sanitizer_symbolizer_libcdep.cpp
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//===-- sanitizer_symbolizer_libcdep.cpp ----------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file is shared between AddressSanitizer and ThreadSanitizer
// run-time libraries.
//===----------------------------------------------------------------------===//
#include "sanitizer_allocator_internal.h"
#include "sanitizer_internal_defs.h"
#include "sanitizer_symbolizer_internal.h"
namespace __sanitizer {
Symbolizer *Symbolizer::GetOrInit() {
SpinMutexLock l(&init_mu_);
if (symbolizer_)
return symbolizer_;
symbolizer_ = PlatformInit();
CHECK(symbolizer_);
return symbolizer_;
}
// See sanitizer_symbolizer_markup.cpp.
#if !SANITIZER_SYMBOLIZER_MARKUP
const char *ExtractToken(const char *str, const char *delims, char **result) {
uptr prefix_len = internal_strcspn(str, delims);
*result = (char*)InternalAlloc(prefix_len + 1);
internal_memcpy(*result, str, prefix_len);
(*result)[prefix_len] = '\0';
const char *prefix_end = str + prefix_len;
if (*prefix_end != '\0') prefix_end++;
return prefix_end;
}
const char *ExtractInt(const char *str, const char *delims, int *result) {
char *buff;
const char *ret = ExtractToken(str, delims, &buff);
if (buff != 0) {
*result = (int)internal_atoll(buff);
}
InternalFree(buff);
return ret;
}
const char *ExtractUptr(const char *str, const char *delims, uptr *result) {
char *buff;
const char *ret = ExtractToken(str, delims, &buff);
if (buff != 0) {
*result = (uptr)internal_atoll(buff);
}
InternalFree(buff);
return ret;
}
const char *ExtractSptr(const char *str, const char *delims, sptr *result) {
char *buff;
const char *ret = ExtractToken(str, delims, &buff);
if (buff != 0) {
*result = (sptr)internal_atoll(buff);
}
InternalFree(buff);
return ret;
}
const char *ExtractTokenUpToDelimiter(const char *str, const char *delimiter,
char **result) {
const char *found_delimiter = internal_strstr(str, delimiter);
uptr prefix_len =
found_delimiter ? found_delimiter - str : internal_strlen(str);
*result = (char *)InternalAlloc(prefix_len + 1);
internal_memcpy(*result, str, prefix_len);
(*result)[prefix_len] = '\0';
const char *prefix_end = str + prefix_len;
if (*prefix_end != '\0') prefix_end += internal_strlen(delimiter);
return prefix_end;
}
SymbolizedStack *Symbolizer::SymbolizePC(uptr addr) {
BlockingMutexLock l(&mu_);
const char *module_name;
uptr module_offset;
ModuleArch arch;
SymbolizedStack *res = SymbolizedStack::New(addr);
if (!FindModuleNameAndOffsetForAddress(addr, &module_name, &module_offset,
&arch))
return res;
// Always fill data about module name and offset.
res->info.FillModuleInfo(module_name, module_offset, arch);
for (auto &tool : tools_) {
SymbolizerScope sym_scope(this);
if (tool.SymbolizePC(addr, res)) {
return res;
}
}
return res;
}
bool Symbolizer::SymbolizeData(uptr addr, DataInfo *info) {
BlockingMutexLock l(&mu_);
const char *module_name;
uptr module_offset;
ModuleArch arch;
if (!FindModuleNameAndOffsetForAddress(addr, &module_name, &module_offset,
&arch))
return false;
info->Clear();
info->module = internal_strdup(module_name);
info->module_offset = module_offset;
info->module_arch = arch;
for (auto &tool : tools_) {
SymbolizerScope sym_scope(this);
if (tool.SymbolizeData(addr, info)) {
return true;
}
}
return true;
}
bool Symbolizer::SymbolizeFrame(uptr addr, FrameInfo *info) {
BlockingMutexLock l(&mu_);
const char *module_name;
if (!FindModuleNameAndOffsetForAddress(
addr, &module_name, &info->module_offset, &info->module_arch))
return false;
info->module = internal_strdup(module_name);
for (auto &tool : tools_) {
SymbolizerScope sym_scope(this);
if (tool.SymbolizeFrame(addr, info)) {
return true;
}
}
return true;
}
bool Symbolizer::GetModuleNameAndOffsetForPC(uptr pc, const char **module_name,
uptr *module_address) {
BlockingMutexLock l(&mu_);
const char *internal_module_name = nullptr;
ModuleArch arch;
if (!FindModuleNameAndOffsetForAddress(pc, &internal_module_name,
module_address, &arch))
return false;
if (module_name)
*module_name = module_names_.GetOwnedCopy(internal_module_name);
return true;
}
void Symbolizer::Flush() {
BlockingMutexLock l(&mu_);
for (auto &tool : tools_) {
