// db.cpp : Defines the entry point for the console application. // /** * Copyright (C) 2008 10gen Inc.info * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License, version 3, * as published by the Free Software Foundation. * * 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 * GNU Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #include "stdafx.h" #include "db.h" #include "query.h" #include "introspect.h" #include "repl.h" #include "../util/unittest.h" #include "../util/file_allocator.h" #include "../util/background.h" #include "dbmessage.h" #include "instance.h" #include "clientcursor.h" #include "pdfile.h" #include "stats/counters.h" #if !defined(_WIN32) #include #endif #if defined(_WIN32) #include "../util/ntservice.h" #endif #include "../scripting/engine.h" #include "module.h" #include "cmdline.h" #include "stats/snapshots.h" namespace mongo { CmdLine cmdLine; bool useJNI = true; /* only off if --nocursors which is for debugging. */ extern bool useCursors; /* only off if --nohints */ extern bool useHints; bool noHttpInterface = false; extern string bind_ip; extern char *appsrvPath; extern int diagLogging; extern int lenForNewNsFiles; extern int lockFile; extern string repairpath; void setupSignals(); void closeAllSockets(); void startReplication(); void pairWith(const char *remoteEnd, const char *arb); void setRecCacheSize(unsigned MB); void exitCleanly( ExitCode code ); const char *ourgetns() { Client *c = currentClient.get(); if ( ! c ) return ""; Client::Context* cc = c->getContext(); return cc ? cc->ns() : ""; } struct MyStartupTests { MyStartupTests() { assert( sizeof(OID) == 12 ); } } mystartupdbcpp; QueryResult* emptyMoreResult(long long); void testTheDb() { OpDebug debug; Client::Context ctx("sys.unittest.pdfile"); /* this is not validly formatted, if you query this namespace bad things will happen */ theDataFileMgr.insert("sys.unittest.pdfile", (void *) "hello worldx", 13); theDataFileMgr.insert("sys.unittest.pdfile", (void *) "hello worldx", 13); BSONObj j1((const char *) &js1); deleteObjects("sys.unittest.delete", j1, false); theDataFileMgr.insert("sys.unittest.delete", &js1, sizeof(js1)); deleteObjects("sys.unittest.delete", j1, false); updateObjects("sys.unittest.delete", j1, j1, true,false,true,debug); updateObjects("sys.unittest.delete", j1, j1, false,false,true,debug); auto_ptr c = theDataFileMgr.findAll("sys.unittest.pdfile"); while ( c->ok() ) { c->_current(); c->advance(); } out() << endl; } MessagingPort *connGrab = 0; void connThread(); class OurListener : public Listener { public: OurListener(const string &ip, int p) : Listener(ip, p) { } virtual void accepted(MessagingPort *mp) { assert( connGrab == 0 ); if ( ! connTicketHolder.tryAcquire() ){ log() << "connection refused because too many open connections" << endl; // TODO: would be nice if we notified them... mp->shutdown(); return; } connGrab = mp; try { boost::thread thr(connThread); while ( connGrab ) sleepmillis(1); } catch ( boost::thread_resource_error& ){ log() << "can't create new thread, closing connection" << endl; mp->shutdown(); connGrab = 0; } catch ( ... ){ log() << "unkonwn exception starting connThread" << endl; mp->shutdown(); connGrab = 0; } } }; void webServerThread(); void listen(int port) { log() << mongodVersion() << endl; printGitVersion(); printSysInfo(); //testTheDb(); log() << "waiting for connections on port " << port << endl; OurListener l(bind_ip, port); startReplication(); if ( !noHttpInterface ) boost::thread thr(webServerThread); if ( l.init() ) { ListeningSockets::get()->add( l.socket() ); l.listen(); } } } // namespace mongo #include "client.h" namespace mongo { void sysRuntimeInfo() { out() << "sysinfo:\n"; #if defined(_SC_PAGE_SIZE) out() << " page size: " << (int) sysconf(_SC_PAGE_SIZE) << endl; #endif #if defined(_SC_PHYS_PAGES) out() << " _SC_PHYS_PAGES: " << sysconf(_SC_PHYS_PAGES) << endl; #endif #if