Exemplo n.º 1
0
        int killDb( int port, pid_t _pid, int signal ) {
            pid_t pid;
            int exitCode = 0;
            if ( port > 0 ) {
                if( dbs.count( port ) != 1 ) {
                    cout << "No db started on port: " << port << endl;
                    return 0;
                }
                pid = dbs[ port ].first;
            }
            else {
                pid = _pid;
            }

            kill_wrapper( pid, signal, port );

            int i = 0;
            for( ; i < 130; ++i ) {
                if ( i == 30 ) {
                    char now[64];
                    time_t_to_String(time(0), now);
                    now[ 20 ] = 0;
                    cout << now << " process on port " << port << ", with pid " << pid << " not terminated, sending sigkill" << endl;
                    kill_wrapper( pid, SIGKILL, port );
                }
                if(wait_for_pid(pid, false, &exitCode))
                    break;
                sleepmillis( 1000 );
            }
            if ( i == 130 ) {
                char now[64];
                time_t_to_String(time(0), now);
                now[ 20 ] = 0;
                cout << now << " failed to terminate process on port " << port << ", with pid " << pid << endl;
                assert( "Failed to terminate process" == 0 );
            }

            if ( port > 0 ) {
                close( dbs[ port ].second );
                dbs.erase( port );
            }
            else {
                close( shells[ pid ] );
                shells.erase( pid );
            }
            // FIXME I think the intention here is to do an extra sleep only when SIGKILL is sent to the child process.
            // We may want to change the 4 below to 29, since values of i greater than that indicate we sent a SIGKILL.
            if ( i > 4 || signal == SIGKILL ) {
                sleepmillis( 4000 ); // allow operating system to reclaim resources
            }

            return exitCode;
        }
Exemplo n.º 2
0
       int killDb( int port, pid_t _pid, int signal, const BSONObj& opt ) {
            pid_t pid;
            int exitCode = 0;
            if ( port > 0 ) {
                if( !registry.isPortRegistered( port ) ) {
                    log() << "No db started on port: " << port << endl;
                    return 0;
                }
                pid = registry.pidForPort( port );
            }
            else {
                pid = _pid;
            }

            kill_wrapper( pid, signal, port, opt );

            int i = 0;
            for( ; i < 130; ++i ) {
                if ( i == 60 ) {
                    char now[64];
                    time_t_to_String(time(0), now);
                    now[ 20 ] = 0;
                    log() << now << " process on port " << port << ", with pid " << pid << " not terminated, sending sigkill" << endl;
                    kill_wrapper( pid, SIGKILL, port, opt );
                }
                if(wait_for_pid(pid, false, &exitCode))
                    break;
                sleepmillis( 1000 );
            }
            if ( i == 130 ) {
                char now[64];
                time_t_to_String(time(0), now);
                now[ 20 ] = 0;
                log() << now << " failed to terminate process on port " << port << ", with pid " << pid << endl;
                verify( "Failed to terminate process" == 0 );
            }

            if ( port > 0 ) {
                registry.deletePort( port );
            }
            else {
                registry.deletePid( pid );
            }
            // FIXME I think the intention here is to do an extra sleep only when SIGKILL is sent to the child process.
            // We may want to change the 4 below to 29, since values of i greater than that indicate we sent a SIGKILL.
            if ( i > 4 || signal == SIGKILL ) {
                sleepmillis( 4000 ); // allow operating system to reclaim resources
            }

            return exitCode;
        }
Exemplo n.º 3
0
        int killDb( int port, pid_t _pid, int signal ) {
            pid_t pid;
            int exitCode = 0;
            if ( port > 0 ) {
                if( dbs.count( port ) != 1 ) {
                    cout << "No db started on port: " << port << endl;
                    return 0;
                }
                pid = dbs[ port ].first;
            } else {
                pid = _pid;
            }
            
            kill_wrapper( pid, signal, port );
            
