// Copyright (C) 2013-2023 Internet Systems Consortium, Inc. ("ISC") // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace isc::asiolink; using namespace isc::config; using namespace isc::data; using namespace isc::hooks; using namespace isc::util; namespace ph = std::placeholders; namespace isc { namespace process { DControllerBasePtr DControllerBase::controller_; // Note that the constructor instantiates the controller's primary IOService. DControllerBase::DControllerBase(const char* app_name, const char* bin_name) : app_name_(app_name), bin_name_(bin_name), verbose_(false), check_only_(false), io_service_(new isc::asiolink::IOService()), io_signal_set_() { } void DControllerBase::setController(const DControllerBasePtr& controller) { if (controller_) { // This shouldn't happen, but let's make sure it can't be done. // It represents a programmatic error. isc_throw (DControllerBaseError, "Multiple controller instances attempted."); } controller_ = controller; } ConstElementPtr DControllerBase::parseFile(const std::string&) { ConstElementPtr elements; return (elements); } int DControllerBase::launch(int argc, char* argv[], const bool test_mode) { // Step 1 is to parse the command line arguments. try { parseArgs(argc, argv); } catch (const InvalidUsage& ex) { usage(ex.what()); // rethrow it with an empty message isc_throw(InvalidUsage, ""); } setProcName(bin_name_); if (isCheckOnly()) { checkConfigOnly(); return (EXIT_SUCCESS); } // It is important that we set a default logger name because this name // will be used when the user doesn't provide the logging configuration // in the Kea configuration file. Daemon::setDefaultLoggerName(bin_name_); // Logger's default configuration depends on whether we are in the // verbose mode or not. CfgMgr manages the logger configuration so // the verbose mode is set for CfgMgr. Daemon::setVerbose(verbose_); // Do not initialize logger here if we are running unit tests. It would // replace an instance of unit test specific logger. if (!test_mode) { // Now that we know what the mode flags are, we can init logging. Daemon::loggerInit(bin_name_.c_str(), verbose_); } try { checkConfigFile(); } catch (const std::exception& ex) { LOG_FATAL(dctl_logger, DCTL_CONFIG_FILE_LOAD_FAIL) .arg(app_name_).arg(ex.what()); isc_throw (LaunchError, "Launch Failed: " << ex.what()); } try { createPIDFile(); } catch (const DaemonPIDExists& ex) { LOG_FATAL(dctl_logger, DCTL_ALREADY_RUNNING) .arg(bin_name_).arg(ex.what()); isc_throw (LaunchError, "Launch Failed: " << ex.what()); } catch (const std::exception& ex) { LOG_FATAL(dctl_logger, DCTL_PID_FILE_ERROR) .arg(app_name_).arg(ex.what()); isc_throw (LaunchError, "Launch failed: " << ex.what()); } // Log the starting of the service. LOG_INFO(dctl_logger, DCTL_STARTING) .arg(app_name_) .arg(getpid()) .arg(VERSION) .arg(PACKAGE_VERSION_TYPE); // When it is not a stable version dissuade use in production. if (std::string(PACKAGE_VERSION_TYPE) == "development") { LOG_WARN(dctl_logger, DCTL_DEVELOPMENT_VERSION); } try { // Step 2 is to create and initialize the application process object. initProcess(); } catch (const std::exception& ex) { LOG_FATAL(dctl_logger, DCTL_INIT_PROCESS_FAIL) .arg(app_name_).arg(ex.what()); isc_throw (ProcessInitError, "Application Process initialization failed: " << ex.what()); } LOG_DEBUG(dctl_logger, isc::log::DBGLVL_START_SHUT, DCTL_STANDALONE) .arg(app_name_); // Step 3 is to load configuration from file. int rcode; ConstElementPtr comment = parseAnswer(rcode, configFromFile()); if (rcode != 0) { LOG_FATAL(dctl_logger, DCTL_CONFIG_FILE_LOAD_FAIL) .arg(app_name_).arg(comment->stringValue()); isc_throw (ProcessInitError, "Could Not load configuration file: " << comment->stringValue()); } // Note that the controller was started. start_ = boost::posix_time::second_clock::universal_time(); // Everything is clear for launch, so start the application's // event loop. try { // Now that we have a process, we can set up signal handling. initSignalHandling(); runProcess(); } catch (const std::exception& ex) { LOG_FATAL(dctl_logger, DCTL_PROCESS_FAILED) .arg(app_name_).arg(ex.what()); isc_throw (ProcessRunError, "Application process event loop failed: " << ex.what()); } // All done, so bail out. LOG_INFO(dctl_logger, DCTL_SHUTDOWN) .arg(app_name_).arg(getpid()).arg(VERSION); return (getExitValue()); } void DControllerBase::checkConfigOnly() { try { // We need to initialize logging, in case any error // messages are to be printed. // This is just a test, so we don't care about lockfile. setenv("KEA_LOCKFILE_DIR", "none", 0); Daemon::setDefaultLoggerName(bin_name_); Daemon::setVerbose(verbose_); Daemon::loggerInit(bin_name_.c_str(), verbose_); // Check the syntax first. std::string config_file = getConfigFile(); if (config_file.empty()) { // Basic sanity check: file name must not be empty. isc_throw(InvalidUsage, "JSON configuration file not specified"); } ConstElementPtr whole_config = parseFile(config_file); if (!whole_config) { // No fallback to fromJSONFile isc_throw(InvalidUsage, "No configuration found"); } if (verbose_) { std::cerr << "Syntax check OK" << std::endl; } // Check the logic next. ConstElementPtr module_config; module_config = whole_config->get(getAppName()); if (!module_config) { isc_throw(InvalidUsage, "Config file " << config_file << " does not include '" << getAppName() << "' entry"); } if (module_config->getType() != Element::map) { isc_throw(InvalidUsage, "Config file " << config_file << " includes not map '" << getAppName() << "' entry"); } // Handle other (i.e. not application name) objects. std::string errmsg = handleOtherObjects(whole_config); if (!errmsg.empty()) { isc_throw(InvalidUsage, "Config file " << config_file << errmsg); } // Get an application process object. initProcess(); ConstElementPtr answer = checkConfig(module_config); int rcode = 0; answer = parseAnswer(rcode, answer); if (rcode != 0) { isc_throw(InvalidUsage, "Error encountered: " << answer->stringValue()); } } catch (const VersionMessage&) { throw; } catch (const InvalidUsage&) { throw; } catch (const std::exception& ex) { isc_throw(InvalidUsage, "Syntax check failed with: " << ex.what()); } return; } void DControllerBase::parseArgs(int argc, char* argv[]) { if (argc == 1) { isc_throw(InvalidUsage, ""); } // Iterate over the given command line options. If its a stock option // ("c" or "d") handle it here. If its a valid custom option, then // invoke customOption. int ch; opterr = 0; optind = 1; std::string opts("dvVWc:t:" + getCustomOpts()); while ((ch = getopt(argc, argv, opts.c_str())) != -1) { switch (ch) { case 'd': // Enables verbose logging. verbose_ = true; break; case 'v': // gather Kea version and throw so main() can catch and return // rather than calling exit() here which disrupts gtest. isc_throw(VersionMessage, getVersion(false)); break; case 'V': // gather Kea version and throw so main() can catch and return // rather than calling exit() here which disrupts gtest. isc_throw(VersionMessage, getVersion(true)); break; case 'W': // gather Kea config report and throw so main() can catch and // return rather than calling exit() here which disrupts gtest. isc_throw(VersionMessage, isc::detail::getConfigReport()); break; case 'c': case 't': // config file name if (optarg == NULL) { isc_throw(InvalidUsage, "configuration file name missing"); } setConfigFile(optarg); if (ch == 't') { check_only_ = true; } break; case '?': { // We hit an invalid option. isc_throw(InvalidUsage, "unsupported option: [" << static_cast(optopt) << "] " << (!optarg ? "" : optarg)); break; } default: // We hit a valid custom option if (!customOption(ch, optarg)) { // This would be a programmatic error. isc_throw(InvalidUsage, " Option listed but implemented?: [" << static_cast(ch) << "] " << (!optarg ? "" : optarg)); } break; } } // There was too much information on the command line. if (argc > optind) { isc_throw(InvalidUsage, "extraneous command line information"); } } bool DControllerBase::customOption(int /* option */, char* /*optarg*/) { // Default implementation returns false. return (false); } void DControllerBase::initProcess() { LOG_DEBUG(dctl_logger, isc::log::DBGLVL_START_SHUT, DCTL_INIT_PROCESS) .arg(app_name_); // Invoke virtual method to instantiate the application process. try { process_.reset(createProcess()); } catch (const std::exception& ex) { isc_throw(DControllerBaseError, std::string("createProcess failed: ") + ex.what()); } // This is pretty unlikely, but will test for it just to be safe.. if (!process_) { isc_throw(DControllerBaseError, "createProcess returned NULL"); } // Invoke application's init method (Note this call should throw // DProcessBaseError if it fails). process_->init(); } ConstElementPtr DControllerBase::configFromFile() { // Rollback any previous staging configuration. For D2, only a // logger configuration is used here. // We're not using cfgmgr to store logging configuration anymore. // isc::dhcp::CfgMgr::instance().rollback(); // Will hold configuration. ConstElementPtr module_config; // Will receive configuration result. ConstElementPtr answer; try { std::string config_file = getConfigFile(); if (config_file.empty()) { // Basic sanity check: file name must not be empty. isc_throw(BadValue, "JSON configuration file not specified. Please " "use -c command line option."); } // If parseFile returns an empty pointer, then pass the file onto the // original JSON parser. ConstElementPtr whole_config = parseFile(config_file); if (!whole_config) { // Read contents of the file and parse it as JSON whole_config = Element::fromJSONFile(config_file, true); } // Extract derivation-specific portion of the configuration. module_config = whole_config->get(getAppName()); if (!module_config) { isc_throw(BadValue, "Config file " << config_file << " does not include '" << getAppName() << "' entry."); } if (module_config->getType() != Element::map) { isc_throw(InvalidUsage, "Config file " << config_file << " includes not map '" << getAppName() << "' entry"); } // Handle other (i.e. not application name) objects. std::string errmsg = handleOtherObjects(whole_config); if (!errmsg.empty()) { isc_throw(InvalidUsage, "Config file " << config_file << errmsg); } // Let's configure logging before applying the configuration, // so we can log things during configuration process. // Temporary storage for logging configuration ConfigPtr storage(new ConfigBase()); // Configure logging to the temporary storage. Daemon::configureLogger(module_config, storage); // Let's apply the new logging. We do it early, so we'll be able // to print out what exactly is wrong with the new config in // case of problems. storage->applyLoggingCfg(); answer = updateConfig(module_config); // In all cases the right logging configuration is in the context. process_->getCfgMgr()->getContext()->applyLoggingCfg(); } catch (const std::exception& ex) { // Rollback logging configuration. process_->getCfgMgr()->getContext()->applyLoggingCfg(); // build an error result ConstElementPtr error = createAnswer(CONTROL_RESULT_ERROR, std::string("Configuration parsing failed: ") + ex.what()); return (error); } return (answer); } void DControllerBase::runProcess() { LOG_DEBUG(dctl_logger, isc::log::DBGLVL_START_SHUT, DCTL_RUN_PROCESS) .arg(app_name_); if (!process_) { // This should not be possible. isc_throw(DControllerBaseError, "Process not initialized"); } // Invoke the application process's run method. This may throw // DProcessBaseError process_->run(); } // Instance method for handling new config ConstElementPtr DControllerBase::updateConfig(ConstElementPtr new_config) { return (process_->configure(new_config, false)); } // Instance method for checking new config