/* * Copyright (C) 2002 - 2004 Tomasz Kojm * Trog * * 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 * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #if HAVE_CONFIG_H #include "clamav-config.h" #endif #include #include #include #include #include #include #include #include #include #include "server.h" #include "thrmgr.h" #include "session.h" #include "defaults.h" #include "clamuko.h" #include "others.h" #include "memory.h" #include "shared.h" #include "output.h" #define BUFFSIZE 1024 #define FALSE (0) #define TRUE (1) int progexit = 0; pthread_mutex_t exit_mutex; int reload = 0; time_t reloaded_time = 0; pthread_mutex_t reload_mutex; int sighup = 0; typedef struct client_conn_tag { int sd; int options; const struct cfgstruct *copt; struct cl_node *root; time_t root_timestamp; const struct cl_limits *limits; pid_t mainpid; } client_conn_t; void scanner_thread(void *arg) { client_conn_t *conn = (client_conn_t *) arg; sigset_t sigset; int ret, timeout, session=FALSE; struct cfgstruct *cpt; /* ignore all signals */ sigfillset(&sigset); pthread_sigmask(SIG_SETMASK, &sigset, NULL); if((cpt = cfgopt(conn->copt, "ReadTimeout"))) { timeout = cpt->numarg; } else { timeout = CL_DEFAULT_SCANTIMEOUT; } if(!timeout) timeout = -1; do { ret = command(conn->sd, conn->root, conn->limits, conn->options, conn->copt, timeout); if (ret < 0) { break; } switch(ret) { case COMMAND_SHUTDOWN: pthread_mutex_lock(&exit_mutex); progexit = 1; kill(conn->mainpid, SIGTERM); pthread_mutex_unlock(&exit_mutex); break; case COMMAND_RELOAD: pthread_mutex_lock(&reload_mutex); reload = 1; pthread_mutex_unlock(&reload_mutex); break; case COMMAND_SESSION: session = TRUE; break; case COMMAND_END: session = FALSE; break; } if (session) { pthread_mutex_lock(&exit_mutex); if(progexit) { session = FALSE; } pthread_mutex_unlock(&exit_mutex); pthread_mutex_lock(&reload_mutex); if (conn->root_timestamp != reloaded_time) { session = FALSE; } pthread_mutex_unlock(&reload_mutex); } } while (session); close(conn->sd); cl_free(conn->root); free(conn); return; } void sighandler_th(int sig) { switch(sig) { case SIGINT: case SIGTERM: progexit = 1; break; case SIGSEGV: logg("Segmentation fault :-( Bye..\n"); _exit(11); /* probably not reached at all */ break; /* not reached */ case SIGHUP: sighup = 1; break; case SIGUSR2: reload = 1; break; default: break; /* Take no action on other signals - e.g. SIGPIPE */ } } static struct cl_node *reload_db(struct cl_node *root, const struct cfgstruct *copt, int do_check) { const char *dbdir; int retval; unsigned int virnum = 0; struct cfgstruct *cpt; static struct cl_stat *dbstat=NULL; if(do_check) { if(dbstat == NULL) { logg("No stats for Database check - forcing reload\n"); return root; } if(cl_statchkdir(dbstat) == 1) { logg("SelfCheck: Database modification detected. Forcing reload.\n"); return root; } else { logg("SelfCheck: Database status OK.