/* * Copyright (C) 2002 - 2007 Tomasz Kojm * MULTISCAN code (C) 2006 Sensory Networks, Inc. * Written by Tomasz Kojm * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 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 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., 51 Franklin Street, Fifth Floor, Boston, * MA 02110-1301, USA. */ #ifdef _MSC_VER #include #endif #if HAVE_CONFIG_H #include "clamav-config.h" #endif #include #include #include #ifdef HAVE_UNISTD_H #include #endif #include #include #include #ifndef C_WINDOWS #include #include #include #include #include #include #include #include #include #endif #include #if defined(HAVE_READDIR_R_3) || defined(HAVE_READDIR_R_2) #include #include #endif #include "libclamav/clamav.h" #include "libclamav/others.h" #include "shared/cfgparser.h" #include "shared/output.h" #include "shared/misc.h" #include "others.h" #include "scanner.h" #include "shared.h" #include "network.h" #include "thrmgr.h" #ifdef C_LINUX dev_t procdev; /* /proc device */ #endif extern int progexit; #ifndef C_WINDOWS #define closesocket(s) close(s) #endif struct multi_tag { int sd; unsigned int options; const struct cfgstruct *copt; char *fname; const struct cl_engine *engine; const struct cl_limits *limits; }; static int checksymlink(const char *path) { struct stat statbuf; if(stat(path, &statbuf) == -1) return -1; if(S_ISDIR(statbuf.st_mode)) return 1; if(S_ISREG(statbuf.st_mode)) return 2; return 0; } static int dirscan(const char *dirname, const char **virname, unsigned long int *scanned, const struct cl_engine *engine, const struct cl_limits *limits, unsigned int options, const struct cfgstruct *copt, int odesc, unsigned int *reclev, unsigned int type, threadpool_t *multi_pool) { DIR *dd; struct dirent *dent; #if defined(HAVE_READDIR_R_3) || defined(HAVE_READDIR_R_2) union { struct dirent d; char b[offsetof(struct dirent, d_name) + NAME_MAX + 1]; } result; #endif struct stat statbuf; char *fname; int ret = 0, scanret = 0; unsigned int maxdirrec = 0; struct multi_tag *scandata; maxdirrec = cfgopt(copt, "MaxDirectoryRecursion")->numarg; if(maxdirrec) { if(*reclev > maxdirrec) { logg("*Directory recursion limit exceeded at %s\n", dirname); return 0; } (*reclev)++; } if((dd = opendir(dirname)) != NULL) { #ifdef HAVE_READDIR_R_3 while(!readdir_r(dd, &result.d, &dent) && dent) { #elif defined(HAVE_READDIR_R_2) while((dent = (struct dirent *) readdir_r(dd, &result.d))) { #else while((dent = readdir(dd))) { #endif if (!is_fd_connected(odesc)) { logg("Client disconnected\n"); closedir(dd); return 1; } if(progexit) { closedir(dd); return 1; } #if (!defined(C_INTERIX)) && (!defined(C_WINDOWS)) && (!defined(C_CYGWIN)) if(dent->d_ino) #endif { if(strcmp(dent->d_name, ".") && strcmp(dent->d_name, "..")) { /* build the full name */ fname = (char *) malloc(strlen(dirname) + strlen(dent->d_name) + 2); if(!fname) { logg("!Can't allocate memory for fname\n"); closedir(dd); return -2; } sprintf(fname, "%s/%s", dirname, dent->d_name); /* stat the file */ if(lstat(fname, &statbuf) != -1) { if((S_ISDIR(statbuf.st_mode) && !S_ISLNK(statbuf.st_mode)) || (S_ISLNK(statbuf.st_mode) && (checksymlink(fname) == 1) && cfgopt(copt, "FollowDirectorySymlinks")->enabled)) { if(dirscan(fname, virname, scanned, engine, limits, options, copt, odesc, reclev, type, multi_pool) == 