defined(_SC_AVPHYS_PAGES) out() << " _SC_AVPHYS_PAGES: " << sysconf(_SC_AVPHYS_PAGES) << endl; #endif } /* we create one thread for each connection from an app server database. app server will open a pool of threads. */ void connThread() { TicketHolderReleaser connTicketReleaser( &connTicketHolder ); Client::initThread("conn"); /* todo: move to Client object */ LastError *le = new LastError(); lastError.reset(le); auto_ptr dbMsgPort( connGrab ); connGrab = 0; Client& c = cc(); try { c.getAuthenticationInfo()->isLocalHost = dbMsgPort->farEnd.isLocalHost(); Message m; while ( 1 ) { m.reset(); if ( !dbMsgPort->recv(m) ) { if( !cmdLine.quiet ) log() << "end connection " << dbMsgPort->farEnd.toString() << endl; dbMsgPort->shutdown(); break; } if ( inShutdown() ) { log() << "got request after shutdown()" << endl; break; } lastError.startRequest( m , le ); DbResponse dbresponse; if ( !assembleResponse( m, dbresponse, dbMsgPort->farEnd.sa ) ) { out() << curTimeMillis() % 10000 << " end msg " << dbMsgPort->farEnd.toString() << endl; /* todo: we may not wish to allow this, even on localhost: very low priv accounts could stop us. */ if ( dbMsgPort->farEnd.isLocalHost() ) { dbMsgPort->shutdown(); sleepmillis(50); problem() << "exiting end msg" << endl; dbexit(EXIT_CLEAN); } else { out() << " (not from localhost, ignoring end msg)" << endl; } } if ( dbresponse.response ) dbMsgPort->reply(m, *dbresponse.response, dbresponse.responseTo); } } catch ( AssertionException& ) { problem() << "AssertionException in connThread, closing client connection" << endl; dbMsgPort->shutdown(); } catch ( SocketException& ) { problem() << "SocketException in connThread, closing client connection" << endl; dbMsgPort->shutdown(); } catch ( const ClockSkewException & ) { exitCleanly( EXIT_CLOCK_SKEW ); } catch ( std::exception &e ) { problem() << "Uncaught std::exception: " << e.what() << ", terminating" << endl; dbexit( EXIT_UNCAUGHT ); } catch ( ... ) { problem() << "Uncaught exception, terminating" << endl; dbexit( EXIT_UNCAUGHT ); } // any thread cleanup can happen here if ( currentClient.get() ) currentClient->shutdown(); globalScriptEngine->threadDone(); } void msg(const char *m, const char *address, int port, int extras = 0) { SockAddr db(address, port); // SockAddr db("127.0.0.1", DBPort); // SockAddr db("192.168.37.1", MessagingPort::DBPort); // SockAddr db("10.0.21.60", MessagingPort::DBPort); // SockAddr db("172.16.0.179", MessagingPort::DBPort); MessagingPort p; if ( !p.connect(db) ){ out() << "msg couldn't connect" << endl; return; } const int Loops = 1; for ( int q = 0; q < Loops; q++ ) { Message send; Message response; send.setData( dbMsg , m); int len = send.data->dataLen(); for ( int i = 0; i < extras; i++ ) p.say(/*db, */send); Timer t; bool ok = p.call(send, response); double tm = ((double) t.micros()) + 1; out() << " ****ok. response.data:" << ok << " time:" << tm / 1000.0 << "ms " << "len: " << len << " data: " << response.data->_data << endl; if ( q+1 < Loops ) { out() << "\t\tSLEEP 8 then sending again as a test" << endl; sleepsecs(8); } } sleepsecs(1); p.shutdown(); } void msg(const char *m, int extras = 0) { msg(m, "127.0.0.1", CmdLine::DefaultDBPort, extras); } bool shouldRepairDatabases = 0; bool forceRepair = 0; bool doDBUpgrade( const string& dbName , string errmsg , MDFHeader * h ){ static DBDirectClient db; if ( h->version == 4 && h->versionMinor == 4 ){ assert( VERSION == 4 ); assert( VERSION_MINOR == 5 ); list colls = db.getCollectionNames( dbName ); for ( list::iterator i=colls.begin(); i!