//===-- sanitizer_file.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. It defines filesystem-related interfaces. This // is separate from sanitizer_common.cpp so that it's simpler to disable // all the filesystem support code for a port that doesn't use it. // //===---------------------------------------------------------------------===// #include "sanitizer_platform.h" #if !SANITIZER_FUCHSIA #include "sanitizer_common.h" #include "sanitizer_file.h" namespace __sanitizer { void CatastrophicErrorWrite(const char *buffer, uptr length) { WriteToFile(kStderrFd, buffer, length); } StaticSpinMutex report_file_mu; ReportFile report_file = {&report_file_mu, kStderrFd, "", "", 0}; void RawWrite(const char *buffer) { report_file.Write(buffer, internal_strlen(buffer)); } void ReportFile::ReopenIfNecessary() { mu->CheckLocked(); if (fd == kStdoutFd || fd == kStderrFd) return; uptr pid = internal_getpid(); // If in tracer, use the parent's file. if (pid == stoptheworld_tracer_pid) pid = stoptheworld_tracer_ppid; if (fd != kInvalidFd) { // If the report file is already opened by the current process, // do nothing. Otherwise the report file was opened by the parent // process, close it now. if (fd_pid == pid) return; else CloseFile(fd); } const char *exe_name = GetProcessName(); if (common_flags()->log_exe_name && exe_name) { internal_snprintf(full_path, kMaxPathLength, "%s.%s.%zu", path_prefix, exe_name, pid); } else { internal_snprintf(full_path, kMaxPathLength, "%s.%zu", path_prefix, pid); } error_t err; fd = OpenFile(full_path, WrOnly, &err); if (fd == kInvalidFd) { const char *ErrorMsgPrefix = "ERROR: Can't open file: "; WriteToFile(kStderrFd, ErrorMsgPrefix, internal_strlen(ErrorMsgPrefix)); WriteToFile(kStderrFd, full_path, internal_strlen(full_path)); char errmsg[100]; internal_snprintf(errmsg, sizeof(errmsg), " (reason: %d)", err); WriteToFile(kStderrFd, errmsg, internal_strlen(errmsg)); Die(); } fd_pid = pid; } void ReportFile::SetReportPath(const char *path) { if (path) { uptr len = internal_strlen(path); if (len > sizeof(path_prefix) - 100) { Report("ERROR: Path is too long: %c%c%c%c%c%c%c%c...\n", path[0], path[1], path[2], path[3], path[4], path[5], path[6], path[7]); Die(); } } SpinMutexLock l(mu); if (fd != kStdoutFd && fd != kStderrFd && fd != kInvalidFd) CloseFile(fd); fd = kInvalidFd; if (!path || internal_strcmp(path, "stderr") == 0) { fd = kStderrFd; } else if (internal_strcmp(path, "stdout") == 0) { fd = kStdoutFd; } else { internal_snprintf(path_prefix, kMaxPathLength, "%s", path); } } const char *ReportFile::GetReportPath() { SpinMutexLock l(mu); ReopenIfNecessary(); return full_path; } bool ReadFileToBuffer(const char *file_name, char **buff, uptr *buff_size, uptr *read_len, uptr max_len, error_t *errno_p) { *buff = nullptr; *buff_size = 0; *read_len = 0; if (!max_len) return true; uptr PageSize = GetPageSizeCached(); uptr kMinFileLen = Min(PageSize, max_len); // The files we usually open are not seekable, so try different buffer sizes. for (uptr size = kMinFileLen;; size = Min(size * 2, max_len)) { UnmapOrDie(*buff, *buff_size); *buff = (char*)MmapOrDie(size, __func__); *buff_size = size; fd_t fd = OpenFile(file_name, RdOnly, errno_p); if (fd == kInvalidFd) { UnmapOrDie(*buff, *buff_size); return false; } *read_len = 0; // Read up to one page at a time. bool reached_eof = false; while (*read_len < size) { uptr just_read; if (!ReadFromFile(fd, *buff + *read_len, size - *read_len, &just_read, errno_p)) { UnmapOrDie(*buff, *buff_size); CloseFile(fd); return false; } *read_len += just_read; if (just_read == 0 || *read_len == max_len) { reached_eof = true; break; } } CloseFile(fd); if (reached_eof) // We've read the whole file. break; } return true; } bool ReadFileToVector(const char *file_name, InternalMmapVectorNoCtor *buff, uptr max_len, error_t *errno_p) { buff->clear(); if (!max_len) return true; uptr PageSize = GetPageSizeCached(); fd_t fd = OpenFile(file_name, RdOnly, errno_p); if (fd == kInvalidFd) return false; uptr read_len = 0; while (read_len < max_len) { if (read_len >= buff->size()) buff->resize(Min(Max(PageSize, read_len * 2), max_len)); CHECK_LT(read_len, buff->size()); CHECK_LE(buff->size(), max_len); uptr just_read; if (!ReadFromFile(fd, buff->data() + read_len, buff->size() - read_len, &just_read, errno_p)) { CloseFile(fd); return false; } read_len += just_read; if (!just_read) break; } CloseFile(fd); buff->resize(read_len); return true; } static const char kPathSeparator = SANITIZER_WINDOWS ? ';' : ':'; char *FindPathToBinary(const char *name) { if (FileExists(name)) { return internal_strdup(name); } const char *path = GetEnv("PATH"); if (!path) return nullptr; uptr name_len = internal_strlen(name); InternalMmapVector buffer(kMaxPathLength); const char *beg = path; while (true) { const char *end = internal_strchrnul(beg, kPathSeparator); uptr prefix_len = end - beg; if (prefix_len + name_len + 2 <= kMaxPathLength) { internal_memcpy(buffer.data(), beg, prefix_len); buffer[prefix_len] = '/'; internal_memcpy(&buffer[prefix_len + 1], name, name_len); buffer[prefix_len + 1 + name_len] = '\0'; if (FileExists(buffer.data())) return internal_strdup(buffer.data()); } if (*end == '\0') break; beg = end + 1; } return nullptr; } } // namespace __sanitizer using namespace __sanitizer; extern "C" { void __sanitizer_set_report_path(const char *path) { report_file.SetReportPath(path); } void __sanitizer_set_report_fd(void *fd) { report_file.fd = (fd_t)reinterpret_cast(fd); report_file.fd_pid = internal_getpid(); } const char *__sanitizer_get_report_path() { return report_file.GetReportPath(); } } // extern "C" #endif // !SANITIZER_FUCHSIA