// This file has been modified by Huawei. // Copyright (C) 2018， Huawei. // // Copyright (c) 1999, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #define _GNU_SOURCE 1 // needed for O_NOFOLLOW and pread()/pwrite() #include "utilities.h" #include #include #include #include #ifdef HAVE_UNISTD_H # include // For _exit. #endif #include #include #include #ifdef HAVE_SYS_UTSNAME_H # include // For uname. #endif #include #include #include #include #include #include #ifdef HAVE_PWD_H # include #endif #ifdef HAVE_SYSLOG_H # include #endif #include #include // for errno #include #include "base/commandlineflags.h" // to get the program name #include "glog/logging.h" #include "glog/raw_logging.h" #include "base/googleinit.h" #ifdef HAVE_STACKTRACE # include "stacktrace.h" #endif using std::string; using std::vector; using std::setw; using std::setfill; using std::hex; using std::dec; using std::min; using std::ostream; using std::ostringstream; using std::FILE; using std::fwrite; using std::fclose; using std::fflush; using std::fprintf; using std::perror; #ifdef __QNX__ using std::fdopen; #endif // There is no thread annotation support. #define EXCLUSIVE_LOCKS_REQUIRED(mu) #define DIR_NAME_LEN 256 /** * @ingroup NSTACK_LOG * @brief Set the log file number..
Functional Description: Set the log file number.
use constraint: The default is 10.
upgrade effect: no. */ unsigned int log_file_count = 10; /** * @ingroup NSTACK_LOG * @brief use for log path modify dynamic.
Functional Description: nstack_modify_log_dir.
use constraint: The default is 0.
upgrade effect: no. */ unsigned int modify_path_count = 0; int glogCtrlOpt = 0; /***************************************************************************** * Prototype : get_date_time * Description : get log file date time * Input : char * old_file * const char * log_name * Output : NA * Return Value : char * * Calls : * Called By : * * *****************************************************************************/ char * get_date_time(char *old_file, const char *log_name) { unsigned int len = 0; if (NULL == old_file || NULL == log_name) { return NULL; } len = strlen(log_name); if (strlen(old_file) <= len) { return NULL; } if (0 != strncmp(old_file, log_name, len)) { return NULL; } return old_file + len + 1; } /***************************************************************************** * Prototype : remove_old_file * Description : remove the old log exceed the log_file_count * Input : const * log_path * const char * log_name * Output : NA * Return Value : int * Calls : * Called By : * *****************************************************************************/ static int remove_old_file(const char *log_path, const char *log_name) { char backup_dir[DIR_NAME_LEN]; struct dirent *log_entry = NULL; int file_count = 0; int dir_fd = -1; int ret = 0; char *oldest_file_time = NULL; char oldest_string[DIR_NAME_LEN] = {0}; char *oldest_file = NULL; char *cur_file_time = NULL; struct stat file_info; ret = snprintf(oldest_string, DIR_NAME_LEN, "%s", "99999999999999"); if(ret < 0) { return -1; } oldest_file_time = oldest_string; const char *file_name = strrchr(log_name,'/') + 1; if(NULL == file_name) { return -1; } // save current dir if (NULL == getcwd(backup_dir, sizeof(backup_dir))) { return -1; } DIR *log_dir = opendir(log_path); if (NULL == log_dir) { return -1; } dir_fd = dirfd(log_dir); if (-1 == dir_fd) { (void)closedir(log_dir); ret = chdir(backup_dir); return ret; } if (-1 == fchdir(dir_fd)) { (void)closedir(log_dir); ret = chdir(backup_dir); return ret; } while (NULL != (log_entry = readdir(log_dir))) { ret = stat(log_entry->d_name, &file_info); if (0 != ret) { continue; } if (log_entry->d_type == DT_DIR) { continue; } cur_file_time = get_date_time(log_entry->d_name, file_name); if (NULL != cur_file_time) { file_count++; if (strcmp(cur_file_time, oldest_file_time) < 0) { oldest_file = log_entry->d_name; oldest_file_time = cur_file_time; } } } if ((file_count > log_file_count) && (NULL != oldest_file)) { (void)remove(oldest_file); } (void)closedir(log_dir); ret = chdir(backup_dir); return ret; } /***************************************************************************** * Prototype : get_file_size * Description : get the file size of file fd * Input : int fd * Output : NA * Return Value : unsigned int * Calls : * Called By : *****************************************************************************/ static inline unsigned int get_file_size(int fd) { struct stat buf; if (fd < 0) { return 0; } memset(&buf, 0, sizeof(buf)); if (fstat(fd, &buf) != 0) { return 0; } return (uint32_t)buf.st_size; } static bool BoolFromEnv(const char *varname, bool defval) { const char* const valstr = getenv(varname); if (!valstr) { return defval; } return memchr("tTyY1\0", valstr[0], 6) != NULL; } GLOG_DEFINE_bool(logtostderr, BoolFromEnv("GOOGLE_LOGTOSTDERR", false), "log messages go to stderr instead of logfiles"); GLOG_DEFINE_bool(alsologtostderr, BoolFromEnv("GOOGLE_ALSOLOGTOSTDERR", false), "log messages go to stderr in addition to logfiles"); GLOG_DEFINE_bool(colorlogtostderr, false, "color messages logged to stderr (if supported by terminal)"); #ifdef OS_LINUX GLOG_DEFINE_bool(drop_log_memory, true, "Drop in-memory buffers of log contents. " "Logs can grow very quickly and they are rarely read before they " "need to be evicted from memory. Instead, drop them from memory " "as soon as they are flushed to disk."); _START_GOOGLE_NAMESPACE_ namespace logging { static const int64 kPageSize = getpagesize(); } _END_GOOGLE_NAMESPACE_ #endif // By default, errors (including fatal errors) get logged to stderr as // well as the file. // // The default is ERROR instead of FATAL so that users can see problems // when they run a program without having to look in another file. DEFINE_int32(stderrthreshold, GOOGLE_NAMESPACE::GLOG_ERROR, "log messages at or above this level are copied to stderr in " "addition to logfiles. This flag obsoletes --alsologtostderr."); GLOG_DEFINE_string(alsologtoemail, "", "log messages go to these email addresses " "in addition to logfiles"); GLOG_DEFINE_bool(log_prefix, true, "Prepend the log prefix to the start of each log line"); GLOG_DEFINE_int32(minloglevel, 0, "Messages logged at a lower level than this don't " "actually get logged anywhere"); GLOG_DEFINE_int32(logbuflevel, 0, "Buffer log messages logged at this level or lower" " (-1 means don't buffer; 0 means buffer INFO only;" " ...)"); GLOG_DEFINE_int32(logbufsecs, 30, "Buffer log messages for at most this many seconds"); GLOG_DEFINE_int32(logemaillevel, 999, "Email log messages logged at this level or higher" " (0 means email all; 3 means email FATAL only;" " ...)"); GLOG_DEFINE_string(logmailer, "/bin/mail", "Mailer used to send logging email"); // Compute the default value for --log_dir static const char* DefaultLogDir() { const char* env; env = getenv("GOOGLE_LOG_DIR"); if (env != NULL && env[0] != '\0') { return env; } env = getenv("TEST_TMPDIR"); if (env != NULL && env[0] != '\0') { return env; } return ""; } GLOG_DEFINE_string(log_dir, DefaultLogDir(), "If specified, logfiles are written into this directory instead " "of the default logging directory."); GLOG_DEFINE_string(log_link, "", "Put additional links to the log " "files in this directory"); GLOG_DEFINE_int32(max_log_size, 1800, "approx. maximum log file size (in MB). A value of 0 will " "be silently overridden to 1."); GLOG_DEFINE_bool(stop_logging_if_full_disk, false, "Stop attempting to log to disk if the disk is full."); GLOG_DEFINE_string(log_backtrace_at, "", "Emit a backtrace when logging at file:linenum."); // TODO(hamaji): consider windows #define PATH_SEPARATOR '/' #ifndef HAVE_PREAD #if defined(OS_WINDOWS) #include #define ssize_t SSIZE_T #endif static ssize_t pread(int fd, void* buf, size_t count, off_t offset) { off_t orig_offset = lseek(fd, 0, SEEK_CUR); if (orig_offset == (off_t)-1) return -1; if (lseek(fd, offset, SEEK_CUR) == (off_t)-1) return -1; ssize_t len = read(fd, buf, count); if (len < 0) return len; if (lseek(fd, orig_offset, SEEK_SET) == (off_t)-1) return -1; return len; } #endif // !HAVE_PREAD #ifndef HAVE_PWRITE static ssize_t pwrite(int fd, void* buf, size_t count, off_t offset) { off_t orig_offset = lseek(fd, 0, SEEK_CUR); if (orig_offset == (off_t)-1) return -1; if (lseek(fd, offset, SEEK_CUR) == (off_t)-1) return -1; ssize_t len = write(fd, buf, count); if (len < 0) return len; if (lseek(fd, orig_offset, SEEK_SET) == (off_t)-1) return -1; return len; } #endif // !HAVE_PWRITE static void GetHostName(string* hostname) { #if defined(HAVE_SYS_UTSNAME_H) struct utsname buf; if (0 != uname(&buf)) { // ensure null termination on failure *buf.nodename = '\0'; } *hostname = buf.nodename; #elif defined(OS_WINDOWS) char