/*
* Copyright (C) 2011 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.
*/
#include "calling_convention.h"
#include "base/logging.h"
#ifdef ART_ENABLE_CODEGEN_arm
#include "jni/quick/arm/calling_convention_arm.h"
#endif
#ifdef ART_ENABLE_CODEGEN_arm64
#include "jni/quick/arm64/calling_convention_arm64.h"
#endif
#ifdef ART_ENABLE_CODEGEN_mips
#include "jni/quick/mips/calling_convention_mips.h"
#endif
#ifdef ART_ENABLE_CODEGEN_mips64
#include "jni/quick/mips64/calling_convention_mips64.h"
#endif
#ifdef ART_ENABLE_CODEGEN_x86
#include "jni/quick/x86/calling_convention_x86.h"
#endif
#ifdef ART_ENABLE_CODEGEN_x86_64
#include "jni/quick/x86_64/calling_convention_x86_64.h"
#endif
namespace art {
// Managed runtime calling convention
std::unique_ptr<ManagedRuntimeCallingConvention> ManagedRuntimeCallingConvention::Create(
ArenaAllocator* arena,
bool is_static,
bool is_synchronized,
const char* shorty,
InstructionSet instruction_set) {
switch (instruction_set) {
#ifdef ART_ENABLE_CODEGEN_arm
case kArm:
case kThumb2:
return std::unique_ptr<ManagedRuntimeCallingConvention>(
new (arena) arm::ArmManagedRuntimeCallingConvention(is_static, is_synchronized, shorty));
#endif
#ifdef ART_ENABLE_CODEGEN_arm64
case kArm64:
return std::unique_ptr<ManagedRuntimeCallingConvention>(
new (arena) arm64::Arm64ManagedRuntimeCallingConvention(
is_static, is_synchronized, shorty));
#endif
#ifdef ART_ENABLE_CODEGEN_mips
case kMips:
return std::unique_ptr<ManagedRuntimeCallingConvention>(
new (arena) mips::MipsManagedRuntimeCallingConvention(
is_static, is_synchronized, shorty));
#endif
#ifdef ART_ENABLE_CODEGEN_mips64
case kMips64:
return std::unique_ptr<ManagedRuntimeCallingConvention>(
new (arena) mips64::Mips64ManagedRuntimeCallingConvention(
is_static, is_synchronized, shorty));
#endif
#ifdef ART_ENABLE_CODEGEN_x86
case kX86:
return std::unique_ptr<ManagedRuntimeCallingConvention>(
new (arena) x86::X86ManagedRuntimeCallingConvention(is_static, is_synchronized, shorty));
#endif
#ifdef ART_ENABLE_CODEGEN_x86_64
case kX86_64:
return std::unique_ptr<ManagedRuntimeCallingConvention>(
new (arena) x86_64::X86_64ManagedRuntimeCallingConvention(
is_static, is_synchronized, shorty));
#endif
default:
LOG(FATAL) << "Unknown InstructionSet: " << instruction_set;
UNREACHABLE();
}
}
bool ManagedRuntimeCallingConvention::HasNext() {
return itr_args_ < NumArgs();
}
void ManagedRuntimeCallingConvention::Next() {
CHECK(HasNext());
if (IsCurrentArgExplicit() && // don't query parameter type of implicit args
IsParamALongOrDouble(itr_args_)) {
itr_longs_and_doubles_++;
itr_slots_++;
}
if (IsParamAFloatOrDouble(itr_args_)) {
itr_float_and_doubles_++;
}
if (IsCurrentParamAReference()) {
itr_refs_++;
}
itr_args_++;
itr_slots_++;
}
bool ManagedRuntimeCallingConvention::IsCurrentArgExplicit() {
// Static methods have no implicit arguments, others implicitly pass this
return IsStatic() || (itr_args_ != 0);
}
bool ManagedRuntimeCallingConvention::IsCurrentArgPossiblyNull() {
return IsCurrentArgExplicit(); // any user parameter may be null
}
size_t ManagedRuntimeCallingConvention::CurrentParamSize() {
return ParamSize(itr_args_);
}
bool ManagedRuntimeCallingConvention::IsCurrentParamAReference() {
return IsParamAReference(itr_args_);
}
bool ManagedRuntimeCallingConvention::IsCurrentParamAFloatOrDouble() {
return IsParamAFloatOrDouble(itr_args_);
}
bool ManagedRuntimeCallingConvention::IsCurrentParamADouble() {
return IsParamADouble(itr_args_);
}
bool ManagedRuntimeCallingConvention::IsCurrentParamALong() {
return IsParamALong(itr_args_);
}
// JNI calling convention
std::unique_ptr<JniCallingConvention> JniCallingConvention::Create(ArenaAllocator* arena,
bool is_static,
bool is_synchronized,
const char* shorty,
InstructionSet instruction_set) {
switch (instruction_set) {
#ifdef ART_ENABLE_CODEGEN_arm
case kArm:
case kThumb2:
return std::unique_ptr<JniCallingConvention>(
new (arena) arm::ArmJniCallingConvention(is_static, is_synchronized, shorty));
#endif
#ifdef ART_ENABLE_CODEGEN_arm64
case kArm64:
return std::unique_ptr<JniCallingConvention>(
