/********************************************************************\ * BitlBee -- An IRC to other IM-networks gateway * * * * Copyright 2002-2004 Wilmer van der Gaast and others * \********************************************************************/ /* Main file (Unix specific part) */ /* This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. 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 General Public License for more details. You should have received a copy of the GNU General Public License with the Debian GNU/Linux distribution in /usr/share/common-licenses/GPL; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "bitlbee.h" #include "arc.h" #include "base64.h" #include "commands.h" #include "protocols/nogaim.h" #include "help.h" #include "ipc.h" #include "md5.h" #include "misc.h" #include #include #include #include #include global_t global; /* Against global namespace pollution */ static void sighandler( int signal ); static int crypt_main( int argc, char *argv[] ); int main( int argc, char *argv[] ) { int i = 0; char *old_cwd = NULL; struct sigaction sig, old; if( argc > 1 && strcmp( argv[1], "-x" ) == 0 ) return crypt_main( argc, argv ); log_init(); global.conf_file = g_strdup( CONF_FILE_DEF ); global.conf = conf_load( argc, argv ); if( global.conf == NULL ) return( 1 ); b_main_init(); nogaim_init(); srand( time( NULL ) ^ getpid() ); global.helpfile = g_strdup( HELP_FILE ); if( global.conf->runmode == RUNMODE_INETD ) { log_link( LOGLVL_ERROR, LOGOUTPUT_IRC ); log_link( LOGLVL_WARNING, LOGOUTPUT_IRC ); i = bitlbee_inetd_init(); log_message( LOGLVL_INFO, "Bitlbee %s starting in inetd mode.", BITLBEE_VERSION ); } else if( global.conf->runmode == RUNMODE_DAEMON ) { log_link( LOGLVL_ERROR, LOGOUTPUT_SYSLOG ); log_link( LOGLVL_WARNING, LOGOUTPUT_SYSLOG ); i = bitlbee_daemon_init(); log_message( LOGLVL_INFO, "Bitlbee %s starting in daemon mode.", BITLBEE_VERSION ); } else if( global.conf->runmode == RUNMODE_FORKDAEMON ) { /* In case the operator requests a restart, we need this. */ old_cwd = g_malloc( 256 ); if( getcwd( old_cwd, 255 ) == NULL ) { log_message( LOGLVL_WARNING, "Could not save current directory: %s", strerror( errno ) ); g_free( old_cwd ); old_cwd = NULL; } i = bitlbee_daemon_init(); log_message( LOGLVL_INFO, "Bitlbee %s starting in forking daemon mode.", BITLBEE_VERSION ); } if( i != 0 ) return( i ); if( ( global.conf->user && *global.conf->user ) && ( global.conf->runmode == RUNMODE_DAEMON || global.conf->runmode == RUNMODE_FORKDAEMON ) && ( !getuid() || !geteuid() ) ) { struct passwd *pw = NULL; pw = getpwnam( global.conf->user ); if( pw ) { setgid( pw->pw_gid ); setuid( pw->pw_uid ); } } /* global.storage = storage_init( global.conf->primary_storage, global.conf->migrate_storage ); if( global.storage == NULL ) { log_message( LOGLVL_ERROR, "Unable to load storage backend '%s'", global.conf->primary_storage ); return( 1 ); } */ /* Catch some signals to tell the user what's happening before quitting */ memset( &sig, 0, sizeof( sig ) ); sig.sa_handler = sighandler; sigaction( SIGCHLD, &sig, &old ); sigaction( SIGPIPE, &sig, &old ); sig.sa_flags = SA_RESETHAND; sigaction( SIGINT, &sig, &old ); sigaction( SIGILL, &sig, &old ); sigaction( SIGBUS, &sig, &old ); sigaction( SIGFPE, &sig, &old ); sigaction( SIGSEGV, &sig, &old ); sigaction( SIGTERM, &sig, &old ); sigaction( SIGQUIT, &sig, &old ); sigaction( SIGXCPU, &sig, &old ); if( !getuid() || !geteuid() ) log_message( LOGLVL_WARNING, "BitlBee is running with root privileges. Why?" ); if( help_init( &global.help, global.helpfile ) == NULL ) log_message( LOGLVL_WARNING, "Error opening helpfile %s.", HELP_FILE ); b_main_run(); /* Mainly good for restarting, to make sure we close the help.txt fd. */ help_free( &global.help ); if( global.restart ) { char *fn = ipc_master_save_state(); chdir( old_cwd ); setenv( "_BITLBEE_RESTART_STATE", fn, 1 ); g_free( fn ); close( global.listen_socket ); if( execv( argv[0], argv ) == -1 ) /* Apparently the execve() failed, so let's just jump back into our own/current main(). */ /* Need more cleanup code to make this work. */ return 1; /* main( argc, argv ); */ } return( 0 ); } static int crypt_main( int argc, char *argv[] ) { int pass_len; unsigned char *pass_cr, *pass_cl; if( argc < 4 || ( strcmp( argv[2], "hash" ) != 0 && strcmp( argv[2], "unhash" ) != 0 && argc < 5 ) ) { printf( "Supported:\n" " %s -x enc \n" " %s -x dec \n" " %s -x hash \n" " %s -x unhash \n" " %s -x chkhash \n", argv[0], argv[0], argv[0], argv[0], argv[0] ); } else if( strcmp( argv[2], "enc" ) == 0 ) { pass_len = arc_encode( argv[4], strlen( argv[4] ), (unsigned char**) &pass_cr, argv[3], 12 ); printf( "%s\n", base64_encode( pass_cr, pass_len ) ); } else if( strcmp( argv[2], "dec" ) == 0 ) { pass_len = base64_decode( argv[4], (unsigned char**) &pass_cr ); arc_decode( pass_cr, pass_len, (char**) &pass_cl, argv[3] ); printf( "%s\n", pass_cl ); } else if( strcmp( argv[2], "hash" ) == 0 ) { md5_byte_t pass_md5[21]; md5_state_t md5_state; random_bytes( pass_md5 + 16, 5 ); md5_init( &md5_state ); md5_append( &md5_state, (md5_byte_t*) argv[3], strlen( argv[3] ) ); md5_append( &md5_state, pass_md5 + 16, 5 ); /* Add the salt. */ md5_finish( &md5_state, pass_md5 ); printf( "%s\n", base64_encode( pass_md5, 21 ) ); } else if( strcmp( argv[2], "unhash" ) == 0 ) { printf( "Hash %s submitted to a massive Beowulf cluster of\n" "overclocked 486s. Expect your answer next year somewhere around this time. :-)\n", argv[3] ); } else if( strcmp( argv[2], "chkhash" ) == 0 ) { char *hash = strncmp( argv[3], "md5:", 4 ) == 0 ? argv[3] + 4 : argv[3]; int st = md5_verify_password( argv[4], hash ); printf( "Hash %s given password.\n", st == 0 ? "matches" : "does not match" ); return st; } return 0; } static void sighandler( int signal ) { /* FIXME: Calling log_message() here is not a very good idea! */ if( signal == SIGTERM ) { static int first = 1; if( first ) { /* We don't know what we were doing when this signal came in. It's not safe to touch the user data now (not to mention writing them to disk), so add a timer. */ log_message( LOGLVL_ERROR, "SIGTERM received, cleaning up process." ); b_timeout_add( 1, (b_event_handler) bitlbee_shutdown, NULL ); first = 0; } else { /* Well, actually, for now we'll never need this part because this signal handler will never be called more than once in a session for a non-SIGPIPE signal... But just in case we decide to change that: */ log_message( LOGLVL_ERROR, "SIGTERM received twice, so long for a clean shutdown." ); raise( signal ); } } else if( signal == SIGCHLD ) { pid_t pid; int st; while( ( pid = waitpid( 0, &st, WNOHANG ) ) > 0 ) { if( WIFSIGNALED( st ) ) log_message( LOGLVL_INFO, "Client %d terminated normally. (status = %d)", (int) pid, WEXITSTATUS( st ) ); else if( WIFEXITED( st ) ) log_message( LOGLVL_INFO, "Client %d killed by signal %d.", (int) pid, WTERMSIG( st ) ); } } else if( signal != SIGPIPE ) { log_message( LOGLVL_ERROR, "Fatal signal received: %d. That's probably a bug.", signal ); raise( signal ); } } double gettime() { struct timeval time[1]; gettimeofday( time, 0 ); return( (double) time->tv_sec + (double) time->tv_usec / 1000000 ); }