\n"); return NULL; } } /* release old structure */ if(root) { cl_free(root); root = NULL; } if((cpt = cfgopt(copt, "DatabaseDirectory")) || (cpt = cfgopt(copt, "DataDirectory"))) { dbdir = cpt->strarg; } else { dbdir = cl_retdbdir(); } logg("Reading databases from %s\n", dbdir); if(dbstat == NULL) { dbstat = (struct cl_stat *) mmalloc(sizeof(struct cl_stat)); } else { cl_statfree(dbstat); } memset(dbstat, 0, sizeof(struct cl_stat)); cl_statinidir(dbdir, dbstat); if((retval = cl_loaddbdir(dbdir, &root, &virnum))) { logg("!reload db failed: %s\n", cl_strerror(retval)); exit(-1); } if(!root) { logg("!load db failed: %s\n", cl_strerror(retval)); exit(-1); } if((retval = cl_build(root)) != 0) { logg("!Database initialization error: can't build engine: %s\n", cl_strerror(retval)); exit(-1); } logg("Database correctly reloaded (%d viruses)\n", virnum); return root; } int acceptloop_th(int socketd, struct cl_node *root, const struct cfgstruct *copt) { int new_sd, max_threads, stdopt; unsigned int options = 0; threadpool_t *thr_pool; struct sigaction sigact; mode_t old_umask; struct cl_limits limits; pthread_attr_t thattr; sigset_t sigset; client_conn_t *client_conn; struct cfgstruct *cpt; #ifdef HAVE_STRERROR_R char buff[BUFFSIZE + 1]; #endif unsigned int selfchk; time_t start_time, current_time; pid_t mainpid; int idletimeout; #if defined(C_BIGSTACK) || defined(C_BSD) size_t stacksize; #endif #ifdef CLAMUKO pthread_t clamuko_pid; pthread_attr_t clamuko_attr; struct thrarg *tharg = NULL; /* shut up gcc */ #endif memset(&sigact, 0, sizeof(struct sigaction)); /* save the PID */ mainpid = getpid(); if((cpt = cfgopt(copt, "PidFile"))) { FILE *fd; old_umask = umask(0006); if((fd = fopen(cpt->strarg, "w")) == NULL) { logg("!Can't save PID in file %s\n", cpt->strarg); } else { fprintf(fd, "%d", (int) mainpid); fclose(fd); } umask(old_umask); } logg("*Listening daemon: PID: %d\n", getpid()); if((cpt = cfgopt(copt, "MaxThreads"))) { max_threads = cpt->numarg; } else { max_threads = CL_DEFAULT_MAXTHREADS; } if(cfgopt(copt, "DisableDefaultScanOptions")) { logg("RECOMMENDED OPTIONS DISABLED.\n"); stdopt = 0; } else { options |= CL_SCAN_STDOPT; stdopt = 1; } if(stdopt || cfgopt(copt, "ScanArchive") || cfgopt(copt, "ClamukoScanArchive")) { /* set up limits */ memset(&limits, 0, sizeof(struct cl_limits)); if((cpt = cfgopt(copt, "ArchiveMaxFileSize"))) { if((limits.maxfilesize = cpt->numarg)) { logg("Archive: Archived file size limit set to %d bytes.\n", limits.maxfilesize); } else { logg("^Archive: File size limit protection disabled.\n"); } } else { limits.maxfilesize = 10485760; logg("Archive: Archived file size limit set to %d bytes.\n", limits.maxfilesize); } if((cpt = cfgopt(copt, "ArchiveMaxRecursion"))) { if((limits.maxreclevel = cpt->numarg)) { logg("Archive: Recursion level limit set to %d.\n", limits.maxreclevel); } else { logg("^Archive: Recursion level limit protection disabled.\n"); } } else { limits.maxreclevel = 8; logg("Archive: Recursion level limit set to %d.\n", limits.maxreclevel); } if((cpt = cfgopt(copt, "ArchiveMaxFiles"))) { if((limits.maxfiles = cpt->numarg)) { logg("Archive: Files limit set to %d.\n", limits.maxfiles); } else { logg("^Archive: Files limit protection disabled.\n"); } } else { limits.maxfiles = 1000; logg("Archive: Files limit set to %d.\n", limits.maxfiles); } if((cpt = cfgopt(copt, "ArchiveMaxCompressionRatio"))) { if((limits.maxratio = cpt->numarg)) { logg("Archive: Compression ratio limit set to %d.\n", limits.maxratio); } else { logg("^Archive: Compression ratio limit disabled.\n"); } } else { limits.maxratio = 250; logg("Archive: Compression ratio limit set to %d.