=colls.end(); i++){ string c = *i; log() << "\t upgrading collection:" << c << endl; BSONObj out; bool ok = db.runCommand( dbName , BSON( "reIndex" << c.substr( dbName.size() + 1 ) ) , out ); if ( ! ok ){ errmsg = "reindex failed"; log() << "\t\t reindex failed: " << out << endl; return false; } } h->versionMinor = 5; return true; } // do this in the general case return repairDatabase( dbName.c_str(), errmsg ); } extern bool checkNsFilesOnLoad; void repairDatabases() { Client::GodScope gs; log(1) << "enter repairDatabases" << endl; assert(checkNsFilesOnLoad); checkNsFilesOnLoad = false; // we are mainly just checking the header - don't scan the whole .ns file for every db here. dblock lk; vector< string > dbNames; getDatabaseNames( dbNames ); for ( vector< string >::iterator i = dbNames.begin(); i != dbNames.end(); ++i ) { string dbName = *i; log(1) << "\t" << dbName << endl; Client::Context ctx( dbName ); MongoDataFile *p = cc().database()->getFile( 0 ); MDFHeader *h = p->getHeader(); if ( !h->currentVersion() || forceRepair ) { log() << "****" << endl; log() << "****" << endl; log() << "need to upgrade database " << dbName << " with pdfile version " << h->version << "." << h->versionMinor << ", " << "new version: " << VERSION << "." << VERSION_MINOR << endl; if ( shouldRepairDatabases ){ // QUESTION: Repair even if file format is higher version than code? log() << "\t starting upgrade" << endl; string errmsg; assert( doDBUpgrade( dbName , errmsg , h ) ); } else { log() << "\t Not upgrading, exiting!" << endl; log() << "\t run --upgrade to upgrade dbs, then start again" << endl; log() << "****" << endl; dbexit( EXIT_NEED_UPGRADE ); shouldRepairDatabases = 1; return; } } else { closeDatabase( dbName.c_str() ); } } log(1) << "done repairDatabases" << endl; if ( shouldRepairDatabases ){ log() << "finished checking dbs" << endl; cc().shutdown(); dbexit( EXIT_CLEAN ); } checkNsFilesOnLoad = true; } void clearTmpFiles() { boost::filesystem::path path( dbpath ); for ( boost::filesystem::directory_iterator i( path ); i != boost::filesystem::directory_iterator(); ++i ) { string fileName = boost::filesystem::path(*i).leaf(); if ( boost::filesystem::is_directory( *i ) && fileName.length() && fileName[ 0 ] == '$' ) boost::filesystem::remove_all( *i ); } } void clearTmpCollections() { Client::GodScope gs; vector< string > toDelete; DBDirectClient cli; auto_ptr< DBClientCursor > c = cli.query( "local.system.namespaces", Query( fromjson( "{name:/^local.temp./}" ) ) ); while( c->more() ) { BSONObj o = c->next(); toDelete.push_back( o.getStringField( "name" ) ); } for( vector< string >::iterator i = toDelete.begin(); i != toDelete.end(); ++i ) { log() << "Dropping old temporary collection: " << *i << endl; cli.dropCollection( *i ); } } /** * does background async flushes of mmapped files */ class DataFileSync : public BackgroundJob { public: void run(){ if ( _sleepsecs > 2100 ) _sleepsecs = 2100; log(1) << "will flush memory every: " << _sleepsecs << " seconds" << endl; int time_flushing = 0; while ( ! inShutdown() ){ if ( _sleepsecs == 0 ){ // in case at some point we add an option to change at runtime sleepsecs(5); continue; } sleepmillis( (int)(std::max(0.0, (_sleepsecs * 1000) - time_flushing)) ); Date_t start = jsTime(); MemoryMappedFile::flushAll( true ); time_flushing = (int) (jsTime() - start); globalFlushCounters.flushed(time_flushing); log(1) << "flushing mmap took " << time_flushing << "ms" << endl; } } double _sleepsecs; // default value controlled by program options } dataFileSync; void show_32_warning(){ #if BOOST_VERSION < 103500 cout << "\nwarning: built with boost version <= 1.34, limited concurrency" << endl; #endif if ( sizeof(int*) != 4 ) return; cout << endl; cout << "** NOTE: when using MongoDB 32 bit, you are limited to about 2 gigabytes of data" << endl; cout << "** see http://blog.mongodb.org/post/137788967/32-bit-limitations for more" << endl; cout << endl; } Timer startupSrandTimer; void _initAndListen(int listenPort, const char *appserverLoc = null) { #if !defined(_WIN32) pid_t pid = 0; pid = getpid(); #else int pid=0; #endif bool is32bit = sizeof(int*) == 4; log() << "Mongo DB : starting : pid = " << pid << " port = " << cmdLine.port << " dbpath = " << dbpath << " master = " << replSettings.master << " slave = " << (int) replSettings.slave << " " << ( is32bit ? "32" : "64" ) << "-bit " << endl; DEV log() << " FULL DEBUG ENABLED " << endl; show_32_warning(); { stringstream ss; ss << "dbpath (" << dbpath << ") does not exist"; massert( 10296 , ss.str().c_str(), boost::filesystem::exists( dbpath ) ); } { stringstream ss; ss << "repairpath (" << repairpath << ") does not exist"; massert( 12590 , ss.str().c_str(), boost::filesystem::exists( repairpath ) ); } acquirePathLock(); remove_all( dbpath + "/_tmp/" ); theFileAllocator().start(); BOOST_CHECK_EXCEPTION( clearTmpFiles() ); Client::initThread("initandlisten"); _diaglog.init(); clearTmpCollections(); Module::initAll(); #if 0 { stringstream indexpath; indexpath << dbpath << "/indexes.dat"; RecCache::tempStore.init(indexpath.str().c_str(), BucketSize); } #endif if ( useJNI ) { ScriptEngine::setup(); } repairDatabases(); /* we didn't want to pre-open all fiels for the repair check above. for regular operation we do for read/write lock concurrency reasons. */ Database::_openAllFiles = true; if ( shouldRepairDatabases ) return; /* this is for security on certain platforms (nonce generation) */ srand((unsigned) (curTimeMicros() ^ startupSrandTimer.micros())); snapshotThread.go(); listen(listenPort); // listen() will return when exit code closes its socket. while( 1 ) sleepsecs( 100 ); } void initAndListen(int listenPort, const char *appserverLoc = null) { try { _initAndListen(listenPort, appserverLoc); } catch ( std::exception &e ) { problem() << "exception in initAndListen std::exception: " << e.what() << ", terminating" << endl; dbexit( EXIT_UNCAUGHT ); } catch ( int& n ){ problem() << "exception in initAndListen int: " << n << ", terminating" << endl; dbexit( EXIT_UNCAUGHT ); } catch(...) { log() << " exception in initAndListen, terminating" << endl; dbexit( EXIT_UNCAUGHT ); } } #if defined(_WIN32) bool initService() { ServiceController::reportStatus( SERVICE_RUNNING ); initAndListen( cmdLine.port, appsrvPath ); return true; } #endif } // namespace mongo using namespace mongo; #include namespace po = boost::program_options; void show_help_text(po::options_description options) { show_32_warning(); cout << options << endl; }; /* Return error string or "" if no errors. */ string arg_error_check(int argc, char* argv[]) { for (int i = 1; i < argc; i++) { string s = argv[i]; /* check for inclusion of old-style arbiter setting. */ if (s == "--pairwith") { if (argc > i + 2) { string old_arbiter = argv[i + 2]; if (old_arbiter == "-" || old_arbiter.substr(0, 1) != "-") { return "Specifying arbiter using --pairwith is no longer supported, please use --arbiter"; } } } } return ""; } int main(int argc, char* argv[], char *envp[] ) { static StaticObserver staticObserver; getcurns = ourgetns; po::options_description general_options("General options"); po::options_description replication_options("Replication options"); po::options_description sharding_options("Sharding options"); po::options_description visible_options("Allowed options"); po::options_description hidden_options("Hidden options"); po::positional_options_description positional_options; CmdLine::addGlobalOptions( general_options , hidden_options ); general_options.add_options() ("bind_ip", po::value(&bind_ip), "local ip address to bind listener - all local ips bound by default") ("dbpath", po::value()->default_value("/data/db/"), "directory for datafiles") ("directoryperdb", "each database will be stored in a separate directory") ("repairpath", po::value() , "root directory for repair files - defaults to dbpath" ) ("cpu", "periodically show cpu and iowait utilization") ("noauth", "run without security") ("auth", "run with security") ("objcheck", "inspect client data for validity on receipt") ("quota", "enable db quota management") ("quotaFiles", po::value(), "number of files allower per db, requires --quota") ("appsrvpath", po::value(), "root