SymbolizerScope sym_scope(this);
tool.Flush();
}
}
const char *Symbolizer::Demangle(const char *name) {
BlockingMutexLock l(&mu_);
for (auto &tool : tools_) {
SymbolizerScope sym_scope(this);
if (const char *demangled = tool.Demangle(name))
return demangled;
}
return PlatformDemangle(name);
}
bool Symbolizer::FindModuleNameAndOffsetForAddress(uptr address,
const char **module_name,
uptr *module_offset,
ModuleArch *module_arch) {
const LoadedModule *module = FindModuleForAddress(address);
if (module == nullptr)
return false;
*module_name = module->full_name();
*module_offset = address - module->base_address();
*module_arch = module->arch();
return true;
}
void Symbolizer::RefreshModules() {
modules_.init();
fallback_modules_.fallbackInit();
RAW_CHECK(modules_.size() > 0);
modules_fresh_ = true;
}
static const LoadedModule *SearchForModule(const ListOfModules &modules,
uptr address) {
for (uptr i = 0; i < modules.size(); i++) {
if (modules[i].containsAddress(address)) {
return &modules[i];
}
}
return nullptr;
}
const LoadedModule *Symbolizer::FindModuleForAddress(uptr address) {
bool modules_were_reloaded = false;
if (!modules_fresh_) {
RefreshModules();
modules_were_reloaded = true;
}
const LoadedModule *module = SearchForModule(modules_, address);
if (module) return module;
// dlopen/dlclose interceptors invalidate the module list, but when
// interception is disabled, we need to retry if the lookup fails in
// case the module list changed.
#if !SANITIZER_INTERCEPT_DLOPEN_DLCLOSE
if (!modules_were_reloaded) {
RefreshModules();
module = SearchForModule(modules_, address);
if (module) return module;
}
#endif
if (fallback_modules_.size()) {
module = SearchForModule(fallback_modules_, address);
}
return module;
}
// For now we assume the following protocol:
// For each request of the form
// <module_name> <module_offset>
// passed to STDIN, external symbolizer prints to STDOUT response:
// <function_name>
// <file_name>:<line_number>:<column_number>
// <function_name>
// <file_name>:<line_number>:<column_number>
// ...
// <empty line>
class LLVMSymbolizerProcess : public SymbolizerProcess {
public:
explicit LLVMSymbolizerProcess(const char *path)
: SymbolizerProcess(path, /*use_posix_spawn=*/SANITIZER_MAC) {}
private:
bool ReachedEndOfOutput(const char *buffer, uptr length) const override {
// Empty line marks the end of llvm-symbolizer output.
return length >= 2 && buffer[length - 1] == '\n' &&
buffer[length - 2] == '\n';
}
// When adding a new architecture, don't forget to also update
// script/asan_symbolize.py and sanitizer_common.h.
void GetArgV(const char *path_to_binary,
const char *(&argv)[kArgVMax]) const override {
#if defined(__x86_64h__)
const char* const kSymbolizerArch = "--default-arch=x86_64h";
#elif defined(__x86_64__)
const char* const kSymbolizerArch = "--default-arch=x86_64";
#elif defined(__i386__)
const char* const kSymbolizerArch = "--default-arch=i386";
#elif defined(__aarch64__)
const char* const kSymbolizerArch = "--default-arch=arm64";
#elif defined(__arm__)
const char* const kSymbolizerArch = "--default-arch=arm";
#elif defined(__powerpc64__) && __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
const char* const kSymbolizerArch = "--default-arch=powerpc64";
#elif defined(__powerpc64__) && __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__
const char* const kSymbolizerArch = "--default-arch=powerpc64le";
#elif defined(__s390x__)
const char* const kSymbolizerArch = "--default-arch=s390x";
#elif defined(__s390__)
const char* const kSymbolizerArch = "--default-arch=s390";
#else
const char* const kSymbolizerArch = "--default-arch=unknown";
#endif
const char *const inline_flag = common_flags()->symbolize_inline_frames
? "--inlining=true"
: "--inlining=false";
int i = 0;
argv[i++] = path_to_binary;
argv[i++] = inline_flag;
argv[i++] = kSymbolizerArch;
argv[i++] = nullptr;
}
};
LLVMSymbolizer::LLVMSymbolizer(const char *path, LowLevelAllocator *allocator)
: symbolizer_process_(new(*allocator) LLVMSymbolizerProcess(path)) {}
// Parse a <file>:<line>[:<column>] buffer. The file path may contain colons on
// Windows, so extract tokens from the right hand side first. The column info is
// also optional.