buf[MAX_COMPUTERNAME_LENGTH + 1]; DWORD len = MAX_COMPUTERNAME_LENGTH + 1; if (GetComputerNameA(buf, &len)) { *hostname = buf; } else { hostname->clear(); } #else # warning There is no way to retrieve the host name. *hostname = "(unknown)"; #endif } // Returns true iff terminal supports using colors in output. static bool TerminalSupportsColor() { bool term_supports_color = false; #ifdef OS_WINDOWS // on Windows TERM variable is usually not set, but the console does // support colors. term_supports_color = true; #else // On non-Windows platforms, we rely on the TERM variable. const char* const term = getenv("TERM"); if (term != NULL && term[0] != '\0') { term_supports_color = !strcmp(term, "xterm") || !strcmp(term, "xterm-color") || !strcmp(term, "xterm-256color") || !strcmp(term, "screen") || !strcmp(term, "linux") || !strcmp(term, "cygwin"); } #endif return term_supports_color; } _START_GOOGLE_NAMESPACE_ enum GLogColor { COLOR_DEFAULT, COLOR_RED, COLOR_GREEN, COLOR_YELLOW }; static GLogColor SeverityToColor(LogSeverity severity) { assert(severity >= 0 && severity < NUM_SEVERITIES); GLogColor color = COLOR_DEFAULT; switch (severity) { case GLOG_INFO: color = COLOR_DEFAULT; break; case GLOG_WARNING: color = COLOR_YELLOW; break; case GLOG_ERROR: case GLOG_FATAL: color = COLOR_RED; break; default: // should never get here. assert(false); } return color; } #ifdef OS_WINDOWS // Returns the character attribute for the given color. WORD GetColorAttribute(GLogColor color) { switch (color) { case COLOR_RED: return FOREGROUND_RED; case COLOR_GREEN: return FOREGROUND_GREEN; case COLOR_YELLOW: return FOREGROUND_RED | FOREGROUND_GREEN; default: return 0; } } #else // Returns the ANSI color code for the given color. const char* GetAnsiColorCode(GLogColor color) { switch (color) { case COLOR_RED: return "1"; case COLOR_GREEN: return "2"; case COLOR_YELLOW: return "3"; case COLOR_DEFAULT: return ""; }; return NULL; // stop warning about return type. } #endif // OS_WINDOWS // Safely get max_log_size, overriding to 1 if it somehow gets defined as 0 static int32 MaxLogSize() { return (FLAGS_max_log_size > 0 ? FLAGS_max_log_size : 1); } // An arbitrary limit on the length of a single log message. This // is so that streaming can be done more efficiently. const size_t LogMessage::kMaxLogMessageLen = 30000; struct LogMessage::LogMessageData { LogMessageData(); int preserved_errno_; // preserved errno // Buffer space; contains complete message text. char message_text_[LogMessage::kMaxLogMessageLen+1]; LogStream stream_; char severity_; // What level is this LogMessage logged at? int level_; int line_; // line number where logging call is. void (LogMessage::*send_method_)(); // Call this in destructor to send union { // At most one of these is used: union to keep the size low. LogSink* sink_; // NULL or sink to send message to std::vector* outvec_; // NULL or vector to push message onto std::string* message_; // NULL or string to write message into }; time_t timestamp_; // Time of creation of LogMessage struct ::tm tm_time_; // Time of creation of LogMessage size_t num_prefix_chars_; // # of chars of prefix in this message size_t num_chars_to_log_; // # of chars of msg to send to log size_t num_chars_to_syslog_; // # of chars of msg to send to syslog const char* basename_; // basename of file that called LOG const char* fullname_; // fullname of file that called LOG bool has_been_flushed_; // false => data has not been flushed bool first_fatal_; // true => this was first fatal msg private: LogMessageData(const LogMessageData&); void operator=(const LogMessageData&); }; // A mutex that allows only one thread to log at a time, to keep things from // getting jumbled. Some other very uncommon logging operations (like // changing the destination file for log messages of a given severity) also // lock this mutex. Please be sure that anybody who might possibly need to // lock it does so. static Mutex log_mutex; static Mutex fatal_msg_lock; /***************************************************************************** * Prototype : glog_release_rw_lock * Description : release log lock * Input : NA * Output : NA * Return Value : NA * Calls : * Called By : *****************************************************************************/ void glog_release_rw_lock() { #if defined(HAVE_PTHREAD) && defined(HAVE_RWLOCK) if (glog_ns_internal_namespace_::IsGoogleLoggingInitialized()) { log_mutex.ForceUnlock(); fatal_msg_lock.ForceUnlock(); } #endif return; } // Number of messages sent at each severity. Under log_mutex. int64 LogMessage::num_messages_[NUM_SEVERITIES] = {0, 0, 0, 0}; // Globally disable log writing (if disk is full) static bool stop_writing = false; const char*const LogSeverityNames[NUM_SEVERITIES] = { "INFO", "WARNING", "ERROR", "FATAL" }; const char*const nstack_level_names[NUM_SEVERITIES+1] = { "DEBUG", "INFO", "WARNING", "ERROR", "FATAL" }; // Has the user called SetExitOnDFatal(true)? static bool exit_on_dfatal = true; const char* GetLogSeverityName(LogSeverity severity) { return LogSeverityNames[severity]; } static bool SendEmailInternal(const char*dest, const char *subject, const char*body, bool use_logging); base_ns::Logger::~Logger() { } namespace { // Encapsulates all file-system related state class LogFileObject : public base_ns::Logger { public: LogFileObject(LogSeverity severity, const char* base_filename); ~LogFileObject(); virtual void Write(bool force_flush, // Should we force a flush here? time_t timestamp, // Timestamp for this entry const char* message, int message_len); // Configuration options void SetBasename(const char* basename); void SetExtension(const char* ext); void SetSymlinkBasename(const char* symlink_basename); // Normal flushing routine virtual void Flush(); // It is the actual file length for the system loggers, // i.e., INFO, ERROR, etc. virtual uint32 LogSize() { MutexLock l(&lock_); return file_length_; } // Internal flush routine. Exposed so that FlushLogFilesUnsafe() // can avoid grabbing a lock. Usually Flush() calls it after // acquiring lock_. void FlushUnlocked(); void ReleaseObjectlock(); private: static const uint32 kRolloverAttemptFrequency = 0x20; Mutex lock_; bool base_filename_selected_; string base_filename_; string symlink_basename_; string filename_extension_; // option users can specify (eg to add port#) string whole_filename_; FILE* file_; LogSeverity severity_; uint32 bytes_since_flush_; uint32 file_length_; unsigned int rollover_attempt_; int64 next_flush_time_; // cycle count at which to flush log // Actually create a logfile using the value of base_filename_ and the // supplied argument time_pid_string // REQUIRES: lock_ is held bool CreateLogfile(); }; } // namespace class LogDestination { public: friend class LogMessage; friend void ReprintFatalMessage(); friend base_ns::Logger* base_ns::GetLogger(LogSeverity); friend void base_ns::SetLogger(LogSeverity, base_ns::Logger*); // These methods are just forwarded to by their global versions. static void SetLogDestination(LogSeverity severity, const char* base_filename); static void SetLogSymlink(LogSeverity severity, const char* symlink_basename); static void AddLogSink(LogSink *destination); static void RemoveLogSink(LogSink *destination); static void SetLogFilenameExtension(const char* filename_extension); static void SetStderrLogging(LogSeverity min_severity); static void SetEmailLogging(LogSeverity min_severity, const char* addresses); static void LogToStderr(); // Flush all log files that are at least at the given severity level static void FlushLogFiles(int min_severity); static void FlushLogFilesUnsafe(int min_severity); static void RleaseLogSinkLock(int min_severity); // we set the maximum size of our packet to be 1400, the logic being // to prevent fragmentation. // Really this number is arbitrary. static const int kNetworkBytes = 1400; static const string& hostname(); static const bool& terminal_supports_color() { return terminal_supports_color_; } static void DeleteLogDestinations(); private: LogDestination(LogSeverity severity, const char* base_filename); ~LogDestination() { } // Take a log message of a particular severity and log it to stderr // iff it's of a high enough severity to deserve it. static void MaybeLogToStderr(LogSeverity severity, const char* message, size_t len); // Take a log message of a particular severity and log it to email // iff it's of a high enough severity to deserve it. static void MaybeLogToEmail(LogSeverity severity, const char* message, size_t len); // Take a log message of a particular severity and log it to a file // iff the base filename is not "" (which means "don't log to me") static void MaybeLogToLogfile(LogSeverity severity, time_t timestamp, const char* message, size_t len); // Take a log message