            int i = 0;
            for( ; i < 130; ++i ) {
                if ( i == 30 ) {
                    char now[64];
                    time_t_to_String(time(0), now);
                    now[ 20 ] = 0;
                    cout << now << " process on port " << port << ", with pid " << pid << " not terminated, sending sigkill" << endl;
                    kill_wrapper( pid, SIGKILL, port );
                }        
                if(wait_for_pid(pid, false, &exitCode))
                    break;
                sleepmillis( 1000 );
            }
            if ( i == 65 ) {
                char now[64];
                time_t_to_String(time(0), now);
                now[ 20 ] = 0;
                cout << now << " failed to terminate process on port " << port << ", with pid " << pid << endl;
                assert( "Failed to terminate process" == 0 );
            }

            if ( port > 0 ) {
                close( dbs[ port ].second );
                dbs.erase( port );
            } else {
                close( shells[ pid ] );
                shells.erase( pid );
            }
            if ( i > 4 || signal == SIGKILL ) {
                sleepmillis( 4000 ); // allow operating system to reclaim resources
            }
            
            return exitCode;
        }
Exemplo n.º 4
0
 void killDb( int port, pid_t _pid, int signal ) {
     pid_t pid;
     if ( port > 0 ) {
         if( dbs.count( port ) != 1 ) {
             cout << "No db started on port: " << port << endl;
             return;
         }
         pid = dbs[ port ].first;
     } else {
         pid = _pid;
     }
     
     assert( 0 == kill( pid, signal ) );
     
     int i = 0;
     for( ; i < 65; ++i ) {
         if ( i == 5 ) {
             char now[64];
             time_t_to_String(time(0), now);
             now[ 20 ] = 0;
             cout << now << " process on port " << port << ", with pid " << pid << " not terminated, sending sigkill" << endl;
             assert( 0 == kill( pid, SIGKILL ) );
         }        
         int temp;
         int ret = waitpid( pid, &temp, WNOHANG );
         if ( ret == pid )
             break;
         sleepms( 1000 );
     }
     if ( i == 65 ) {
         char now[64];
         time_t_to_String(time(0), now);
         now[ 20 ] = 0;
         cout << now << " failed to terminate process on port " << port << ", with pid " << pid << endl;
         assert( "Failed to terminate process" == 0 );
     }
     
     if ( port > 0 ) {
         close( dbs[ port ].second );
         dbs.erase( port );
     } else {
         close( shells[ pid ] );
         shells.erase( pid );
     }
     if ( i > 4 || signal == SIGKILL ) {
         sleepms( 4000 ); // allow operating system to reclaim resources
     }
 }
Exemplo n.º 5
0
 std::string toStringLong() const {
     char buf[64];
     time_t_to_String(secs, buf);
     std::stringstream ss;
     ss << time_t_to_String_short(secs) << ' ';
     ss << std::hex << secs << ':' << i;
     return ss.str();
 }
Exemplo n.º 6
0
    /* note: can't use malloc herein - may be in signal handler.
             logLockless() likely does not comply and should still be fixed todo
             likewise class string?
    */
    void rawOut( const string &s ) {
        if( s.empty() ) return;

        char buf[64];
        time_t_to_String( time(0) , buf );
        /* truncate / don't show the year: */
        buf[19] = ' ';
        buf[20] = 0;

        Logstream::logLockless(buf);
        Logstream::logLockless(s);
        Logstream::logLockless("\n");
    }
Exemplo n.º 7
0
Arquivo: util.cpp Projeto: IlyaM/mongo
    void rawOut( const string &s ) {
        if( s.empty() ) return;
        char now[64];
        time_t_to_String(time(0), now);
        now[20] = 0;        
#if defined(_WIN32)
        (std::cout << now << " " << s).flush();
#else
        write( STDOUT_FILENO, now, 20 );
		write( STDOUT_FILENO, " ", 1 );
        write( STDOUT_FILENO, s.c_str(), s.length() );
        fsync( STDOUT_FILENO );        
#endif
    }
Exemplo n.º 8
0
    // Returns false when request includes 'end'
    bool assembleResponse( Message &m, DbResponse &dbresponse, const sockaddr_in &client ) {
        // before we lock...
        if ( m.data->operation() == dbQuery ) {
            const char *ns = m.data->_data + 4;
            if( strstr(ns, "$cmd.sys.") ) { 
                if( strstr(ns, "$cmd.sys.inprog") ) {
                    inProgCmd(m, dbresponse);
                    return true;
                }
                if( strstr(ns, "$cmd.sys.killop") ) { 
                    killOp(m, dbresponse);
                    return true;
                }
            }
        }
        