static const char *ParseFileLineInfo(AddressInfo *info, const char *str) {
char *file_line_info = 0;
str = ExtractToken(str, "\n", &file_line_info);
CHECK(file_line_info);
if (uptr size = internal_strlen(file_line_info)) {
char *back = file_line_info + size - 1;
for (int i = 0; i < 2; ++i) {
while (back > file_line_info && IsDigit(*back)) --back;
if (*back != ':' || !IsDigit(back[1])) break;
info->column = info->line;
info->line = internal_atoll(back + 1);
// Truncate the string at the colon to keep only filename.
*back = '\0';
--back;
}
ExtractToken(file_line_info, "", &info->file);
}
InternalFree(file_line_info);
return str;
}
// Parses one or more two-line strings in the following format:
// <function_name>
// <file_name>:<line_number>[:<column_number>]
// Used by LLVMSymbolizer, Addr2LinePool and InternalSymbolizer, since all of
// them use the same output format.
void ParseSymbolizePCOutput(const char *str, SymbolizedStack *res) {
bool top_frame = true;
SymbolizedStack *last = res;
while (true) {
char *function_name = 0;
str = ExtractToken(str, "\n", &function_name);
CHECK(function_name);
if (function_name[0] == '\0') {
// There are no more frames.
InternalFree(function_name);
break;
}
SymbolizedStack *cur;
if (top_frame) {
cur = res;
top_frame = false;
} else {
cur = SymbolizedStack::New(res->info.address);
cur->info.FillModuleInfo(res->info.module, res->info.module_offset,
res->info.module_arch);
last->next = cur;
last = cur;
}
AddressInfo *info = &cur->info;
info->function = function_name;
str = ParseFileLineInfo(info, str);
// Functions and filenames can be "??", in which case we write 0
// to address info to mark that names are unknown.
if (0 == internal_strcmp(info->function, "??")) {
InternalFree(info->function);
info->function = 0;
}
if (0 == internal_strcmp(info->file, "??")) {
InternalFree(info->file);
info->file = 0;
}
}
}
// Parses a two-line string in the following format:
// <symbol_name>
// <start_address> <size>
// Used by LLVMSymbolizer and InternalSymbolizer.
void ParseSymbolizeDataOutput(const char *str, DataInfo *info) {
str = ExtractToken(str, "\n", &info->name);
str = ExtractUptr(str, " ", &info->start);
str = ExtractUptr(str, "\n", &info->size);
}
static void ParseSymbolizeFrameOutput(const char *str,
InternalMmapVector<LocalInfo> *locals) {
if (internal_strncmp(str, "??", 2) == 0)
return;
while (*str) {
LocalInfo local;
str = ExtractToken(str, "\n", &local.function_name);
str = ExtractToken(str, "\n", &local.name);
AddressInfo addr;
str = ParseFileLineInfo(&addr, str);
local.decl_file = addr.file;
local.decl_line = addr.line;
local.has_frame_offset = internal_strncmp(str, "??", 2) != 0;
str = ExtractSptr(str, " ", &local.frame_offset);
local.has_size = internal_strncmp(str, "??", 2) != 0;
str = ExtractUptr(str, " ", &local.size);
local.has_tag_offset = internal_strncmp(str, "??", 2) != 0;
str = ExtractUptr(str, "\n", &local.tag_offset);
locals->push_back(local);
}
}
bool LLVMSymbolizer::SymbolizePC(uptr addr, SymbolizedStack *stack) {
AddressInfo *info = &stack->info;
const char *buf = FormatAndSendCommand(
"CODE", info->module, info->module_offset, info->module_arch);
if (buf) {
ParseSymbolizePCOutput(buf, stack);
return true;
}
return false;
}
bool LLVMSymbolizer::SymbolizeData(uptr addr, DataInfo *info) {
const char *buf = FormatAndSendCommand(
"DATA", info->module, info->module_offset, info->module_arch);
if (buf) {
ParseSymbolizeDataOutput(buf, info);
info->start += (addr - info->module_offset); // Add the base address.
