//===-- sanitizer_common.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 sanitizers' run-time libraries. // //===----------------------------------------------------------------------===// #include "sanitizer_stacktrace_printer.h" #include "sanitizer_file.h" #include "sanitizer_flags.h" #include "sanitizer_fuchsia.h" namespace __sanitizer { const char *StripFunctionName(const char *function) { if (!common_flags()->demangle) return function; if (!function) return nullptr; auto try_strip = [function](const char *prefix) -> const char * { const uptr prefix_len = internal_strlen(prefix); if (!internal_strncmp(function, prefix, prefix_len)) return function + prefix_len; return nullptr; }; if (SANITIZER_APPLE) { if (const char *s = try_strip("wrap_")) return s; } else if (SANITIZER_WINDOWS) { if (const char *s = try_strip("__asan_wrap_")) return s; } else { if (const char *s = try_strip("___interceptor_")) return s; if (const char *s = try_strip("__interceptor_")) return s; } return function; } // sanitizer_symbolizer_markup.cpp implements these differently. #if !SANITIZER_SYMBOLIZER_MARKUP static const char *DemangleFunctionName(const char *function) { if (!common_flags()->demangle) return function; if (!function) return nullptr; // NetBSD uses indirection for old threading functions for historical reasons // The mangled names are internal implementation detail and should not be // exposed even in backtraces. #if SANITIZER_NETBSD if (!internal_strcmp(function, "__libc_mutex_init")) return "pthread_mutex_init"; if (!internal_strcmp(function, "__libc_mutex_lock")) return "pthread_mutex_lock"; if (!internal_strcmp(function, "__libc_mutex_trylock")) return "pthread_mutex_trylock"; if (!internal_strcmp(function, "__libc_mutex_unlock")) return "pthread_mutex_unlock"; if (!internal_strcmp(function, "__libc_mutex_destroy")) return "pthread_mutex_destroy"; if (!internal_strcmp(function, "__libc_mutexattr_init")) return "pthread_mutexattr_init"; if (!internal_strcmp(function, "__libc_mutexattr_settype")) return "pthread_mutexattr_settype"; if (!internal_strcmp(function, "__libc_mutexattr_destroy")) return "pthread_mutexattr_destroy"; if (!internal_strcmp(function, "__libc_cond_init")) return "pthread_cond_init"; if (!internal_strcmp(function, "__libc_cond_signal")) return "pthread_cond_signal"; if (!internal_strcmp(function, "__libc_cond_broadcast")) return "pthread_cond_broadcast"; if (!internal_strcmp(function, "__libc_cond_wait")) return "pthread_cond_wait"; if (!internal_strcmp(function, "__libc_cond_timedwait")) return "pthread_cond_timedwait"; if (!internal_strcmp(function, "__libc_cond_destroy")) return "pthread_cond_destroy"; if (!internal_strcmp(function, "__libc_rwlock_init")) return "pthread_rwlock_init"; if (!internal_strcmp(function, "__libc_rwlock_rdlock")) return "pthread_rwlock_rdlock"; if (!internal_strcmp(function, "__libc_rwlock_wrlock")) return "pthread_rwlock_wrlock"; if (!internal_strcmp(function, "__libc_rwlock_tryrdlock")) return "pthread_rwlock_tryrdlock"; if (!internal_strcmp(function, "__libc_rwlock_trywrlock")) return "pthread_rwlock_trywrlock"; if (!internal_strcmp(function, "__libc_rwlock_unlock")) return "pthread_rwlock_unlock"; if (!internal_strcmp(function, "__libc_rwlock_destroy")) return "pthread_rwlock_destroy"; if (!internal_strcmp(function, "__libc_thr_keycreate")) return "pthread_key_create"; if (!internal_strcmp(function, "__libc_thr_setspecific")) return "pthread_setspecific"; if (!internal_strcmp(function, "__libc_thr_getspecific")) return "pthread_getspecific"; if (!internal_strcmp(function, "__libc_thr_keydelete")) return "pthread_key_delete"; if (!internal_strcmp(function, "__libc_thr_once")) return "pthread_once"; if (!internal_strcmp(function, "__libc_thr_self")) return "pthread_self"; if (!internal_strcmp(function, "__libc_thr_exit")) return "pthread_exit"; if (!internal_strcmp(function, "__libc_thr_setcancelstate")) return "pthread_setcancelstate"; if (!internal_strcmp(function, "__libc_thr_equal")) return "pthread_equal"; if (!internal_strcmp(function, "__libc_thr_curcpu")) return "pthread_curcpu_np"; if (!internal_strcmp(function, "__libc_thr_sigsetmask")) return "pthread_sigmask"; #endif return function; } static void MaybeBuildIdToBuffer(const AddressInfo &info, bool PrefixSpace, InternalScopedString *buffer) { if (info.uuid_size) { if (PrefixSpace) buffer->append(" "); buffer->append("(BuildId: "); for (uptr i = 0; i < info.uuid_size; ++i) { buffer->append("%02x", info.uuid[i]); } buffer->append(")"); } } static const char kDefaultFormat[] = " #%n %p %F %L"; void RenderFrame(InternalScopedString *buffer, const char *format, int