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/* * Phusion Passenger - https://www.phusionpassenger.com/ * Copyright (c) 2010-2018 Phusion Holding B.V. * * "Passenger", "Phusion Passenger" and "Union Station" are registered * trademarks of Phusion Holding B.V. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #ifndef _GNU_SOURCE #define _GNU_SOURCE #endif #ifdef __linux__ #define SUPPORTS_PER_THREAD_CPU_AFFINITY #include <sched.h> #include <pthread.h> #endif #ifdef USE_SELINUX #include <selinux/selinux.h> #endif #include <boost/config.hpp> #include <boost/scoped_ptr.hpp> #include <boost/foreach.hpp> #include <sys/types.h> #include <sys/socket.h> #include <sys/stat.h> #include <sys/un.h> #include <sys/resource.h> #include <cstring> #include <cassert> #include <cerrno> #include <stdlib.h> #include <unistd.h> #include <limits.h> #include <fcntl.h> #include <pwd.h> #include <grp.h> #include <set> #include <vector> #include <string> #include <algorithm> #include <iostream> #include <sstream> #include <stdexcept> #include <curl/curl.h> #include <boost/thread.hpp> #include <boost/shared_ptr.hpp> #include <boost/make_shared.hpp> #include <boost/atomic.hpp> #include <oxt/thread.hpp> #include <oxt/system_calls.hpp> #include <ev++.h> #include <jsoncpp/json.h> #include <Shared/Fundamentals/Initialization.h> #include <Shared/ApiServerUtils.h> #include <Constants.h> #include <LoggingKit/Context.h> #include <MainFunctions.h> #include <ConfigKit/SubComponentUtils.h> #include <ServerKit/Server.h> #include <ServerKit/AcceptLoadBalancer.h> #include <AppTypeDetector/Detector.h> #include <IOTools/MessageSerialization.h> #include <FileDescriptor.h> #include <ResourceLocator.h> #include <BackgroundEventLoop.cpp> #include <FileTools/FileManip.h> #include <FileTools/PathSecurityCheck.h> #include <Exceptions.h> #include <Utils.h> #include <Utils/Timer.h> #include <IOTools/MessageIO.h> #include <Core/OptionParser.h> #include <Core/Controller.h> #include <Core/ApiServer.h> #include <Core/Config.h> #include <Core/ConfigChange.h> #include <Core/ApplicationPool/Pool.h> #include <Core/SecurityUpdateChecker.h> #include <Core/TelemetryCollector.h> #include <Core/AdminPanelConnector.h> using namespace boost; using namespace oxt; using namespace Passenger; using namespace Passenger::Agent::Fundamentals; using namespace Passenger::ApplicationPool2; /***** Structures, constants, global variables and forward declarations *****/ namespace Passenger { namespace Core { struct ThreadWorkingObjects { BackgroundEventLoop *bgloop; ServerKit::Context *serverKitContext; Controller *controller; ThreadWorkingObjects() : bgloop(NULL), serverKitContext(NULL), controller(NULL) { } }; struct ApiWorkingObjects { BackgroundEventLoop *bgloop; ServerKit::Context *serverKitContext; ApiServer::ApiServer *apiServer; ApiWorkingObjects() : bgloop(NULL), serverKitContext(NULL), apiServer(NULL) { } }; struct WorkingObjects { int serverFds[SERVER_KIT_MAX_SERVER_ENDPOINTS]; int apiServerFds[SERVER_KIT_MAX_SERVER_ENDPOINTS]; string controllerSecureHeadersPassword; boost::mutex configSyncher; ResourceLocator resourceLocator; RandomGeneratorPtr randomGenerator; SpawningKit::Context::Schema spawningKitContextSchema; SpawningKit::ContextPtr spawningKitContext; ApplicationPool2::ContextPtr appPoolContext; PoolPtr appPool; Json::Value singleAppModeConfig; ServerKit::AcceptLoadBalancer<Controller> loadBalancer; vector<ThreadWorkingObjects> threadWorkingObjects; struct ev_signal sigintWatcher; struct ev_signal sigtermWatcher; struct ev_signal sigquitWatcher; ApiWorkingObjects apiWorkingObjects; EventFd exitEvent; EventFd allClientsDisconnectedEvent; unsigned int terminationCount; boost::atomic<unsigned int> shutdownCounter; oxt::thread *prestarterThread; SecurityUpdateChecker *securityUpdateChecker; TelemetryCollector *telemetryCollector; AdminPanelConnector *adminPanelConnector; oxt::thread *adminPanelConnectorThread; WorkingObjects() : exitEvent(__FILE__, __LINE__, "WorkingObjects: exitEvent"), allClientsDisconnectedEvent(__FILE__, __LINE__, "WorkingObjects: allClientsDisconnectedEvent"), terminationCount(0), shutdownCounter(0), prestarterThread(NULL), securityUpdateChecker(NULL), telemetryCollector(NULL), adminPanelConnector(NULL), adminPanelConnectorThread(NULL) /*******************/ { for (unsigned int i = 0; i < SERVER_KIT_MAX_SERVER_ENDPOINTS; i++) { serverFds[i] = -1; apiServerFds[i] = -1; } } ~WorkingObjects() { delete prestarterThread; delete adminPanelConnectorThread; delete adminPanelConnector; delete securityUpdateChecker; delete telemetryCollector; /*******************/ /*******************/ vector<ThreadWorkingObjects>::iterator it, end = threadWorkingObjects.end(); for (it = threadWorkingObjects.begin(); it != end; it++) { delete it->controller; delete it->serverKitContext; delete it->bgloop; } delete apiWorkingObjects.apiServer; delete apiWorkingObjects.serverKitContext; delete apiWorkingObjects.bgloop; } }; } // namespace Core } // namespace Passenger using namespace Passenger::Core; static WrapperRegistry::Registry *coreWrapperRegistry; static Schema *coreSchema; static ConfigKit::Store *coreConfig; static WorkingObjects *workingObjects; #include <Core/ConfigChange.cpp> /***** Core stuff *****/ static void waitForExitEvent(); static