 0xdd */ .long .L_ALT_OP_OR_INT_LIT8 /* 0xde */ .long .L_ALT_OP_XOR_INT_LIT8 /* 0xdf */ .long .L_ALT_OP_SHL_INT_LIT8 /* 0xe0 */ .long .L_ALT_OP_SHR_INT_LIT8 /* 0xe1 */ .long .L_ALT_OP_USHR_INT_LIT8 /* 0xe2 */ .long .L_ALT_OP_IGET_VOLATILE /* 0xe3 */ .long .L_ALT_OP_IPUT_VOLATILE /* 0xe4 */ .long .L_ALT_OP_SGET_VOLATILE /* 0xe5 */ .long .L_ALT_OP_SPUT_VOLATILE /* 0xe6 */ .long .L_ALT_OP_IGET_OBJECT_VOLATILE /* 0xe7 */ .long .L_ALT_OP_IGET_WIDE_VOLATILE /* 0xe8 */ .long .L_ALT_OP_IPUT_WIDE_VOLATILE /* 0xe9 */ .long .L_ALT_OP_SGET_WIDE_VOLATILE /* 0xea */ .long .L_ALT_OP_SPUT_WIDE_VOLATILE /* 0xeb */ .long .L_ALT_OP_BREAKPOINT /* 0xec */ .long .L_ALT_OP_THROW_VERIFICATION_ERROR /* 0xed */ .long .L_ALT_OP_EXECUTE_INLINE /* 0xee */ .long .L_ALT_OP_EXECUTE_INLINE_RANGE /* 0xef */ .long .L_ALT_OP_INVOKE_OBJECT_INIT_RANGE /* 0xf0 */ .long .L_ALT_OP_RETURN_VOID_BARRIER /* 0xf1 */ .long .L_ALT_OP_IGET_QUICK /* 0xf2 */ .long .L_ALT_OP_IGET_WIDE_QUICK /* 0xf3 */ .long .L_ALT_OP_IGET_OBJECT_QUICK /* 0xf4 */ .long .L_ALT_OP_IPUT_QUICK /* 0xf5 */ .long .L_ALT_OP_IPUT_WIDE_QUICK /* 0xf6 */ .long .L_ALT_OP_IPUT_OBJECT_QUICK /* 0xf7 */ .long .L_ALT_OP_INVOKE_VIRTUAL_QUICK /* 0xf8 */ .long .L_ALT_OP_INVOKE_VIRTUAL_QUICK_RANGE /* 0xf9 */ .long .L_ALT_OP_INVOKE_SUPER_QUICK /* 0xfa */ .long .L_ALT_OP_INVOKE_SUPER_QUICK_RANGE /* 0xfb */ .long .L_ALT_OP_IPUT_OBJECT_VOLATILE /* 0xfc */ .long .L_ALT_OP_SGET_OBJECT_VOLATILE /* 0xfd */ .long .L_ALT_OP_SPUT_OBJECT_VOLATILE /* 0xfe */ .long .L_ALT_OP_DISPATCH_FF /* 0xff */ .long .L_ALT_OP_CONST_CLASS_JUMBO /* 0x100 */ .long .L_ALT_OP_CHECK_CAST_JUMBO /* 0x101 */ .long .L_ALT_OP_INSTANCE_OF_JUMBO /* 0x102 */ .long .L_ALT_OP_NEW_INSTANCE_JUMBO /* 0x103 */ .long .L_ALT_OP_NEW_ARRAY_JUMBO /* 0x104 */ .long .L_ALT_OP_FILLED_NEW_ARRAY_JUMBO /* 0x105 */ .long .L_ALT_OP_IGET_JUMBO /* 0x106 */ .long .L_ALT_OP_IGET_WIDE_JUMBO /* 0x107 */ .long .L_ALT_OP_IGET_OBJECT_JUMBO /* 0x108 */ .long .L_ALT_OP_IGET_BOOLEAN_JUMBO /* 0x109 */ .long .L_ALT_OP_IGET_BYTE_JUMBO /* 0x10a */ .long .L_ALT_OP_IGET_CHAR_JUMBO /* 0x10b */ .long .L_ALT_OP_IGET_SHORT_JUMBO /* 0x10c */ .long .L_ALT_OP_IPUT_JUMBO /* 0x10d */ .long .L_ALT_OP_IPUT_WIDE_JUMBO /* 0x10e */ .long .L_ALT_OP_IPUT_OBJECT_JUMBO /* 0x10f */ .long .L_ALT_OP_IPUT_BOOLEAN_JUMBO /* 0x110 */ .long .L_ALT_OP_IPUT_BYTE_JUMBO /* 0x111 */ .long .L_ALT_OP_IPUT_CHAR_JUMBO /* 0x112 */ .long .L_ALT_OP_IPUT_SHORT_JUMBO /* 0x113 */ .long .L_ALT_OP_SGET_JUMBO /* 0x114 */ .long .L_ALT_OP_SGET_WIDE_JUMBO /* 0x115 */ .long .L_ALT_OP_SGET_OBJECT_JUMBO /* 0x116 */ .long .L_ALT_OP_SGET_BOOLEAN_JUMBO /* 0x117 */ .long .L_ALT_OP_SGET_BYTE_JUMBO /* 0x118 */ .long .L_ALT_OP_SGET_CHAR_JUMBO /* 0x119 */ .long .L_ALT_OP_SGET_SHORT_JUMBO /* 0x11a */ .long .L_ALT_OP_SPUT_JUMBO /* 0x11b */ .long .L_ALT_OP_SPUT_WIDE_JUMBO /* 0x11c */ .long .L_ALT_OP_SPUT_OBJECT_JUMBO /* 0x11d */ .long .L_ALT_OP_SPUT_BOOLEAN_JUMBO /* 0x11e */ .long .L_ALT_OP_SPUT_BYTE_JUMBO /* 0x11f */ .long .L_ALT_OP_SPUT_CHAR_JUMBO /* 0x120 */ .long .L_ALT_OP_SPUT_SHORT_JUMBO /* 0x121 */ .long .L_ALT_OP_INVOKE_VIRTUAL_JUMBO /* 0x122 */ .long .L_ALT_OP_INVOKE_SUPER_JUMBO /* 0x123 */ .long .L_ALT_OP_INVOKE_DIRECT_JUMBO /* 0x124 */ .long .L_ALT_OP_INVOKE_STATIC_JUMBO /* 0x125 */ .long .L_ALT_OP_INVOKE_INTERFACE_JUMBO /* 0x126 */ .long .L_ALT_OP_UNUSED_27FF /* 0x127 */ .long .L_ALT_OP_UNUSED_28FF /* 0x128 */ .long .L_ALT_OP_UNUSED_29FF /* 0x129 */ .long .L_ALT_OP_UNUSED_2AFF /* 0x12a */ .long .L_ALT_OP_UNUSED_2BFF /* 0x12b */ .long .L_ALT_OP_UNUSED_2CFF /* 0x12c */ .long .L_ALT_OP_UNUSED_2DFF /* 0x12d */ .long .L_ALT_OP_UNUSED_2EFF /* 0x12e */ .long .L_ALT_OP_UNUSED_2FFF /* 0x12f */ .long .L_ALT_OP_UNUSED_30FF /* 0x130 */ .long .L_ALT_OP_UNUSED_31FF /* 0x131 */ .long .L_ALT_OP_UNUSED_32FF /* 0x132 */ .long .L_ALT_OP_UNUSED_33FF /* 0x133 */ .long .L_ALT_OP_UNUSED_34FF /* 0x134 */ .long .L_ALT_OP_UNUSED_35FF /* 0x135 */ .long .L_ALT_OP_UNUSED_36FF /* 0x136 */ .long .L_ALT_OP_UNUSED_37FF /* 0x137 */ .long .L_ALT_OP_UNUSED_38FF /* 0x138 */ .long .L_ALT_OP_UNUSED_39FF /* 0x139 */ .long .L_ALT_OP_UNUSED_3AFF /* 0x13a */ .long .L_ALT_OP_UNUSED_3BFF /* 0x13b */ .long .L_ALT_OP_UNUSED_3CFF /* 0x13c */ .long .L_ALT_OP_UNUSED_3DFF /* 0x13d */ .long .L_ALT_OP_UNUSED_3EFF /* 0x13e */ .long .L_ALT_OP_UNUSED_3FFF /* 0x13f */ .long .L_ALT_OP_UNUSED_40FF /* 0x140 */ .long .L_ALT_OP_UNUSED_41FF /* 0x141 */ .long .L_ALT_OP_UNUSED_42FF /* 0x142 */ .long .L_ALT_OP_UNUSED_43FF /* 0x143 */ .long .L_ALT_OP_UNUSED_44FF /* 0x144 */ .long .L_ALT_OP_UNUSED_45FF /* 0x145 */ .long .L_ALT_OP_UNUSED_46FF /* 0x146 */ .long .L_ALT_OP_UNUSED_47FF /* 0x147 */ .long .L_ALT_OP_UNUSED_48FF /* 0x148 */ .long .L_ALT_OP_UNUSED_49FF /* 0x149 */ .long .L_ALT_OP_UNUSED_4AFF /* 0x14a */ .long .L_ALT_OP_UNUSED_4BFF /* 0x14b */ .long .L_ALT_OP_UNUSED_4CFF /* 0x14c */ .long .L_ALT_OP_UNUSED_4DFF /* 0x14d */ .long .L_ALT_OP_UNUSED_4EFF /* 0x14e */ .long .L_ALT_OP_UNUSED_4FFF /* 0x14f */ .long .L_ALT_OP_UNUSED_50FF /* 0x150 */ .long .L_ALT_OP_UNUSED_51FF /* 0x151 */ .long .L_ALT_OP_UNUSED_52FF /* 0x152 */ .long .L_ALT_OP_UNUSED_53FF /* 0x153 */ .long .L_ALT_OP_UNUSED_54FF /* 0x154 */ .long .L_ALT_OP_UNUSED_55FF /* 0x155 */ .long .L_ALT_OP_UNUSED_56FF /* 0x156 */ .long .L_ALT_OP_UNUSED_57FF /* 0x157 */ .long .L_ALT_OP_UNUSED_58FF /* 0x158 */ .long .L_ALT_OP_UNUSED_59FF /* 0x159 */ .long .L_ALT_OP_UNUSED_5AFF /* 0x15a */ .long .L_ALT_OP_UNUSED_5BFF /* 0x15b */ .long .L_ALT_OP_UNUSED_5CFF /* 0x15c */ .long .L_ALT_OP_UNUSED_5DFF /* 0x15d */ .long .L_ALT_OP_UNUSED_5EFF /* 0x15e */ .long .L_ALT_OP_UNUSED_5FFF /* 0x15f */ .long .L_ALT_OP_UNUSED_60FF /* 0x160 */ .long .L_ALT_OP_UNUSED_61FF /* 0x161 */ .long .L_ALT_OP_UNUSED_62FF /* 0x162 */ .long .L_ALT_OP_UNUSED_63FF /* 0x163 */ .long .L_ALT_OP_UNUSED_64FF /* 0x164 */ .long .L_ALT_OP_UNUSED_65FF /* 0x165 */ .long .L_ALT_OP_UNUSED_66FF /* 0x166 */ .long .L_ALT_OP_UNUSED_67FF /* 0x167 */ .long .L_ALT_OP_UNUSED_68FF /* 0x168 */ .long .L_ALT_OP_UNUSED_69FF /* 0x169 */ .long .L_ALT_OP_UNUSED_6AFF /* 0x16a */ .long .L_ALT_OP_UNUSED_6BFF /* 0x16b */ .long .L_ALT_OP_UNUSED_6CFF /* 0x16c */ .long .L_ALT_OP_UNUSED_6DFF /* 0x16d */ .long .L_ALT_OP_UNUSED_6EFF /* 0x16e */ .long .L_ALT_OP_UNUSED_6FFF /* 0x16f */ .long .L_ALT_OP_UNUSED_70FF /* 0x170 */ .long .L_ALT_OP_UNUSED_71FF /* 0x171 */ .long .L_ALT_OP_UNUSED_72FF /* 0x172 */ .long .L_ALT_OP_UNUSED_73FF /* 0x173 */ .long .L_ALT_OP_UNUSED_74FF /* 0x174 */ .long .L_ALT_OP_UNUSED_75FF /* 0x175 */ .long .L_ALT_OP_UNUSED_76FF /* 0x176 */ .long .L_ALT_OP_UNUSED_77FF /* 0x177 */ .long .L_ALT_OP_UNUSED_78FF /* 0x178 */ .long .L_ALT_OP_UNUSED_79FF /* 0x179 */ .long .L_ALT_OP_UNUSED_7AFF /* 0x17a */ .long .L_ALT_OP_UNUSED_7BFF /* 0x17b */ .long .L_ALT_OP_UNUSED_7CFF /* 0x17c */ .long .L_ALT_OP_UNUSED_7DFF /* 0x17d */ .long .L_ALT_OP_UNUSED_7EFF /* 0x17e */ .long .L_ALT_OP_UNUSED_7FFF /* 0x17f */ .long .L_ALT_OP_UNUSED_80FF /* 0x180 */ .long .L_ALT_OP_UNUSED_81FF /* 0x181 */ .long .L_ALT_OP_UNUSED_82FF /* 0x182 */ .long .L_ALT_OP_UNUSED_83FF /* 0x183 */ .long .L_ALT_OP_UNUSED_84FF /* 0x184 */ .long .L_ALT_OP_UNUSED_85FF /* 0x185 */ .long .L_ALT_OP_UNUSED_86FF /* 0x186 */ .long .L_ALT_OP_UNUSED_87FF /* 0x187 */ .long .L_ALT_OP_UNUSED_88FF /* 0x188 */ .long .L_ALT_OP_UNUSED_89FF /* 0x189 */ .long .L_ALT_OP_UNUSED_8AFF /* 0x18a */ .long .L_ALT_OP_UNUSED_8BFF /* 0x18b */ .long .L_ALT_OP_UNUSED_8CFF /* 0x18c */ .long .L_ALT_OP_UNUSED_8DFF /* 0x18d */ .long .L_ALT_OP_UNUSED_8EFF /* 0x18e */ .long .L_ALT_OP_UNUSED_8FFF /* 0x18f */ .long .L_ALT_OP_UNUSED_90FF /* 0x190 */ .long .L_ALT_OP_UNUSED_91FF /* 0x191 */ .long .L_ALT_OP_UNUSED_92FF /* 0x192 */ .long .L_ALT_OP_UNUSED_93FF /* 0x193 */ .long .L_ALT_OP_UNUSED_94FF /* 0x194 */ .long .L_ALT_OP_UNUSED_95FF /* 0x195 */ .long .L_ALT_OP_UNUSED_96FF /* 0x196 */ .long .L_ALT_OP_UNUSED_97FF /* 0x197 */ .long .L_ALT_OP_UNUSED_98FF /* 0x198 */ .long .L_ALT_OP_UNUSED_99FF /* 0x199 */ .long .L_ALT_OP_UNUSED_9AFF /* 0x19a */ .long .L_ALT_OP_UNUSED_9BFF /* 0x19b */ .long .L_ALT_OP_UNUSED_9CFF /* 0x19c */ .long .L_ALT_OP_UNUSED_9DFF /* 0x19d */ .long .L_ALT_OP_UNUSED_9EFF /* 0x19e */ .long .L_ALT_OP_UNUSED_9FFF /* 0x19f */ .long .L_ALT_OP_UNUSED_A0FF /* 0x1a0 */ .long .L_ALT_OP_UNUSED_A1FF /* 0x1a1 */ .long .L_ALT_OP_UNUSED_A2FF /* 0x1a2 */ .long .L_ALT_OP_UNUSED_A3FF /* 0x1a3 */ .long .L_ALT_OP_UNUSED_A4FF /* 0x1a4 */ .long .L_ALT_OP_UNUSED_A5FF /* 0x1a5 */ .long .L_ALT_OP_UNUSED_A6FF /* 0x1a6 */ .long .L_ALT_OP_UNUSED_A7FF /* 0x1a7 */ .long .L_ALT_OP_UNUSED_A8FF /* 0x1a8 */ .long .L_ALT_OP_UNUSED_A9FF /* 0x1a9 */ .long .L_ALT_OP_UNUSED_AAFF /* 0x1aa */ .long .L_ALT_OP_UNUSED_ABFF /* 0x1ab */ .long .L_ALT_OP_UNUSED_ACFF /* 0x1ac */ .long .L_ALT_OP_UNUSED_ADFF /* 0x1ad */ .long .L_ALT_OP_UNUSED_AEFF /* 0x1ae */ .long .L_ALT_OP_UNUSED_AFFF /* 0x1af */ .long .L_ALT_OP_UNUSED_B0FF /* 0x1b0 */ .long .L_ALT_OP_UNUSED_B1FF /* 0x1b1 */ .long .L_ALT_OP_UNUSED_B2FF /* 0x1b2 */ .long .L_ALT_OP_UNUSED_B3FF /* 0x1b3 */ .long .L_ALT_OP_UNUSED_B4FF /* 0x1b4 */ .long .L_ALT_OP_UNUSED_B5FF /* 0x1b5 */ .long .L_ALT_OP_UNUSED_B6FF /* 0x1b6 */ .long .L_ALT_OP_UNUSED_B7FF /* 0x1b7 */ .long .L_ALT_OP_UNUSED_B8FF /* 0x1b8 */ .long .L_ALT_OP_UNUSED_B9FF /* 0x1b9 */ .long .L_ALT_OP_UNUSED_BAFF /* 0x1ba */ .long .L_ALT_OP_UNUSED_BBFF /* 0x1bb */ .long .L_ALT_OP_UNUSED_BCFF /* 0x1bc */ .long .L_ALT_OP_UNUSED_BDFF /* 0x1bd */ .long .L_ALT_OP_UNUSED_BEFF /* 0x1be */ .long .L_ALT_OP_UNUSED_BFFF /* 0x1bf */ .long .L_ALT_OP_UNUSED_C0FF /* 0x1c0 */ .long .L_ALT_OP_UNUSED_C1FF /* 0x1c1 */ .long .L_ALT_OP_UNUSED_C2FF /* 0x1c2 */ .long .L_ALT_OP_UNUSED_C3FF /* 0x1c3 */ .long .L_ALT_OP_UNUSED_C4FF /* 0x1c4 */ .long .L_ALT_OP_UNUSED_C5FF /* 0x1c5 */ .long .L_ALT_OP_UNUSED_C6FF /* 0x1c6 */ .long .L_ALT_OP_UNUSED_C7FF /* 0x1c7 */ .long .L_ALT_OP_UNUSED_C8FF /* 0x1c8 */ .long .L_ALT_OP_UNUSED_C9FF /* 0x1c9 */ .long .L_ALT_OP_UNUSED_CAFF /* 0x1ca */ .long .L_ALT_OP_UNUSED_CBFF /* 0x1cb */ .long .L_ALT_OP_UNUSED_CCFF /* 0x1cc */ .long .L_ALT_OP_UNUSED_CDFF /* 0x1cd */ .long .L_ALT_OP_UNUSED_CEFF /* 0x1ce */ .long .L_ALT_OP_UNUSED_CFFF /* 0x1cf */ .long .L_ALT_OP_UNUSED_D0FF /* 0x1d0 */ .long .L_ALT_OP_UNUSED_D1FF /* 0x1d1 */ .long .L_ALT_OP_UNUSED_D2FF /* 0x1d2 */ .long .L_ALT_OP_UNUSED_D3FF /* 0x1d3 */ .long .L_ALT_OP_UNUSED_D4FF /* 0x1d4 */ .long .L_ALT_OP_UNUSED_D5FF /* 0x1d5 */ .long .L_ALT_OP_UNUSED_D6FF /* 0x1d6 */ .long .L_ALT_OP_UNUSED_D7FF /* 0x1d7 */ .long .L_ALT_OP_UNUSED_D8FF /* 0x1d8 */ .long .L_ALT_OP_UNUSED_D9FF /* 0x1d9 */ .long .L_ALT_OP_UNUSED_DAFF /* 0x1da */ .long .L_ALT_OP_UNUSED_DBFF /* 0x1db */ .long .L_ALT_OP_UNUSED_DCFF /* 0x1dc */ .long .L_ALT_OP_UNUSED_DDFF /* 0x1dd */ .long .L_ALT_OP_UNUSED_DEFF /* 0x1de */ .long .L_ALT_OP_UNUSED_DFFF /* 0x1df */ .long .L_ALT_OP_UNUSED_E0FF /* 0x1e0 */ .long .L_ALT_OP_UNUSED_E1FF /* 0x1e1 */ .long .L_ALT_OP_UNUSED_E2FF /* 0x1e2 */ .long .L_ALT_OP_UNUSED_E3FF /* 0x1e3 */ .long .L_ALT_OP_UNUSED_E4FF /* 0x1e4 */ .long .L_ALT_OP_UNUSED_E5FF /* 0x1e5 */ .long .L_ALT_OP_UNUSED_E6FF /* 0x1e6 */ .long .L_ALT_OP_UNUSED_E7FF /* 0x1e7 */ .long .L_ALT_OP_UNUSED_E8FF /* 0x1e8 */ .long .L_ALT_OP_UNUSED_E9FF /* 0x1e9 */ .long .L_ALT_OP_UNUSED_EAFF /* 0x1ea */ .long .L_ALT_OP_UNUSED_EBFF /* 0x1eb */ .long .L_ALT_OP_UNUSED_ECFF /* 0x1ec */ .long .L_ALT_OP_UNUSED_EDFF /* 0x1ed */ .long .L_ALT_OP_UNUSED_EEFF /* 0x1ee */ .long .L_ALT_OP_UNUSED_EFFF /* 0x1ef */ .long .L_ALT_OP_UNUSED_F0FF /* 0x1f0 */ .long .L_ALT_OP_UNUSED_F1FF /* 0x1f1 */ .long .L_ALT_OP_INVOKE_OBJECT_INIT_JUMBO /* 0x1f2 */ .long .L_ALT_OP_IGET_VOLATILE_JUMBO /* 0x1f3 */ .long .L_ALT_OP_IGET_WIDE_VOLATILE_JUMBO /* 0x1f4 */ .long .L_ALT_OP_IGET_OBJECT_VOLATILE_JUMBO /* 0x1f5 */ .long .L_ALT_OP_IPUT_VOLATILE_JUMBO /* 0x1f6 */ .long .L_ALT_OP_IPUT_WIDE_VOLATILE_JUMBO /* 0x1f7 */ .long .L_ALT_OP_IPUT_OBJECT_VOLATILE_JUMBO /* 0x1f8 */ .long .L_ALT_OP_SGET_VOLATILE_JUMBO /* 0x1f9 */ .long .L_ALT_OP_SGET_WIDE_VOLATILE_JUMBO /* 0x1fa */ .long .L_ALT_OP_SGET_OBJECT_VOLATILE_JUMBO /* 0x1fb */ .long .L_ALT_OP_SPUT_VOLATILE_JUMBO /* 0x1fc */ .long .L_ALT_OP_SPUT_WIDE_VOLATILE_JUMBO /* 0x1fd */ .long .L_ALT_OP_SPUT_OBJECT_VOLATILE_JUMBO /* 0x1fe */ .long .L_ALT_OP_THROW_VERIFICATION_ERROR_JUMBO /* 