of a particular severity and log it to the file // for that severity and also for all files with severity less than // this severity. static void LogToAllLogfiles(LogSeverity severity, time_t timestamp, const char* message, size_t len); // Send logging info to all registered sinks. static void LogToSinks(LogSeverity severity, const char *full_filename, const char *base_filename, int line, const struct ::tm* tm_time, const char* message, size_t message_len); // Wait for all registered sinks via WaitTillSent // including the optional one in "data". static void WaitForSinks(LogMessage::LogMessageData* data); static LogDestination* log_destination(LogSeverity severity); LogFileObject fileobject_; base_ns::Logger* logger_; // Either &fileobject_, or wrapper around it static LogDestination* log_destinations_[NUM_SEVERITIES]; static LogSeverity email_logging_severity_; static string addresses_; static string hostname_; static bool terminal_supports_color_; // arbitrary global logging destinations. static vector* sinks_; // Protects the vector sinks_, // but not the LogSink objects its elements reference. static Mutex sink_mutex_; // Disallow LogDestination(const LogDestination&); LogDestination& operator=(const LogDestination&); }; // Errors do not get logged to email by default. LogSeverity LogDestination::email_logging_severity_ = 99999; string LogDestination::addresses_; string LogDestination::hostname_; vector* LogDestination::sinks_ = NULL; Mutex LogDestination::sink_mutex_; bool LogDestination::terminal_supports_color_ = TerminalSupportsColor(); /* static */ const string& LogDestination::hostname() { if (hostname_.empty()) { GetHostName(&hostname_); if (hostname_.empty()) { hostname_ = "(unknown)"; } } return hostname_; } LogDestination::LogDestination(LogSeverity severity, const char* base_filename) : fileobject_(severity, base_filename), logger_(&fileobject_) { } inline void LogDestination::FlushLogFilesUnsafe(int min_severity) { // assume we have the log_mutex or we simply don't care // about it for (int i = min_severity; i < NUM_SEVERITIES; i++) { LogDestination* log = log_destination(i); if (log != NULL) { // Flush the base fileobject_ logger directly instead of going // through any wrappers to reduce chance of deadlock. log->fileobject_.FlushUnlocked(); } } } inline void LogDestination::FlushLogFiles(int min_severity) { // Prevent any subtle race conditions by wrapping a mutex lock around // all this stuff. MutexLock l(&log_mutex); for (int i = min_severity; i < NUM_SEVERITIES; i++) { LogDestination* log = log_destination(i); if (log != NULL) { log->logger_->Flush(); } } } inline void LogDestination::RleaseLogSinkLock(int min_severity) { // release the class static lock sink_lock_ #if defined(HAVE_PTHREAD) && defined(HAVE_RWLOCK) sink_mutex_.ForceUnlock(); for (int i = min_severity; i < NUM_SEVERITIES; i++) { LogDestination* log = log_destination(i); if (log != NULL) { // Flush the base fileobject_ logger directly instead of going // through any wrappers to reduce chance of deadlock. log->fileobject_.ReleaseObjectlock(); } } #endif return; } inline void LogDestination::SetLogDestination(LogSeverity severity, const char* base_filename) { assert(severity >= 0 && severity < NUM_SEVERITIES); // Prevent any subtle race conditions by wrapping a mutex lock around // all this stuff. MutexLock l(&log_mutex); log_destination(severity)->fileobject_.SetBasename(base_filename); } inline void LogDestination::SetLogSymlink(LogSeverity severity, const char* symlink_basename) { CHECK_GE(severity, 0); CHECK_LT(severity, NUM_SEVERITIES); MutexLock l(&log_mutex); log_destination(severity)->fileobject_.SetSymlinkBasename(symlink_basename); } inline void LogDestination::AddLogSink(LogSink *destination) { // Prevent any subtle race conditions by wrapping a mutex lock around // all this stuff. MutexLock l(&sink_mutex_); if (!sinks_) sinks_ = new vector; sinks_->push_back(destination); } inline void LogDestination::RemoveLogSink(LogSink *destination) { // Prevent any subtle race conditions by wrapping a mutex lock around // all this stuff. MutexLock l(&sink_mutex_); // This doesn't keep the sinks in order, but who cares? if (sinks_) { for (int i = sinks_->size() - 1; i >= 0; i--) { if ((*sinks_)[i] == destination) { (*sinks_)[i] = (*sinks_)[sinks_->size() - 1]; sinks_->pop_back(); break; } } } } inline void LogDestination::SetLogFilenameExtension(const char* ext) { // Prevent any subtle race conditions by wrapping a mutex lock around // all this stuff. MutexLock l(&log_mutex); for ( int severity = 0; severity < NUM_SEVERITIES; ++severity ) { log_destination(severity)->fileobject_.SetExtension(ext); } } inline void LogDestination::SetStderrLogging(LogSeverity min_severity) { assert(min_severity >= 0 && min_severity < NUM_SEVERITIES); // Prevent any subtle race conditions by wrapping a mutex lock around // all this stuff. MutexLock l(&log_mutex); FLAGS_stderrthreshold = min_severity; } inline void LogDestination::LogToStderr() { // *Don't* put this stuff in a mutex lock, since SetStderrLogging & // SetLogDestination already do the locking! SetStderrLogging(0); // thus everything is "also" logged to stderr for ( int i = 0; i < NUM_SEVERITIES; ++i ) { SetLogDestination(i, ""); // "" turns off logging to a logfile } } inline void LogDestination::SetEmailLogging(LogSeverity min_severity, const char* addresses) { assert(min_severity >= 0 && min_severity < NUM_SEVERITIES); // Prevent any subtle race conditions by wrapping a mutex lock around // all this stuff. MutexLock l(&log_mutex); LogDestination::email_logging_severity_ = min_severity; LogDestination::addresses_ = addresses; } static void ColoredWriteToStderr(LogSeverity severity, const char* message, size_t len) { const GLogColor color = (LogDestination::terminal_supports_color() && FLAGS_colorlogtostderr) ? SeverityToColor(severity) : COLOR_DEFAULT; // Avoid using cerr from this module since we may get called during // exit code, and cerr may be partially or fully destroyed by then. if (COLOR_DEFAULT == color) { fwrite(message, len, 1, stdout); return; } #ifdef OS_WINDOWS const HANDLE stderr_handle = GetStdHandle(STD_ERROR_HANDLE); // Gets the current text color. CONSOLE_SCREEN_BUFFER_INFO buffer_info; GetConsoleScreenBufferInfo(stderr_handle, &buffer_info); const WORD old_color_attrs = buffer_info.wAttributes; // We need to flush the stream buffers into the console before each // SetConsoleTextAttribute call lest it affect the text that is already // printed but has not yet reached the console. //fflush(stdout); SetConsoleTextAttribute(stderr_handle, GetColorAttribute(color) | FOREGROUND_INTENSITY); fwrite(message, len, 1, stdout); //fflush(stdout); // Restores the text color. SetConsoleTextAttribute(stderr_handle, old_color_attrs); #else fprintf(stdout, "\033[0;3%sm", GetAnsiColorCode(color)); fwrite(message, len, 1, stdout); fprintf(stdout, "\033[m"); // Resets the terminal to default. #endif // OS_WINDOWS } static void WriteToStderr(const char* message, size_t len) { // Avoid using cerr from this module since we may get called during // exit code, and cerr may be partially or fully destroyed by then. fwrite(message, len, 1, stdout); } inline void LogDestination::MaybeLogToStderr(LogSeverity severity, const char* message, size_t len) { if ((severity >= FLAGS_stderrthreshold) || FLAGS_alsologtostderr) { ColoredWriteToStderr(severity, message, len); #ifdef OS_WINDOWS // On Windows, also output to the debugger ::OutputDebugStringA(string(message,len).c_str()); #endif } } inline void LogDestination::MaybeLogToEmail(LogSeverity severity, const char* message, size_t len) { if (severity >= email_logging_severity_ || severity >= FLAGS_logemaillevel) { string to(FLAGS_alsologtoemail); if (!addresses_.empty()) { if (!to.empty()) { to += ","; } to += addresses_; } const string subject(string("[LOG] ") + LogSeverityNames[severity] + ": " + glog_ns_internal_namespace_::ProgramInvocationShortName()); string body(hostname()); body += "\n\n"; body.append(message, len); // should NOT use SendEmail(). The caller of this function holds the // log_mutex and SendEmail() calls LOG/VLOG which will block trying to // acquire the log_mutex object. Use SendEmailInternal() and set // use_logging to false. SendEmailInternal(to.c_str(), subject.c_str(), body.c_str(), false); } } inline void LogDestination::MaybeLogToLogfile(LogSeverity severity, time_t timestamp, const char* message, size_t len) { const bool should_flush = severity > FLAGS_logbuflevel; LogDestination* destination = log_destination(severity); destination->logger_->Write(should_flush, timestamp, message, len); } inline void LogDestination::LogToAllLogfiles(LogSeverity severity, time_t timestamp, const char* message, size_t len) { if ( FLAGS_logtostderr ) { // global flag: never log to file ColoredWriteToStderr(severity, message, len); } else { // for (int i = severity; i >= 0; --i) LogDestination::MaybeLogToLogfile(severity, timestamp, message, len); } } inline void LogDestination::LogToSinks(LogSeverity severity, const char *full_filename, const char *base_filename, int line, const struct ::tm* tm_time, const char* message, size_t message_len) { ReaderMutexLock l(&sink_mutex_); if (sinks_) { for (int i = sinks_->size() - 1; i >= 0; i--) { (*sinks_)[i]->send(severity, full_filename, base_filename, line, tm_time, message, message_len); } } } inline void LogDestination::WaitForSinks(LogMessage::LogMessageData* data) { ReaderMutexLock l(&sink_mutex_); if (sinks_) { for (int i = sinks_->size() - 1; i >= 0; i--) { (*sinks_)[i]->WaitTillSent(); } } const bool send_to_sink = (data->send_method_ == &LogMessage::SendToSink) || (data->send_method_ == &LogMessage::SendToSinkAndLog); if (send_to_sink && data->sink_ != NULL) { data->sink_->WaitTillSent(); } } /*lint +e695 */ LogDestination* LogDestination::log_destinations_[NUM_SEVERITIES]; inline LogDestination* LogDestination::log_destination(LogSeverity severity) { assert(severity >=0 && severity < NUM_SEVERITIES); if (!log_destinations_[severity]) { log_destinations_[severity] = new LogDestination(severity, NULL); } return log_destinations_[severity]; } void LogDestination::DeleteLogDestinations() { for (int severity = 0; severity < NUM_SEVERITIES; ++severity) { delete log_destinations_[severity]; log_destinations_[severity] = NULL; } } namespace { LogFileObject::LogFileObject(LogSeverity severity, const char* base_filename) : base_filename_selected_(base_filename != NULL), base_filename_((base_filename != NULL) ? base_filename : ""), symlink_basename_(glog_ns_internal_namespace_::ProgramInvocationShortName()), filename_extension_(), whole_filename_(), file_(NULL), severity_(severity), bytes_since_flush_(0), file_length_(0), rollover_attempt_(kRolloverAttemptFrequency-1), next_flush_time_(0) { assert(severity >= 0); assert(severity < NUM_SEVERITIES); } LogFileObject::~LogFileObject() { MutexLock l(&lock_); if (file_ != NULL) { fclose(file_); file_ = NULL; } } void LogFileObject::SetBasename(const char* basename) { MutexLock l(&lock_); base_filename_selected_ = true; if (base_filename_ != basename) { // Get rid of old log file since we are changing names if (file_ != NULL) { fclose(file_); file_ = NULL; rollover_attempt_ = kRolloverAttemptFrequency-1; } base_filename_ = basename; } } void LogFileObject::SetExtension(const char* ext) { MutexLock l(&lock_); if (filename_extension_ != ext) { // Get rid of old log file since we are changing names if (file_ != NULL) { fclose(file_); file_ = NULL; rollover_attempt_ = kRolloverAttemptFrequency-1; } filename_extension_ = ext; } } void LogFileObject::SetSymlinkBasename(const char* symlink_basename) { MutexLock l(&lock_); symlink_basename_ = symlink_basename; } void LogFileObject::Flush() { MutexLock l(&lock_); FlushUnlocked(); } void LogFileObject::FlushUnlocked(){ if (file_ != NULL) { fflush(file_); bytes_since_flush_ = 0; } // Figure out when we are due for another flush. const int64 next = (FLAGS_logbufsecs * static_cast(1000000)); // in usec next_flush_time_ = CycleClock_Now() + UsecToCycles(next); } void LogFileObject::ReleaseObjectlock(){ // release the file object lock lock_ #if defined(HAVE_PTHREAD) && defined(HAVE_RWLOCK) lock_.ForceUnlock(); #endif return; } /* 1. the writing log file don't has timestamp,no need input time string, 2. the string_filename diff with running and operation file which in one process; 3. add a new member whole_filename_ which will use in Write; 4. add the permission check for filename; 5. fcntl will enter nstack api ,and no need check here, delete.*/ bool LogFileObject::CreateLogfile( ) { /* string string_filename = base_filename_+filename_extension_+ time_pid_string; */ string string_filename = ""; uint32 last_file_len = 0; /* segregate the dump info, Begin */ if(severity_ == GLOG_WARNING) { string_filename = base_filename_+"operation.log"; } else if(severity_ == GLOG_ERROR) { string_filename = base_filename_+"nstack_error.log"; } else { string_filename = base_filename_+filename_extension_; } /* End */ whole_filename_ = string_filename; const char* filename = string_filename.c_str(); int fd = open(filename, O_WRONLY | O_CREAT | O_APPEND | O_CLOEXEC , 0664); if (fd == -1) return false; //when restart the stack,it can add on same file unreach the Max log size. if(0 == access(filename, W_OK)) { last_file_len = get_file_size(fd); file_length_ += last_file_len; bytes_since_flush_ += last_file_len; } #ifdef HAVE_FCNTL // Mark the file close-on-exec. We don't really care if this fails // fcntl(fd, F_SETFD, FD_CLOEXEC); #endif file_ = fdopen(fd, "a"); // Make a FILE*. if (file_ == NULL) { // Man, we're screwed! close(fd); unlink(filename); // Erase the half-baked evidence: an unusable log file return false; } // We try to create a symlink called ., // which is easier to use. (Every time we create a new logfile, // we destroy the old symlink and create a new one, so it always // points to the latest logfile.) If it fails, we're sad but it's // no error. if (!symlink_basename_.empty()) { // take directory from filename const char* slash = strrchr(filename, PATH_SEPARATOR); const string linkname = symlink_basename_ + '.' + LogSeverityNames[severity_]; string linkpath; if ( slash ) linkpath = string(filename, slash-filename+1); // get dirname linkpath += linkname; unlink(linkpath.c_str()); // delete old one if it exists #if defined(OS_WINDOWS) // TODO(hamaji): Create lnk file on Windows? #elif defined(HAVE_UNISTD_H) // We must have unistd.h. // Make the symlink be relative (in the same dir) so that if the // entire log directory gets relocated the link is still valid. const char *linkdest = slash ? (slash + 1) : filename; if (symlink(linkdest, linkpath.c_str()) != 0) { // silently ignore failures } // Make an additional link to the log file in a place specified by // FLAGS_log_link, if indicated if (!FLAGS_log_link.empty()) { linkpath = FLAGS_log_link + "/" + linkname; unlink(linkpath.c_str()); // delete old one if it exists if (symlink(filename, linkpath.c_str()) != 0) { // silently ignore failures } } #endif } return true; // Everything worked } /* 1. no need new pid use a new file writing log, 2. add the modify_path_count,if log num exceed modify_path_count, remove old new; 3. if log file exceed max_size or log file num , flues , bytes_since_flush_ = 1000000; 4. remove the no useful fields in log file name; 5. fcntl will enter nstack api ,and no need check here, delete.*/ void LogFileObject::Write(bool force_flush, time_t timestamp, const char* message, int message_len) { MutexLock l(&lock_); // We don't log if the base_name_ is "" (which means "don't write") if (base_filename_selected_ && base_filename_.empty()) { return; } if (static_cast(file_length_ >> 20) >= MaxLogSize() || modify_path_count > 0){ int retVal = -1; unsigned int same_file_count = 1; char fileno[2]; struct ::tm postfix_time; if (glogCtrlOpt == USE_USR_GM_TIME) { my_gmtime_r(×tamp, &postfix_time); } else { localtime_r(×tamp, &postfix_time); } // The logfile's filename will have the date/time & pid in it ostringstream time_stream; time_stream.fill('0'); time_stream << 1900+postfix_time.tm_year << setw(2) << 1+postfix_time.tm_mon << setw(2) << postfix_time.tm_mday << setw(2) << postfix_time.tm_hour << setw(2) << postfix_time.tm_min << setw(2) << postfix_time.tm_sec; const string& time_string = time_stream.str(); string new_filename = whole_filename_+'.'+time_string; string temp_filename = new_filename; // rename file, incase same log file generate in one second while ((same_file_count < log_file_count) && (0 == access(new_filename.c_str(), W_OK))) { retVal = snprintf(fileno, sizeof(fileno), "%d",same_file_count); if (-1 == retVal) { return; } new_filename = temp_filename+'.'+fileno; same_file_count++; } (void)rename(whole_filename_.c_str(), new_filename.c_str()); (void)remove(whole_filename_.c_str()); // We're going to (potentially) try to put logs in several different dirs const vector & log_dirs = GetLoggingDirectories(); // Go through the list of dirs, and try to create the log file in each // until we succeed or run out of options for (vector::const_iterator dir = log_dirs.begin(); dir != log_dirs.end(); ++dir) { string log_path = *dir + "/"; (void)remove_old_file(log_path.c_str(), whole_filename_.c_str()); } if (file_ != NULL) fclose(file_); file_ = NULL; file_length_ = 0; //when backup or modify path, log recently. bytes_since_flush_ = 1000000; rollover_attempt_ = kRolloverAttemptFrequency-1; if(modify_path_count > 0){ UpdateLoggingDirectories(); base_filename_.clear(); whole_filename_.clear(); modify_path_count = 0; } } // If there's no destination file, make one before outputting if (file_ == NULL) { // Try to rollover the log file every 32 log messages. The only time // this could matter would be when we have trouble creating the log // file. If that happens, we'll lose lots of log messages, of course! if (++rollover_attempt_ != kRolloverAttemptFrequency) return; rollover_attempt_ = 0; if (base_filename_selected_) { if (!CreateLogfile()) { perror("Could not create log file"); fprintf(stderr, "COULD NOT CREATE LOGFILE !