directory for the babble app server") ("nocursors", "diagnostic/debugging option") ("nohints", "ignore query hints") ("nohttpinterface", "disable http interface") ("rest","turn on simple rest api") ("noscripting", "disable scripting engine") ("noprealloc", "disable data file preallocation") ("smallfiles", "use a smaller default file size") ("nssize", po::value()->default_value(16), ".ns file size (in MB) for new databases") ("diaglog", po::value(), "0=off 1=W 2=R 3=both 7=W+some reads") ("sysinfo", "print some diagnostic system information") ("upgrade", "upgrade db if needed") ("repair", "run repair on all dbs") ("notablescan", "do not allow table scans") ("syncdelay",po::value(&dataFileSync._sleepsecs)->default_value(60), "seconds between disk syncs (0 for never)") ("profile",po::value(), "0=off 1=slow, 2=all") ("slowms",po::value(&cmdLine.slowMS)->default_value(100), "value of slow for profile and console log" ) ("maxConns",po::value(), "max number of simultaneous connections") #if defined(_WIN32) ("install", "install mongodb service") ("remove", "remove mongodb service") ("service", "start mongodb service") #endif ; replication_options.add_options() ("master", "master mode") ("slave", "slave mode") ("source", po::value(), "when slave: specify master as ") ("only", po::value(), "when slave: specify a single database to replicate") ("pairwith", po::value(), "address of server to pair with") ("arbiter", po::value(), "address of arbiter server") ("slavedelay", po::value(), "specify delay (in seconds) to be used when applying master ops to slave") ("fastsync", "indicate that this instance is starting from a dbpath snapshot of the repl peer") ("autoresync", "automatically resync if slave data is stale") ("oplogSize", po::value(), "size limit (in MB) for op log") ("opIdMem", po::value(), "size limit (in bytes) for in memory storage of op ids") ; sharding_options.add_options() ("configsvr", "declare this is a config db of a cluster") ("shardsvr", "declare this is a shard db of a cluster") ; hidden_options.add_options() ("command", po::value< vector >(), "command") ("cacheSize", po::value(), "cache size (in MB) for rec store") ; positional_options.add("command", 3); visible_options.add(general_options); visible_options.add(replication_options); visible_options.add(sharding_options); Module::addOptions( visible_options ); setupSignals(); dbExecCommand = argv[0]; srand(curTimeMicros()); boost::filesystem::path::default_name_check( boost::filesystem::no_check ); { unsigned x = 0x12345678; unsigned char& b = (unsigned char&) x; if ( b != 0x78 ) { out() << "big endian cpus not yet supported" << endl; return 33; } } DEV out() << "DEV is defined (using _DEBUG), which is slower...\n"; UnitTest::runTests(); if (argc == 1) { cout << dbExecCommand << " --help for help and startup options" << endl; } { bool installService = false; bool removeService = false; bool startService = false; po::variables_map params; string error_message = arg_error_check(argc, argv); if (error_message != "") { cout << error_message << endl << endl; show_help_text(visible_options); return 0; } if ( ! CmdLine::store( argc , argv , visible_options , hidden_options , positional_options , params ) ) return 0; if (params.count("help")) { show_help_text(visible_options); return 0; } if (params.count("version")) { cout << mongodVersion() << endl; printGitVersion(); return 0; } dbpath = params["dbpath"].as(); if ( params.count("directoryperdb")) { directoryperdb = true; } if (params.count("cpu")) { cmdLine.cpu = true; } if (params.count("noauth")) { noauth = true; } if (params.count("auth")) { noauth = false; } if (params.count("quota")) { cmdLine.quota = true; } if (params.count("quotaFiles")) { cmdLine.quota = true; cmdLine.quotaFiles = params["quotaFiles"].as() - 1; } if (params.count("objcheck")) { objcheck = true; } if (params.count("appsrvpath")) { /* casting away the const-ness here */ appsrvPath = (char*)(params["appsrvpath"].as().c_str()); } if (params.count("repairpath")) { repairpath = params["repairpath"].as(); uassert( 12589, "repairpath has to be non-zero", repairpath.size() ); } else { repairpath = dbpath; } if (params.count("nocursors")) { useCursors = false; } if (params.count("nohints")) { useHints = false; } if (params.count("nohttpinterface")) { noHttpInterface = true; } if (params.count("rest")) { cmdLine.rest = true; } if (params.count("noscripting")) { useJNI = false; } if (params.count("noprealloc")) { cmdLine.prealloc = false; } if (params.count("smallfiles")) { cmdLine.smallfiles = true; } if (params.count("diaglog")) { int x = params["diaglog"].as(); if ( x < 0 || x > 7 ) { out() << "can't interpret --diaglog setting" << endl; dbexit( EXIT_BADOPTIONS ); } _diaglog.level = x; } if (params.count("sysinfo")) { sysRuntimeInfo(); return 0; } if (params.count("repair")) { shouldRepairDatabases = 1; forceRepair = 1; } if (params.count("upgrade")) { shouldRepairDatabases = 1; } if (params.count("notablescan")) { cmdLine.notablescan = true; } if (params.count("install")) { installService = true; } if (params.count("remove")) { removeService = true; } if (params.count("service")) { startService = true; } if (params.count("master")) { replSettings.master = true; } if (params.count("slave")) { replSettings.slave = SimpleSlave; } if (params.count("slavedelay")) { replSettings.slavedelay = params["slavedelay"].as(); } if (params.count("fastsync")) { replSettings.fastsync = true; } if (params.count("autoresync")) { replSettings.autoresync = true; } if (params.count("source")) { /* specifies what the source in local.sources should be */ cmdLine.source = params["source"].as().c_str(); } if (params.count("only")) { cmdLine.only = params["only"].as().c_str(); } if (params.count("pairwith")) { string paired = params["pairwith"].as(); if (params.count("arbiter")) { string arbiter = params["arbiter"].as(); pairWith(paired.c_str(), arbiter.c_str()); } else { pairWith(paired.c_str(), "-"); } } else if (params.count("arbiter")) { uasserted(10999,"specifying --arbiter without --pairwith"); } if( params.count("nssize") ) { int x = params["nssize"].as(); uassert( 10034 , "bad --nssize arg", x > 0 && x <= (0x7fffffff/1024/1024)); lenForNewNsFiles = x * 1024 * 1024; assert(lenForNewNsFiles > 0); } if (params.count("oplogSize")) { long x = params["oplogSize"].as(); uassert( 10035 , "bad --oplogSize arg", x > 0); cmdLine.oplogSize = x * 1024 * 1024; assert(cmdLine.oplogSize > 0); } if (params.count("opIdMem")) { long x = params["opIdMem"].as(); uassert( 10036 , "bad --opIdMem arg", x > 0); replSettings.opIdMem = x; assert(replSettings.opIdMem > 0); } if (params.count("cacheSize")) { long x = params["cacheSize"].as(); uassert( 10037 , "bad --cacheSize arg", x > 0); setRecCacheSize(x); } if (params.count("port") == 0 ) { if( params.count("configsvr") ) { cmdLine.port = CmdLine::ConfigServerPort; } if( params.count("shardsvr") ) cmdLine.port = CmdLine::ShardServerPort; } if ( params.count("configsvr" ) && params.count( "diaglog" ) == 0 ){ _diaglog.level = 1; } if ( params.count( "profile" ) ){ cmdLine.defaultProfile = params["profile"].as(); } if ( params.count( "maxConns" ) ){ int newSize = params["maxConns"].as(); uassert( 12507 , "maxConns has to be at least 5" , newSize >= 5 ); uassert( 12508 , "maxConns can't be greater than 10000000" , newSize < 10000000 ); connTicketHolder.resize( newSize ); } Module::configAll( params ); dataFileSync.go(); if (params.count("command")) { vector command = params["command"].as< vector >(); if (command[0].compare("msg") == 0) { const char *m; if (command.size() < 3) { cout << "Too few parameters to 'msg' command" << endl; cout << visible_options << endl; return 0; } m = command[1].c_str(); msg(m, "127.0.0.1", atoi(command[2].c_str())); return 0; } if (command[0].compare("run") == 0) { if (command.size() > 