/* * 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. */ #define LOG_TAG "Corkscrew" //#define LOG_NDEBUG 0 #include "backtrace-arch.h" #include "backtrace-helper.h" #include "ptrace-arch.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #define __USE_GNU // For dladdr(3) in glibc. #include #if defined(__BIONIC__) // Bionic implements and exports gettid but only implements tgkill. extern int tgkill(int tgid, int tid, int sig); #else // glibc doesn't implement or export either gettid or tgkill. #include #include static pid_t gettid() { return syscall(__NR_gettid); } static int tgkill(int tgid, int tid, int sig) { return syscall(__NR_tgkill, tgid, tid, sig); } #endif typedef struct { backtrace_frame_t* backtrace; size_t ignore_depth; size_t max_depth; size_t ignored_frames; size_t returned_frames; memory_t memory; } backtrace_state_t; static _Unwind_Reason_Code unwind_backtrace_callback(struct _Unwind_Context* context, void* arg) { backtrace_state_t* state = (backtrace_state_t*)arg; uintptr_t pc = _Unwind_GetIP(context); if (pc) { // TODO: Get information about the stack layout from the _Unwind_Context. // This will require a new architecture-specific function to query // the appropriate registers. Current callers of unwind_backtrace // don't need this information, so we won't bother collecting it just yet. add_backtrace_entry(rewind_pc_arch(&state->memory, pc), state->backtrace, state->ignore_depth, state->max_depth, &state->ignored_frames, &state->returned_frames); } return state->returned_frames < state->max_depth ? _URC_NO_REASON : _URC_END_OF_STACK; } ssize_t unwind_backtrace(backtrace_frame_t* backtrace, size_t ignore_depth, size_t max_depth) { ALOGV("Unwinding current thread %d.", gettid()); map_info_t* milist = acquire_my_map_info_list(); backtrace_state_t state; state.backtrace = backtrace; state.ignore_depth = ignore_depth; state.max_depth = max_depth; state.ignored_frames = 0; state.returned_frames = 0; init_memory(&state.memory, milist); _Unwind_Reason_Code rc =_Unwind_Backtrace(unwind_backtrace_callback, &state); release_my_map_info_list(milist); if (state.returned_frames) { return state.returned_frames; } return rc == _URC_END_OF_STACK ? 0 : -1; } #ifdef CORKSCREW_HAVE_ARCH static const int32_t STATE_DUMPING = -1; static const int32_t STATE_DONE = -2; static const int32_t STATE_CANCEL = -3; static pthread_mutex_t g_unwind_signal_mutex = PTHREAD_MUTEX_INITIALIZER; static volatile struct { int32_t tid_state; const map_info_t* map_info_list; backtrace_frame_t* backtrace; size_t ignore_depth; size_t max_depth; size_t returned_frames; } g_unwind_signal_state; static void unwind_backtrace_thread_signal_handler(int n __attribute__((unused)), siginfo_t* siginfo, void* sigcontext) { if (!android_atomic_acquire_cas(gettid(), STATE_DUMPING, &g_unwind_signal_state.tid_state)) { g_unwind_signal_state.returned_frames = unwind_backtrace_signal_arch( siginfo, sigcontext, g_unwind_signal_state.map_info_list, g_unwind_signal_state.backtrace, g_unwind_signal_state.ignore_depth, g_unwind_signal_state.max_depth); android_atomic_release_store(STATE_DONE, &g_unwind_signal_state.tid_state); } else { ALOGV("Received spurious SIGURG on thread %d that was intended for thread %d.", gettid(), android_atomic_acquire_load(&g_unwind_signal_state.tid_state)); } } #endif ssize_t unwind_backtrace_thread(pid_t tid, backtrace_frame_t* backtrace, size_t ignore_depth, size_t max_depth) { if (tid == gettid()) { return unwind_backtrace(backtrace, ignore_depth + 1, max_depth); } ALOGV("Unwinding thread %d from thread %d.", tid, gettid()); #ifdef CORKSCREW_HAVE_ARCH struct sigaction act; struct sigaction oact; memset(&act, 0, sizeof(act)); act.sa_sigaction = unwind_backtrace_thread_signal_handler; act.sa_flags = SA_RESTART | SA_SIGINFO | SA_ONSTACK; sigemptyset(&act.sa_mask); pthread_mutex_lock(&g_unwind_signal_mutex); map_info_t* milist = acquire_my_map_info_list(); ssize_t frames = -1; if (!sigaction(SIGURG, &act, &oact)) { g_unwind_signal_state.map_info_list = milist; g_unwind_signal_state.backtrace = backtrace; g_unwind_signal_state.ignore_depth = ignore_depth; g_unwind_signal_state.max_depth = max_depth; g_unwind_signal_state.returned_frames = 0; android_atomic_release_store(tid, &g_unwind_signal_state.tid_state); // Signal the specific thread that we want to dump. int32_t tid_state = tid; if (tgkill(getpid(), tid, SIGURG)) { ALOGV("Failed to send SIGURG to thread %d.", tid); } else { // Wait for the other thread to start dumping the stack, or time out. int wait_millis = 250; for (;;) { tid_state = android_atomic_acquire_load(&g_unwind_signal_state.tid_state); if (tid_state != tid) { break; } if (wait_millis--) { ALOGV("Waiting for thread %d to start dumping the stack...", tid); usleep(1000); } else { ALOGV("Timed out waiting for thread %d to start dumping the stack.", tid); break; } } } // Try to cancel the dump if it has not started yet. if (tid_state == tid) { if (!android_atomic_acquire_cas(tid, STATE_CANCEL, &g_unwind_signal_state.tid_state)) { ALOGV("Canceled thread %d stack dump.", tid); tid_state = STATE_CANCEL; } else { tid_state = android_atomic_acquire_load(&g_unwind_signal_state.tid_state); } } // Wait indefinitely for the dump to finish or be canceled. // We cannot apply a timeout here because the other thread is accessing state that // is owned by this thread, such as milist. It should not take very // long to take the dump once started. while (tid_state == STATE_DUMPING) { ALOGV("Waiting for thread %d to finish dumping the stack...", tid); usleep(1000); tid_state = android_atomic_acquire_load(&g_unwind_signal_state.tid_state); } if (tid_state == STATE_DONE) { frames = g_unwind_signal_state.returned_frames; } sigaction(SIGURG, &oact, NULL); } release_my_map_info_list(milist); pthread_mutex_unlock(&g_unwind_signal_mutex); return frames; #else return -1; #endif } ssize_t unwind_backtrace_ptrace(pid_t tid, const ptrace_context_t* context, backtrace_frame_t* backtrace, size_t ignore_depth, size_t max_depth) { #ifdef CORKSCREW_HAVE_ARCH return unwind_backtrace_ptrace_arch(tid, context, backtrace, ignore_depth, max_depth); #else return -1; #endif } static void init_backtrace_symbol(backtrace_symbol_t* symbol, uintptr_t pc) { symbol->relative_pc = pc; symbol->relative_symbol_addr = 0; symbol->map_name = NULL; symbol->symbol_name = NULL; symbol->demangled_name = NULL; } void get_backtrace_symbols(const backtrace_frame_t* backtrace, size_t frames, backtrace_symbol_t* backtrace_symbols) { map_info_t* milist = acquire_my_map_info_list(); for (size_t i = 0; i < frames; i++) { const backtrace_frame_t* frame = &backtrace[i]; backtrace_symbol_t* symbol = &backtrace_symbols[i]; init_backtrace_symbol(symbol, frame->absolute_pc); const map_info_t* mi = find_map_info(milist, frame->absolute_pc); if (mi) { symbol->relative_pc = frame->absolute_pc - mi->start; if (mi->name[0]) { symbol->map_name = strdup(mi->name); } Dl_info info; if (dladdr((const void*)frame->absolute_pc, &info) && info.dli_sname) { symbol->relative_symbol_addr = (uintptr_t)info.dli_saddr - (uintptr_t)info.dli_fbase; symbol->symbol_name = strdup(info.dli_sname); symbol->demangled_name = demangle_symbol_name(symbol->symbol_name); } } } release_my_map_info_list(milist); } void get_backtrace_symbols_ptrace(const ptrace_context_t* context, const backtrace_frame_t* backtrace, size_t frames, backtrace_symbol_t* backtrace_symbols) { for (size_t i = 0; i < frames; i++) { const backtrace_frame_t* frame = &backtrace[i]; backtrace_symbol_t* symbol = &backtrace_symbols[i]; init_backtrace_symbol(symbol, frame->absolute_pc); const map_info_t* mi; const symbol_t* s; find_symbol_ptrace(context, frame->absolute_pc, &mi, &s); if (mi) { symbol->relative_pc = frame->absolute_pc - mi->start; if (mi->name[0]) { symbol->map_name = strdup(mi->name); } } if (s) { symbol->relative_symbol_addr = s->start; symbol->symbol_name = strdup(s->name); symbol->demangled_name = demangle_symbol_name(symbol->symbol_name); } } } void free_backtrace_symbols(backtrace_symbol_t* backtrace_symbols, size_t frames) { for (size_t i = 0; i < frames; i++) { backtrace_symbol_t* symbol = &backtrace_symbols[i]; free(symbol->map_name); free(symbol->symbol_name); free(symbol->demangled_name); init_backtrace_symbol(symbol, 0); } } void format_backtrace_line(unsigned frameNumber, const backtrace_frame_t* frame __attribute__((unused)), const backtrace_symbol_t* symbol, char* buffer, size_t bufferSize) { const char* mapName = symbol->map_name ? symbol->map_name : ""; const char* symbolName = symbol->demangled_name ? symbol->demangled_name : symbol->symbol_name; size_t fieldWidth = (bufferSize - 80) / 2; if (symbolName) { uint32_t pc_offset = symbol->relative_pc - symbol->relative_symbol_addr; if (pc_offset) { snprintf(buffer, bufferSize, "#%02d pc %08x %.*s (%.*s+%u)", frameNumber, symbol->relative_pc, fieldWidth, mapName, fieldWidth, symbolName, pc_offset); } else { snprintf(buffer, bufferSize, "#%02d pc %08x %.*s (%.*s)", frameNumber, symbol->relative_pc, fieldWidth, mapName, fieldWidth, symbolName); } } else { snprintf(buffer, bufferSize, "#%02d pc %08x %.*s", frameNumber, symbol->relative_pc, fieldWidth, mapName); } }