\n"); return; } } else { // If no base filename for logs of this severity has been set, use a // default base filename of // "...log..". So // logfiles will have names like // webserver.examplehost.root.log.INFO.19990817-150000.4354, where // 19990817 is a date (1999 August 17), 150000 is a time (15:00:00), // and 4354 is the pid of the logging process. The date & time reflect // when the file was created for output. // // Where does the file get put? Successively try the directories // "/tmp", and "." // We're going to (potentially) try to put logs in several different dirs const vector & log_dirs = GetLoggingDirectories(); // Go through the list of dirs, and try to create the log file in each // until we succeed or run out of options bool success = false; for (vector::const_iterator dir = log_dirs.begin(); dir != log_dirs.end(); ++dir) { base_filename_ = *dir + "/"; if ( CreateLogfile() ) { success = true; break; } } // If we never succeeded, we have to give up if ( success == false ) { perror("Could not create logging file"); fprintf(stderr, "COULD NOT CREATE A LOGGINGFILE !"); return; } } struct ::tm tm_time; if (glogCtrlOpt == USE_USR_GM_TIME) { my_gmtime_r(×tamp, &tm_time); } else { localtime_r(×tamp, &tm_time); } // Write a header message into the log file ostringstream file_header_stream; file_header_stream.fill('0'); file_header_stream << "Log file created at: " << 1900+tm_time.tm_year << '/' << setw(2) << 1+tm_time.tm_mon << '/' << setw(2) << tm_time.tm_mday << ' ' << setw(2) << tm_time.tm_hour << ':' << setw(2) << tm_time.tm_min << ':' << setw(2) << tm_time.tm_sec << '\n' << "Running on machine: " << LogDestination::hostname() << '\n' << "Log line format: [IWEF]mmdd hh:mm:ss.uuuuuu " << "threadid file:line] msg" << '\n'; const string& file_header_string = file_header_stream.str(); const int header_len = file_header_string.size(); fwrite(file_header_string.data(), 1, header_len, file_); file_length_ += header_len; bytes_since_flush_ += header_len; } // Write to LOG file if ( !stop_writing ) { // fwrite() doesn't return an error when the disk is full, for // messages that are less than 4096 bytes. When the disk is full, // it returns the message length for messages that are less than // 4096 bytes. fwrite() returns 4096 for message lengths that are // greater than 4096, thereby indicating an error. errno = 0; fwrite(message, 1, message_len, file_); if ( FLAGS_stop_logging_if_full_disk && errno == ENOSPC ) { // disk full, stop writing to disk stop_writing = true; // until the disk is return; } else { file_length_ += message_len; bytes_since_flush_ += message_len; } } else { if ( CycleClock_Now() >= next_flush_time_ ) stop_writing = false; // check to see if disk has free space. return; // no need to flush } // See important msgs *now*. Also, flush logs at least every 10^6 chars, // or every "FLAGS_logbufsecs" seconds. if(force_flush) { FlushUnlocked(); #ifdef OS_LINUX if (FLAGS_drop_log_memory) { if (file_length_ >= logging::kPageSize) { // don't evict the most recent page uint32 len = file_length_ & ~(logging::kPageSize - 1); posix_fadvise(fileno(file_), 0, len, POSIX_FADV_DONTNEED); } } #endif } } } // namespace // Static log data space to avoid alloc failures in a LOG(FATAL) // // Since multiple threads may call LOG(FATAL), and we want to preserve // the data from the first call, we allocate two sets of space. One // for exclusive use by the first thread, and one for shared use by // all other threads. static CrashReason crash_reason; static bool fatal_msg_exclusive = true; static LogMessage::LogMessageData fatal_msg_data_exclusive; static LogMessage::LogMessageData fatal_msg_data_shared; LogMessage::LogMessageData::LogMessageData() : stream_(message_text_, LogMessage::kMaxLogMessageLen, 0) { } LogMessage::LogMessage(const char* file, int line, LogSeverity severity, int ctr, void (LogMessage::*send_method)()) : allocated_(NULL) { Init(file, line, severity, send_method); data_->stream_.set_ctr(ctr); } LogMessage::LogMessage(const char* file, int line, const CheckOpString& result) : allocated_(NULL) { Init(file, line, GLOG_FATAL, &LogMessage::SendToLog); stream() << "Check failed: " << (*result.str_) << " "; } LogMessage::LogMessage(const char* file, int line) : allocated_(NULL) { Init(file, line, GLOG_INFO, &LogMessage::SendToLog); } LogMessage::LogMessage(const char* file, int line, LogSeverity severity) : allocated_(NULL) { Init(file, line, severity, &LogMessage::SendToLog); } LogMessage::LogMessage(const char* file, int line, LogSeverity severity, int level) : allocated_(NULL) { Init(file, line, severity,level, &LogMessage::SendToLog); } LogMessage::LogMessage(const char* file, int line, LogSeverity severity, LogSink* sink, bool also_send_to_log) : allocated_(NULL) { Init(file, line, severity, also_send_to_log ? &LogMessage::SendToSinkAndLog : &LogMessage::SendToSink); data_->sink_ = sink; // override Init()'s setting to NULL } LogMessage::LogMessage(const char* file, int line, LogSeverity severity, vector *outvec) : allocated_(NULL) { Init(file, line, severity, &LogMessage::SaveOrSendToLog); data_->outvec_ = outvec; // override Init()'s setting to NULL } LogMessage::LogMessage(const char* file, int line, LogSeverity severity, string *message) : allocated_(NULL) { Init(file, line, severity, &LogMessage::WriteToStringAndLog); data_->message_ = message; // override Init()'s setting to NULL } void LogMessage::Init(const char* file, int line, LogSeverity severity, void (LogMessage::*send_method)()) { allocated_ = NULL; if (severity != GLOG_FATAL || !exit_on_dfatal) { allocated_ = new LogMessageData(); data_ = allocated_; data_->first_fatal_ = false; } else { MutexLock l(&fatal_msg_lock); if (fatal_msg_exclusive) { fatal_msg_exclusive = false; data_ = &fatal_msg_data_exclusive; data_->first_fatal_ = true; } else { data_ = &fatal_msg_data_shared; data_->first_fatal_ = false; } } stream().fill('0'); data_->preserved_errno_ = errno; data_->severity_ = severity; data_->line_ = line; data_->send_method_ = send_method; data_->sink_ = NULL; data_->outvec_ = NULL; WallTime now = WallTime_Now(); data_->timestamp_ = static_cast(now); if (glogCtrlOpt == USE_USR_GM_TIME) { my_gmtime_r(&data_->timestamp_, &data_->tm_time_); } else { localtime_r(&data_->timestamp_, &data_->tm_time_); } int usecs = static_cast((now - data_->timestamp_) * 1000000); RawLog__SetLastTime(data_->tm_time_, usecs); data_->num_chars_to_log_ = 0; data_->num_chars_to_syslog_ = 0; data_->basename_ = const_basename(file); data_->fullname_ = file; data_->has_been_flushed_ = false; // If specified, prepend a prefix to each line. For example: // I1018 160715 f5d4fbb0 logging.cc:1153] // (log level, GMT month, date, time, thread_id, file basename, line) // We exclude the thread_id for the default thread. if (FLAGS_log_prefix && (line != kNoLogPrefix)) { stream() << LogSeverityNames[severity][0] << setw(2) << 1+data_->tm_time_.tm_mon << setw(2) << data_->tm_time_.tm_mday << ' ' << setw(2) << data_->tm_time_.tm_hour << ':' << setw(2) << data_->tm_time_.tm_min << ':' << setw(2) << data_->tm_time_.tm_sec << "." << setw(6) << usecs << ' ' << setfill(' ') << setw(5) << static_cast(GetTID()) << setfill('0') << ' ' << data_->basename_ << ':' << data_->line_ << "] "; } data_->num_prefix_chars_ = data_->stream_.pcount(); if (!FLAGS_log_backtrace_at.empty()) { char fileline[128]; snprintf(fileline, sizeof(fileline), "%s:%d", data_->basename_, line); #ifdef HAVE_STACKTRACE if (!strcmp(FLAGS_log_backtrace_at.c_str(), fileline)) { string stacktrace; DumpStackTraceToString(&stacktrace); stream() << " (stacktrace:\n" << stacktrace << ") "; } #endif } } void LogMessage::Init(const char* file, int line, LogSeverity severity, int level, void (LogMessage::*send_method)()) { allocated_ = NULL; if (severity != GLOG_FATAL || !exit_on_dfatal) { allocated_ = new LogMessageData(); data_ = allocated_; data_->first_fatal_ = false; } else { MutexLock l(&fatal_msg_lock); if (fatal_msg_exclusive) { fatal_msg_exclusive = false; data_ = &fatal_msg_data_exclusive; data_->first_fatal_ = true; } else { data_ = &fatal_msg_data_shared; data_->first_fatal_ = false; } } stream().fill('0'); data_->preserved_errno_ = errno; data_->severity_ = severity; data_->level_ = level; data_->line_ = line; data_->send_method_ = send_method; data_->sink_ = NULL; data_->outvec_ = NULL; WallTime now = WallTime_Now(); data_->timestamp_ = static_cast(now); if (glogCtrlOpt == USE_USR_GM_TIME) { my_gmtime_r(&data_->timestamp_, &data_->tm_time_); } else { localtime_r(&data_->timestamp_, &data_->tm_time_); } int usecs = static_cast((now - data_->timestamp_) * 1000000); RawLog__SetLastTime(data_->tm_time_, usecs); data_->num_chars_to_log_ = 0; data_->num_chars_to_syslog_ = 0; data_->basename_ = const_basename(file); data_->fullname_ = file; data_->has_been_flushed_ = false; if (FLAGS_log_prefix && (line != kNoLogPrefix)) { stream() << nstack_level_names[level][0] << setw(2) << 1+data_->tm_time_.tm_mon << setw(2) << data_->tm_time_.tm_mday << ' ' << setw(2) << data_->tm_time_.tm_hour << ':' << setw(2) << data_->tm_time_.tm_min << ':' << setw(2) << data_->tm_time_.tm_sec << "." << setw(6) << usecs << ' ' << setfill(' ') << setw(5) << static_cast(GetTID()) << setfill('0') << ' ' << data_->basename_ << ':' << data_->line_ << "] "; } data_->num_prefix_chars_ = data_->stream_.pcount(); if (!FLAGS_log_backtrace_at.empty()) { char fileline[128]; snprintf(fileline, sizeof(fileline), "%s:%d", data_->basename_, line); #ifdef HAVE_STACKTRACE if (!strcmp(FLAGS_log_backtrace_at.c_str(), fileline)) { string stacktrace; DumpStackTraceToString(&stacktrace); stream() << " (stacktrace:\n" << stacktrace << ") "; } #endif } } LogMessage::~LogMessage() { Flush(); delete allocated_; } int LogMessage::preserved_errno() const { return data_->preserved_errno_; } ostream& LogMessage::stream() { return data_->stream_; } // Flush buffered message, called by the destructor, or any other function // that needs to synchronize the log. void LogMessage::Flush() { if (data_->has_been_flushed_ || data_->severity_ < FLAGS_minloglevel) return; data_->num_chars_to_log_ = data_->stream_.pcount(); data_->num_chars_to_syslog_ = data_->num_chars_to_log_ - data_->num_prefix_chars_; // Do we need to add a \n to the end of this message? bool append_newline = (data_->message_text_[data_->num_chars_to_log_-1] != '\n'); char original_final_char = '\0'; // If we do need to add a \n, we'll do it by violating the memory of the // ostrstream buffer. This is quick, and we'll make sure to undo our // modification before anything else is done with the ostrstream. It // would be preferable not to do things this way, but it seems to be // the best way to deal with this. if (append_newline) { original_final_char = data_->message_text_[data_->num_chars_to_log_]; data_->message_text_[data_->num_chars_to_log_++] = '\n'; } // Prevent any subtle race conditions by wrapping a mutex lock around // the actual logging action per se. { MutexLock l(&log_mutex); (this->*(data_->send_method_))(); ++num_messages_[static_cast(data_->severity_)]; } LogDestination::WaitForSinks(data_); if (append_newline) { // Fix the ostrstream back how it was before we screwed with it. // It's 99.44% certain that we don't need to worry about doing this. data_->message_text_[data_->num_chars_to_log_-1] = original_final_char; } // If errno was already set before we enter the logging call, we'll // set it back to that value when we return from the logging call. // It happens often that we log an error message after a syscall // failure, which can potentially set the errno to some other // values. We would like to preserve the original errno. if (data_->preserved_errno_ != 0) { errno = data_->preserved_errno_; } // Note that this message is now safely logged. If we're asked to flush // again, as a result of destruction, say, we'll do nothing on future calls. data_->has_been_flushed_ = true; } // Copy of first FATAL log message so that we can print it out again // after all the stack traces. To preserve legacy behavior, we don't // use fatal_msg_data_exclusive. static time_t fatal_time; static char fatal_message[256]; void ReprintFatalMessage() { if (fatal_message[0]) { const int n = strlen(fatal_message); if (!FLAGS_logtostderr) { // Also write to stderr (don't color to avoid terminal checks) WriteToStderr(fatal_message, n); } LogDestination::LogToAllLogfiles(GLOG_ERROR, fatal_time, fatal_message, n); } } // L >= log_mutex (callers must hold the log_mutex). void LogMessage::SendToLog() EXCLUSIVE_LOCKS_REQUIRED(log_mutex) { static bool already_warned_before_initgoogle = false; log_mutex.AssertHeld(); RAW_DCHECK(data_->num_chars_to_log_ > 0 && data_->message_text_[data_->num_chars_to_log_-1] == '\n', ""); // Messages of a given severity get logged to lower severity logs, too if (!already_warned_before_initgoogle && !IsGoogleLoggingInitialized()) { const char w[] = "WARNING: Logging before InitGoogleLogging() is " "written to STDERR\n"; WriteToStderr(w, strlen(w)); already_warned_before_initgoogle = true; } // global flag: never log to file if set. Also -- don't log to a // file if we haven't parsed the command line flags to get the // program name. if (FLAGS_logtostderr || !IsGoogleLoggingInitialized()) { ColoredWriteToStderr(data_->severity_, data_->message_text_, data_->num_chars_to_log_); // this could be protected by a flag if necessary. LogDestination::LogToSinks(data_->severity_, data_->fullname_, data_->basename_, data_->line_, &data_->tm_time_, data_->message_text_ + data_->num_prefix_chars_, (data_->num_chars_to_log_ - data_->num_prefix_chars_ - 1)); } else { // log this message to all log files of severity <= severity_ LogDestination::LogToAllLogfiles(data_->severity_, data_->timestamp_, data_->message_text_, data_->num_chars_to_log_); LogDestination::MaybeLogToStderr(data_->severity_, data_->message_text_, data_->num_chars_to_log_); LogDestination::MaybeLogToEmail(data_->severity_, data_->message_text_, data_->num_chars_to_log_); LogDestination::LogToSinks(data_->severity_, data_->fullname_, data_->basename_, data_->line_, &data_->tm_time_, data_->message_text_ + data_->num_prefix_chars_, (data_->num_chars_to_log_ - data_->num_prefix_chars_ - 1)); // NOTE: -1 removes trailing \n } // If we log a FATAL message, flush all the log destinations, then toss // a signal for others to catch. We leave the logs in a state that // someone else can use them (as long as they flush afterwards) if (data_->severity_ == GLOG_FATAL && exit_on_dfatal) { if (data_->first_fatal_) { // Store crash information so that it is accessible from within signal // handlers that may be invoked later. RecordCrashReason(&crash_reason); SetCrashReason(&crash_reason); // Store shortened fatal message for other logs and GWQ status const int copy = min(data_->num_chars_to_log_, sizeof(fatal_message)-1); memcpy(fatal_message, data_->message_text_, copy); fatal_message[copy] = '\0'; fatal_time = data_->timestamp_; } if (!FLAGS_logtostderr) { for (int i = 0; i < NUM_SEVERITIES; ++i) { if ( LogDestination::log_destinations_[i] ) LogDestination::log_destinations_[i]->logger_->Write(true, 0, "", 0); } } // release the lock that our caller (directly or indirectly) // LogMessage::~LogMessage() grabbed so that signal handlers // can use the logging facility. Alternately, we could add // an entire unsafe logging interface to bypass locking // for signal handlers but this seems simpler. log_mutex.Unlock(); LogDestination::WaitForSinks(data_); // no need to print this message. by CAD/LSK request #if 0 const char* message = "*** Check failure stack trace: ***\n"; if (write(STDERR_FILENO, message, strlen(message)) < 0) { // Ignore errors. } #endif Fail(); } } void LogMessage::RecordCrashReason( glog_ns_internal_namespace_::CrashReason* reason) { reason->filename = fatal_msg_data_exclusive.fullname_; reason->line_number = fatal_msg_data_exclusive.line_; reason->message = fatal_msg_data_exclusive.message_text_ + fatal_msg_data_exclusive.num_prefix_chars_; #ifdef HAVE_STACKTRACE // Retrieve the stack trace, omitting the logging frames that got us here. reason->depth = GetStackTrace(reason->stack, ARRAYSIZE(reason->stack), 4); #else reason->depth = 0; #endif } #ifdef HAVE___ATTRIBUTE__ # define ATTRIBUTE_NORETURN __attribute__((noreturn)) #else # define ATTRIBUTE_NORETURN #endif static void logging_fail() ATTRIBUTE_NORETURN; static void logging_fail() { #if defined(_DEBUG) && defined(_MSC_VER) // When debugging on windows, avoid the obnoxious dialog and make // it possible to continue past a LOG(FATAL) in the debugger _asm int 3 #else abort(); #endif } typedef void (*logging_fail_func_t)() ATTRIBUTE_NORETURN; GOOGLE_GLOG_DLL_DECL logging_fail_func_t g_logging_fail_func = &logging_fail; void InstallFailureFunction(void (*fail_func)()) { g_logging_fail_func = (logging_fail_func_t)fail_func; } void LogMessage::Fail() { g_logging_fail_func(); } // L >= log_mutex (callers must hold the log_mutex). void