/* * Copyright (C) 2007-2009 Sourcefire, Inc. * * Authors: 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. */ #if HAVE_CONFIG_H #include "clamav-config.h" #endif #include #include #include #include #ifdef HAVE_UNISTD_H #include #endif #include "clamav.h" #include "others.h" #include "matcher-ac.h" #include "matcher-bm.h" #include "md5.h" #include "filetypes.h" #include "matcher.h" #include "pe.h" #include "elf.h" #include "execs.h" #include "special.h" #include "str.h" #include "cltypes.h" #include "default.h" #include "macho.h" int cli_scanbuff(const unsigned char *buffer, uint32_t length, uint32_t offset, cli_ctx *ctx, cli_file_t ftype, struct cli_ac_data **acdata) { int ret = CL_CLEAN; unsigned int i; struct cli_ac_data mdata; struct cli_matcher *groot, *troot = NULL; const char **virname=ctx->virname; const struct cl_engine *engine=ctx->engine; if(!engine) { cli_errmsg("cli_scanbuff: engine == NULL\n"); return CL_ENULLARG; } groot = engine->root[0]; /* generic signatures */ if(ftype) { for(i = 1; i < CLI_MTARGETS; i++) { if(cli_mtargets[i].target == ftype) { troot = engine->root[i]; break; } } } if(troot) { if(!acdata && (ret = cli_ac_initdata(&mdata, troot->ac_partsigs, troot->ac_lsigs, troot->ac_reloff_num, CLI_DEFAULT_AC_TRACKLEN))) return ret; if(troot->ac_only || (ret = cli_bm_scanbuff(buffer, length, virname, troot, offset, -1, NULL)) != CL_VIRUS) ret = cli_ac_scanbuff(buffer, length, virname, NULL, NULL, troot, acdata ? (acdata[0]) : (&mdata), offset, ftype, NULL, AC_SCAN_VIR, NULL); if(!acdata) cli_ac_freedata(&mdata); if(ret == CL_VIRUS) return ret; } if(!acdata && (ret = cli_ac_initdata(&mdata, groot->ac_partsigs, groot->ac_lsigs, groot->ac_reloff_num, CLI_DEFAULT_AC_TRACKLEN))) return ret; if(groot->ac_only || (ret = cli_bm_scanbuff(buffer, length, virname, groot, offset, -1, NULL)) != CL_VIRUS) ret = cli_ac_scanbuff(buffer, length, virname, NULL, NULL, groot, acdata ? (acdata[1]) : (&mdata), offset, ftype, NULL, AC_SCAN_VIR, NULL); if(!acdata) cli_ac_freedata(&mdata); return ret; } /* * offdata[0]: type * offdata[1]: offset value * offdata[2]: max shift * offdata[3]: section number */ int cli_caloff(const char *offstr, struct cli_target_info *info, int fd, unsigned int target, uint32_t *offdata, uint32_t *offset_min, uint32_t *offset_max) { int (*einfo)(int, struct cli_exe_info *) = NULL; char offcpy[65]; unsigned int n, val; char *pt; off_t pos; struct stat sb; if(!info) { /* decode offset string */ if(!offstr) { cli_errmsg("cli_caloff: offstr == NULL\n"); return CL_ENULLARG; } if(!strcmp(offstr, "*")) { offdata[0] = *offset_max = *offset_min = CLI_OFF_ANY; return CL_SUCCESS; } if(strlen(offstr) > 64) { cli_errmsg("cli_caloff: Offset string too long\n"); return CL_EMALFDB; } strcpy(offcpy, offstr); if((pt = strchr(offcpy, ','))) { if(!cli_isnumber(pt + 1)) { cli_errmsg("cli_caloff: Invalid offset shift value\n"); return CL_EMALFDB; } offdata[2] = atoi(pt + 1); *pt = 0; } else { offdata[2] = 0; } *offset_max = *offset_min = CLI_OFF_NONE; if(!strncmp(offcpy, "EP+", 3) || !strncmp(offcpy, "EP-", 3)) { if(offcpy[2] == '+') offdata[0] = CLI_OFF_EP_PLUS; else offdata[0] = CLI_OFF_EP_MINUS; if(!cli_isnumber(&offcpy[3])) { cli_errmsg("cli_caloff: Invalid offset value\n"); return CL_EMALFDB; } offdata[1] = atoi(&offcpy[3]); } else if(offcpy[0] == 'S') { if(!strncmp(offstr, "SL+", 3)) { offdata[0] = CLI_OFF_SL_PLUS; if(!cli_isnumber(&offcpy[3])) { cli_errmsg("cli_caloff: Invalid offset value\n"); return CL_EMALFDB; } offdata[1] = atoi(&offcpy[3]); } else if(sscanf(offcpy, "S%u+%u", &n, &val) == 2) { offdata[0] = CLI_OFF_SX_PLUS; offdata[1] = val; offdata[3] = n; } else { cli_errmsg("cli_caloff: Invalid offset string\n"); return CL_EMALFDB; } } else if(!strncmp(offcpy, "EOF-", 4)) { offdata[0] = CLI_OFF_EOF_MINUS; if(!cli_isnumber(&offcpy[4])) { cli_errmsg("cli_caloff: Invalid offset value\n"); return CL_EMALFDB; } offdata[1] = atoi(&offcpy[4]); } else { offdata[0] = CLI_OFF_ABSOLUTE; if(!cli_isnumber(offcpy)) { cli_errmsg("cli_caloff: Invalid offset value\n"); return CL_EMALFDB; } *offset_min = offdata[1] = atoi(offcpy); *offset_max = *offset_min + offdata[2]; } if(offdata[0] != CLI_OFF_ANY && offdata[0] != CLI_OFF_ABSOLUTE && offdata[0] != CLI_OFF_EOF_MINUS) { if(target != 1 && target != 6 && target != 9) { cli_errmsg("cli_caloff: Invalid offset type for target %u\n", target); return CL_EMALFDB; } } } else { /* calculate relative offsets */ if(info->status == -1) { *offset_min = CLI_OFF_NONE; if(offset_max) *offset_max = CLI_OFF_NONE; return CL_SUCCESS; } if((offdata[0] == CLI_OFF_EOF_MINUS)) { if(!info->fsize) { if(fstat(fd, &sb) == -1) { cli_errmsg("cli_caloff: fstat(%d) failed\n", fd); return CL_ESTAT; } info->fsize = sb.st_size; } } else if(!info->status) { if(target == 1) einfo = cli_peheader; else if(target == 6) einfo = cli_elfheader; else if(target == 9) einfo = cli_machoheader; if(!einfo) { cli_errmsg("cli_caloff: Invalid offset/filetype\n"); return CL_EMALFDB; } if((pos = lseek(fd, 0, SEEK_CUR)) == -1) { cli_errmsg("cli_caloff: lseek(%d) failed\n", fd); return CL_ESEEK; } lseek(fd, 0, SEEK_SET); if(einfo(fd, &info->exeinfo)) { /* einfo *may* fail */ lseek(fd, pos, SEEK_SET); info->status = -1; *offset_min = CLI_OFF_NONE; if(offset_max) *offset_max = CLI_OFF_NONE; return CL_SUCCESS; } lseek(fd, pos, SEEK_SET); info->status = 1; } switch(offdata[0]) { case CLI_OFF_EOF_MINUS: *offset_min = info->fsize - offdata[1]; break; case CLI_OFF_EP_PLUS: *offset_min = info->exeinfo.ep + offdata[1]; break; case CLI_OFF_EP_MINUS: *offset_min = info->exeinfo.ep - offdata[1]; break; case CLI_OFF_SL_PLUS: *offset_min = info->exeinfo.section[info->exeinfo.nsections - 1].raw + offdata[1]; break; case CLI_OFF_SX_PLUS: if(offdata[3] >= info->exeinfo.nsections) *offset_min = CLI_OFF_NONE; else *offset_min = info->exeinfo.section[offdata[3]].raw + offdata[1]; break; default: cli_errmsg("cli_caloff: Not a relative offset (type: %u)\n", offdata[0]); return CL_EARG; } if(offset_max && *offset_min != CLI_OFF_NONE) *offset_max = *offset_min + offdata[2]; } return CL_SUCCESS; } int cli_checkfp(int fd, cli_ctx *ctx) { unsigned char *digest; const char *virname; off_t pos; if((pos = lseek(fd, 0, SEEK_CUR)) == -1) { cli_errmsg("cli_checkfp(): lseek() failed\n"); return 0; } lseek(fd, 0, SEEK_SET); if(ctx->engine->md5_fp) { if(!