        if ( handlePossibleShardedMessage( m , dbresponse ) ){
            /* important to do this before we lock
               so if a message has to be forwarded, doesn't block for that
            */
            return true;
        }

        dblock lk;
        
        stringstream ss;
        char buf[64];
        time_t now = time(0);
        CurOp& currentOp = *cc().curop();
        currentOp.reset(now, client);

        time_t_to_String(now, buf);
        buf[20] = 0; // don't want the year
        ss << buf;

        Timer t;
        Client& c = cc();
        c.clearns();

        int logThreshold = 100;
        int ms;
        bool log = logLevel >= 1;
        c.curop()->op = m.data->operation();

#if 0
        /* use this if you only want to process operations for a particular namespace.
         maybe add to cmd line parms or something fancier.
         */
        DbMessage ddd(m);
        if ( strncmp(ddd.getns(), "clusterstock", 12) != 0 ) {
            static int q;
            if ( ++q < 20 )
                out() << "TEMP skip " << ddd.getns() << endl;
            goto skip;
        }
#endif

        if ( m.data->operation() == dbQuery ) {
            // receivedQuery() does its own authorization processing.
            receivedQuery(dbresponse, m, ss, true);
        }
        else if ( m.data->operation() == dbGetMore ) {
            // receivedQuery() does its own authorization processing.
            OPREAD;
            DEV log = true;
            ss << "getmore ";
            receivedGetMore(dbresponse, m, ss);
        }
        else if ( m.data->operation() == dbMsg ) {
			/* deprecated / rarely used.  intended for connection diagnostics. */
            ss << "msg ";
            char *p = m.data->_data;
            int len = strlen(p);
            if ( len > 400 )
                out() << curTimeMillis() % 10000 <<
                     " long msg received, len:" << len <<
                     " ends with: " << p + len - 10 << endl;
            bool end = false; //strcmp("end", p) == 0;
            Message *resp = new Message();
            resp->setData(opReply, "i am fine");
            dbresponse.response = resp;
            dbresponse.responseTo = m.data->id;
            //dbMsgPort.reply(m, resp);
            if ( end )
                return false;
        }
        else {
            const char *ns = m.data->_data + 4;
            char cl[256];
            nsToClient(ns, cl);
            strncpy(currentOp.ns, ns, Namespace::MaxNsLen);
            AuthenticationInfo *ai = currentClient.get()->ai;
            if( !ai->isAuthorized(cl) ) { 
                uassert_nothrow("unauthorized");
            }
            else if ( m.data->operation() == dbInsert ) {
                OPWRITE;
                try {
                    ss << "insert ";
                    receivedInsert(m, ss);
                }
                catch ( AssertionException& e ) {
                    LOGSOME problem() << " Caught Assertion insert, continuing\n";
                    ss << " exception " + e.toString();
                }
            }
            else if ( m.data->operation() == dbUpdate ) {
                OPWRITE;
                try {
                    ss << "update ";
                    receivedUpdate(m, ss);
                }
                catch ( AssertionException& e ) {
                    LOGSOME problem() << " Caught Assertion update, continuing" << endl;
                    ss << " exception " + e.toString();
                }
            }
            else if ( m.data->operation() == dbDelete ) {
                OPWRITE;
                try {
                    ss << "remove ";
                    receivedDelete(m, ss);
                }
                catch ( AssertionException& e ) {
                    LOGSOME problem() << " Caught Assertion receivedDelete, continuing" << endl;
                    ss << " exception " + e.toString();
                }
            }
            else if ( m.data->operation() == dbKillCursors ) {
                OPREAD;
                try {
                    logThreshold = 10;
                    ss << "killcursors ";
                    receivedKillCursors(m);
                }
                catch ( AssertionException& e ) {
                    problem() << " Caught Assertion in kill cursors, continuing" << endl;
                    ss << " exception " + e.toString();
                }
            }
            else {
                out() << "    operation isn't supported: " << m.data->operation() << endl;
                currentOp.active = false;
                assert(false);
            }
        }
        ms = t.millis();
        log = log || (logLevel >= 2 && ++ctr % 512 == 0);
        DEV log = true;
        if ( log || ms > logThreshold ) {
            ss << ' ' << t.millis() << "ms";
            out() << ss.str().c_str() << endl;
        }
        Database *database = cc().database();
        if ( database && database->profile >= 1 ) {
            if ( database->profile >= 2 || ms >= 100 ) {
                // profile it
                profile(ss.str().c_str()+20/*skip ts*/, ms);
            }
        }