LogMessage::SendToSink() EXCLUSIVE_LOCKS_REQUIRED(log_mutex) { if (data_->sink_ != NULL) { RAW_DCHECK(data_->num_chars_to_log_ > 0 && data_->message_text_[data_->num_chars_to_log_-1] == '\n', ""); data_->sink_->send(data_->severity_, data_->fullname_, data_->basename_, data_->line_, &data_->tm_time_, data_->message_text_ + data_->num_prefix_chars_, (data_->num_chars_to_log_ - data_->num_prefix_chars_ - 1)); } } // L >= log_mutex (callers must hold the log_mutex). void LogMessage::SendToSinkAndLog() EXCLUSIVE_LOCKS_REQUIRED(log_mutex) { SendToSink(); SendToLog(); } // L >= log_mutex (callers must hold the log_mutex). void LogMessage::SaveOrSendToLog() EXCLUSIVE_LOCKS_REQUIRED(log_mutex) { if (data_->outvec_ != NULL) { RAW_DCHECK(data_->num_chars_to_log_ > 0 && data_->message_text_[data_->num_chars_to_log_-1] == '\n', ""); // Omit prefix of message and trailing newline when recording in outvec_. const char *start = data_->message_text_ + data_->num_prefix_chars_; int len = data_->num_chars_to_log_ - data_->num_prefix_chars_ - 1; data_->outvec_->push_back(string(start, len)); } else { SendToLog(); } } void LogMessage::WriteToStringAndLog() EXCLUSIVE_LOCKS_REQUIRED(log_mutex) { if (data_->message_ != NULL) { RAW_DCHECK(data_->num_chars_to_log_ > 0 && data_->message_text_[data_->num_chars_to_log_-1] == '\n', ""); // Omit prefix of message and trailing newline when writing to message_. const char *start = data_->message_text_ + data_->num_prefix_chars_; int len = data_->num_chars_to_log_ - data_->num_prefix_chars_ - 1; data_->message_->assign(start, len); } SendToLog(); } // L >= log_mutex (callers must hold the log_mutex). void LogMessage::SendToSyslogAndLog() { #ifdef HAVE_SYSLOG_H // Before any calls to syslog(), make a single call to openlog() static bool openlog_already_called = false; if (!openlog_already_called) { openlog(glog_ns_internal_namespace_::ProgramInvocationShortName(), LOG_CONS | LOG_NDELAY | LOG_PID, LOG_USER); openlog_already_called = true; } // This array maps Google severity levels to syslog levels const int SEVERITY_TO_LEVEL[] = { LOG_INFO, LOG_WARNING, LOG_ERR, LOG_EMERG }; syslog(LOG_USER | SEVERITY_TO_LEVEL[static_cast(data_->severity_)], "%.*s", int(data_->num_chars_to_syslog_), data_->message_text_ + data_->num_prefix_chars_); SendToLog(); #else LOG(ERROR) << "No syslog support: message=" << data_->message_text_; #endif } base_ns::Logger* base_ns::GetLogger(LogSeverity severity) { MutexLock l(&log_mutex); return LogDestination::log_destination(severity)->logger_; } void base_ns::SetLogger(LogSeverity severity, base_ns::Logger* logger) { MutexLock l(&log_mutex); LogDestination::log_destination(severity)->logger_ = logger; } // L < log_mutex. Acquires and releases mutex_. int64 LogMessage::num_messages(int severity) { MutexLock l(&log_mutex); return num_messages_[severity]; } // Output the COUNTER value. This is only valid if ostream is a // LogStream. ostream& operator<<(ostream &os, const PRIVATE_Counter&) { #ifdef DISABLE_RTTI LogMessage::LogStream *log = static_cast(&os); #else LogMessage::LogStream *log = dynamic_cast(&os); #endif CHECK(log && log == log->self()) << "You must not use COUNTER with non-glog ostream"; os << log->ctr(); return os; } ErrnoLogMessage::ErrnoLogMessage(const char* file, int line, LogSeverity severity, int ctr, void (LogMessage::*send_method)()) : LogMessage(file, line, severity, ctr, send_method) { } ErrnoLogMessage::~ErrnoLogMessage() { // Don't access errno directly because it may have been altered // while streaming the message. stream() << ": " << StrError(preserved_errno()) << " [" << preserved_errno() << "]"; } void FlushLogFiles(LogSeverity min_severity) { LogDestination::FlushLogFiles(min_severity); } void FlushLogFilesUnsafe(LogSeverity min_severity) { LogDestination::FlushLogFilesUnsafe(min_severity); } void RleaseLogSinkLock(LogSeverity min_severity) { LogDestination::RleaseLogSinkLock(min_severity); } void SetLogDestination(LogSeverity severity, const char* base_filename) { LogDestination::SetLogDestination(severity, base_filename); } void SetLogSymlink(LogSeverity severity, const char* symlink_basename) { LogDestination::SetLogSymlink(severity, symlink_basename); } LogSink::~LogSink() { } void LogSink::WaitTillSent() { // noop default } string LogSink::ToString(LogSeverity severity, const char* file, int line, const struct ::tm* tm_time, const char* message, size_t message_len) { ostringstream stream(string(message, message_len)); stream.fill('0'); // FIXME(jrvb): Updating this to use the correct value for usecs // requires changing the signature for both this method and // LogSink::send(). This change needs to be done in a separate CL // so subclasses of LogSink can be updated at the same time. int usecs = 0; stream << LogSeverityNames[severity][0] << setw(2) << 1+tm_time->tm_mon << setw(2) << tm_time->tm_mday << ' ' << setw(2) << tm_time->tm_hour << ':' << setw(2) << tm_time->tm_min << ':' << setw(2) << tm_time->tm_sec << '.' << setw(6) << usecs << ' ' << setfill(' ') << setw(5) << GetTID() << setfill('0') << ' ' << file << ':' << line << "] "; stream << string(message, message_len); return stream.str(); } void AddLogSink(LogSink *destination) { LogDestination::AddLogSink(destination); } void RemoveLogSink(LogSink *destination) { LogDestination::RemoveLogSink(destination); } void SetLogFilenameExtension(const char* ext) { LogDestination::SetLogFilenameExtension(ext); } void SetStderrLogging(LogSeverity min_severity) { LogDestination::SetStderrLogging(min_severity); } void SetEmailLogging(LogSeverity min_severity, const char* addresses) { LogDestination::SetEmailLogging(min_severity, addresses); } void LogToStderr() { LogDestination::LogToStderr(); } namespace base_ns { namespace internal_ns { bool GetExitOnDFatal() { MutexLock l(&log_mutex); return exit_on_dfatal; } // Determines whether we exit the program for a LOG(DFATAL) message in // debug mode. It does this by skipping the call to Fail/FailQuietly. // This is intended for testing only. // // This can have some effects on LOG(FATAL) as well. Failure messages // are always allocated (rather than sharing a buffer), the crash // reason is not recorded, the "gwq" status message is not updated, // and the stack trace is not recorded. The LOG(FATAL) *will* still // exit the program. Since this function is used only in testing, // these differences are acceptable. void SetExitOnDFatal(bool value) { MutexLock l(&log_mutex); exit_on_dfatal = value; } } // namespace internal_ns } // namespace base_ns // use_logging controls whether the logging functions LOG/VLOG are used // to log errors. It should be set to false when the caller holds the // log_mutex. static bool SendEmailInternal(const char*dest, const char *subject, const char*body, bool use_logging) { if (dest && *dest) { if ( use_logging ) { VLOG(1) << "Trying to send TITLE:" << subject << " BODY:" << body << " to " << dest; } else { fprintf(stderr, "Trying to send TITLE: %s BODY: %s to %s\n", subject, body, dest); } string cmd = FLAGS_logmailer + " -s\"" + subject + "\" " + dest; FILE* pipe = popen(cmd.c_str(), "w"); if (pipe != NULL) { // Add the body if we have one if (body) fwrite(body, sizeof(char), strlen(body), pipe); bool ok = pclose(pipe) != -1; if ( !ok ) { if ( use_logging ) { LOG(ERROR) << "Problems sending mail to " << dest << ": " << StrError(errno); } else { fprintf(stderr, "Problems sending mail to %s: %s\n", dest, StrError(errno).c_str()); } } return ok; } else { if ( use_logging ) { LOG(ERROR) << "Unable to send mail to " << dest; } else { fprintf(stderr, "Unable to send mail to %s\n", dest); } } } return false; } bool SendEmail(const char*dest, const char *subject, const char*body){ return SendEmailInternal(dest, subject, body, true); } static void GetTempDirectories(vector* list) { list->clear(); #ifdef OS_WINDOWS // On windows we'll try to find a directory in this order: // C:/Documents & Settings/whomever/TEMP (or whatever GetTempPath() is) // C:/TMP/ // C:/TEMP/ // C:/WINDOWS/ or C:/WINNT/ // . char tmp[MAX_PATH]; if (GetTempPathA(MAX_PATH, tmp)) list->push_back(tmp); list->push_back("C:\\tmp\\"); list->push_back("C:\\temp\\"); #else // Directories, in order of preference. If we find a dir that // exists, we stop adding other less-preferred dirs const char * candidates[] = { // Non-null only during unittest/regtest getenv("TEST_TMPDIR"), // Explicitly-supplied temp dirs getenv("TMPDIR"), getenv("TMP"), // If all else fails "/tmp", }; for (size_t i = 0; i < ARRAYSIZE(candidates); i++) { const char *d = candidates[i]; if (!d) continue; // Empty env var // Make sure we don't surprise anyone who's expecting a '/' string dstr = d; if (dstr[dstr.size() - 1] != '/') { dstr += "/"; } list->push_back(dstr); struct stat statbuf; if (!stat(d, &statbuf) && S_ISDIR(statbuf.st_mode)) { // We found a dir that exists - we're done. return; } } #endif } static vector* logging_directories_list; const vector& GetLoggingDirectories() { // Not strictly thread-safe but we're called early in InitGoogle(). if (logging_directories_list == NULL) { logging_directories_list = new vector; if ( !FLAGS_log_dir.empty() ) { // A dir was specified, we should use it logging_directories_list->push_back(FLAGS_log_dir.c_str()); } else { GetTempDirectories(logging_directories_list); #ifdef OS_WINDOWS char tmp[MAX_PATH]; if (GetWindowsDirectoryA(tmp, MAX_PATH)) logging_directories_list->push_back(tmp); logging_directories_list->push_back(".