//===-- asan_stack.cc -------------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file is a part of AddressSanitizer, an address sanity checker. // // Code for ASan stack trace. //===----------------------------------------------------------------------===// #include "asan_interceptors.h" #include "asan_lock.h" #include "asan_procmaps.h" #include "asan_stack.h" #include "asan_thread.h" #include "asan_thread_registry.h" #ifdef ASAN_USE_EXTERNAL_SYMBOLIZER extern bool ASAN_USE_EXTERNAL_SYMBOLIZER(const void *pc, char *out, int out_size); #endif namespace __asan { // ----------------------- AsanStackTrace ----------------------------- {{{1 #if defined(ASAN_USE_EXTERNAL_SYMBOLIZER) void AsanStackTrace::PrintStack(uintptr_t *addr, size_t size) { for (size_t i = 0; i < size && addr[i]; i++) { uintptr_t pc = addr[i]; char buff[4096]; ASAN_USE_EXTERNAL_SYMBOLIZER((void*)pc, buff, sizeof(buff)); Printf(" #%zu 0x%zx %s\n", i, pc, buff); } } #else // ASAN_USE_EXTERNAL_SYMBOLIZER void AsanStackTrace::PrintStack(uintptr_t *addr, size_t size) { AsanProcMaps proc_maps; for (size_t i = 0; i < size && addr[i]; i++) { proc_maps.Reset(); uintptr_t pc = addr[i]; uintptr_t offset; char filename[4096]; if (proc_maps.GetObjectNameAndOffset(pc, &offset, filename, sizeof(filename))) { Printf(" #%zu 0x%zx (%s+0x%zx)\n", i, pc, filename, offset); } else { Printf(" #%zu 0x%zx\n", i, pc); } } } #endif // ASAN_USE_EXTERNAL_SYMBOLIZER uintptr_t AsanStackTrace::GetCurrentPc() { return GET_CALLER_PC(); } void AsanStackTrace::FastUnwindStack(uintptr_t pc, uintptr_t bp) { CHECK(size == 0 && trace[0] == pc); size = 1; if (!asan_inited) return; AsanThread *t = asanThreadRegistry().GetCurrent(); if (!t) return; uintptr_t *frame = (uintptr_t*)bp; uintptr_t *prev_frame = frame; uintptr_t *top = (uintptr_t*)t->stack_top(); uintptr_t *bottom = (uintptr_t*)t->stack_bottom(); while (frame >= prev_frame && frame < top - 2 && frame > bottom && size < max_size) { uintptr_t pc1 = frame[1]; if (pc1 != pc) { trace[size++] = pc1; } prev_frame = frame; frame = (uintptr_t*)frame[0]; } } // On 32-bits we don't compress stack traces. // On 64-bits we compress stack traces: if a given pc differes slightly from // the previous one, we record a 31-bit offset instead of the full pc. size_t AsanStackTrace::CompressStack(AsanStackTrace *stack, uint32_t *compressed, size_t size) { #if __WORDSIZE == 32 // Don't compress, just copy. size_t res = 0; for (size_t i = 0; i < stack->size && i < size; i++) { compressed[i] = stack->trace[i]; res++; } if (stack->size < size) compressed[stack->size] = 0; #else // 64 bits, compress. uintptr_t prev_pc = 0; const uintptr_t kMaxOffset = (1ULL << 30) - 1; uintptr_t c_index = 0; size_t res = 0; for (size_t i = 0, n = stack->size; i < n; i++) { uintptr_t pc = stack->trace[i]; if (!pc) break; if ((int64_t)pc < 0) break; // Printf("C pc[%zu] %zx\n", i, pc); if (prev_pc - pc < kMaxOffset || pc - prev_pc < kMaxOffset) { uintptr_t offset = (int64_t)(pc - prev_pc); offset |= (1U << 31); if (c_index >= size) break; // Printf("C co[%zu] offset %zx\n", i, offset); compressed[c_index++] = offset; } else { uintptr_t hi = pc >> 32; uintptr_t lo = (pc << 32) >> 32; CHECK((hi & (1 << 31)) == 0); if (c_index + 1 >= size) break; // Printf("C co[%zu] hi/lo: %zx %zx\n", c_index, hi, lo); compressed[c_index++] = hi; compressed[c_index++] = lo; } res++; prev_pc = pc; } if (c_index < size) compressed[c_index] = 0; if (c_index + 1 < size) compressed[c_index + 1] = 0; #endif // __WORDSIZE // debug-only code #if 0 AsanStackTrace check_stack; UncompressStack(&check_stack, compressed, size); if (res < check_stack.size) { Printf("res %zu check_stack.size %zu; c_size %zu\n", res, check_stack.size, size); } // |res| may be greater than check_stack.size, because // UncompressStack(CompressStack(stack)) eliminates the 0x0 frames. CHECK(res >= check_stack.size); CHECK(0 == REAL(memcmp)(check_stack.trace, stack->trace, check_stack.size * sizeof(uintptr_t))); #endif return res; } void AsanStackTrace::UncompressStack(AsanStackTrace *stack, uint32_t *compressed, size_t size) { #if __WORDSIZE == 32 // Don't uncompress, just copy. stack->size = 0; for (size_t i = 0; i < size && i < kStackTraceMax; i++) { if (!compressed[i]) break; stack->size++; stack->trace[i] = compressed[i]; } #else // 64 bits, uncompress uintptr_t prev_pc = 0; stack->size = 0; for (size_t i = 0; i < size && stack->size < kStackTraceMax; i++) { uint32_t x = compressed[i]; uintptr_t pc = 0; if (x & (1U << 31)) { // Printf("U co[%zu] offset: %x\n", i, x); // this is an offset int32_t offset = x; offset = (offset << 1) >> 1; // remove the 31-byte and sign-extend. pc = prev_pc + offset; CHECK(pc); } else { // CHECK(i + 1 < size); if (i + 1 >= size) break; uintptr_t hi = x; uintptr_t lo = compressed[i+1]; // Printf("U co[%zu] hi/lo: %zx %zx\n", i, hi, lo); i++; pc = (hi << 32) | lo; if (!pc) break; } // Printf("U pc[%zu] %zx\n", stack->size, pc); stack->trace[stack->size++] = pc; prev_pc = pc; } #endif // __WORDSIZE } } // namespace __asan