/** * Copyright (C) 2018-present MongoDB, Inc. * * This program is free software: you can redistribute it and/or modify * it under the terms of the Server Side Public License, version 1, * as published by MongoDB, Inc. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * Server Side Public License for more details. * * You should have received a copy of the Server Side Public License * along with this program. If not, see * . * * As a special exception, the copyright holders give permission to link the * code of portions of this program with the OpenSSL library under certain * conditions as described in each individual source file and distribute * linked combinations including the program with the OpenSSL library. You * must comply with the Server Side Public License in all respects for * all of the code used other than as permitted herein. If you modify file(s) * with this exception, you may extend this exception to your version of the * file(s), but you are not obligated to do so. If you do not wish to do so, * delete this exception statement from your version. If you delete this * exception statement from all source files in the program, then also delete * it in the license file. */ #define MONGO_LOGV2_DEFAULT_COMPONENT ::mongo::logv2::LogComponent::kControl #include "mongo/db/server_options_helpers.h" #ifdef _WIN32 #include #else #define SYSLOG_NAMES #include #endif #include #include #include #include #include "mongo/base/status.h" #include "mongo/bson/util/builder.h" #include "mongo/config.h" #include "mongo/db/server_options.h" #include "mongo/idl/server_parameter.h" #include "mongo/logger/message_event_utf8_encoder.h" #include "mongo/logv2/log_component.h" #include "mongo/logv2/log_component_settings.h" #include "mongo/logv2/log_manager.h" #include "mongo/transport/message_compressor_registry.h" #include "mongo/util/cmdline_utils/censor_cmdline.h" #include "mongo/util/fail_point.h" #include "mongo/util/map_util.h" #include "mongo/util/net/sock.h" #include "mongo/util/net/socket_utils.h" #include "mongo/util/net/ssl_options.h" #include "mongo/util/options_parser/startup_options.h" #include "mongo/util/str.h" using std::endl; using std::string; namespace mongo { /* * SERVER-11160 syslog.h does not define facilitynames under solaris. * syslog.h exports preprocessor macro INTERNAL_NOPRI if * facilitynames is provided. This will be used to determine * if facilitynames should be defined here. * These could also go into a syslog.h compatibility header. * We are using INTERNAL_NOPRI as the indicator macro for facilitynames * because it's defined alongside facilitynames in the syslog.h headers * that support SYSLOG_NAMES. */ namespace { #if defined(SYSLOG_NAMES) #if !defined(INTERNAL_NOPRI) typedef struct _code { const char* c_name; int c_val; } CODE; CODE facilitynames[] = {{"auth", LOG_AUTH}, {"cron", LOG_CRON}, {"daemon", LOG_DAEMON}, {"kern", LOG_KERN}, {"lpr", LOG_LPR}, {"mail", LOG_MAIL}, {"news", LOG_NEWS}, {"security", LOG_AUTH}, /* DEPRECATED */ {"syslog", LOG_SYSLOG}, {"user", LOG_USER}, {"uucp", LOG_UUCP}, {"local0", LOG_LOCAL0}, {"local1", LOG_LOCAL1}, {"local2", LOG_LOCAL2}, {"local3", LOG_LOCAL3}, {"local4", LOG_LOCAL4}, {"local5", LOG_LOCAL5}, {"local6", LOG_LOCAL6}, {"local7", LOG_LOCAL7}, {nullptr, -1}}; #endif // !defined(INTERNAL_NOPRI) #endif // defined(SYSLOG_NAMES) Status setArgvArray(const std::vector& argv) { BSONArrayBuilder b; std::vector censoredArgv = argv; cmdline_utils::censorArgsVector(&censoredArgv); for (size_t i = 0; i < censoredArgv.size(); i++) { b << censoredArgv[i]; } serverGlobalParams.argvArray = b.arr(); return Status::OK(); } Status setParsedOpts(const moe::Environment& params) { serverGlobalParams.parsedOpts = params.toBSON(); cmdline_utils::censorBSONObj(&serverGlobalParams.parsedOpts); return Status::OK(); } } // namespace Status validateBaseOptions(const moe::Environment& params) { if (params.count("verbose")) { std::string verbosity = params["verbose"].as(); // Skip this for backwards compatibility. See SERVER-11471. if (verbosity != "true") { for (std::string::iterator iterator = verbosity.begin(); iterator != verbosity.end(); iterator++) { if (*iterator != 'v') { return Status(ErrorCodes::BadValue, "The \"verbose\" option string cannot contain any characters " "other than \"v\""); } } } } if (params.count("setParameter")) { const auto parameters = params["setParameter"].as>(); const bool enableTestCommandsValue = ([¶meters] { const auto etc = parameters.find("enableTestCommands"); if (etc == parameters.end()) { return false; } const auto& val = etc->second; return (0 == val.compare("1")) || (0 == val.compare("true")); })(); if (enableTestCommandsValue) { // Only