\\"); #else logging_directories_list->push_back("./"); #endif } } return *logging_directories_list; } /***************************************************************************** * Prototype : UpdateLoggingDirectories * Description : modify the log directories, * Input : NA * Output : NA * Return Value : void * Calls : * Called By : *****************************************************************************/ void UpdateLoggingDirectories() { if (NULL != logging_directories_list && !FLAGS_log_dir.empty()) { vector::iterator dir = logging_directories_list->begin(); while(dir != logging_directories_list->end()){ dir = logging_directories_list->erase(dir); } logging_directories_list->push_back(FLAGS_log_dir.c_str()); } return; } void TestOnly_ClearLoggingDirectoriesList() { fprintf(stderr, "TestOnly_ClearLoggingDirectoriesList should only be " "called from test code.\n"); delete logging_directories_list; logging_directories_list = NULL; } void GetExistingTempDirectories(vector* list) { GetTempDirectories(list); vector::iterator i_dir = list->begin(); while( i_dir != list->end() ) { // zero arg to access means test for existence; no constant // defined on windows if ( access(i_dir->c_str(), 0) ) { i_dir = list->erase(i_dir); } else { ++i_dir; } } } void TruncateLogFile(const char *path, int64 limit, int64 keep) { #ifdef HAVE_UNISTD_H struct stat statbuf; const int kCopyBlockSize = 8 << 10; char copybuf[kCopyBlockSize]; int64 read_offset, write_offset; // Don't follow symlinks unless they're our own fd symlinks in /proc int flags = O_RDWR; // TODO(hamaji): Support other environments. #ifdef OS_LINUX const char *procfd_prefix = "/proc/self/fd/"; if (strncmp(procfd_prefix, path, strlen(procfd_prefix))) flags |= O_NOFOLLOW; #endif int fd = open(path, flags); if (fd == -1) { if (errno == EFBIG) { // The log file in question has got too big for us to open. The // real fix for this would be to compile logging.cc (or probably // all of base/...) with -D_FILE_OFFSET_BITS=64 but that's // rather scary. // Instead just truncate the file to something we can manage if (truncate(path, 0) == -1) { PLOG(ERROR) << "Unable to truncate " << path; } else { LOG(ERROR) << "Truncated " << path << " due to EFBIG error"; } } else { PLOG(ERROR) << "Unable to open " << path; } return; } if (fstat(fd, &statbuf) == -1) { PLOG(ERROR) << "Unable to fstat()"; goto out_close_fd; } // See if the path refers to a regular file bigger than the // specified limit if (!S_ISREG(statbuf.st_mode)) goto out_close_fd; if (statbuf.st_size <= limit) goto out_close_fd; if (statbuf.st_size <= keep) goto out_close_fd; // This log file is too large - we need to truncate it LOG(INFO) << "Truncating " << path << " to " << keep << " bytes"; // Copy the last "keep" bytes of the file to the beginning of the file read_offset = statbuf.st_size - keep; write_offset = 0; int bytesin, bytesout; while ((bytesin = pread(fd, copybuf, sizeof(copybuf), read_offset)) > 0) { bytesout = pwrite(fd, copybuf, bytesin, write_offset); if (bytesout == -1) { PLOG(ERROR) << "Unable to write to " << path; break; } else if (bytesout != bytesin) { LOG(ERROR) << "Expected to write " << bytesin << ", wrote " << bytesout; } read_offset += bytesin; write_offset += bytesout; } if (bytesin == -1) PLOG(ERROR) << "Unable to read from " << path; // Truncate the remainder of the file. If someone else writes to the // end of the file after our last read() above, we lose their latest // data. Too bad ... if (ftruncate(fd, write_offset) == -1) { PLOG(ERROR) << "Unable to truncate " << path; } out_close_fd: close(fd); #else LOG(ERROR) << "No log truncation support."; #endif } void TruncateStdoutStderr() { #ifdef HAVE_UNISTD_H int64 limit = MaxLogSize() << 20; int64 keep = 1 << 20; TruncateLogFile("/proc/self/fd/1", limit, keep); TruncateLogFile("/proc/self/fd/2", limit, keep); #else LOG(ERROR) << "No log truncation support."; #endif } // Helper functions for string comparisons. #define DEFINE_CHECK_STROP_IMPL(name, func, expected) \ string* Check##func##expected##Impl(const char* s1, const char* s2, \ const char* names) { \ bool equal = s1 == s2 || (s1 && s2 && !func(s1, s2)); \ if (equal == expected) return NULL; \ else { \ ostringstream ss; \ if (!s1) s1 = ""; \ if (!s2) s2 = ""; \ ss << #name " failed: " << names << " (" << s1 << " vs. " << s2 << ")"; \ return new string(ss.str()); \ } \ } DEFINE_CHECK_STROP_IMPL(CHECK_STREQ, strcmp, true) DEFINE_CHECK_STROP_IMPL(CHECK_STRNE, strcmp, false) DEFINE_CHECK_STROP_IMPL(CHECK_STRCASEEQ, strcasecmp, true) DEFINE_CHECK_STROP_IMPL(CHECK_STRCASENE, strcasecmp, false) #undef DEFINE_CHECK_STROP_IMPL int posix_strerror_r(int err, char *buf, size_t len) { // Sanity check input parameters if (buf == NULL || len <= 0) { errno = EINVAL; return -1; } // Reset buf and errno, and try calling whatever version of strerror_r() // is implemented by glibc buf[0] = '\000'; int old_errno = errno; errno = 0; char *rc = reinterpret_cast(strerror_r(err, buf, len)); // Both versions set errno on failure if (errno) { // Should already be there, but better safe than sorry buf[0] = '\000'; return -1; } errno = old_errno; // POSIX is vague about whether the string will be terminated, although // is indirectly implies that typically ERANGE will be returned, instead // of truncating the string. This is different from the GNU implementation. // We play it safe by always terminating the string explicitly. buf[len-1] = '\000'; // If the function succeeded, we can use its exit code to determine the // semantics implemented by glibc if (!rc) { return 0; } else { // GNU semantics detected if (rc == buf) { return 0; } else { buf[0] = '\000'; #if defined(OS_MACOSX) || defined(OS_FREEBSD) || defined(OS_OPENBSD) if (reinterpret_cast(rc) < sys_nerr) { // This means an error on MacOSX or FreeBSD. return -1; } #endif strncat(buf, rc, len-1); return 0; } } } string StrError(int err) { char buf[100]; int rc = posix_strerror_r(err, buf, sizeof(buf)); if ((rc < 0) || (buf[0] == '\000')) { snprintf(buf, sizeof(buf), "Error number %d", err); } return buf; } LogMessageFatal::LogMessageFatal(const char* file, int line) : LogMessage(file, line, GLOG_FATAL) {} LogMessageFatal::LogMessageFatal(const char* file, int line, const CheckOpString& result) : LogMessage(file, line, result) {} LogMessageFatal::~LogMessageFatal() { Flush(); LogMessage::Fail(); } namespace base_ns { CheckOpMessageBuilder::CheckOpMessageBuilder(const char *exprtext) : stream_(new ostringstream) { *stream_ << exprtext << " ("; } CheckOpMessageBuilder::~CheckOpMessageBuilder() { delete stream_; } ostream* CheckOpMessageBuilder::ForVar2() { *stream_ << " vs. "; return stream_; } string* CheckOpMessageBuilder::NewString() { *stream_ << ")"; return new string(stream_->str()); } } // namespace base_ns template <> void MakeCheckOpValueString(std::ostream* os, const char& v) { if (v >= 32 && v <= 126) { (*os) << "'" << v << "'"; } else { (*os) << "char value " << (short)v; } } template <> void MakeCheckOpValueString(std::ostream* os, const signed char& v) { if (v >= 32 && v <= 126) { (*os) << "'" << v << "'"; } else { (*os) << "signed char value " << (short)v; } } template <> void MakeCheckOpValueString(std::ostream* os, const unsigned char& v) { if (v >= 32 && v <= 126) { (*os) << "'" << v << "'"; } else { (*os) << "unsigned char value " << (unsigned short)v; } } void InitGoogleLogging(const char* argv0) { // Add: Protect to repeat init glog if (glog_ns_internal_namespace_::IsGoogleLoggingInitialized()) { LOG(ERROR) << "You init GLOG twice!"; return; } // End: Protect to repeat init glog glog_ns_internal_namespace_::InitGoogleLoggingUtilities(argv0); } void ShutdownGoogleLogging() { // Add: Protect to shutdown twice if (!glog_ns_internal_namespace_::IsGoogleLoggingInitialized()) { LOG(ERROR) << "Without initing GLOG, please init first!"; return; } // End: Protect to shutdown twice glog_ns_internal_namespace_::ShutdownGoogleLoggingUtilities(); LogDestination::DeleteLogDestinations(); delete logging_directories_list; logging_directories_list = NULL; } _END_GOOGLE_NAMESPACE_