0x1ff */ /* File: x86/entry.S */ /* * Copyright (C) 2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ .text .global dvmMterpStdRun .type dvmMterpStdRun, %function /* * bool dvmMterpStdRun(Thread* self) * * Interpreter entry point. Returns changeInterp. * */ dvmMterpStdRun: push %ebp # save caller base pointer movl %esp, %ebp # set our %ebp movl rSELF, %ecx # get incoming rSELF /* * At this point we've allocated one slot on the stack * via push and stack is 8-byte aligned. Allocate space * for 9 spill slots, 4 local slots, 5 arg slots to bring * us to 16-byte alignment */ subl $(FRAME_SIZE-4), %esp /* Spill callee save regs */ movl %edi,EDI_SPILL(%ebp) movl %esi,ESI_SPILL(%ebp) movl %ebx,EBX_SPILL(%ebp) /* Set up "named" registers */ movl offThread_pc(%ecx),rPC movl offThread_curFrame(%ecx),rFP movl offThread_curHandlerTable(%ecx),rIBASE /* Remember %esp for future "longjmp" */ movl %esp,offThread_bailPtr(%ecx) /* Normal case: start executing the instruction at rPC */ FETCH_INST GOTO_NEXT .global dvmMterpStdBail .type dvmMterpStdBail, %function /* * void dvmMterpStdBail(Thread* self, bool changeInterp) * * Restore the stack pointer and PC from the save point established on entry. * This is essentially the same as a longjmp, but should be cheaper. The * last instruction causes us to return to whoever called dvmMterpStdRun. * * We're not going to build a standard frame here, so the arg accesses will * look a little strange. * * On entry: * esp+4 (arg0) Thread* self * esp+8 (arg1) bool changeInterp */ dvmMterpStdBail: movl 4(%esp),%ecx # grab self movl 8(%esp),%eax # changeInterp to return reg movl offThread_bailPtr(%ecx),%esp # Restore "setjmp" esp movl %esp,%ebp addl $(FRAME_SIZE-4), %ebp # Restore %ebp at point of setjmp movl EDI_SPILL(%ebp),%edi movl ESI_SPILL(%ebp),%esi movl EBX_SPILL(%ebp),%ebx movl %ebp, %esp # strip frame pop %ebp # restore caller's ebp ret # return to dvmMterpStdRun's caller /* * Strings */ .section .rodata .LstrBadEntryPoint: .asciz "Bad entry point %d\n" /* File: x86/footer.S */ /* * Copyright (C) 2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * Common subroutines and data. */ #if defined(WITH_JIT) /* * JIT-related re-entries into the interpreter. In general, if the * exit from a translation can at some point be chained, the entry * here requires that control arrived via a call, and that the "rp" * on TOS is actually a pointer to a 32-bit cell containing the Dalvik PC * of the next insn to handle. If no chaining will happen, the entry * should be reached via a direct jump and rPC set beforehand. */ .global dvmJitToInterpPunt /* * The compiler will generate a jump to this entry point when it is * having difficulty translating a Dalvik instruction. We must skip * the code cache lookup & prevent chaining to avoid bouncing between * the interpreter and code cache. rPC must be set on entry. */ dvmJitToInterpPunt: #if defined(WITH_JIT_TUNING) movl rPC, OUT_ARG0(%esp) call dvmBumpPunt #endif movl rSELF, %ecx movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_R %ecx GOTO_NEXT_R %ecx .global dvmJitToInterpSingleStep /* * Return to the interpreter to handle a single instruction. * Should be reached via a call. * On entry: * 0(%esp) <= native return address within trace * rPC <= Dalvik PC of this instruction * OUT_ARG0+4(%esp) <= Dalvik PC of next instruction */ dvmJitToInterpSingleStep: /* TODO */ call dvmAbort #if 0 pop %eax movl rSELF, %ecx movl OUT_ARG0(%esp), %edx movl %eax,offThread_jitResumeNPC(%ecx) movl %edx,offThread_jitResumeDPC(%ecx) movl $kInterpEntryInstr,offThread_entryPoint(%ecx) movl $1,rINST # changeInterp <= true jmp common_gotoBail #endif .global dvmJitToInterpNoChainNoProfile /* * Return from the translation cache to the interpreter to do method * invocation. Check if the translation exists for the callee, but don't * chain to it. rPC must be set on entry. */ dvmJitToInterpNoChainNoProfile: #if defined(WITH_JIT_TUNING) call dvmBumpNoChain #endif movl rSELF, %eax movl rPC,OUT_ARG0(%esp) movl %eax,OUT_ARG1(%esp) call