/* * Copyright (c) 2014, Facebook, Inc. * All rights reserved. * * This source code is licensed under the BSD-style license found in the * LICENSE file in the root directory of this source tree. An additional grant * of patent rights can be found in the PATENTS file in the same directory. * */ #include #include #include #include #include #include namespace pt = boost::property_tree; namespace osquery { FLAG(bool, verbose, false, "Enable verbose informational messages"); FLAG_ALIAS(bool, verbose_debug, verbose); FLAG_ALIAS(bool, debug, verbose); FLAG(bool, disable_logging, false, "Disable ERROR/INFO logging"); FLAG(string, logger_plugin, "filesystem", "Logger plugin name"); FLAG(bool, log_result_events, true, "Log scheduled results as events"); /** * @brief A custom Glog log sink for forwarding or buffering status logs. * * This log sink has two modes, it can buffer Glog status logs until an osquery * logger is initialized or forward Glog status logs to an initialized and * appropriate logger. The appropriateness is determined by the logger when its * LoggerPlugin::init method is called. If the `init` method returns success * then a BufferedLogSink will start forwarding status logs to * LoggerPlugin::logStatus. * * This facility will start buffering when first used and stop buffering * (aka remove itself as a Glog sink) using the exposed APIs. It will live * throughout the life of the process for two reasons: (1) It makes sense when * the active logger plugin is handling Glog status logs and (2) it must remove * itself as a Glog target. */ class BufferedLogSink : google::LogSink { public: /// We create this as a Singleton for proper disable/shutdown. static BufferedLogSink& instance() { static BufferedLogSink sink; return sink; } /// The Glog-API LogSink call-in method. void send(google::LogSeverity severity, const char* full_filename, const char* base_filename, int line, const struct ::tm* tm_time, const char* message, size_t message_len); /// Accessor/mutator to dump all of the buffered logs. static std::vector& dump() { return instance().logs_; } /// Set the forwarding mode of the buffering sink. static void forward(bool forward = false) { instance().forward_ = forward; } /// Remove the buffered log sink from Glog. static void disable() { if (instance().enabled_) { instance().enabled_ = false; google::RemoveLogSink(&instance()); } } /// Add the buffered log sink to Glog. static void enable() { if (!instance().enabled_) { instance().enabled_ = true; google::AddLogSink(&instance()); } } private: /// Create the log sink as buffering or forwarding. BufferedLogSink() : forward_(false), enabled_(false) {} /// Remove the log sink. ~BufferedLogSink() { disable(); } BufferedLogSink(BufferedLogSink const&); void operator=(BufferedLogSink const&); private: /// Intermediate log storage until an osquery logger is initialized. std::vector logs_; bool forward_; bool enabled_; }; void serializeIntermediateLog(const std::vector& log, PluginRequest& request) { pt::ptree tree; for (const auto& log_item : log) { pt::ptree child; child.put("s", log_item.severity); child.put("f", log_item.filename); child.put("i", log_item.line); child.put("m", log_item.message); tree.push_back(std::make_pair("", child)); } // Save the log as a request JSON string. std::ostringstream output; pt::write_json(output, tree, false); request["log"] = output.str(); } void deserializeIntermediateLog(const PluginRequest& request, std::vector& log) { if (request.count("log") == 0) { return; } // Read the plugin request string into a JSON tree and enumerate. std::stringstream input; input << request.at("log"); pt::ptree tree; pt::read_json(input, tree); for (const auto& item : tree.get_child("")) { log.push_back({ (StatusLogSeverity)item.second.get("s", O_INFO), item.second.get("f", ""), item.second.get("i", 0), item.second.get("m", ""), }); } } void initStatusLogger(const std::string& name) { FLAGS_alsologtostderr = true; FLAGS_logbufsecs = 0; // flush the log buffer immediately FLAGS_stop_logging_if_full_disk = true; FLAGS_max_log_size = 10; // max size for individual log file is 10MB FLAGS_logtostderr = true; if (FLAGS_verbose) { // Turn verbosity up to 1. // Do log DEBUG, INFO, WARNING, ERROR to their log files. // Do log the above and verbose=1 to stderr. FLAGS_v = 1; } else { // Do NOT log INFO, WARNING, ERROR to stderr. // Do log only WARNING, ERROR to log sinks. FLAGS_minloglevel = 1; // WARNING FLAGS_stderrthreshold = 1; } if (FLAGS_disable_logging) { // Do log ERROR to stderr. // Do NOT log INFO, WARNING, ERROR to their log files. FLAGS_logtostderr = true; if (!FLAGS_verbose) { // verbose flag still will still emit logs to stderr. FLAGS_minloglevel = 2; // ERROR } } // Start the logging, and announce the daemon is starting. google::InitGoogleLogging(name.c_str()); // If logging is disabled then do not buffer intermediate logs. if (!FLAGS_disable_logging) { // Create an instance of the buffered log sink and do not forward logs yet. BufferedLogSink::enable(); } } void initLogger(const std::string& name, bool forward_all) { // Check if logging is disabled, if it is no need to shuttle intermediates. if (FLAGS_disable_logging) { return; } BufferedLogSink::disable(); auto intermediate_logs = std::move(BufferedLogSink::dump()); auto& logger_plugin = Registry::getActive("logger"); if (!Registry::exists("logger", logger_plugin)) { return; } // Start the custom status logging facilities, which may instruct glog as is // the case with filesystem logging. PluginRequest request = {{"init", name}}; serializeIntermediateLog(intermediate_logs, request); auto status = Registry::call("logger", request); if (status.ok() || forward_all) { // When init returns success we reenabled the log sink in forwarding // mode. Now, Glog status logs are buffered and sent to logStatus. BufferedLogSink::forward(true); BufferedLogSink::enable(); } } void BufferedLogSink::send(google::LogSeverity severity, const char* full_filename, const char* base_filename, int line, const struct ::tm* tm_time, const char* message, size_t message_len) { // Either forward the log to an enabled logger or buffer until one exists. if (forward_) { // May use the logs_ storage to buffer/delay sending logs. std::vector log; log.push_back({(StatusLogSeverity)severity, std::string(base_filename), line, std::string(message, message_len)}); PluginRequest request = {{"status", "true"}}; serializeIntermediateLog(log, request); Registry::call("logger", request); } else { logs_.push_back({(StatusLogSeverity)severity, std::string(base_filename), line, std::string(message, message_len)}); } } Status LoggerPlugin::call(const PluginRequest& request, PluginResponse& response) { std::vector intermediate_logs; if (request.count("string") > 0) { return this->logString(request.at("string")); } else if (request.count("init") > 0) { deserializeIntermediateLog(request, intermediate_logs); return this->init(request.at("init"), intermediate_logs); } else if (request.count("status") > 0) { deserializeIntermediateLog(request, intermediate_logs); return this->logStatus(intermediate_logs); } else { return Status(1, "Unsupported call to logger plugin"); } } Status logString(const std::string& s) { return logString(s, Registry::getActive("logger")); } Status logString(const std::string& s, const std::string& receiver) { if (!Registry::exists("logger", receiver)) { LOG(ERROR) << "Logger receiver " << receiver << " not found"; return Status(1, "Logger receiver not found"); } auto status = Registry::call("logger", receiver, {{"string", s}}); return Status(0, "OK"); } Status logScheduledQueryLogItem(const osquery::ScheduledQueryLogItem& results) { return logScheduledQueryLogItem(results, Registry::getActive("logger")); } Status logScheduledQueryLogItem(const osquery::ScheduledQueryLogItem& results, const std::string& receiver) { std::string json; Status status; if (FLAGS_log_result_events) { status = serializeScheduledQueryLogItemAsEventsJSON(results, json); } else { status = serializeScheduledQueryLogItemJSON(results, json); } if (!status.ok()) { return status; } return logString(json, receiver); } }