1) { free(fname); closedir(dd); return 1; } free(fname); } else { if(S_ISREG(statbuf.st_mode) || (S_ISLNK(statbuf.st_mode) && (checksymlink(fname) == 2) && cfgopt(copt, "FollowFileSymlinks")->enabled)) { #ifdef C_LINUX if(procdev && (statbuf.st_dev == procdev)) free(fname); else #endif { if(type == TYPE_MULTISCAN) { scandata = (struct multi_tag *) malloc(sizeof(struct multi_tag)); if(!scandata) { logg("!Can't allocate memory for scandata\n"); free(fname); closedir(dd); return -2; } scandata->sd = odesc; scandata->options = options; scandata->copt = copt; scandata->fname = fname; scandata->engine = engine; scandata->limits = limits; if(!thrmgr_dispatch(multi_pool, scandata)) { logg("!thread dispatch failed for multi_pool (file %s)\n", fname); mdprintf(odesc, "ERROR: Can't scan file %s\n", fname); free(fname); free(scandata); closedir(dd); return 1; } while(!multi_pool->thr_idle) /* non-critical */ #ifdef C_WINDOWS Sleep(1); #else usleep(200); #endif } else { /* CONTSCAN, SCAN */ scanret = cl_scanfile(fname, virname, scanned, engine, limits, options); if(scanret == CL_VIRUS) { mdprintf(odesc, "%s: %s FOUND\n", fname, *virname); logg("%s: %s FOUND\n", fname, *virname); virusaction(fname, *virname, copt); if(type == TYPE_SCAN) { closedir(dd); free(fname); return 1; } else /* CONTSCAN */ ret = 2; } else if(scanret != CL_CLEAN) { mdprintf(odesc, "%s: %s ERROR\n", fname, cl_strerror(scanret)); logg("%s: %s ERROR\n", fname, cl_strerror(scanret)); if(scanret == CL_EMEM) { closedir(dd); free(fname); return -2; } } else if(logok) { logg("%s: OK\n", fname); } free(fname); } } } } } else { free(fname); } } } } closedir(dd); } else { return -1; } (*reclev)--; return ret; } static void multiscanfile(void *arg) { struct multi_tag *tag = (struct multi_tag *) arg; const char *virname; #ifndef C_WINDOWS sigset_t sigset; #endif int ret; #ifndef C_WINDOWS /* ignore all signals */ sigfillset(&sigset); pthread_sigmask(SIG_SETMASK, &sigset, NULL); #endif ret = cl_scanfile(tag->fname, &virname, NULL, tag->engine, tag->limits, tag->options); if(ret == CL_VIRUS) { mdprintf(tag->sd, "%s: %s FOUND\n", tag->fname, virname); logg("%s: %s FOUND\n", tag->fname, virname); virusaction(tag->fname, virname, tag->copt); } else if(ret != CL_CLEAN) { mdprintf(tag->sd, "%s: %s ERROR\n", tag->fname, cl_strerror(ret)); logg("%s: %s ERROR\n", tag->fname, cl_strerror(ret)); } else if(logok) { logg("%s: OK\n", tag->fname); } free(tag->fname); free(tag); return; } int scan(const char *filename, unsigned long int *scanned, const struct cl_engine *engine, const struct cl_limits *limits, unsigned int options, const struct cfgstruct *copt, int odesc, unsigned int type) { struct stat sb; int ret = 0; unsigned int reclev = 0; const char *virname; threadpool_t *multi_pool = NULL; /* stat file */ if(lstat(filename, &sb) == -1) { mdprintf(odesc, "%s: lstat() failed. ERROR\n", filename); return -1; } /* check permissions */ if(access(filename, R_OK)) { mdprintf(odesc, "%s: Access denied. ERROR\n", filename); return -1; } switch(sb.st_mode & S_IFMT) { #ifdef S_IFLNK case S_IFLNK: if(!cfgopt(copt, "FollowFileSymlinks")->enabled) break; /* else go to the next case */ #endif case S_IFREG: if(sb.st_size == 0) { /* empty file */ mdprintf(odesc, "%s: Empty file\n", filename); return 0; } #ifdef