// Copyright (c) 2009 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/logging_win.h" #include "base/singleton.h" #include // NOLINT namespace logging { using base::win::EtwEventLevel; using base::win::EtwMofEvent; DEFINE_GUID(kLogEventId, 0x7fe69228, 0x633e, 0x4f06, 0x80, 0xc1, 0x52, 0x7f, 0xea, 0x23, 0xe3, 0xa7); LogEventProvider::LogEventProvider() : old_log_level_(LOG_NONE) { } LogEventProvider* LogEventProvider::GetInstance() { return Singleton >::get(); } bool LogEventProvider::LogMessage(logging::LogSeverity severity, const char* file, int line, size_t message_start, const std::string& message) { EtwEventLevel level = TRACE_LEVEL_NONE; // Convert the log severity to the most appropriate ETW trace level. if (severity >= 0) { switch (severity) { case LOG_INFO: level = TRACE_LEVEL_INFORMATION; break; case LOG_WARNING: level = TRACE_LEVEL_WARNING; break; case LOG_ERROR: case LOG_ERROR_REPORT: level = TRACE_LEVEL_ERROR; break; case LOG_FATAL: level = TRACE_LEVEL_FATAL; break; } } else { // severity < 0 is VLOG verbosity levels. level = TRACE_LEVEL_INFORMATION - severity; } // Bail if we're not logging, not at that level, // or if we're post-atexit handling. LogEventProvider* provider = LogEventProvider::GetInstance(); if (provider == NULL || level > provider->enable_level()) return false; // And now log the event. if (provider->enable_flags() & ENABLE_LOG_MESSAGE_ONLY) { EtwMofEvent<1> event(kLogEventId, LOG_MESSAGE, level); event.SetField(0, message.length() + 1 - message_start, message.c_str() + message_start); provider->Log(event.get()); } else { const size_t kMaxBacktraceDepth = 32; void* backtrace[kMaxBacktraceDepth]; DWORD depth = 0; // Capture a stack trace if one is requested. // requested per our enable flags. if (provider->enable_flags() & ENABLE_STACK_TRACE_CAPTURE) depth = CaptureStackBackTrace(2, kMaxBacktraceDepth, backtrace, NULL); EtwMofEvent<5> event(kLogEventId, LOG_MESSAGE_FULL, level); if (file == NULL) file = ""; // Add the stack trace. event.SetField(0, sizeof(depth), &depth); event.SetField(1, sizeof(backtrace[0]) * depth, &backtrace); // The line. event.SetField(2, sizeof(line), &line); // The file. event.SetField(3, strlen(file) + 1, file); // And finally the message. event.SetField(4, message.length() + 1 - message_start, message.c_str() + message_start); provider->Log(event.get()); } // Don't increase verbosity in other log destinations. if (severity < provider->old_log_level_) return true; return false; } void LogEventProvider::Initialize(const GUID& provider_name) { LogEventProvider* provider = LogEventProvider::GetInstance(); provider->set_provider_name(provider_name); provider->Register(); // Register our message handler with logging. SetLogMessageHandler(LogMessage); } void LogEventProvider::Uninitialize() { LogEventProvider::GetInstance()->Unregister(); } void LogEventProvider::OnEventsEnabled() { // Grab the old log level so we can restore it later. old_log_level_ = GetMinLogLevel(); // Convert the new trace level to a logging severity // and enable logging at that level. EtwEventLevel level = enable_level(); if (level == TRACE_LEVEL_NONE || level == TRACE_LEVEL_FATAL) { SetMinLogLevel(LOG_FATAL); } else if (level == TRACE_LEVEL_ERROR) { SetMinLogLevel(LOG_ERROR); } else if (level == TRACE_LEVEL_WARNING) { SetMinLogLevel(LOG_WARNING); } else if (level == TRACE_LEVEL_INFORMATION) { SetMinLogLevel(LOG_INFO); } else if (level >= TRACE_LEVEL_VERBOSE) { // Above INFO, we enable verbose levels with negative severities. SetMinLogLevel(TRACE_LEVEL_INFORMATION - level); } } void LogEventProvider::OnEventsDisabled() { // Restore the old log level. SetMinLogLevel(old_log_level_); } } // namespace logging