\n", limits.maxratio); } if(cfgopt(copt, "ArchiveLimitMemoryUsage")) { limits.archivememlim = 1; logg("Archive: Limited memory usage.\n"); } else { limits.archivememlim = 0; } } if(stdopt || cfgopt(copt, "ScanArchive")) { logg("Archive support enabled.\n"); options |= CL_SCAN_ARCHIVE; if(cfgopt(copt, "ScanRAR")) { logg("Archive: RAR support enabled.\n"); } else { logg("Archive: RAR support disabled.\n"); options |= CL_SCAN_DISABLERAR; } if(cfgopt(copt, "ArchiveBlockEncrypted")) { logg("Archive: Blocking encrypted archives.\n"); options |= CL_SCAN_BLOCKENCRYPTED; } if(cfgopt(copt, "ArchiveBlockMax")) { logg("Archive: Blocking archives that exceed limits.\n"); options |= CL_SCAN_BLOCKMAX; } } else { logg("Archive support disabled.\n"); } if(stdopt || cfgopt(copt, "ScanPE")) { logg("Portable Executable support enabled.\n"); options |= CL_SCAN_PE; if(cfgopt(copt, "DetectBrokenExecutables")) { logg("Detection of broken executables enabled.\n"); options |= CL_SCAN_BLOCKBROKEN; } } else { logg("Portable Executable support disabled.\n"); } if(stdopt || cfgopt(copt, "ScanMail")) { logg("Mail files support enabled.\n"); options |= CL_SCAN_MAIL; if(cfgopt(copt, "MailFollowURLs")) { logg("Mail: URL scanning enabled.\n"); options |= CL_SCAN_MAILURL; } } else { logg("Mail files support disabled.\n"); } if(stdopt || cfgopt(copt, "ScanOLE2")) { logg("OLE2 support enabled.\n"); options |= CL_SCAN_OLE2; } else { logg("OLE2 support disabled.\n"); } if(stdopt || cfgopt(copt, "ScanHTML")) { logg("HTML support enabled.\n"); options |= CL_SCAN_HTML; } else { logg("HTML support disabled.\n"); } if((cpt = cfgopt(copt, "SelfCheck"))) { selfchk = cpt->numarg; } else { selfchk = CL_DEFAULT_SELFCHECK; } if(!selfchk) { logg("Self checking disabled.\n"); } else { logg("Self checking every %d seconds.\n", selfchk); } pthread_attr_init(&thattr); pthread_attr_setdetachstate(&thattr, PTHREAD_CREATE_DETACHED); if(cfgopt(copt, "ClamukoScanOnLine") || cfgopt(copt, "ClamukoScanOnAccess")) #ifdef CLAMUKO { pthread_attr_init(&clamuko_attr); pthread_attr_setdetachstate(&clamuko_attr, PTHREAD_CREATE_JOINABLE); tharg = (struct thrarg *) mmalloc(sizeof(struct thrarg)); tharg->copt = copt; tharg->root = root; tharg->limits = &limits; tharg->options = options; pthread_create(&clamuko_pid, &clamuko_attr, clamukoth, tharg); } #else logg("Clamuko is not available.\n"); #endif /* set up signal handling */ sigfillset(&sigset); sigdelset(&sigset, SIGINT); sigdelset(&sigset, SIGTERM); sigdelset(&sigset, SIGSEGV); sigdelset(&sigset, SIGHUP); sigdelset(&sigset, SIGPIPE); sigdelset(&sigset, SIGUSR2); sigprocmask(SIG_SETMASK, &sigset, NULL); /* SIGINT, SIGTERM, SIGSEGV */ sigact.sa_handler = sighandler_th; sigemptyset(&sigact.sa_mask); sigaddset(&sigact.sa_mask, SIGINT); sigaddset(&sigact.sa_mask, SIGTERM); sigaddset(&sigact.sa_mask, SIGHUP); sigaddset(&sigact.sa_mask, SIGPIPE); sigaddset(&sigact.sa_mask, SIGUSR2); sigaction(SIGINT, &sigact, NULL); sigaction(SIGTERM, &sigact, NULL); sigaction(SIGHUP, &sigact, NULL); sigaction(SIGPIPE, &sigact, NULL); sigaction(SIGUSR2, &sigact, NULL); if(!debug_mode) { sigaddset(&sigact.sa_mask, SIGHUP); sigaction(SIGSEGV, &sigact, NULL); } #if defined(C_BIGSTACK) || defined(C_BSD) /* * njh@bandsman.co.uk: * libclamav/scanners.c uses a *huge* buffer * (128K not BUFSIZ from stdio.h). * We