frame_no, uptr address, const AddressInfo *info, bool vs_style, const char *strip_path_prefix) { // info will be null in the case where symbolization is not needed for the // given format. This ensures that the code below will get a hard failure // rather than print incorrect information in case RenderNeedsSymbolization // ever ends up out of sync with this function. If non-null, the addresses // should match. CHECK(!info || address == info->address); if (0 == internal_strcmp(format, "DEFAULT")) format = kDefaultFormat; for (const char *p = format; *p != '\0'; p++) { if (*p != '%') { buffer->append("%c", *p); continue; } p++; switch (*p) { case '%': buffer->append("%%"); break; // Frame number and all fields of AddressInfo structure. case 'n': buffer->append("%u", frame_no); break; case 'p': buffer->append("0x%zx", address); break; case 'm': buffer->append("%s", StripPathPrefix(info->module, strip_path_prefix)); break; case 'o': buffer->append("0x%zx", info->module_offset); break; case 'b': MaybeBuildIdToBuffer(*info, /*PrefixSpace=*/false, buffer); break; case 'f': buffer->append("%s", DemangleFunctionName(StripFunctionName(info->function))); break; case 'q': buffer->append("0x%zx", info->function_offset != AddressInfo::kUnknown ? info->function_offset : 0x0); break; case 's': buffer->append("%s", StripPathPrefix(info->file, strip_path_prefix)); break; case 'l': buffer->append("%d", info->line); break; case 'c': buffer->append("%d", info->column); break; // Smarter special cases. case 'F': // Function name and offset, if file is unknown. if (info->function) { buffer->append("in %s", DemangleFunctionName(StripFunctionName(info->function))); if (!info->file && info->function_offset != AddressInfo::kUnknown) buffer->append("+0x%zx", info->function_offset); } break; case 'S': // File/line information. RenderSourceLocation(buffer, info->file, info->line, info->column, vs_style, strip_path_prefix); break; case 'L': // Source location, or module location. if (info->file) { RenderSourceLocation(buffer, info->file, info->line, info->column, vs_style, strip_path_prefix); } else if (info->module) { RenderModuleLocation(buffer, info->module, info->module_offset, info->module_arch, strip_path_prefix); #if !SANITIZER_APPLE MaybeBuildIdToBuffer(*info, /*PrefixSpace=*/true, buffer); #endif } else { buffer->append("()"); } break; case 'M': // Module basename and offset, or PC. if (address & kExternalPCBit) { // There PCs are not meaningful. } else if (info->module) { // Always strip the module name for %M. RenderModuleLocation(buffer, StripModuleName(info->module), info->module_offset, info->module_arch, ""); #if !SANITIZER_APPLE MaybeBuildIdToBuffer(*info, /*PrefixSpace=*/true, buffer); #endif } else { buffer->append("(%p)", (void *)address); } break; default: Report("Unsupported specifier in stack frame format: %c (%p)!\n", *p, (void *)p); Die(); } } } bool RenderNeedsSymbolization(const char *format) { if (0 == internal_strcmp(format, "DEFAULT")) format = kDefaultFormat; for (const char *p = format; *p != '\0'; p++) { if (*p != '%') continue; p++; switch (*p) { case '%': break; case 'n': // frame_no break; case 'p': // address break; default: return true; } } return false; } void RenderData(InternalScopedString *buffer, const char *format, const DataInfo *DI, const char *strip_path_prefix) { for (const char *p = format; *p != '\0'; p++) { if (*p != '%') { buffer->append("%c", *p); continue; } p++; switch (*p) { case '%': buffer->append("%%"); break; case 's': buffer->append("%s", StripPathPrefix(DI->file, strip_path_prefix)); break; case 'l': buffer->append("%zu", DI->line); break; case 'g': buffer->append("%s", DI->name); break; default: Report("Unsupported specifier in stack frame format: %c (%p)!\n", *p, (void *)p); Die(); } } } #endif // !SANITIZER_SYMBOLIZER_MARKUP void RenderSourceLocation(InternalScopedString *buffer, const char *file, int line, int column, bool vs_style, const char *strip_path_prefix) { if (vs_style && line > 0) { buffer->append("%s(%d", StripPathPrefix(file, strip_path_prefix), line); if (column > 0) buffer->append(",%d", column); buffer->append(")"); return; } buffer->append("%s", StripPathPrefix(file, strip_path_prefix)); if (line > 0) { buffer->append(":%d", line); if (column > 0) buffer->append(":%d", column); } } void RenderModuleLocation(InternalScopedString *buffer, const char *module, uptr offset, ModuleArch arch, const char *strip_path_prefix) { buffer->append("(%s", StripPathPrefix(module, strip_path_prefix)); if (arch != kModuleArchUnknown) { buffer->append(":%s", ModuleArchToString(arch)); } buffer->append("+0x%zx)", offset); } } // namespace __sanitizer