dvmJitGetTraceAddrThread # (pc, self) movl rSELF,%ecx # ecx <- self movl %eax,offThread_inJitCodeCache(%ecx) # set inJitCodeCache flag cmpl $0, %eax jz 1f call *%eax # exec translation if we've got one # won't return 1: movl rSELF, %ecx movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_R %ecx GOTO_NEXT_R %ecx /* * Return from the translation cache and immediately request a * translation fro the exit target, but don't attempt to chain. * rPC set on entry. */ .global dvmJitToInterpTraceSelectNoChain dvmJitToInterpTraceSelectNoChain: #if defined(WITH_JIT_TUNING) call dvmBumpNoChain #endif movl rSELF, %eax movl rPC,OUT_ARG0(%esp) movl %eax,OUT_ARG1(%esp) call dvmJitGetTraceAddrThread # (pc, self) movl rSELF,%ecx cmpl $0,%eax movl %eax,offThread_inJitCodeCache(%ecx) # set inJitCodeCache flag jz 1f call *%eax # jump to tranlation # won't return /* No Translation - request one */ 1: GET_JIT_PROF_TABLE %ecx %eax cmpl $0, %eax # JIT enabled? jnz 2f # Request one if so movl rSELF, %ecx movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST_R %ecx # Continue interpreting if not GOTO_NEXT_R %ecx 2: movl $kJitTSelectRequestHot,rINST # ask for trace select jmp common_selectTrace /* * Return from the translation cache and immediately request a * translation for the exit target. Reached via a call, and * (TOS)->rPC. */ .global dvmJitToInterpTraceSelect dvmJitToInterpTraceSelect: pop rINST # save chain cell address in callee save reg movl (rINST),rPC movl rSELF, %eax movl rPC,OUT_ARG0(%esp) movl %eax,OUT_ARG1(%esp) call dvmJitGetTraceAddrThread # (pc, self) cmpl $0,%eax jz 1b # no - ask for one movl %eax,OUT_ARG0(%esp) # TODO - need to adjust rINST to beginning of sequence movl rINST,OUT_ARG1(%esp) call dvmJitChain # Attempt dvmJitChain(codeAddr,chainAddr) cmpl $0,%eax # Success? jz toInterpreter # didn't chain - interpret call *%eax # won't return /* * Placeholder entries for x86 JIT */ .global dvmJitToInterpBackwardBranch dvmJitToInterpBackwardBranch: .global dvmJitToInterpNormal dvmJitToInterpNormal: .global dvmJitToInterpNoChain dvmJitToInterpNoChain: toInterpreter: jmp common_abort common_updateProfile: # quick & dirty hash movl rPC, %eax shrl $12, %eax xorl rPC, %eax andl $((1<<JIT_PROF_SIZE_LOG_2)-1),%eax decb (%edx,%eax) jz 2f 1: GOTO_NEXT 2: /* * Here, we switch to the debug interpreter to request * trace selection. First, though, check to see if there * is already a native translation in place (and, if so, * jump to it now. */ GET_JIT_THRESHOLD %ecx rINST # leaves rSELF in %ecx EXPORT_PC movb rINSTbl,(%edx,%eax) # reset counter movl %ecx,rINST # preserve rSELF movl rSELF, %eax movl rPC,OUT_ARG0(%esp) movl %eax,OUT_ARG1(%esp) call dvmJitGetTraceAddr # (pc, self) movl %eax,offThread_inJitCodeCache(rINST) # set the inJitCodeCache flag cmpl $0,%eax jz 1f call *%eax # TODO: decide call vs/ jmp!. No return either way 1: movl $kJitTSelectRequest,%eax # On entry, eax<- jitState, rPC valid common_selectTrace: /* TODO */ call dvmAbort #if 0 movl rSELF,%ecx movl %eax,offThread_jitState(%ecx) movl $kInterpEntryInstr,offThread_entryPoint(%ecx) movl $1,rINST jmp common_gotoBail #endif #endif /* * Common code for jumbo method invocation. * * On entry: * eax = Method* methodToCall * rINSTw trashed, must reload * rIBASE trashed, must reload before resuming interpreter */ common_invokeMethodJumbo: .LinvokeNewJumbo: /* * prepare to copy args to "outs" area of current frame */ movzwl 6(rPC),rINST # rINST<- BBBB movzwl 8(rPC), %ecx # %ecx<- CCCC ADVANCE_PC 2 # adjust pc to make return similar SAVEAREA_FROM_FP %edx # %edx<- &StackSaveArea test rINST, rINST movl rINST, LOCAL0_OFFSET(%ebp) # LOCAL0_OFFSET(%ebp)<- BBBB jz .LinvokeArgsDone # no args; jump to args done jmp .LinvokeRangeArgs # handle args like invoke range /* * Common code for method invocation with range. * * On entry: * eax = Method* methodToCall * rINSTw trashed, must reload * rIBASE trashed, must reload before resuming interpreter */ common_invokeMethodRange: .LinvokeNewRange: /* * prepare to copy args to "outs" area