void cleanup(); static void deletePidFile(); static void abortLongRunningConnections(const ApplicationPool2::ProcessPtr &process); static void serverShutdownFinished(); static void controllerShutdownFinished(Controller *controller); static void apiServerShutdownFinished(Core::ApiServer::ApiServer *server); static void printInfoInThread(); static void initializePrivilegedWorkingObjects() { TRACE_POINT(); WorkingObjects *wo = workingObjects = new WorkingObjects(); Json::Value password = coreConfig->get("controller_secure_headers_password"); if (password.isString()) { wo->controllerSecureHeadersPassword = password.asString(); } else if (password.isObject()) { wo->controllerSecureHeadersPassword = strip(unsafeReadFile(password["path"].asString())); } } static void initializeSingleAppMode() { TRACE_POINT(); if (coreConfig->get("multi_app").asBool()) { P_NOTICE(SHORT_PROGRAM_NAME " core running in multi-application mode."); return; } WorkingObjects *wo = workingObjects; string appType, startupFile, appStartCommand; string appRoot = coreConfig->get("single_app_mode_app_root").asString(); if (!coreConfig->get("single_app_mode_app_type").isNull() && !coreConfig->get("single_app_mode_app_start_command").isNull()) { fprintf(stderr, "ERROR: it is not allowed for both --app-type and" " --app-start-command to be set.\n"); exit(1); } if (!coreConfig->get("single_app_mode_app_start_command").isNull()) { // The config specified that this is a generic app or a Kuria app. appStartCommand = coreConfig->get("single_app_mode_app_start_command").asString(); } else if (coreConfig->get("single_app_mode_app_type").isNull()) { // Autodetect whether this is generic app, Kuria app or auto-supported app. P_DEBUG("Autodetecting application type..."); AppTypeDetector::Detector detector(*coreWrapperRegistry); AppTypeDetector::Detector::Result detectorResult = detector.checkAppRoot(appRoot); if (!detectorResult.appStartCommand.empty()) { // This is a generic or Kuria app. appStartCommand = detectorResult.appStartCommand; } else { // This is an auto-supported app. if (coreConfig->get("single_app_mode_app_type").isNull()) { if (detectorResult.isNull()) { fprintf(stderr, "ERROR: unable to autodetect what kind of application " "lives in %s. Please specify information about the app using " "--app-type, --startup-file and --app-start-command, or specify a " "correct location to the application you want to serve.\n" "Type '" SHORT_PROGRAM_NAME " core --help' for more information.\n", appRoot.c_str()); exit(1); } appType = detectorResult.wrapperRegistryEntry->language; } else { appType = coreConfig->get("single_app_mode_app_type").asString(); } } } else { // This is an auto-supported app. appType = coreConfig->get("single_app_mode_app_type").asString(); } if (!appType.empty()) { if (coreConfig->get("single_app_mode_startup_file").isNull()) { const WrapperRegistry::Entry &entry = coreWrapperRegistry->lookup(appType); if (entry.defaultStartupFiles.empty()) { startupFile = appRoot + "/"; } else { startupFile = appRoot + "/" + entry.defaultStartupFiles[0]; } } else { startupFile = coreConfig->get("single_app_mode_startup_file").asString(); } if (!fileExists(startupFile)) { fprintf(stderr, "ERROR: unable to find expected startup file %s." " Please specify its correct path with --startup-file.\n", startupFile.c_str()); exit(1); } } wo->singleAppModeConfig["app_root"] = appRoot; P_NOTICE(SHORT_PROGRAM_NAME " core running in single-application mode."); P_NOTICE("Serving app : " << appRoot); if (!appType.empty()) { P_NOTICE("App type : " << appType); P_NOTICE("App startup file : " << startupFile); wo->singleAppModeConfig["app_type"] = appType; wo->singleAppModeConfig["startup_file"] = startupFile; } else { P_NOTICE("App start command: " << appStartCommand); wo->singleAppModeConfig["app_start_command"] = appStartCommand; } } static void setUlimits() { TRACE_POINT(); unsigned int number = coreConfig->get("file_descriptor_ulimit").asUInt(); if (number != 0) { struct rlimit limit; int ret; limit.rlim_cur = number; limit.rlim_max = number; do { ret = setrlimit(RLIMIT_NOFILE, &limit); } while (ret == -1 && errno == EINTR); if (ret == -1) { int e = errno; P_ERROR("Unable to set file descriptor ulimit to " << number << ": " << strerror(e) << " (errno=" << e << ")"); } } } static void makeFileWorldReadableAndWritable(const string &path) { int ret; do { ret = chmod(path.c_str(), parseModeString("u=rw,g=rw,o=rw")); } while (ret == -1 && errno == EINTR); } #ifdef USE_SELINUX // Set next socket context to *:system_r:passenger_instance_httpd_socket_t. // Note that this only sets the context of the socket file descriptor, // not the socket file on the filesystem. This is why we need selinuxRelabelFile(). static void setSelinuxSocketContext() { security_context_t currentCon; string newCon; int e; if (getcon(¤tCon) == -1) { e = errno; P_DEBUG("Unable to obtain SELinux context: " << strerror(e) << " (errno=" << e << ")"); return; } P_DEBUG("Current SELinux process context: " << currentCon); if (strstr(currentCon, ":unconfined_r:unconfined_t:") == NULL) { goto cleanup; } newCon = replaceString(currentCon, ":unconfined_r:unconfined_t:", ":object_r:passenger_instance_httpd_socket_t:"); if (setsockcreatecon((security_context_t) newCon.c_str()) == -1) { e = errno; P_WARN("Cannot set SELinux socket context to " << newCon << ": " << strerror(e) << " (errno=" << e << ")"); goto cleanup; } cleanup: freecon(currentCon); } static void resetSelinuxSocketContext() { setsockcreatecon(NULL); } static void selinuxRelabelFile(const string &path, const char *newLabel) { security_context_t currentCon; string newCon; int e; if (getfilecon(path.c_str(), ¤tCon) == -1) { e = errno; P_DEBUG("Unable to obtain SELinux context for file " << path <<": " << strerror(e) << " (errno=" << e << ")"); return; } P_DEBUG("SELinux context for " << path << ": " << currentCon); if (strstr(currentCon, ":object_r:passenger_instance_content_t:") == NULL) { goto cleanup; } newCon = replaceString(currentCon, ":object_r:passenger_instance_content_t:", StaticString(":object_r:") + newLabel + ":"); P_DEBUG("Relabeling " << path << " to: " << newCon); if (setfilecon(path.c_str(), (security_context_t) newCon.c_str()) == -1) { e = errno; P_WARN("Cannot set SELinux context for " << path << " to " << newCon << ": " << strerror(e) << " (errno=" << e << ")"); } cleanup: freecon(currentCon); } #endif static void startListening() { TRACE_POINT(); WorkingObjects *wo = workingObjects; const Json::Value addresses = coreConfig->get("controller_addresses"); const Json::Value apiAddresses = coreConfig->get("api_server_addresses"); Json::Value::const_iterator it; unsigned int i; #ifdef USE_SELINUX // Set SELinux context on the first socket that we create // so that the web server can access it. setSelinuxSocketContext(); #endif for (it = addresses.begin(), i = 0; it != addresses.end(); it++, i++) { wo->serverFds[i] = createServer(it->asString(), coreConfig->get("controller_socket_backlog").asUInt(), true, __FILE__, __LINE__); #ifdef USE_SELINUX resetSelinuxSocketContext(); if (i == 0 && getSocketAddressType(it->asString()) == SAT_UNIX) { // setSelinuxSocketContext() sets the context of the // socket file descriptor but not the file on the filesystem. // So we relabel the socket file here. selinuxRelabelFile(parseUnixSocketAddress(it->asString()), "passenger_instance_httpd_socket_t"); } #endif P_LOG_FILE_DESCRIPTOR_PURPOSE(wo->serverFds[i], "Server address: " << it->asString()); if (getSocketAddressType(it->asString()) == SAT_UNIX) { makeFileWorldReadableAndWritable(parseUnixSocketAddress(it->asString())); } } for (it = apiAddresses.begin(), i = 0; it != apiAddresses.end(); it++, i++) { wo->apiServerFds[i] = createServer(it->asString(), 0, true, __FILE__, __LINE__); P_LOG_FILE_DESCRIPTOR_PURPOSE(wo->apiServerFds[i], "ApiServer address: " << it->asString()); if (getSocketAddressType(it->asString()) == SAT_UNIX) { makeFileWorldReadableAndWritable(parseUnixSocketAddress(it->asString())); } } } static void createPidFile() { TRACE_POINT(); Json::Value pidFile = coreConfig->get("pid_file"); if (!pidFile.isNull()) { char pidStr[32]; snprintf(pidStr, sizeof(pidStr), "%lld", (long long) getpid()); int fd = syscalls::open(pidFile.asCString(), O_WRONLY | O_CREAT | O_TRUNC, 0644); if (fd == -1) { int e = errno; throw FileSystemException("Cannot create PID file " + pidFile.asString(), e, pidFile.asString()); } UPDATE_TRACE_POINT(); FdGuard guard(fd, __FILE__, __LINE__); writeExact(fd, pidStr, strlen(pidStr)); } } static void lowerPrivilege() { TRACE_POINT(); } static void printInfo(EV_P_ struct ev_signal *watcher, int revents) { oxt::thread(printInfoInThread, "Information printer"); } static void inspectControllerStateAsJson(Controller *controller, string *result) { *result = controller->inspectStateAsJson().toStyledString(); } static void inspectControllerConfigAsJson(Controller *controller, string *result) { *result = controller->inspectConfig().toStyledString(); } static void getMbufStats(struct MemoryKit::mbuf_pool *input, struct MemoryKit::mbuf_pool *result) { *result = *input; } static void printInfoInThread() { TRACE_POINT(); WorkingObjects *wo = workingObjects; unsigned int i; cerr << "### Backtraces\n"; cerr << "\n" << oxt::thread::all_backtraces(); cerr << "\n"; cerr.flush(); for (i = 0; i < wo->threadWorkingObjects.size(); i++) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[i]; string json; cerr << "### Request handler state (thread " << (i + 1) << ")\n"; two->bgloop->safe->runSync(boost::bind(inspectControllerStateAsJson, two->controller, &json)); cerr << json; cerr << "\n"; cerr.flush(); } for (i = 0; i < wo->threadWorkingObjects.size(); i++) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[i]; string json; cerr << "### Request handler config (thread " << (i + 1) << ")\n"; two->bgloop->safe->runSync(boost::bind(inspectControllerConfigAsJson, two->controller, &json)); cerr << json; cerr << "\n"; cerr.flush(); } struct MemoryKit::mbuf_pool stats; cerr << "### mbuf stats\n\n"; wo->threadWorkingObjects[0].bgloop->safe->runSync(boost::bind(getMbufStats, &wo->threadWorkingObjects[0].serverKitContext->mbuf_pool, &stats)); cerr << "nfree_mbuf_blockq : " << stats.nfree_mbuf_blockq << "\n"; cerr << "nactive_mbuf_blockq : " << stats.nactive_mbuf_blockq << "\n"; cerr << "mbuf_block_chunk_size: " << stats.mbuf_block_chunk_size << "\n"; cerr << "\n"; cerr.flush(); cerr << "### Pool state\n"; cerr << "\n" << wo->appPool->inspect(); cerr << "\n"; cerr.flush(); } static void