register failpoint server parameters if enableTestCommands=1. globalFailPointRegistry().registerAllFailPointsAsServerParameters(); } else { // Deregister test-only parameters. ServerParameterSet::getGlobal()->disableTestParameters(); } // Must come after registerAllFailPointsAsServerParameters() above. const auto& spMap = ServerParameterSet::getGlobal()->getMap(); for (const auto setParam : parameters) { const auto it = spMap.find(setParam.first); if (it == spMap.end()) { return {ErrorCodes::BadValue, str::stream() << "Unknown --setParameter '" << setParam.first << "'"}; } if (!enableTestCommandsValue && it->second->isTestOnly()) { return {ErrorCodes::BadValue, str::stream() << "--setParameter '" << setParam.first << "' only available when used with 'enableTestCommands'"}; } } } return Status::OK(); } Status canonicalizeBaseOptions(moe::Environment* params) { // Handle both the "--verbose" string argument and the "-vvvv" arguments at the same time so // that we ensure that we set the log level to the maximum of the options provided int logLevel = -1; for (std::string s = ""; s.length() <= 14; s.append("v")) { if (!s.empty() && params->count(s) && (*params)[s].as() == true) { logLevel = s.length(); } if (params->count("verbose")) { std::string verbosity; params->get("verbose", &verbosity).transitional_ignore(); if (s == verbosity || // Treat a verbosity of "true" the same as a single "v". See SERVER-11471. (s == "v" && verbosity == "true")) { logLevel = s.length(); } } // Remove all "v" options we have already handled Status ret = params->remove(s); if (!ret.isOK()) { return ret; } } if (logLevel != -1) { Status ret = params->set("systemLog.verbosity", moe::Value(logLevel)); if (!ret.isOK()) { return ret; } ret = params->remove("verbose"); if (!ret.isOK()) { return ret; } } if (params->count("logpath")) { std::string logpath; Status ret = params->get("logpath", &logpath); if (!ret.isOK()) { return ret; } if (logpath.empty()) { return Status(ErrorCodes::BadValue, "logpath cannot be empty if supplied"); } ret = params->set("systemLog.destination", moe::Value(std::string("file"))); if (!ret.isOK()) { return ret; } ret = params->set("systemLog.path", moe::Value(logpath)); if (!ret.isOK()) { return ret; } ret = params->remove("logpath"); if (!ret.isOK()) { return ret; } } // "systemLog.destination" comes from the config file, so override it if "syslog" is set // since that comes from the command line. if (params->count("syslog") && (*params)["syslog"].as() == true) { Status ret = params->set("systemLog.destination", moe::Value(std::string("syslog"))); if (!ret.isOK()) { return ret; } ret = params->remove("syslog"); if (!ret.isOK()) { return ret; } } return Status::OK(); } Status setupBaseOptions(const std::vector& args) { Status ret = setArgvArray(args); if (!ret.isOK()) { return ret; } return Status::OK(); } Status storeBaseOptions(const moe::Environment& params) { Status ret = setParsedOpts(params); if (!ret.isOK()) { return ret; } if (params.count("systemLog.verbosity")) { int verbosity = params["systemLog.verbosity"].as(); if (verbosity < 0) { // This can only happen in YAML config return Status(ErrorCodes::BadValue, "systemLog.verbosity YAML Config cannot be negative"); } logv2::LogManager::global().getGlobalSettings().setMinimumLoggedSeverity( mongo::logv2::LogComponent::kDefault, logv2::LogSeverity::Debug(verbosity)); } // log component hierarchy verbosity levels for (int i = 0; i < int(logv2::LogComponent::kNumLogComponents); ++i) { logv2::LogComponent component = static_cast(i); if (component == logv2::LogComponent::kDefault) { continue; } const string dottedName = "systemLog.component." + component.getDottedName() + ".verbosity"; if (params.count(dottedName)) { int verbosity = params[dottedName].as(); // Clear existing log level if log level is negative. if (verbosity < 0) { logv2::LogManager::global().getGlobalSettings().clearMinimumLoggedSeverity( component); } else { logv2::LogManager::global().getGlobalSettings().setMinimumLoggedSeverity( component, logv2::LogSeverity::Debug(verbosity)); } } } if (params.count("enableExperimentalStorageDetailsCmd")) { serverGlobalParams.experimental.storageDetailsCmdEnabled = params["enableExperimentalStorageDetailsCmd"].as(); } if (params.count("systemLog.quiet")) { serverGlobalParams.quiet.store(params["systemLog.quiet"].as()); } if (params.count("systemLog.traceAllExceptions")) { DBException::traceExceptions.store(params["systemLog.traceAllExceptions"].as()); } if (params.count("systemLog.timeStampFormat")) { using logger::MessageEventDetailsEncoder; std::string formatterName = params["systemLog.timeStampFormat"].as(); if (formatterName == "iso8601-utc") { MessageEventDetailsEncoder::setDateFormatter(outputDateAsISOStringUTC); serverGlobalParams.logTimestampFormat = logv2::LogTimestampFormat::kISO8601UTC; setDateFormatIsLocalTimezone(false); } else if (formatterName == "iso8601-local") { MessageEventDetailsEncoder::setDateFormatter(outputDateAsISOStringLocal); serverGlobalParams.logTimestampFormat = logv2::LogTimestampFormat::kISO8601Local; setDateFormatIsLocalTimezone(true); } else { StringBuilder sb; sb << "Value of logTimestampFormat must be one of iso8601-utc " << "or iso8601-local; not \"" << formatterName << "\"."; return Status(ErrorCodes::BadValue, sb.str()); } } if (params.count("systemLog.destination")) { std::string systemLogDestination = params["systemLog.destination"].as(); if (systemLogDestination == "file") { if (params.count("systemLog.path")) { serverGlobalParams.logpath = params["systemLog.path"].as(); } else { return Status(ErrorCodes::BadValue, "systemLog.path is required if systemLog.destination is to a " "file"); } } else if (systemLogDestination == "syslog") { if (params.count("systemLog.path")) { return Status(ErrorCodes::BadValue, "Can only use systemLog.path if systemLog.destination is to a " "file"); } serverGlobalParams.logWithSyslog = true; } else { StringBuilder sb; sb << "Bad value for systemLog.destination: " << systemLogDestination << ". Supported targets are: (syslog|file)"; return Status(ErrorCodes::BadValue, sb.str()); } } else { if (params.count("systemLog.path")) { return Status(ErrorCodes::BadValue, "Can only use systemLog.path if systemLog.destination is to a file"); } } #ifndef _WIN32 if (params.count("systemLog.syslogFacility")) { std::string facility = params["systemLog.syslogFacility"].as(); bool set = false; // match facility string to facility value size_t facilitynamesLength = sizeof(facilitynames) / sizeof(facilitynames[0]); for (unsigned long i = 0; i < facilitynamesLength && facilitynames[i].c_name != nullptr; i++) { if (!facility.compare(facilitynames[i].c_name)) { serverGlobalParams.syslogFacility = facilitynames[i].c_val; set = true; } } if (!set) { StringBuilder sb; sb << "ERROR: syslogFacility must be set to a string representing one of the " << "possible syslog facilities"; return Status(ErrorCodes::BadValue, sb.str()); } } else { serverGlobalParams.syslogFacility = LOG_USER; } #endif // _WIN32 if (params.count("systemLog.logAppend") && params["systemLog.logAppend"].as() == true) { serverGlobalParams.logAppend = true; } if (params.count("systemLog.logRotate")) { std::string logRotateParam = params["systemLog.logRotate"].as(); if (logRotateParam == "reopen") { serverGlobalParams.logRenameOnRotate = false; if (serverGlobalParams.logAppend == false) { return Status(ErrorCodes::BadValue, "logAppend must equal true if logRotate is set to reopen"); } } else if (logRotateParam == "rename") { serverGlobalParams.logRenameOnRotate = true; } else { return Status(ErrorCodes::BadValue, "unsupported value for logRotate " + logRotateParam); } } if (!serverGlobalParams.logpath.empty() && serverGlobalParams.logWithSyslog) { return Status(ErrorCodes::BadValue, "Cant use both a logpath and syslog "); } if (params.count("processManagement.pidFilePath")) { serverGlobalParams.pidFile = params["processManagement.pidFilePath"].as(); } if (params.count("processManagement.timeZoneInfo")) { serverGlobalParams.timeZoneInfoPath = params["processManagement.timeZoneInfo"].as(); } if (params.count("setParameter")) { std::map parameters = params["setParameter"].as>(); for (std::map::iterator parametersIt = parameters.begin(); parametersIt != parameters.end(); parametersIt++) { ServerParameter* parameter = mapFindWithDefault(ServerParameterSet::getGlobal()->getMap(), parametersIt->first, static_cast(nullptr)); if (nullptr == parameter) { StringBuilder sb; sb << "Illegal --setParameter parameter: \"" << parametersIt->first << "\""; return Status(ErrorCodes::BadValue, sb.str()); } if (!parameter->allowedToChangeAtStartup()) { StringBuilder sb; sb << "Cannot use --setParameter to set \"" << parametersIt->first << "\" at startup"; return Status(ErrorCodes::BadValue, sb.str()); } Status status = parameter->setFromString(parametersIt->second); if (!status.isOK()) { StringBuilder sb; sb << "Bad value for parameter \"" << parametersIt->first << "\": " << status.reason(); return Status(ErrorCodes::BadValue, sb.str()); } } } if (params.count("operationProfiling.slowOpThresholdMs")) { serverGlobalParams.slowMS = params["operationProfiling.slowOpThresholdMs"].as(); } if (params.count("operationProfiling.slowOpSampleRate")) { serverGlobalParams.sampleRate = params["operationProfiling.slowOpSampleRate"].as(); } return Status::OK(); } } // namespace mongo