return true;
}
return false;
}
bool LLVMSymbolizer::SymbolizeFrame(uptr addr, FrameInfo *info) {
const char *buf = FormatAndSendCommand(
"FRAME", info->module, info->module_offset, info->module_arch);
if (buf) {
ParseSymbolizeFrameOutput(buf, &info->locals);
return true;
}
return false;
}
const char *LLVMSymbolizer::FormatAndSendCommand(const char *command_prefix,
const char *module_name,
uptr module_offset,
ModuleArch arch) {
CHECK(module_name);
if (arch == kModuleArchUnknown) {
if (internal_snprintf(buffer_, kBufferSize, "%s \"%s\" 0x%zx\n",
command_prefix, module_name,
module_offset) >= static_cast<int>(kBufferSize)) {
Report("WARNING: Command buffer too small");
return nullptr;
}
} else {
if (internal_snprintf(buffer_, kBufferSize, "%s \"%s:%s\" 0x%zx\n",
command_prefix, module_name, ModuleArchToString(arch),
module_offset) >= static_cast<int>(kBufferSize)) {
Report("WARNING: Command buffer too small");
return nullptr;
}
}
return symbolizer_process_->SendCommand(buffer_);
}
SymbolizerProcess::SymbolizerProcess(const char *path, bool use_posix_spawn)
: path_(path),
input_fd_(kInvalidFd),
output_fd_(kInvalidFd),
times_restarted_(0),
failed_to_start_(false),
reported_invalid_path_(false),
use_posix_spawn_(use_posix_spawn) {
CHECK(path_);
CHECK_NE(path_[0], '\0');
}
static bool IsSameModule(const char* path) {
if (const char* ProcessName = GetProcessName()) {
if (const char* SymbolizerName = StripModuleName(path)) {
return !internal_strcmp(ProcessName, SymbolizerName);
}
}
return false;
}
const char *SymbolizerProcess::SendCommand(const char *command) {
if (failed_to_start_)
return nullptr;
if (IsSameModule(path_)) {
Report("WARNING: Symbolizer was blocked from starting itself!\n");
failed_to_start_ = true;
return nullptr;
}
for (; times_restarted_ < kMaxTimesRestarted; times_restarted_++) {
// Start or restart symbolizer if we failed to send command to it.
if (const char *res = SendCommandImpl(command))
return res;
Restart();
}
if (!failed_to_start_) {
Report("WARNING: Failed to use and restart external symbolizer!\n");
failed_to_start_ = true;
}
return 0;
}
const char *SymbolizerProcess::SendCommandImpl(const char *command) {
if (input_fd_ == kInvalidFd || output_fd_ == kInvalidFd)
return 0;
if (!WriteToSymbolizer(command, internal_strlen(command)))
return 0;
if (!ReadFromSymbolizer(buffer_, kBufferSize))
return 0;
return buffer_;
}
bool SymbolizerProcess::Restart() {
if (input_fd_ != kInvalidFd)
CloseFile(input_fd_);
if (output_fd_ != kInvalidFd)
CloseFile(output_fd_);
return StartSymbolizerSubprocess();
}
bool SymbolizerProcess::ReadFromSymbolizer(char *buffer, uptr max_length) {
if (max_length == 0)
return true;
uptr read_len = 0;
while (true) {
uptr just_read = 0;
bool success = ReadFromFile(input_fd_, buffer + read_len,
max_length - read_len - 1, &just_read);
// We can't read 0 bytes, as we don't expect external symbolizer to close
// its stdout.
if (!success || just_read == 0) {
Report("WARNING: Can't read from symbolizer at fd %d\n", input_fd_);
return false;
}
read_len += just_read;
if (ReachedEndOfOutput(buffer, read_len))
break;
if (read_len + 1 == max_length) {
Report("WARNING: Symbolizer buffer too small\n");
read_len = 0;
break;
}
}
buffer[read_len] = '\0';
return true;
}
bool SymbolizerProcess::WriteToSymbolizer(const char *buffer, uptr length) {
if (length == 0)
return true;
uptr write_len = 0;
bool success = WriteToFile(output_fd_, buffer, length, &write_len);
if (!success || write_len != length) {
Report("WARNING: Can't write to symbolizer at fd %d\n", output_fd_);
return false;
}
return true;
}
#endif // !SANITIZER_SYMBOLIZER_MARKUP
} // namespace __sanitizer