C_LINUX if(procdev && (sb.st_dev == procdev)) ret = CL_CLEAN; else #endif ret = cl_scanfile(filename, &virname, scanned, engine, limits, options); if(ret == CL_VIRUS) { mdprintf(odesc, "%s: %s FOUND\n", filename, virname); logg("%s: %s FOUND\n", filename, virname); virusaction(filename, virname, copt); } else if(ret != CL_CLEAN) { mdprintf(odesc, "%s: %s ERROR\n", filename, cl_strerror(ret)); logg("%s: %s ERROR\n", filename, cl_strerror(ret)); if(ret == CL_EMEM) return -2; } else if (logok) { logg("%s: OK\n", filename); } break; case S_IFDIR: if(type == TYPE_MULTISCAN) { int idletimeout = cfgopt(copt, "IdleTimeout")->numarg; int max_threads = cfgopt(copt, "MaxThreads")->numarg; if((multi_pool = thrmgr_new(max_threads, idletimeout, multiscanfile)) == NULL) { logg("!thrmgr_new failed for multi_pool\n"); mdprintf(odesc, "thrmgr_new failed for multi_pool ERROR\n"); return -1; } } ret = dirscan(filename, &virname, scanned, engine, limits, options, copt, odesc, &reclev, type, multi_pool); if(multi_pool) thrmgr_destroy(multi_pool); break; default: mdprintf(odesc, "%s: Not supported file type. ERROR\n", filename); return -1; } if(!ret) mdprintf(odesc, "%s: OK\n", filename); /* mdprintf(odesc, "\n"); */ /* Terminate response with a blank line boundary */ return ret; } int scanfd(const int fd, unsigned long int *scanned, const struct cl_engine *engine, const struct cl_limits *limits, unsigned int options, const struct cfgstruct *copt, int odesc) { int ret; const char *virname; struct stat statbuf; char fdstr[32]; if(fstat(fd, &statbuf) == -1) return -1; if(!S_ISREG(statbuf.st_mode)) return -1; snprintf(fdstr, sizeof(fdstr), "fd[%d]", fd); ret = cl_scandesc(fd, &virname, scanned, engine, limits, options); if(ret == CL_VIRUS) { mdprintf(odesc, "%s: %s FOUND\n", fdstr, virname); logg("%s: %s FOUND\n", fdstr, virname); virusaction(fdstr, virname, copt); } else if(ret != CL_CLEAN) { mdprintf(odesc, "%s: %s ERROR\n", fdstr, cl_strerror(ret)); logg("%s: %s ERROR\n", fdstr, cl_strerror(ret)); } else { mdprintf(odesc, "%s: OK\n", fdstr); if(logok) logg("%s: OK\n", fdstr); } return ret; } int scanstream(int odesc, unsigned long int *scanned, const struct cl_engine *engine, const struct cl_limits *limits, unsigned int options, const struct cfgstruct *copt) { int ret, sockfd, acceptd; int tmpd, bread, retval, timeout, btread; unsigned int port = 0, portscan = 1000, min_port, max_port; unsigned long int size = 0, maxsize = 0; short bound = 0, rnd_port_first = 1; const char *virname; char buff[FILEBUFF]; struct sockaddr_in server; struct hostent he; const struct cfgstruct *cpt; char *tmpname; /* get min port */ min_port = cfgopt(copt, "StreamMinPort")->numarg; if(min_port < 1024 || min_port > 65535) min_port = 1024; /* get max port */ max_port = cfgopt(copt, "StreamMaxPort")->numarg; if(max_port < min_port || max_port > 65535) max_port = 65535; /* bind to a free port */ while(!bound && --portscan) { if(rnd_port_first) { /* try a random port first */ port = min_port + cli_rndnum(max_port - min_port + 1); rnd_port_first = 0; } else { /* try the neighbor ports */ if(--port < min_port) port=max_port; } memset((char *) &server, 0, sizeof(server)); server.sin_family = AF_INET; server.sin_port = htons(port); if((cpt = cfgopt(copt, "TCPAddr"))->enabled) { if(r_gethostbyname(cpt->strarg, &he, buff, sizeof(buff)) == -1) { logg("!r_gethostbyname(%s) error: %s\n", cpt->strarg, strerror(errno)); mdprintf(odesc, "r_gethostbyname(%s) ERROR\n", cpt->strarg); return -1; } server.sin_addr = *(struct in_addr *) he.h_addr_list[0]; } else server.sin_addr.s_addr = INADDR_ANY; if((sockfd = socket(AF_INET, SOCK_STREAM, 0)) == -1) continue; if(bind(sockfd, (struct sockaddr *) &server, sizeof(struct sockaddr_in)) == -1) closesocket(sockfd); else bound = 1; } timeout = cfgopt(copt, "ReadTimeout")->numarg; if(timeout == 0) timeout = -1; if(!bound && !portscan) { logg("!ScanStream: Can't find any free port.\n"); mdprintf(odesc, "Can't find any free port. ERROR\n"); close(sockfd); return -1; } else { listen(sockfd, 1); if(mdprintf(odesc, "PORT %u\n", port) <= 0) { logg("!ScanStream: error transmitting port.\n"); close(sockfd); return -1; } } switch(retval = poll_fd(sockfd, timeout, 0)) { case 0: /* timeout */ mdprintf(odesc, "Accept timeout. ERROR\n"); logg("!ScanStream %u: accept timeout.\n", port); close(sockfd); return -1; case -1: mdprintf(odesc, "Accept poll. ERROR\n"); logg("!ScanStream %u: accept poll failed.\n", port); close(sockfd); return -1; } if((acceptd = accept(sockfd, NULL, NULL)) == -1) { close(sockfd); mdprintf(odesc, "accept() ERROR\n"); logg("!ScanStream %u: accept() failed.\n", port); return -1; } logg("*Accepted connection on port %u, fd %d\n", port, acceptd); if ((tmpname = cli_gentempdesc(NULL, &tmpd)) == NULL) { shutdown(sockfd, 2); close(sockfd); close(acceptd); mdprintf(odesc, "tempfile() failed. ERROR\n"); logg("!ScanStream %u: Can't create temporary file.\n", port); return -1; } maxsize = cfgopt(copt, "StreamMaxLength")->numarg; btread = sizeof(buff); while((retval = poll_fd(acceptd, timeout, 0)) == 1) { bread = recv(acceptd, buff, btread, 0); if(bread <= 0) break; size += bread; if(writen(tmpd, buff, bread) != bread) { shutdown(sockfd, 2); closesocket(sockfd); closesocket(acceptd); mdprintf(odesc, "Temporary file -> write ERROR\n"); logg("!ScanStream %u: Can't write to temporary file.\n", port); close(tmpd); if(!cfgopt(copt, "LeaveTemporaryFiles")->enabled) unlink(tmpname); free(tmpname); return -1; } if(maxsize && (size + btread >= maxsize)) { btread = (maxsize - size); /* only read up to max */ if(btread <= 0) { logg("^ScanStream %u: Size limit reached (max: %lu)\n", port, maxsize); break; /* Scan what we have */ } } } switch(retval) { case 0: /* timeout */ mdprintf(odesc, "read timeout ERROR\n"); logg("!ScanStream %u: read timeout.\n", port); break; case -1: mdprintf(odesc, "read poll ERROR\n"); logg("!ScanStream %u: read poll failed.\n", port); break; } if(retval == 1) { lseek(tmpd, 0, SEEK_SET); ret = cl_scandesc(tmpd, &virname, scanned, engine, limits, options); } else { ret = -1; } close(tmpd); if(!cfgopt(copt, "LeaveTemporaryFiles")->enabled) unlink(tmpname); free(tmpname); closesocket(acceptd); closesocket(sockfd); if(ret == CL_VIRUS) { mdprintf(odesc, "stream: %s FOUND\n", virname); logg("stream %u: %s FOUND\n", port, virname); virusaction("stream", virname, copt); } else if(ret != CL_CLEAN) { if(retval == 1) { mdprintf(odesc, "stream: %s ERROR\n", cl_strerror(ret)); logg("stream %u: %s ERROR\n", port, cl_strerror(ret)); } } else { mdprintf(odesc, "stream: OK\n"); if(logok) logg("stream %u: OK\n", port); } return ret; }