dumpOxtBacktracesOnCrash(void *userData) { cerr << oxt::thread::all_backtraces(); cerr.flush(); } static void dumpControllerStatesOnCrash(void *userData) { WorkingObjects *wo = workingObjects; unsigned int i; for (i = 0; i < wo->threadWorkingObjects.size(); i++) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[i]; cerr << "####### Controller state (thread " << (i + 1) << ") #######\n"; cerr << two->controller->inspectStateAsJson(); cerr << "\n\n"; cerr.flush(); } } static void dumpControllerConfigsOnCrash(void *userData) { WorkingObjects *wo = workingObjects; unsigned int i; for (i = 0; i < wo->threadWorkingObjects.size(); i++) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[i]; cerr << "####### Controller config (thread " << (i + 1) << ") #######\n"; cerr << two->controller->inspectConfig(); cerr << "\n\n"; cerr.flush(); } } static void dumpPoolStateOnCrash(void *userData) { WorkingObjects *wo = workingObjects; cerr << "####### Pool state (simple) #######\n"; // Do not lock, the crash may occur within the pool. Pool::InspectOptions options(Pool::InspectOptions::makeAuthorized()); options.verbose = true; cerr << wo->appPool->inspect(options, false); cerr << "\n\n"; cerr.flush(); cerr << "####### Pool state (XML) #######\n"; Pool::ToXmlOptions options2(Pool::ToXmlOptions::makeAuthorized()); options2.secrets = true; cerr << wo->appPool->toXml(options2, false); cerr << "\n\n"; cerr.flush(); } static void dumpMbufStatsOnCrash(void *userData) { WorkingObjects *wo = workingObjects; cerr << "nfree_mbuf_blockq : " << wo->threadWorkingObjects[0].serverKitContext->mbuf_pool.nfree_mbuf_blockq << "\n"; cerr << "nactive_mbuf_blockq: " << wo->threadWorkingObjects[0].serverKitContext->mbuf_pool.nactive_mbuf_blockq << "\n"; cerr << "mbuf_block_chunk_size: " << wo->threadWorkingObjects[0].serverKitContext->mbuf_pool.mbuf_block_chunk_size << "\n"; cerr << "\n"; cerr.flush(); } static void onTerminationSignal(EV_P_ struct ev_signal *watcher, int revents) { WorkingObjects *wo = workingObjects; // Start output after '^C' printf("\n"); wo->terminationCount++; if (wo->terminationCount < 3) { P_NOTICE("Signal received. Gracefully shutting down... (send signal " << (3 - wo->terminationCount) << " more time(s) to force shutdown)"); workingObjects->exitEvent.notify(); } else { P_NOTICE("Signal received. Forcing shutdown."); _exit(2); } } static void initializeCurl() { TRACE_POINT(); CURLcode code = curl_global_init(CURL_GLOBAL_ALL); // Initializes underlying TLS stack if (code != CURLE_OK) { P_CRITICAL("Could not initialize libcurl: " << curl_easy_strerror(code)); exit(1); } } static void initializeNonPrivilegedWorkingObjects() { TRACE_POINT(); WorkingObjects *wo = workingObjects; const Json::Value addresses = coreConfig->get("controller_addresses"); const Json::Value apiAddresses = coreConfig->get("api_server_addresses"); setenv("SERVER_SOFTWARE", coreConfig->get("server_software").asCString(), 1); wo->resourceLocator = ResourceLocator(coreConfig->get("passenger_root").asString()); wo->randomGenerator = boost::make_shared<RandomGenerator>(); // Check whether /dev/urandom is actually random. // https://code.google.com/p/phusion-passenger/issues/detail?id=516 if (wo->randomGenerator->generateByteString(16) == wo->randomGenerator->generateByteString(16)) { throw RuntimeException("Your random number device, /dev/urandom, appears to be broken. " "It doesn't seem to be returning random data. Please fix this."); } UPDATE_TRACE_POINT(); wo->spawningKitContext = boost::make_shared<SpawningKit::Context>( wo->spawningKitContextSchema); wo->spawningKitContext->resourceLocator = &wo->resourceLocator; wo->spawningKitContext->wrapperRegistry = coreWrapperRegistry; wo->spawningKitContext->randomGenerator = wo->randomGenerator; wo->spawningKitContext->integrationMode = coreConfig->get("integration_mode").asString(); wo->spawningKitContext->instanceDir = coreConfig->get("instance_dir").asString(); wo->spawningKitContext->spawnDir = coreConfig->get("spawn_dir").asString(); if (!wo->spawningKitContext->instanceDir.empty()) { wo->spawningKitContext->instanceDir = absolutizePath( wo->spawningKitContext->instanceDir); } wo->spawningKitContext->finalize(); UPDATE_TRACE_POINT(); wo->appPoolContext = boost::make_shared<ApplicationPool2::Context>(); wo->appPoolContext->spawningKitFactory = boost::make_shared<SpawningKit::Factory>( wo->spawningKitContext.get()); wo->appPoolContext->agentConfig = coreConfig->inspectEffectiveValues(); wo->appPoolContext->finalize(); wo->appPool = boost::make_shared<Pool>(wo->appPoolContext.get()); wo->appPool->initialize(); wo->appPool->setMax(coreConfig->get("max_pool_size").asInt()); wo->appPool->setMaxIdleTime(coreConfig->get("pool_idle_time").asInt() * 1000000ULL); wo->appPool->enableSelfChecking(coreConfig->get("pool_selfchecks").asBool()); wo->appPool->abortLongRunningConnectionsCallback = abortLongRunningConnections; UPDATE_TRACE_POINT(); unsigned int nthreads = coreConfig->get("controller_threads").asUInt(); BackgroundEventLoop *firstLoop = NULL; // Avoid compiler warning wo->threadWorkingObjects.reserve(nthreads); for (unsigned int i = 0; i < nthreads; i++) { UPDATE_TRACE_POINT(); ThreadWorkingObjects two; Json::Value contextConfig = coreConfig->inspectEffectiveValues(); contextConfig["secure_mode_password"] = wo->controllerSecureHeadersPassword; Json::Value controllerConfig = coreConfig->inspectEffectiveValues(); controllerConfig["thread_number"] = i + 1; if (i == 0) { two.bgloop = firstLoop = new BackgroundEventLoop(true, true); } else { two.bgloop = new BackgroundEventLoop(true, true); } UPDATE_TRACE_POINT(); two.serverKitContext = new ServerKit::Context( coreSchema->controllerServerKit.schema, contextConfig, coreSchema->controllerServerKit.translator); two.serverKitContext->libev = two.bgloop->safe; two.serverKitContext->libuv = two.bgloop->libuv_loop; two.serverKitContext->initialize(); UPDATE_TRACE_POINT(); two.controller = new Core::Controller(two.serverKitContext, coreSchema->controller.schema, controllerConfig, coreSchema->controller.translator, &coreSchema->controllerSingleAppMode.schema, &wo->singleAppModeConfig, coreSchema->controllerSingleAppMode.translator); two.controller->resourceLocator = &wo->resourceLocator; two.controller->wrapperRegistry = coreWrapperRegistry; two.controller->appPool = wo->appPool; two.controller->shutdownFinishCallback = controllerShutdownFinished; two.controller->initialize(); wo->shutdownCounter.fetch_add(1, boost::memory_order_relaxed); wo->threadWorkingObjects.push_back(two); } UPDATE_TRACE_POINT(); ev_signal_init(&wo->sigquitWatcher, printInfo, SIGQUIT); ev_signal_start(firstLoop->libev_loop, &wo->sigquitWatcher); ev_signal_init(&wo->sigintWatcher, onTerminationSignal, SIGINT); ev_signal_start(firstLoop->libev_loop, &wo->sigintWatcher); ev_signal_init(&wo->sigtermWatcher, onTerminationSignal, SIGTERM); ev_signal_start(firstLoop->libev_loop, &wo->sigtermWatcher); UPDATE_TRACE_POINT(); if (!apiAddresses.empty()) { UPDATE_TRACE_POINT(); ApiWorkingObjects *awo = &wo->apiWorkingObjects; Json::Value contextConfig = coreConfig->inspectEffectiveValues(); awo->bgloop = new BackgroundEventLoop(true, true); awo->serverKitContext = new ServerKit::Context( coreSchema->apiServerKit.schema, contextConfig, coreSchema->apiServerKit.translator); awo->serverKitContext->libev = awo->bgloop->safe; awo->serverKitContext->libuv = awo->bgloop->libuv_loop; awo->serverKitContext->initialize(); UPDATE_TRACE_POINT(); awo->apiServer = new Core::ApiServer::ApiServer(awo->serverKitContext, coreSchema->apiServer.schema, coreConfig->inspectEffectiveValues(), coreSchema->apiServer.translator); awo->apiServer->controllers.reserve(wo->threadWorkingObjects.size()); for (unsigned int i = 0; i < wo->threadWorkingObjects.size(); i++) { awo->apiServer->controllers.push_back( wo->threadWorkingObjects[i].controller); } awo->apiServer->appPool = wo->appPool; awo->apiServer->exitEvent = &wo->exitEvent; awo->apiServer->shutdownFinishCallback = apiServerShutdownFinished; awo->apiServer->initialize(); wo->shutdownCounter.fetch_add(1, boost::memory_order_relaxed); } UPDATE_TRACE_POINT(); /* We do not delete Unix domain socket files at shutdown because * that can cause a race condition if the user tries to start another * server with the same addresses at the same time. The new server * would then delete the socket and replace it with its own, * while the old server would delete the file yet again shortly after. * This is especially noticeable on systems that heavily swap. */ for (unsigned int i = 0; i < addresses.size(); i++) { if (nthreads == 1) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[0]; two->controller->listen(wo->serverFds[i]); } else { wo->loadBalancer.listen(wo->serverFds[i]); } } for (unsigned int i = 0; i < nthreads; i++) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[i]; two->controller->createSpareClients(); } if (nthreads > 1) { wo->loadBalancer.servers.reserve(nthreads); for (unsigned int i = 0; i < nthreads; i++) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[i]; wo->loadBalancer.servers.push_back(two->controller); } } for (unsigned int i = 0; i < apiAddresses.size(); i++) { wo->apiWorkingObjects.apiServer->listen(wo->apiServerFds[i]); } } static void initializeSecurityUpdateChecker() { TRACE_POINT(); Json::Value config = coreConfig->inspectEffectiveValues(); // nginx / apache / standalone string serverIdentifier = coreConfig->get("integration_mode").asString(); // nginx / builtin if (!coreConfig->get("standalone_engine").isNull()) { serverIdentifier.append(" "); serverIdentifier.append(coreConfig->get("standalone_engine").asString()); } if (coreConfig->get("server_software").asString().find(FLYING_PASSENGER_NAME) != string::npos) { serverIdentifier.append(" flying"); } config["server_identifier"] = serverIdentifier; SecurityUpdateChecker *checker = new SecurityUpdateChecker( coreSchema->securityUpdateChecker.schema, config, coreSchema->securityUpdateChecker.translator); workingObjects->securityUpdateChecker = checker; checker->resourceLocator = &workingObjects->resourceLocator; checker->initialize(); checker->start(); } static void initializeTelemetryCollector() { TRACE_POINT(); WorkingObjects &wo = *workingObjects; Json::Value config = coreConfig->inspectEffectiveValues(); TelemetryCollector *collector = new TelemetryCollector( coreSchema->telemetryCollector.schema, coreConfig->inspectEffectiveValues(), coreSchema->telemetryCollector.translator); wo.telemetryCollector = collector; for (unsigned int i = 0; i < wo.threadWorkingObjects.size(); i++) { ThreadWorkingObjects *two = &wo.threadWorkingObjects[i]; collector->controllers.push_back(two->controller); } collector->initialize(); collector->start(); wo.shutdownCounter.fetch_add(1, boost::memory_order_relaxed); } static void runAdminPanelConnector(AdminPanelConnector *connector) { connector->run(); P_DEBUG("Admin panel connector shutdown finished"); serverShutdownFinished(); } static void initializeAdminPanelConnector() { TRACE_POINT(); WorkingObjects &wo = *workingObjects; if (coreConfig->get("admin_panel_url").empty()) { return; } Json::Value config = coreConfig->inspectEffectiveValues(); config["log_prefix"] = "AdminPanelConnector: "; config["ruby"] = config["default_ruby"]; P_NOTICE("Initialize connection with " << PROGRAM_NAME " admin panel at " << config["admin_panel_url"].asString()); AdminPanelConnector *connector = new Core::AdminPanelConnector( coreSchema->adminPanelConnector.schema, config, coreSchema->adminPanelConnector.translator); connector->resourceLocator = &wo.resourceLocator; connector->appPool = wo.appPool; connector->configGetter = inspectConfig; for (unsigned int i = 0; i < wo.threadWorkingObjects.size(); i++) { ThreadWorkingObjects *two = &wo.threadWorkingObjects[i]; connector->controllers.push_back(two->controller); } connector->initialize(); wo.shutdownCounter.fetch_add(1, boost::memory_order_relaxed); wo.adminPanelConnector = connector; wo.adminPanelConnectorThread = new oxt::thread( boost::bind(runAdminPanelConnector, connector), "Admin panel connector main loop", 128 * 1024); } static void prestartWebApps() { TRACE_POINT(); WorkingObjects *wo = workingObjects; vector<string> prestartURLs; const Json::Value jPrestartURLs = coreConfig->get("prestart_urls"); Json::Value::const_iterator it, end = jPrestartURLs.end(); prestartURLs.reserve(jPrestartURLs.size()); for (it = jPrestartURLs.begin(); it != end; it++) { prestartURLs.push_back(it->asString()); } boost::function<void ()> func = boost::bind(prestartWebApps, wo->resourceLocator, coreConfig->get("default_ruby").asString(), prestartURLs ); wo->prestarterThread = new oxt::thread( boost::bind(runAndPrintExceptions, func, true) ); } /* * Emit a warning (log) if the Passenger root dir (and/or its parents) can be modified by non-root users * while Passenger was run as root (because non-root users can then tamper with something running as root). * It's just a convenience warning, so check failures are only logged at the debug level. * * N.B. we limit our checking to use cases that can easily (gotcha) lead to this vulnerable setup, such as * installing Passenger via gem or tarball in a user dir, and then running it as root (for example by installing * it as nginx or apache module). We do not check the entire installation file/dir structure for whether users have * changed owner or access rights. */ static void warnIfPassengerRootVulnerable() { TRACE_POINT(); if (geteuid() != 0) { return; // Passenger is not root, so no escalation. } string root = workingObjects->resourceLocator.getInstallSpec(); vector<string> errors, checkErrors; if (isPathProbablySecureForRootUse(root, errors, checkErrors)) { if (!checkErrors.empty()) { string message = "WARNING: unable to perform privilege escalation vulnerability detection:\n"; foreach (string line, checkErrors) { message.append("\n - " + line); } P_WARN(message); } } else { string message = "WARNING: potential privilege escalation vulnerability detected. " \ PROGRAM_NAME " is running as root, and part(s) of the " SHORT_PROGRAM_NAME " root path (" + root + ") can be changed by non-root user(s):\n"; foreach (string line, errors) { message.append("\n - " + line); } foreach (string line, checkErrors) { message.append("\n - " + line); } message.append("\n\nPlease either fix up the permissions for the insecure paths, or install " SHORT_PROGRAM_NAME " in a different location that can only be modified by root."); P_WARN(message); } } static void reportInitializationInfo() { TRACE_POINT(); if (feedbackFdAvailable()) { P_NOTICE(SHORT_PROGRAM_NAME " core online, PID " << getpid()); writeArrayMessage(FEEDBACK_FD, "initialized", NULL); } else { const Json::Value addresses = coreConfig->get("controller_addresses"); const Json::Value apiAddresses = coreConfig->get("api_server_addresses"); Json::Value::const_iterator it; P_NOTICE(SHORT_PROGRAM_NAME " core online, PID " << getpid() << ", listening on " << addresses.size() << " socket(s):"); for (it = addresses.begin(); it != addresses.end(); it++) { string address = it->asString(); if (startsWith(address, "tcp://")) { address.erase(0, sizeof("tcp://") - 1); address.insert(0, "http://"); address.append("/"); } P_NOTICE(" * " << address); } if (!apiAddresses.empty()) { P_NOTICE("API server listening on " << apiAddresses.size() << " socket(s):"); for (it = apiAddresses.begin(); it != apiAddresses.end(); it++) { string address = it->asString(); if (startsWith(address, "tcp://")) { address.erase(0, sizeof("tcp://") - 1); address.insert(0, "http://"); address.append("/"); } P_NOTICE(" * " << address); } } } } static void initializeAbortHandlerCustomerDiagnostics() { if (!Agent::Fundamentals::abortHandlerInstalled()) { return; } Agent::Fundamentals::AbortHandlerConfig::DiagnosticsDumper *diagnosticsDumpers = &Agent::Fundamentals::context->abortHandlerConfig.diagnosticsDumpers[0]; diagnosticsDumpers[0].name = "OXT backtraces"; diagnosticsDumpers[0].logFileName = "backtrace_oxt.log"; diagnosticsDumpers[0].func = dumpOxtBacktracesOnCrash; diagnosticsDumpers[1].name = "controller states"; diagnosticsDumpers[1].logFileName = "controller_states.log"; diagnosticsDumpers[1].func = dumpControllerStatesOnCrash; diagnosticsDumpers[2].name = "controller configs"; diagnosticsDumpers[2].logFileName = "controller_configs.log"; diagnosticsDumpers[2].func = dumpControllerConfigsOnCrash; diagnosticsDumpers[3].name = "pool state"; diagnosticsDumpers[3].logFileName = "pool.log"; diagnosticsDumpers[3].func = dumpPoolStateOnCrash; diagnosticsDumpers[4].name = "mbuf statistics"; diagnosticsDumpers[4].logFileName = "mbufs.log"; diagnosticsDumpers[4].func = dumpMbufStatsOnCrash; Agent::Fundamentals::abortHandlerConfigChanged(); } static void uninstallAbortHandlerCustomDiagnostics() { if (!Agent::Fundamentals::abortHandlerInstalled()) { return; } for (unsigned int i = 0; i < Agent::Fundamentals::AbortHandlerConfig::MAX_DIAGNOSTICS_DUMPERS; i++) { Agent::Fundamentals::context->abortHandlerConfig.diagnosticsDumpers[i].func = NULL; } Agent::Fundamentals::abortHandlerConfigChanged(); } static void mainLoop() { TRACE_POINT(); WorkingObjects *wo = workingObjects; #ifdef SUPPORTS_PER_THREAD_CPU_AFFINITY unsigned int maxCpus = boost::thread::hardware_concurrency(); bool cpuAffine = coreConfig->get("controller_cpu_affine").asBool() && maxCpus <= CPU_SETSIZE; #endif for (unsigned int i = 0; i < wo->threadWorkingObjects.size(); i++) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[i]; two->bgloop->start("Main event loop: thread " + toString(i + 1), 0); #ifdef SUPPORTS_PER_THREAD_CPU_AFFINITY if (cpuAffine) { cpu_set_t cpus; int result; CPU_ZERO(&cpus); CPU_SET(i % maxCpus, &cpus); P_DEBUG("Setting CPU affinity of core thread " << (i + 1) << " to CPU " << (i % maxCpus + 1)); result = pthread_setaffinity_np(two->bgloop->getNativeHandle(), maxCpus, &cpus); if (result != 0) { P_WARN("Cannot set CPU affinity on core thread " << (i + 1) << ": " << strerror(result) << " (errno=" << result << ")"); } } #endif } if (wo->apiWorkingObjects.apiServer != NULL) { wo->apiWorkingObjects.bgloop->start("API event loop", 0); } if (wo->threadWorkingObjects.size() > 1) { wo->loadBalancer.start(); } waitForExitEvent(); } static void abortLongRunningConnectionsOnController(Core::Controller *controller, string gupid) { controller->disconnectLongRunningConnections(gupid); } static void abortLongRunningConnections(const ApplicationPool2::ProcessPtr &process) { // We are inside the ApplicationPool lock. Be very careful here. WorkingObjects *wo = workingObjects; P_NOTICE("Checking whether to disconnect long-running connections for process " << process->getPid() << ", application " << process->getGroup()->getName()); for (unsigned int i = 0; i < wo->threadWorkingObjects.size(); i++) { wo->threadWorkingObjects[i].bgloop->safe->runLater( boost::bind(abortLongRunningConnectionsOnController, wo->threadWorkingObjects[i].controller, process->getGupid().toString())); } } static void shutdownController(ThreadWorkingObjects *two) { two->controller->shutdown(); } static void shutdownApiServer() { workingObjects->apiWorkingObjects.apiServer->shutdown(); } static void serverShutdownFinished() { unsigned int i = workingObjects->shutdownCounter.fetch_sub(1, boost::memory_order_release); P_DEBUG("Shutdown counter = " << (i - 1)); if (i == 1) { boost::atomic_thread_fence(boost::memory_order_acquire); workingObjects->allClientsDisconnectedEvent.notify(); } } static void controllerShutdownFinished(Core::Controller *controller) { P_DEBUG("Controller " << controller->getThreadNumber() << " shutdown finished"); serverShutdownFinished(); } static void apiServerShutdownFinished(Core::ApiServer::ApiServer *server) { P_DEBUG("API server shutdown finished"); serverShutdownFinished(); } static void telemetryCollectorAsyncShutdownThreadMain() { WorkingObjects *wo = workingObjects; wo->telemetryCollector->stop(); serverShutdownFinished(); } static void asyncShutdownTelemetryCollector() { oxt::thread(telemetryCollectorAsyncShutdownThreadMain, "Telemetry collector shutdown", 512 * 1024); } /* Wait until the watchdog closes the feedback fd (meaning it * was killed) or until we receive an exit message. */ static void waitForExitEvent() { boost::this_thread::disable_syscall_interruption dsi; WorkingObjects *wo = workingObjects; fd_set fds; int largestFd = -1; FD_ZERO(&fds); if (feedbackFdAvailable()) { FD_SET(FEEDBACK_FD, &fds); largestFd = std::max(largestFd, FEEDBACK_FD); } FD_SET(wo->exitEvent.fd(), &fds); largestFd = std::max(largestFd, wo->exitEvent.fd()); TRACE_POINT(); if (syscalls::select(largestFd + 1, &fds, NULL, NULL, NULL) == -1) { int e = errno; uninstallAbortHandlerCustomDiagnostics(); throw SystemException("select() failed", e); } if (FD_ISSET(FEEDBACK_FD, &fds)) { UPDATE_TRACE_POINT(); /* If the watchdog has been killed then we'll kill all descendant * processes and exit. There's no point in keeping the server agent * running because we can't detect when the web server exits, * and because this server agent doesn't own the instance * directory. As soon as passenger-status