new (arena) arm64::Arm64JniCallingConvention(is_static, is_synchronized, shorty));
#endif
#ifdef ART_ENABLE_CODEGEN_mips
case kMips:
return std::unique_ptr<JniCallingConvention>(
new (arena) mips::MipsJniCallingConvention(is_static, is_synchronized, shorty));
#endif
#ifdef ART_ENABLE_CODEGEN_mips64
case kMips64:
return std::unique_ptr<JniCallingConvention>(
new (arena) mips64::Mips64JniCallingConvention(is_static, is_synchronized, shorty));
#endif
#ifdef ART_ENABLE_CODEGEN_x86
case kX86:
return std::unique_ptr<JniCallingConvention>(
new (arena) x86::X86JniCallingConvention(is_static, is_synchronized, shorty));
#endif
#ifdef ART_ENABLE_CODEGEN_x86_64
case kX86_64:
return std::unique_ptr<JniCallingConvention>(
new (arena) x86_64::X86_64JniCallingConvention(is_static, is_synchronized, shorty));
#endif
default:
LOG(FATAL) << "Unknown InstructionSet: " << instruction_set;
UNREACHABLE();
}
}
size_t JniCallingConvention::ReferenceCount() const {
return NumReferenceArgs() + (IsStatic() ? 1 : 0);
}
FrameOffset JniCallingConvention::SavedLocalReferenceCookieOffset() const {
size_t references_size = handle_scope_pointer_size_ * ReferenceCount(); // size excluding header
return FrameOffset(HandleReferencesOffset().Int32Value() + references_size);
}
FrameOffset JniCallingConvention::ReturnValueSaveLocation() const {
// Segment state is 4 bytes long
return FrameOffset(SavedLocalReferenceCookieOffset().Int32Value() + 4);
}
bool JniCallingConvention::HasNext() {
if (itr_args_ <= kObjectOrClass) {
return true;
} else {
unsigned int arg_pos = itr_args_ - NumberOfExtraArgumentsForJni();
return arg_pos < NumArgs();
}
}
void JniCallingConvention::Next() {
CHECK(HasNext());
if (itr_args_ > kObjectOrClass) {
int arg_pos = itr_args_ - NumberOfExtraArgumentsForJni();
if (IsParamALongOrDouble(arg_pos)) {
itr_longs_and_doubles_++;
itr_slots_++;
}
}
if (IsCurrentParamAFloatOrDouble()) {
itr_float_and_doubles_++;
}
if (IsCurrentParamAReference()) {
itr_refs_++;
}
itr_args_++;
itr_slots_++;
}
bool JniCallingConvention::IsCurrentParamAReference() {
switch (itr_args_) {
case kJniEnv:
return false; // JNIEnv*
case kObjectOrClass:
return true; // jobject or jclass
default: {
int arg_pos = itr_args_ - NumberOfExtraArgumentsForJni();
return IsParamAReference(arg_pos);
}
}
}
bool JniCallingConvention::IsCurrentParamJniEnv() {
return (itr_args_ == kJniEnv);
}
bool JniCallingConvention::IsCurrentParamAFloatOrDouble() {
switch (itr_args_) {
case kJniEnv:
return false; // JNIEnv*
case kObjectOrClass:
return false; // jobject or jclass
default: {
int arg_pos = itr_args_ - NumberOfExtraArgumentsForJni();
return IsParamAFloatOrDouble(arg_pos);
}
}
}
bool JniCallingConvention::IsCurrentParamADouble() {
switch (itr_args_) {
case kJniEnv:
return false; // JNIEnv*
case kObjectOrClass:
return false; // jobject or jclass
default: {
int arg_pos = itr_args_ - NumberOfExtraArgumentsForJni();
return IsParamADouble(arg_pos);
}
}
}
bool JniCallingConvention::IsCurrentParamALong() {
switch (itr_args_) {
case kJniEnv:
return false; // JNIEnv*
case kObjectOrClass:
return false; // jobject or jclass
default: {
int arg_pos = itr_args_ - NumberOfExtraArgumentsForJni();
return IsParamALong(arg_pos);
}
}
}
// Return position of handle scope entry holding reference at the current iterator
// position
FrameOffset JniCallingConvention::CurrentParamHandleScopeEntryOffset() {
CHECK(IsCurrentParamAReference());
CHECK_LT(HandleScopeLinkOffset(), HandleScopeNumRefsOffset());
int result = HandleReferencesOffset().Int32Value() + itr_refs_ * handle_scope_pointer_size_;
CHECK_GT(result, HandleScopeNumRefsOffset().Int32Value());
return FrameOffset(result);
}
size_t JniCallingConvention::CurrentParamSize() {
if (itr_args_ <= kObjectOrClass) {
return frame_pointer_size_; // JNIEnv or jobject/jclass
} else {
int arg_pos = itr_args_ - NumberOfExtraArgumentsForJni();
return ParamSize(arg_pos);
}
}
size_t JniCallingConvention::NumberOfExtraArgumentsForJni() {
// The first argument is the JNIEnv*.
// Static methods have an extra argument which is the jclass.
return IsStatic() ? 2 : 1;
}
} // namespace art