need to allow for that. */ pthread_attr_getstacksize(&thattr, &stacksize); cli_dbgmsg("set stacksize to %u\n", stacksize + SCANBUFF + 64 * 1024); pthread_attr_setstacksize(&thattr, stacksize + SCANBUFF + 64 * 1024); #endif pthread_mutex_init(&exit_mutex, NULL); pthread_mutex_init(&reload_mutex, NULL); if((cpt = cfgopt(copt, "IdleTimeout"))) idletimeout = cpt->numarg; else idletimeout = CL_DEFAULT_IDLETIMEOUT; if((thr_pool=thrmgr_new(max_threads, idletimeout, scanner_thread)) == NULL) { logg("!thrmgr_new failed\n"); exit(-1); } time(&start_time); for(;;) { new_sd = accept(socketd, NULL, NULL); if((new_sd == -1) && (errno != EINTR)) { /* very bad - need to exit or restart */ #ifdef HAVE_STRERROR_R logg("!accept() failed: %s\n", strerror_r(errno, buff, BUFFSIZE)); #else logg("!accept() failed\n"); #endif continue; } if (sighup) { logg("SIGHUP caught: re-opening log file.\n"); logg_close(); sighup = 0; if(!logg_file && (cpt = cfgopt(copt, "LogFile"))) logg_file = cpt->strarg; } if (!progexit && new_sd >= 0) { client_conn = (client_conn_t *) mmalloc(sizeof(struct client_conn_tag)); client_conn->sd = new_sd; client_conn->options = options; client_conn->copt = copt; client_conn->root = cl_dup(root); client_conn->root_timestamp = reloaded_time; client_conn->limits = &limits; client_conn->mainpid = mainpid; if (!thrmgr_dispatch(thr_pool, client_conn)) { close(client_conn->sd); free(client_conn); logg("!thread dispatch failed\n"); } } pthread_mutex_lock(&exit_mutex); if(progexit) { if (new_sd >= 0) { close(new_sd); } pthread_mutex_unlock(&exit_mutex); break; } pthread_mutex_unlock(&exit_mutex); if(selfchk) { time(¤t_time); if((current_time - start_time) > (time_t)selfchk) { if(reload_db(root, copt, TRUE)) { pthread_mutex_lock(&reload_mutex); reload = 1; pthread_mutex_unlock(&reload_mutex); } time(&start_time); } } pthread_mutex_lock(&reload_mutex); if(reload) { pthread_mutex_unlock(&reload_mutex); root = reload_db(root, copt, FALSE); pthread_mutex_lock(&reload_mutex); reload = 0; time(&reloaded_time); pthread_mutex_unlock(&reload_mutex); #ifdef CLAMUKO if(cfgopt(copt, "ClamukoScanOnLine") || cfgopt(copt, "ClamukoScanOnAccess")) { logg("Stopping and restarting Clamuko.\n"); pthread_kill(clamuko_pid, SIGUSR1); pthread_join(clamuko_pid, NULL); tharg->root = root; pthread_create(&clamuko_pid, &clamuko_attr, clamukoth, tharg); } #endif } else { pthread_mutex_unlock(&reload_mutex); } } /* Destroy the thread manager. * This waits for all current tasks to end */ thrmgr_destroy(thr_pool); #ifdef CLAMUKO if(cfgopt(copt, "ClamukoScanOnLine") || cfgopt(copt, "ClamukoScanOnAccess")) { logg("Stopping Clamuko.\n"); pthread_kill(clamuko_pid, SIGUSR1); pthread_join(clamuko_pid, NULL); } #endif cl_free(root); logg("*Shutting down the main socket.\n"); shutdown(socketd, 2); logg("*Closing the main socket.\n"); close(socketd); #ifndef C_OS2 if((cpt = cfgopt(copt, "LocalSocket"))) { if(unlink(cpt->strarg) == -1) logg("!Can't unlink the socket file %s\n", cpt->strarg); else logg("Socket file removed.\n"); } #endif if((cpt = cfgopt(copt, "PidFile"))) { if(unlink(cpt->strarg) == -1) logg("!Can't unlink the pid file %s\n", cpt->strarg); else logg("Pid file removed.\n"); } logg("Exiting (clean)\n"); time(¤t_time); logg("--- Stopped at %s", ctime(¤t_time)); return 0; }