(digest = cli_md5digest(fd))) { cli_errmsg("cli_checkfp(): Can't generate MD5 checksum\n"); lseek(fd, pos, SEEK_SET); return 0; } if(cli_bm_scanbuff(digest, 16, &virname, ctx->engine->md5_fp, 0, -1, NULL) == CL_VIRUS) { cli_dbgmsg("cli_checkfp(): Found false positive detection (fp sig: %s)\n", virname); free(digest); lseek(fd, pos, SEEK_SET); return 1; } free(digest); } lseek(fd, pos, SEEK_SET); return 0; } int cli_scandesc(int desc, cli_ctx *ctx, cli_file_t ftype, uint8_t ftonly, struct cli_matched_type **ftoffset, unsigned int acmode) { unsigned char *buffer, *buff, *endbl, *upt; int ret = CL_CLEAN, type = CL_CLEAN, bytes; unsigned int i, evalcnt, bm_offmode = 0; uint32_t buffersize, length, maxpatlen, shift = 0, offset = 0; uint64_t evalids; struct cli_ac_data gdata, tdata; struct cli_bm_off toff; cli_md5_ctx md5ctx; unsigned char digest[16]; struct cli_matcher *groot = NULL, *troot = NULL; struct stat sb; if(!ctx->engine) { cli_errmsg("cli_scandesc: engine == NULL\n"); return CL_ENULLARG; } if(!ftonly) groot = ctx->engine->root[0]; /* generic signatures */ if(ftype) { for(i = 1; i < CLI_MTARGETS; i++) { if(cli_mtargets[i].target == ftype) { troot = ctx->engine->root[i]; break; } } } if(ftonly) { if(!troot) return CL_CLEAN; maxpatlen = troot->maxpatlen; } else { if(troot) maxpatlen = MAX(troot->maxpatlen, groot->maxpatlen); else maxpatlen = groot->maxpatlen; } /* prepare the buffer */ buffersize = maxpatlen + SCANBUFF; if(!(buffer = (unsigned char *) cli_calloc(buffersize, sizeof(unsigned char)))) { cli_dbgmsg("cli_scandesc(): unable to cli_calloc(%u)\n", buffersize); return CL_EMEM; } if(!ftonly) if((ret = cli_ac_initdata(&gdata, groot->ac_partsigs, groot->ac_lsigs, groot->ac_reloff_num, CLI_DEFAULT_AC_TRACKLEN)) || (ret = cli_ac_caloff(groot, &gdata, desc))) return ret; if(troot) { if((ret = cli_ac_initdata(&tdata, troot->ac_partsigs, troot->ac_lsigs, troot->ac_reloff_num, CLI_DEFAULT_AC_TRACKLEN)) || (ret = cli_ac_caloff(troot, &tdata, desc))) { if(!ftonly) cli_ac_freedata(&gdata); return ret; } if(troot->bm_offmode) { if(fstat(desc, &sb) != -1) { if(sb.st_size >= CLI_DEFAULT_BM_OFFMODE_FSIZE) { if((ret = cli_bm_initoff(troot, &toff, desc))) { if(!ftonly) cli_ac_freedata(&gdata); cli_ac_freedata(&tdata); return ret; } bm_offmode = 1; } } } } if(!ftonly && ctx->engine->md5_hdb) cli_md5_init(&md5ctx); buff = buffer; buff += maxpatlen; /* pointer to read data block */ endbl = buff + SCANBUFF - maxpatlen; /* pointer to the last block * length of maxpatlen */ upt = buff; while((bytes = cli_readn(desc, buff + shift, SCANBUFF - shift)) > 0) { if(ctx->scanned) *ctx->scanned += bytes / CL_COUNT_PRECISION; length = shift + bytes; if(upt == buffer) length += maxpatlen; if(troot) { if(troot->ac_only || (ret = cli_bm_scanbuff(upt, length, ctx->virname, troot, offset, desc, bm_offmode ? &toff : NULL)) != CL_VIRUS) ret = cli_ac_scanbuff(upt, length, ctx->virname, NULL, NULL, troot, &tdata, offset, ftype, ftoffset, acmode, NULL); if(ret == CL_VIRUS) { free(buffer); if(!ftonly) cli_ac_freedata(&gdata); cli_ac_freedata(&tdata); if(bm_offmode) cli_bm_freeoff(&toff, troot); if(cli_checkfp(desc, ctx)) return CL_CLEAN; else return CL_VIRUS; } } if(!ftonly) { if(groot->ac_only || (ret = cli_bm_scanbuff(upt, length, ctx->virname, groot, offset, desc, NULL)) != CL_VIRUS) ret = cli_ac_scanbuff(upt, length, ctx->virname, NULL, NULL, groot, &gdata, offset, ftype, ftoffset, acmode, NULL); if(ret == CL_VIRUS) { free(buffer); cli_ac_freedata(&gdata); if(troot) { cli_ac_freedata(&tdata); if(bm_offmode) cli_bm_freeoff(&toff, troot); } if(cli_checkfp(desc, ctx)) return CL_CLEAN; else return CL_VIRUS; } else if((acmode & AC_SCAN_FT) && ret >= CL_TYPENO) { if(ret > type) type = ret; } if(ctx->engine->md5_hdb) cli_md5_update(&md5ctx, buff + shift, bytes); } if(bytes + shift == SCANBUFF) { memmove(buffer, endbl, maxpatlen); offset += SCANBUFF; if(upt == buff) { upt = buffer; offset -= maxpatlen; } shift = 0; } else { shift += bytes; } } free(buffer); if(troot) { for(i = 0; i < troot->ac_lsigs; i++) { evalcnt = 0; evalids = 0; if(cli_ac_chklsig(troot->ac_lsigtable[i]->logic, troot->ac_lsigtable[i]->logic + strlen(troot->ac_lsigtable[i]->logic), tdata.lsigcnt[i], &evalcnt, &evalids, 0) == 1) { if (!troot->ac_lsigtable[i]->bc) { if(ctx->virname) *ctx->virname = troot->ac_lsigtable[i]->virname; ret = CL_VIRUS; break; } if (cli_bytecode_runlsig(&ctx->engine->bcs, troot->ac_lsigtable[i]->bc, ctx->virname, tdata.lsigcnt[i], desc) == CL_VIRUS) { ret = CL_VIRUS; break; } } } cli_ac_freedata(&tdata); if(bm_offmode) cli_bm_freeoff(&toff, troot); } if(groot) { if(ret != CL_VIRUS) for(i = 0; i < groot->ac_lsigs; i++) { evalcnt = 0; evalids = 0; if(cli_ac_chklsig(groot->ac_lsigtable[i]->logic, groot->ac_lsigtable[i]->logic + strlen(groot->ac_lsigtable[i]->logic), gdata.lsigcnt[i], &evalcnt, &evalids, 0) == 1) { if (!groot->ac_lsigtable[i]->bc) { if(ctx->virname) *ctx->virname = groot->ac_lsigtable[i]->virname; ret = CL_VIRUS; break; } if (cli_bytecode_runlsig(&ctx->engine->bcs, groot->ac_lsigtable[i]->bc, ctx->virname, gdata.lsigcnt[i], desc) == CL_VIRUS) { ret = CL_VIRUS; break; } } } cli_ac_freedata(&gdata); } if(ret == CL_VIRUS) { lseek(desc, 0, SEEK_SET); if(cli_checkfp(desc, ctx)) return CL_CLEAN; else return CL_VIRUS; } if(!ftonly && ctx->engine->md5_hdb) { cli_md5_final(digest, &md5ctx); if(cli_bm_scanbuff(digest, 16, ctx->virname, ctx->engine->md5_hdb, 0, -1, NULL) == CL_VIRUS && (cli_bm_scanbuff(digest, 16, NULL, ctx->engine->md5_fp, 0, -1, NULL) != CL_VIRUS)) return CL_VIRUS; } return (acmode & AC_SCAN_FT) ? type : CL_CLEAN; }