ConstElementPtr DControllerBase::checkConfig(ConstElementPtr new_config) { return (process_->configure(new_config, true)); } ConstElementPtr DControllerBase::configGetHandler(const std::string&, ConstElementPtr /*args*/) { ElementPtr config = process_->getCfgMgr()->getContext()->toElement(); std::string hash = BaseCommandMgr::getHash(config); config->set("hash", Element::create(hash)); return (createAnswer(CONTROL_RESULT_SUCCESS, config)); } ConstElementPtr DControllerBase::configHashGetHandler(const std::string&, ConstElementPtr /*args*/) { ConstElementPtr config = process_->getCfgMgr()->getContext()->toElement(); std::string hash = BaseCommandMgr::getHash(config); ElementPtr params = Element::createMap(); params->set("hash", Element::create(hash)); return (createAnswer(CONTROL_RESULT_SUCCESS, params)); } ConstElementPtr DControllerBase::configWriteHandler(const std::string&, ConstElementPtr args) { std::string filename; if (args) { if (args->getType() != Element::map) { return (createAnswer(CONTROL_RESULT_ERROR, "Argument must be a map")); } ConstElementPtr filename_param = args->get("filename"); if (filename_param) { if (filename_param->getType() != Element::string) { return (createAnswer(CONTROL_RESULT_ERROR, "passed parameter 'filename' " "is not a string")); } filename = filename_param->stringValue(); } } if (filename.empty()) { // filename parameter was not specified, so let's use // whatever we remember filename = getConfigFile(); if (filename.empty()) { return (createAnswer(CONTROL_RESULT_ERROR, "Unable to determine filename." "Please specify filename explicitly.")); } } // Ok, it's time to write the file. size_t size = 0; ElementPtr cfg = process_->getCfgMgr()->getContext()->toElement(); try { size = writeConfigFile(filename, cfg); } catch (const isc::Exception& ex) { return (createAnswer(CONTROL_RESULT_ERROR, std::string("Error during write-config:") + ex.what())); } if (size == 0) { return (createAnswer(CONTROL_RESULT_ERROR, "Error writing configuration to " + filename)); } // Ok, it's time to return the successful response. ElementPtr params = Element::createMap(); params->set("size", Element::create(static_cast(size))); params->set("filename", Element::create(filename)); return (createAnswer(CONTROL_RESULT_SUCCESS, "Configuration written to " + filename + " successful", params)); } std::string DControllerBase::handleOtherObjects(ConstElementPtr args) { // Check obsolete or unknown (aka unsupported) objects. const std::string& app_name = getAppName(); std::string errmsg; for (auto obj : args->mapValue()) { const std::string& obj_name = obj.first; if (obj_name == app_name) { continue; } LOG_ERROR(dctl_logger, DCTL_CONFIG_DEPRECATED) .arg("'" + obj_name + "', defining anything in global level besides '" + app_name + "' is no longer supported."); if (errmsg.empty()) { errmsg = " contains unsupported '" + obj_name + "' parameter"; } else { errmsg += " (and '" + obj_name + "')"; } } return (errmsg); } ConstElementPtr DControllerBase::configTestHandler(const std::string&, ConstElementPtr args) { const int status_code = CONTROL_RESULT_ERROR; // 1 indicates an error ConstElementPtr module_config; std::string app_name = getAppName(); std::string message; // Command arguments are expected to be: // { "Module": { ... } } if (!args) { message = "Missing mandatory 'arguments' parameter."; } else { module_config = args->get(app_name); if (!module_config) { message = "Missing mandatory '" + app_name + "' parameter."; } else if (module_config->getType() != Element::map) { message = "'" + app_name + "' parameter expected to be a map."; } } if (message.empty()) { // Handle other (i.e. not application name) objects. std::string errmsg = handleOtherObjects(args); if (!errmsg.empty()) { message = "'arguments' parameter" + errmsg; } } if (!message.empty()) { // Something is amiss with arguments, return a failure response. ConstElementPtr result = isc::config::createAnswer(status_code, message); return (result); } // We are starting the configuration process so we should remove any // staging configuration that has been created during previous // configuration attempts. // We're not using cfgmgr to store logging information anymore. // isc::dhcp::CfgMgr::instance().rollback(); // Now we check the server proper. return (checkConfig(module_config)); } ConstElementPtr DControllerBase::configReloadHandler(const std::string&, ConstElementPtr) { // Add reload in message? return (configFromFile()); } ConstElementPtr DControllerBase::configSetHandler(const std::string&, ConstElementPtr args) { const int status_code = CONTROL_RESULT_ERROR; // 1 indicates an error ConstElementPtr module_config; std::string app_name = getAppName(); std::string message; // Command arguments are expected to be: // { "Module": { ... } } if (!args) { message = "Missing mandatory 'arguments' parameter."; } else { module_config = args->get(app_name); if (!module_config) { message = "Missing mandatory '" + app_name + "' parameter."; } else if (module_config->getType() != Element::map) { message = "'" + app_name + "' parameter expected to be a map."; } } if (!message.empty()) { // Something is amiss with arguments, return a failure response. ConstElementPtr result = isc::config::createAnswer(status_code, message); return (result); } try { // Handle other (i.e. not application name) objects. handleOtherObjects(args); // We are starting the configuration process so we should remove any // staging configuration that has been created during previous // configuration attempts. // We're not using cfgmgr to store logging information anymore. // isc::dhcp::CfgMgr::instance().rollback(); // Temporary storage for logging configuration ConfigPtr storage(new ConfigBase()); // Configure logging to the temporary storage. Daemon::configureLogger(module_config, storage); // Let's apply the new logging. We do it early, so we'll be able // to print out what exactly is wrong with the new config in // case of problems. storage->applyLoggingCfg(); ConstElementPtr answer = updateConfig(module_config); int rcode = 0; parseAnswer(rcode, answer); // In all cases the right logging configuration is in the context. process_->getCfgMgr()->getContext()->applyLoggingCfg(); return (answer); } catch (const std::exception& ex) { // Rollback logging configuration. process_->getCfgMgr()->getContext()->applyLoggingCfg(); // build an error result ConstElementPtr error = createAnswer(CONTROL_RESULT_ERROR, std::string("Configuration parsing failed: ") + ex.what()); return (error); } } ConstElementPtr DControllerBase::serverTagGetHandler(const std::string&, ConstElementPtr) { const std::string& tag = process_->getCfgMgr()->getContext()->getServerTag(); ElementPtr response = Element::createMap(); response->set("server-tag", Element::create(tag)); return (createAnswer(CONTROL_RESULT_SUCCESS, response)); } ConstElementPtr DControllerBase::statusGetHandler(const std::string&, ConstElementPtr) { ElementPtr status = Element::createMap(); status->set("pid", Element::create(static_cast(getpid()))); auto now = boost::posix_time::second_clock::universal_time(); if (!start_.is_not_a_date_time()) { auto uptime = now - start_; status->set("uptime", Element::create(uptime.total_seconds())); } auto last_commit = process_->getCfgMgr()->getContext()->getLastCommitTime(); if (!last_commit.is_not_a_date_time()) { auto reload = now - last_commit; status->set("reload", Element::create(reload.total_seconds())); } return (createAnswer(CONTROL_RESULT_SUCCESS, status)); } ConstElementPtr DControllerBase::versionGetHandler(const std::string&, ConstElementPtr) { ConstElementPtr answer; // For version-get put the extended version in arguments ElementPtr extended = Element::create(getVersion(true)); ElementPtr arguments = Element::createMap(); arguments->set("extended", extended); answer = createAnswer(CONTROL_RESULT_SUCCESS, getVersion(false), arguments); return (answer); } ConstElementPtr DControllerBase::buildReportHandler(const std::string&, ConstElementPtr) { return (createAnswer(CONTROL_RESULT_SUCCESS, isc::detail::getConfigReport())); } ConstElementPtr DControllerBase::shutdownHandler(const std::string&, ConstElementPtr args) { // Shutdown is universal. If its not that, then try it as // a custom command supported by the derivation. If that // doesn't pan out either, than send to it the application // as it may be supported there. int exit_value = EXIT_SUCCESS; if (args) { // @todo Should we go ahead and shutdown even if the args are invalid? if (args->getType() != Element::map) { return (createAnswer(CONTROL_RESULT_ERROR, "Argument must be a map")); } ConstElementPtr param = args->get("exit-value"); if (param) { if (param->getType() != Element::integer) { return (createAnswer(CONTROL_RESULT_ERROR, "parameter 'exit-value' is not an integer")); } exit_value = param->intValue(); } } setExitValue(exit_value); return (shutdownProcess(args)); } ConstElementPtr DControllerBase::shutdownProcess(ConstElementPtr args) { if (process_) { return (process_->shutdown(args)); } // Not really a failure, but this condition is worth noting. In reality // it should be pretty hard to cause this. LOG_WARN(dctl_logger, DCTL_NOT_RUNNING).arg(app_name_); return (createAnswer(CONTROL_RESULT_SUCCESS, "Process has not been initialized")); } void DControllerBase::initSignalHandling() { /// @todo block everything we don't handle // Create our signal set. io_signal_set_.reset(new IOSignalSet(io_service_, std::bind(&DControllerBase:: processSignal, this, ph::_1))); // Register for the signals we wish to handle. io_signal_set_->add(SIGHUP); io_signal_set_->add(SIGINT); io_signal_set_->add(SIGTERM); } void DControllerBase::processSignal(int signum) { switch (signum) { case SIGHUP: { LOG_INFO(dctl_logger, DCTL_CFG_FILE_RELOAD_SIGNAL_RECVD) .arg(signum).arg(getConfigFile()); int rcode; ConstElementPtr comment = parseAnswer(rcode, configFromFile()); if (rcode != 0) { LOG_ERROR(dctl_logger, DCTL_CFG_FILE_RELOAD_ERROR) .arg(comment->stringValue()); } break; } case SIGINT: case SIGTERM: { LOG_DEBUG(dctl_logger, isc::log::DBGLVL_START_SHUT, DCTL_SHUTDOWN_SIGNAL_RECVD).arg(signum); ElementPtr arg_set; shutdownHandler(SHUT_DOWN_COMMAND, arg_set); break; } default: LOG_WARN(dctl_logger, DCTL_UNSUPPORTED_SIGNAL).arg(signum); break; } } void DControllerBase::usage(const std::string & text) { if (text != "") { std::cerr << "Usage error: " << text << std::endl; } std::cerr << "Usage: " << bin_name_ << std::endl << " -v: print version number and exit" << std::endl << " -V: print extended version information and exit" << std::endl << " -W: display the configuration report and exit" << std::endl << " -d: optional, verbose output " << std::endl << " -c : mandatory," << " specify name of configuration file" << std::endl << " -t : check the" << " configuration file and exit" << std::endl; // add any derivation specific usage std::cerr << getUsageText() << std::endl; } DControllerBase::~DControllerBase() { // Explicitly unload hooks HooksManager::prepareUnloadLibraries(); if (!HooksManager::unloadLibraries()) { auto names = HooksManager::getLibraryNames(); std::string msg; if (!names.empty()) { msg = names[0]; for (size_t i = 1; i < names.size(); ++i) { msg += std::string(", ") + names[i]; } } LOG_ERROR(dctl_logger, DCTL_UNLOAD_LIBRARIES_ERROR).arg(msg); } io_signal_set_.reset(); getIOService()->poll(); } std::string DControllerBase::getVersion(bool extended) { std::stringstream tmp; tmp << VERSION; if (extended) { tmp << std::endl << EXTENDED_VERSION << std::endl; tmp << "linked with:" << std::endl; tmp << isc::log::Logger::getVersion() << std::endl; tmp << getVersionAddendum(); } return (tmp.str()); } } // end of namespace isc::process } // end of namespace isc