is run, the instance * directory will be cleaned up, making the server inaccessible. */ P_WARN("Watchdog seems to be killed; forcing shutdown of all subprocesses"); // We send a SIGTERM first to allow processes to gracefully shut down. syscalls::killpg(getpgrp(), SIGTERM); usleep(500000); syscalls::killpg(getpgrp(), SIGKILL); _exit(2); // In case killpg() fails. } else { UPDATE_TRACE_POINT(); /* We received an exit command. */ P_NOTICE("Received command to shutdown gracefully. " "Waiting until all clients have disconnected..."); wo->appPool->prepareForShutdown(); for (unsigned i = 0; i < wo->threadWorkingObjects.size(); i++) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[i]; two->bgloop->safe->runLater(boost::bind(shutdownController, two)); } if (wo->threadWorkingObjects.size() > 1) { wo->loadBalancer.shutdown(); } if (wo->apiWorkingObjects.apiServer != NULL) { wo->apiWorkingObjects.bgloop->safe->runLater(shutdownApiServer); } if (wo->telemetryCollector != NULL) { asyncShutdownTelemetryCollector(); } if (wo->adminPanelConnector != NULL) { wo->adminPanelConnector->asyncShutdown(); } UPDATE_TRACE_POINT(); FD_ZERO(&fds); FD_SET(wo->allClientsDisconnectedEvent.fd(), &fds); if (syscalls::select(wo->allClientsDisconnectedEvent.fd() + 1, &fds, NULL, NULL, NULL) == -1) { int e = errno; uninstallAbortHandlerCustomDiagnostics(); throw SystemException("select() failed", e); } P_INFO("All clients have now disconnected. Proceeding with graceful shutdown"); } } static void cleanup() { TRACE_POINT(); WorkingObjects *wo = workingObjects; P_DEBUG("Shutting down " SHORT_PROGRAM_NAME " core..."); wo->appPool->destroy(); uninstallAbortHandlerCustomDiagnostics(); for (unsigned i = 0; i < wo->threadWorkingObjects.size(); i++) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[i]; two->bgloop->stop(); } if (wo->apiWorkingObjects.apiServer != NULL) { wo->apiWorkingObjects.bgloop->stop(); } if (wo->telemetryCollector != NULL && !coreConfig->get("telemetry_collector_disabled").asBool()) { wo->telemetryCollector->runOneCycle(true); } wo->appPool.reset(); for (unsigned i = 0; i < wo->threadWorkingObjects.size(); i++) { ThreadWorkingObjects *two = &wo->threadWorkingObjects[i]; delete two->controller; two->controller = NULL; } if (wo->prestarterThread != NULL) { wo->prestarterThread->interrupt_and_join(); delete wo->prestarterThread; wo->prestarterThread = NULL; } for (unsigned int i = 0; i < SERVER_KIT_MAX_SERVER_ENDPOINTS; i++) { if (wo->serverFds[i] != -1) { close(wo->serverFds[i]); } if (wo->apiServerFds[i] != -1) { close(wo->apiServerFds[i]); } } deletePidFile(); delete workingObjects; workingObjects = NULL; P_NOTICE(SHORT_PROGRAM_NAME " core shutdown finished"); } static void deletePidFile() { TRACE_POINT(); Json::Value pidFile = coreConfig->get("pid_file"); if (!pidFile.isNull()) { syscalls::unlink(pidFile.asCString()); } } static int runCore() { TRACE_POINT(); P_NOTICE("Starting " SHORT_PROGRAM_NAME " core..."); try { UPDATE_TRACE_POINT(); initializePrivilegedWorkingObjects(); initializeSingleAppMode(); setUlimits(); startListening(); createPidFile(); lowerPrivilege(); initializeCurl(); initializeNonPrivilegedWorkingObjects(); initializeSecurityUpdateChecker(); initializeTelemetryCollector(); initializeAdminPanelConnector(); prestartWebApps(); UPDATE_TRACE_POINT(); warnIfPassengerRootVulnerable(); reportInitializationInfo(); initializeAbortHandlerCustomerDiagnostics(); mainLoop(); UPDATE_TRACE_POINT(); cleanup(); } catch (const tracable_exception &e) { // We intentionally don't call cleanup() in // order to avoid various destructor assertions. P_CRITICAL("ERROR: " << e.what() << "\n" << e.backtrace()); deletePidFile(); return 1; } catch (const std::runtime_error &e) { P_CRITICAL("ERROR: " << e.what()); deletePidFile(); return 1; } return 0; } /***** Entry point and command line argument parsing *****/ static void parseOptions(int argc, const char *argv[], ConfigKit::Store &config) { OptionParser p(coreUsage); Json::Value updates(Json::objectValue); int i = 2; while (i < argc) { if (parseCoreOption(argc, argv, i, updates)) { continue; } else if (p.isFlag(argv[i], 'h', "--help")) { coreUsage(); exit(0); } else { fprintf(stderr, "ERROR: unrecognized argument %s. Please type " "'%s core --help' for usage.\n", argv[i], argv[0]); exit(1); } } if (!updates.empty()) { vector<ConfigKit::Error> errors; if (!config.update(updates, errors)) { P_BUG("Unable to set initial configuration: " << ConfigKit::toString(errors) << "\n" "Raw initial configuration: " << updates.toStyledString()); } } } static void loggingKitPreInitFunc(Json::Value &loggingKitInitialConfig) { loggingKitInitialConfig = manipulateLoggingKitConfig(*coreConfig, loggingKitInitialConfig); } int coreMain(int argc, char *argv[]) { int ret; coreWrapperRegistry = new WrapperRegistry::Registry(); coreWrapperRegistry->finalize(); coreSchema = new Schema(coreWrapperRegistry); coreConfig = new ConfigKit::Store(*coreSchema); initializeAgent(argc, &argv, SHORT_PROGRAM_NAME " core", *coreConfig, coreSchema->loggingKit.translator, parseOptions, loggingKitPreInitFunc, 2); #if !BOOST_OS_MACOS restoreOomScore(coreConfig->get("oom_score").asString()); #endif ret = runCore(); shutdownAgent(coreSchema, coreConfig); delete coreWrapperRegistry; return ret; }