of current frame */ movzbl 1(rPC),rINST # rINST<- AA movzwl 4(rPC), %ecx # %ecx<- CCCC SAVEAREA_FROM_FP %edx # %edx<- &StackSaveArea test rINST, rINST movl rINST, LOCAL0_OFFSET(%ebp) # LOCAL0_OFFSET(%ebp)<- AA jz .LinvokeArgsDone # no args; jump to args done /* * %eax=methodToCall, %ecx=CCCC, LOCAL0_OFFSET(%ebp)=count, * %edx=&outs (&stackSaveArea). (very few methods have > 10 args; * could unroll for common cases) */ .LinvokeRangeArgs: movl %ebx, LOCAL1_OFFSET(%ebp) # LOCAL1_OFFSET(%ebp)<- save %ebx lea (rFP, %ecx, 4), %ecx # %ecx<- &vCCCC shll $2, LOCAL0_OFFSET(%ebp) # LOCAL0_OFFSET(%ebp)<- offset subl LOCAL0_OFFSET(%ebp), %edx # %edx<- update &outs shrl $2, LOCAL0_OFFSET(%ebp) # LOCAL0_OFFSET(%ebp)<- offset 1: movl (%ecx), %ebx # %ebx<- vCCCC lea 4(%ecx), %ecx # %ecx<- &vCCCC++ subl $1, LOCAL0_OFFSET(%ebp) # LOCAL0_OFFSET<- LOCAL0_OFFSET-- movl %ebx, (%edx) # *outs<- vCCCC lea 4(%edx), %edx # outs++ jne 1b # loop if count (LOCAL0_OFFSET(%ebp)) not zero movl LOCAL1_OFFSET(%ebp), %ebx # %ebx<- restore %ebx jmp .LinvokeArgsDone # continue /* * %eax is "Method* methodToCall", the method we're trying to call * prepare to copy args to "outs" area of current frame * rIBASE trashed, must reload before resuming interpreter */ common_invokeMethodNoRange: .LinvokeNewNoRange: movzbl 1(rPC),rINST # rINST<- BA movl rINST, LOCAL0_OFFSET(%ebp) # LOCAL0_OFFSET(%ebp)<- BA shrl $4, LOCAL0_OFFSET(%ebp) # LOCAL0_OFFSET(%ebp)<- B je .LinvokeArgsDone # no args; jump to args done movzwl 4(rPC), %ecx # %ecx<- GFED SAVEAREA_FROM_FP %edx # %edx<- &StackSaveArea /* * %eax=methodToCall, %ecx=GFED, LOCAL0_OFFSET(%ebp)=count, %edx=outs */ .LinvokeNonRange: cmp $2, LOCAL0_OFFSET(%ebp) # compare LOCAL0_OFFSET(%ebp) to 2 movl %ecx, LOCAL1_OFFSET(%ebp) # LOCAL1_OFFSET(%ebp)<- GFED jl 1f # handle 1 arg je 2f # handle 2 args cmp $4, LOCAL0_OFFSET(%ebp) # compare LOCAL0_OFFSET(%ebp) to 4 jl 3f # handle 3 args je 4f # handle 4 args 5: andl $15, rINST # rINSTw<- A lea -4(%edx), %edx # %edx<- update &outs; &outs-- movl (rFP, rINST, 4), %ecx # %ecx<- vA movl %ecx, (%edx) # *outs<- vA movl LOCAL1_OFFSET(%ebp), %ecx # %ecx<- GFED 4: shr $12, %ecx # %ecx<- G lea -4(%edx), %edx # %edx<- update &outs; &outs-- movl (rFP, %ecx, 4), %ecx # %ecx<- vG movl %ecx, (%edx) # *outs<- vG movl LOCAL1_OFFSET(%ebp), %ecx # %ecx<- GFED 3: and $0x0f00, %ecx # %ecx<- 0F00 shr $8, %ecx # %ecx<- F lea -4(%edx), %edx # %edx<- update &outs; &outs-- movl (rFP, %ecx, 4), %ecx # %ecx<- vF movl %ecx, (%edx) # *outs<- vF movl LOCAL1_OFFSET(%ebp), %ecx # %ecx<- GFED 2: and $0x00f0, %ecx # %ecx<- 00E0 shr $4, %ecx # %ecx<- E lea -4(%edx), %edx # %edx<- update &outs; &outs-- movl (rFP, %ecx, 4), %ecx # %ecx<- vE movl %ecx, (%edx) # *outs<- vE movl LOCAL1_OFFSET(%ebp), %ecx # %ecx<- GFED 1: and $0x000f, %ecx # %ecx<- 000D movl (rFP, %ecx, 4), %ecx # %ecx<- vD movl %ecx, -4(%edx) # *--outs<- vD 0: /* * %eax is "Method* methodToCall", the method we're trying to call * find space for the new stack frame, check for overflow */ .LinvokeArgsDone: movzwl offMethod_registersSize(%eax), %edx # %edx<- methodToCall->regsSize movzwl offMethod_outsSize(%eax), %ecx # %ecx<- methodToCall->outsSize movl %eax, LOCAL0_OFFSET(%ebp) # LOCAL0_OFFSET<- methodToCall shl $2, %edx # %edx<- update offset SAVEAREA_FROM_FP %eax # %eax<- &StackSaveArea subl %edx, %eax # %eax<- newFP; (old savearea - regsSize) movl rSELF,%edx # %edx<- pthread movl %eax, LOCAL1_OFFSET(%ebp) # LOCAL1_OFFSET(%ebp)<- &outs subl $sizeofStackSaveArea, %eax # %eax<- newSaveArea (stack save area using newFP) movl offThread_interpStackEnd(%edx), %edx # %edx<- self->interpStackEnd movl %edx, TMP_SPILL1(%ebp) # spill self->interpStackEnd shl $2, %ecx # %ecx<- update offset for outsSize movl %eax, %edx # %edx<- newSaveArea sub %ecx, %eax # %eax<- bottom; (newSaveArea - outsSize) cmp TMP_SPILL1(%ebp), %eax # compare interpStackEnd and bottom movl LOCAL0_OFFSET(%ebp), %eax # %eax<- restore methodToCall jl .LstackOverflow # handle frame overflow /* * set up newSaveArea */ #ifdef EASY_GDB SAVEAREA_FROM_FP %ecx # %ecx<- &StackSaveArea movl %ecx, offStackSaveArea_prevSave(%edx) # newSaveArea->prevSave<- &outs #endif movl rSELF,%ecx # %ecx<- pthread movl rFP, offStackSaveArea_prevFrame(%edx) # newSaveArea->prevFrame<- rFP movl rPC, offStackSaveArea_savedPc(%edx) # newSaveArea->savedPc<- rPC /* Any special actions to take? */ cmpw $0, offThread_subMode(%ecx) jne 2f # Yes - handle them 1: testl $ACC_NATIVE, offMethod_accessFlags(%eax) # check for native call movl %eax, offStackSaveArea_method(%edx) # newSaveArea->method<- method to call jne .LinvokeNative # handle native call /* * Update "self" values for the new method * %eax=methodToCall, LOCAL1_OFFSET(%ebp)=newFp */ movl offMethod_clazz(%eax), %edx # %edx<- method->clazz movl offClassObject_pDvmDex(%edx), %edx # %edx<- method->clazz->pDvmDex movl %eax, offThread_method(%ecx) # self->method<- methodToCall movl %edx, offThread_methodClassDex(%ecx) # self->methodClassDex<- method->clazz->pDvmDex movl offMethod_insns(%eax), rPC # rPC<- methodToCall->insns movl $1, offThread_debugIsMethodEntry(%ecx) movl LOCAL1_OFFSET(%ebp), rFP # rFP<- newFP movl rFP, offThread_curFrame(%ecx) # curFrame<-newFP movl offThread_curHandlerTable(%ecx),rIBASE FETCH_INST GOTO_NEXT # jump to methodToCall->insns 2: /* * On entry, preserve all: * %eax: method * %ecx: self * %edx: new save area */ SPILL_TMP1(%eax) # preserve methodToCall SPILL_TMP2(%edx) # preserve newSaveArea movl rPC, offThread_pc(%ecx) # update interpSave.pc movl %ecx, OUT_ARG0(%esp) movl %eax, OUT_ARG1(%esp) call dvmReportInvoke # (self, method) UNSPILL_TMP1(%eax) UNSPILL_TMP2(%edx) movl rSELF,%ecx # restore rSELF jmp 1b /* * Prep for the native call * %eax=methodToCall, LOCAL1_OFFSET(%ebp)=newFP, %edx=newSaveArea, %ecx=self */ .LinvokeNative: movl offThread_jniLocal_topCookie(%ecx), rINST # rINST<- self->localRef->... movl rINST, offStackSaveArea_localRefCookie(%edx) # newSaveArea->localRefCookie<- top movl %edx, LOCAL2_OFFSET(%ebp) # save newSaveArea movl LOCAL1_OFFSET(%ebp), rINST # rINST<- newFP movl rINST, offThread_curFrame(%ecx) # curFrame<- newFP cmpw $0, offThread_subMode(%ecx) # Anything special going on? jne 11f # yes - handle it movl %ecx, OUT_ARG3(%esp) # push parameter self movl %eax, OUT_ARG2(%esp) # push parameter methodToCall lea offThread_retval(%ecx), %ecx # %ecx<- &retval movl %ecx, OUT_ARG1(%esp) # push parameter &retval movl rINST, OUT_ARG0(%esp) # push parameter newFP call *offMethod_nativeFunc(%eax) # call methodToCall->nativeFunc 7: movl LOCAL2_OFFSET(%ebp), %ecx # %ecx<- newSaveArea movl rSELF, %eax # %eax<- self movl offStackSaveArea_localRefCookie(%ecx), %edx # %edx<- old top cmp $0, offThread_exception(%eax) # check for exception movl rFP, offThread_curFrame(%eax) # curFrame<- rFP movl %edx, offThread_jniLocal_topCookie(%eax) # new top <- old top jne common_exceptionThrown # handle exception movl offThread_curHandlerTable(%eax),rIBASE FETCH_INST_OPCODE 3 %ecx ADVANCE_PC 3 GOTO_NEXT_R %ecx # jump to next instruction 11: /* * Handle any special subMode actions * %eax=methodToCall, rINST=newFP, %ecx=self */ SPILL_TMP1(%eax) # save methodTocall movl rPC, offThread_pc(%ecx) movl %ecx, OUT_ARG0(%esp) movl %eax, OUT_ARG1(%esp) movl rFP, OUT_ARG2(%esp) call dvmReportPreNativeInvoke # (self, methodToCall, fp) UNSPILL_TMP1(%eax) # restore methodToCall movl rSELF,%ecx # restore self /* Do the native call */ movl %ecx, OUT_ARG3(%esp) # push parameter self lea offThread_retval(%ecx), %ecx # %ecx<- &retval movl %eax, OUT_ARG2(%esp) # push parameter methodToCall movl %ecx, OUT_ARG1(%esp) # push parameter &retval movl rINST, OUT_ARG0(%esp) # push parameter newFP call *offMethod_nativeFunc(%eax) # call methodToCall->nativeFunc UNSPILL_TMP1(%eax) # restore methodToCall movl rSELF, %ecx movl %ecx, OUT_ARG0(%esp) movl %eax, OUT_ARG1(%esp) movl rFP, OUT_ARG2(%esp) call dvmReportPostNativeInvoke # (self, methodToCall, fp) jmp 7b # rejoin .LstackOverflow: # eax=methodToCall movl %eax, OUT_ARG1(%esp) # push parameter methodToCall movl rSELF,%eax # %eax<- self movl %eax, OUT_ARG0(%esp) # push parameter self call dvmHandleStackOverflow # call: (Thread* self, Method* meth) jmp common_exceptionThrown # handle exception /* * Common code for handling a return instruction */ common_returnFromMethod: movl rSELF,%ecx SAVEAREA_FROM_FP %eax # eax<- saveArea (old) cmpw $0, offThread_subMode(%ecx) # special action needed? jne 19f # go if so 14: movl offStackSaveArea_prevFrame(%eax),rFP # rFP<- prevFrame movl (offStackSaveArea_method-sizeofStackSaveArea)(rFP),rINST cmpl $0,rINST # break? je common_gotoBail # break frame, bail out completely movl offStackSaveArea_savedPc(%eax),rPC # pc<- saveArea->savedPC movl rINST,offThread_method(%ecx) # self->method = newSave->meethod movl rFP,offThread_curFrame(%ecx) # curFrame = fp movl offMethod_clazz(rINST),%eax # eax<- method->clazz movl offThread_curHandlerTable(%ecx),rIBASE movl offClassObject_pDvmDex(%eax),rINST # rINST<- method->clazz->pDvmDex FETCH_INST_OPCODE 3 %eax movl rINST,offThread_methodClassDex(%ecx) ADVANCE_PC 3 GOTO_NEXT_R %eax 19: /* * Handle special subMode actions * On entry, rFP: prevFP, %ecx: self, %eax: saveArea */ movl rFP, offThread_curFrame(%ecx) # update interpSave.curFrame movl rPC, offThread_pc(%ecx) # update interpSave.pc movl %ecx, OUT_ARG0(%esp) # parameter self call dvmReportReturn # (self) movl rSELF, %ecx # restore self SAVEAREA_FROM_FP %eax # restore saveArea jmp 14b /* * Prepare to strip the current frame and "longjump" back to caller of * dvmMterpStdRun. * * on entry: * rINST holds changeInterp * ecx holds self pointer * * expected profile: dvmMterpStdBail(Thread *self, bool changeInterp) */ common_gotoBail: movl rPC,offThread_pc(%ecx) # export state to self movl rFP,offThread_curFrame(%ecx) movl %ecx,OUT_ARG0(%esp) # self in arg0 movl rINST,OUT_ARG1(%esp) # changeInterp in arg1 call dvmMterpStdBail # bail out.... /* * After returning from a "selfd" function, pull out the updated values * and start executing at the next instruction. */ common_resumeAfterGlueCall: movl rSELF, %eax movl offThread_pc(%eax),rPC movl offThread_curFrame(%eax),rFP movl offThread_curHandlerTable(%eax),rIBASE FETCH_INST GOTO_NEXT /* * Integer divide or mod by zero */ common_errDivideByZero: EXPORT_PC movl $.LstrDivideByZero,%eax movl %eax,OUT_ARG0(%esp) call dvmThrowArithmeticException jmp common_exceptionThrown /* * Attempt to allocate an array with a negative size. * On entry, len in eax */ common_errNegativeArraySize: EXPORT_PC movl %eax,OUT_ARG0(%esp) # arg0<- len call dvmThrowNegativeArraySizeException # (len) jmp common_exceptionThrown /* * Attempt to allocate an array with a negative size. * On entry, method name in eax */ common_errNoSuchMethod: EXPORT_PC movl %eax,OUT_ARG0(%esp) call dvmThrowNoSuchMethodError jmp common_exceptionThrown /* * Hit a null object when we weren't expecting one. Export the PC, throw a * NullPointerException and goto the exception processing code. */ common_errNullObject: EXPORT_PC xorl %eax,%eax movl %eax,OUT_ARG0(%esp) call dvmThrowNullPointerException jmp common_exceptionThrown /* * Array index exceeds max. * On entry: * eax <- array object * ecx <- index */ common_errArrayIndex: EXPORT_PC movl offArrayObject_length(%eax), %eax movl %eax,OUT_ARG0(%esp) movl %ecx,OUT_ARG1(%esp) call dvmThrowArrayIndexOutOfBoundsException # args (length, index) jmp common_exceptionThrown /* * Somebody has thrown an exception. Handle it. * * If the exception processing code returns to us (instead of falling * out of the interpreter), continue with whatever the next instruction * now happens to be. * * NOTE: special subMode handling done in dvmMterp_exceptionThrown * * This does not return. */ common_exceptionThrown: movl rSELF,%ecx movl rPC,offThread_pc(%ecx) movl rFP,offThread_curFrame(%ecx) movl %ecx,OUT_ARG0(%esp) call dvmMterp_exceptionThrown jmp common_resumeAfterGlueCall common_abort: movl $0xdeadf00d,%eax call *%eax /* * Strings */ .section .rodata .LstrDivideByZero: .asciz "divide by zero" .LstrFilledNewArrayNotImplA: .asciz "filled-new-array only implemented for 'int'"