1) { cout << "Too many parameters to 'run' command" << endl; cout << visible_options << endl; return 0; } initAndListen(cmdLine.port); return 0; } if (command[0].compare("dbpath") == 0) { cout << dbpath << endl; return 0; } cout << "Invalid command: " << command[0] << endl; cout << visible_options << endl; return 0; } #if defined(_WIN32) if ( installService ) { if ( !ServiceController::installService( L"MongoDB", L"Mongo DB", L"Mongo DB Server", argc, argv ) ) dbexit( EXIT_NTSERVICE_ERROR ); dbexit( EXIT_CLEAN ); } else if ( removeService ) { if ( !ServiceController::removeService( L"MongoDB" ) ) dbexit( EXIT_NTSERVICE_ERROR ); dbexit( EXIT_CLEAN ); } else if ( startService ) { if ( !ServiceController::startService( L"MongoDB", mongo::initService ) ) dbexit( EXIT_NTSERVICE_ERROR ); dbexit( EXIT_CLEAN ); } #endif } initAndListen(cmdLine.port, appsrvPath); dbexit(EXIT_CLEAN); return 0; } namespace mongo { /* we do not use log() below as it uses a mutex and that could cause deadlocks. */ string getDbContext(); #undef out void exitCleanly( ExitCode code ) { goingAway = true; killCurrentOp.killAll(); { dblock lk; log() << "now exiting" << endl; dbexit( code ); } } #if !defined(_WIN32) } // namespace mongo #include #include namespace mongo { void pipeSigHandler( int signal ) { #ifdef psignal psignal( signal, "Signal Received : "); #else cout << "got pipe signal:" << signal << endl; #endif } void abruptQuit(int x) { ostringstream ossSig; ossSig << "Got signal: " << x << " (" << strsignal( x ) << ")." << endl; rawOut( ossSig.str() ); /* ostringstream ossOp; ossOp << "Last op: " << currentOp.infoNoauth() << endl; rawOut( ossOp.str() ); */ ostringstream oss; oss << "Backtrace:" << endl; printStackTrace( oss ); rawOut( oss.str() ); dbexit( EXIT_ABRUBT ); } sigset_t asyncSignals; // The above signals will be processed by this thread only, in order to // ensure the db and log mutexes aren't held. void interruptThread() { int x; sigwait( &asyncSignals, &x ); log() << "got kill or ctrl c signal " << x << " (" << strsignal( x ) << "), will terminate after current cmd ends" << endl; Client::initThread( "interruptThread" ); exitCleanly( EXIT_KILL ); } // this will be called in certain c++ error cases, for example if there are two active // exceptions void myterminate() { rawOut( "terminate() called, printing stack:\n" ); printStackTrace(); abort(); } void setupSignals() { assert( signal(SIGSEGV, abruptQuit) != SIG_ERR ); assert( signal(SIGFPE, abruptQuit) != SIG_ERR ); assert( signal(SIGABRT, abruptQuit) != SIG_ERR ); assert( signal(SIGBUS, abruptQuit) != SIG_ERR ); assert( signal(SIGPIPE, pipeSigHandler) != SIG_ERR ); assert( signal(SIGUSR1 , rotateLogs ) != SIG_ERR ); setupSIGTRAPforGDB(); sigemptyset( &asyncSignals ); sigaddset( &asyncSignals, SIGINT ); sigaddset( &asyncSignals, SIGTERM ); assert( pthread_sigmask( SIG_SETMASK, &asyncSignals, 0 ) == 0 ); boost::thread it( interruptThread ); set_terminate( myterminate ); } #else void ctrlCTerminate() { log() << "got kill or ctrl-c signal, will terminate after current cmd ends" << endl; Client::initThread( "ctrlCTerminate" ); exitCleanly( EXIT_KILL ); } BOOL CtrlHandler( DWORD fdwCtrlType ) { switch( fdwCtrlType ) { case CTRL_C_EVENT: rawOut("Ctrl-C signal\n"); ctrlCTerminate(); return( TRUE ); case CTRL_CLOSE_EVENT: rawOut("CTRL_CLOSE_EVENT signal\n"); ctrlCTerminate(); return( TRUE ); case CTRL_BREAK_EVENT: rawOut("CTRL_BREAK_EVENT signal\n"); ctrlCTerminate(); return TRUE; case CTRL_LOGOFF_EVENT: rawOut("CTRL_LOGOFF_EVENT signal (ignored)\n"); return FALSE; case CTRL_SHUTDOWN_EVENT: rawOut("CTRL_SHUTDOWN_EVENT signal (ignored)\n"); return FALSE; default: return FALSE; } } void setupSignals() { if( SetConsoleCtrlHandler( (PHANDLER_ROUTINE) CtrlHandler, TRUE ) ) ; else massert( 10297 , "Couldn't register Windows Ctrl-C handler", false); } #endif } // namespace mongo #include "recstore.h" #include "reccache.h"