        currentOp.active = false;
        return true;
    }
Exemplo n.º 9
0
Arquivo: log.cpp Projeto: weliu/mongo
    void Logstream::flush(Tee *t) {
        const size_t MAX_LOG_LINE = 1024 * 10;

        // this ensures things are sane
        if ( doneSetup == 1717 ) {
            string msg = ss.str();
            
            string threadName = getThreadName();
            const char * type = logLevelToString(logLevel);

            size_t msgLen = msg.size();
            if ( msgLen > MAX_LOG_LINE )
                msgLen = MAX_LOG_LINE;

            const int spaceNeeded = (int)( msgLen + 64 /* for extra info */ + threadName.size());
            int bufSize = 128;
            while ( bufSize < spaceNeeded )
                bufSize += 128;

            BufBuilder b(bufSize);
            time_t_to_String( time(0) , b.grow(20) );
            if (!threadName.empty()) {
                b.appendChar( '[' );
                b.appendStr( threadName , false );
                b.appendChar( ']' );
                b.appendChar( ' ' );
            }

            for ( int i=0; i<indent; i++ )
                b.appendChar( '\t' );

            if ( type[0] ) {
                b.appendStr( type , false );
                b.appendStr( ": " , false );
            }

            if ( msg.size() > MAX_LOG_LINE ) {
                stringstream sss;
                sss << "warning: log line attempted (" << msg.size() / 1024 << "k) over max size(" << MAX_LOG_LINE / 1024 << "k)";
                sss << ", printing beginning and end ... ";
                b.appendStr( sss.str() );
                const char * xx = msg.c_str();
                b.appendBuf( xx , MAX_LOG_LINE / 3 );
                b.appendStr( " .......... " );
                b.appendStr( xx + msg.size() - ( MAX_LOG_LINE / 3 ) );
            }
            else {
                b.appendStr( msg );
            }

            string out( b.buf() , b.len() - 1);
            assert( b.len() < spaceNeeded );

            scoped_lock lk(mutex);

            if( t ) t->write(logLevel,out);
            if ( globalTees ) {
                for ( unsigned i=0; i<globalTees->size(); i++ )
                    (*globalTees)[i]->write(logLevel,out);
            }
#ifndef _WIN32
            if ( isSyslog ) {
                syslog( logLevelToSysLogLevel(logLevel) , "%s" , out.data() );
            } else
#endif
            if(fwrite(out.data(), out.size(), 1, logfile)) {
                fflush(logfile);
            }
            else {
                int x = errno;
                cout << "Failed to write to logfile: " << errnoWithDescription(x) << ": " << out << endl;
            }
#ifdef POSIX_FADV_DONTNEED
            // This only applies to pages that have already been flushed
            RARELY posix_fadvise(fileno(logfile), 0, 0, POSIX_FADV_DONTNEED);
#endif
        }
        _init();
    }