/* Copyright (C) 2007-2022 Open Information Security Foundation * * You can copy, redistribute or modify this Program 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 * version 2 along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. */ /** * \file * * \author Victor Julien * */ #include "suricata-common.h" #include "threads.h" #include "decode.h" #include "detect.h" #include "detect-parse.h" #include "detect-content.h" #include "detect-engine.h" #include "detect-engine-mpm.h" #include "detect-engine-prefilter.h" #include "detect-engine-content-inspection.h" #include "detect-engine-file.h" #include "flow.h" #include "flow-var.h" #include "flow-util.h" #include "util-debug.h" #include "util-spm-bm.h" #include "util-magic.h" #include "util-print.h" #include "util-unittest.h" #include "util-unittest-helper.h" #include "util-profiling.h" #include "app-layer.h" #include "app-layer-parser.h" #include "stream-tcp.h" #include "detect-filemagic.h" #include "conf.h" #ifndef HAVE_MAGIC static int DetectFilemagicSetupNoSupport (DetectEngineCtx *de_ctx, Signature *s, const char *str) { SCLogError("no libmagic support built in, needed for filemagic keyword"); return -1; } /** * \brief Registration function for keyword: filemagic */ void DetectFilemagicRegister(void) { sigmatch_table[DETECT_FILEMAGIC].name = "filemagic"; sigmatch_table[DETECT_FILEMAGIC].desc = "match on the information libmagic returns about a file"; sigmatch_table[DETECT_FILEMAGIC].url = "/rules/file-keywords.html#filemagic"; sigmatch_table[DETECT_FILEMAGIC].Setup = DetectFilemagicSetupNoSupport; sigmatch_table[DETECT_FILEMAGIC].flags = SIGMATCH_QUOTES_MANDATORY|SIGMATCH_HANDLE_NEGATION; } #else /* HAVE_MAGIC */ typedef struct DetectFilemagicThreadData { magic_t ctx; } DetectFilemagicThreadData; typedef struct DetectFilemagicData { uint8_t *name; /** name of the file to match */ BmCtx *bm_ctx; /** BM context */ uint16_t len; /** name length */ uint32_t flags; } DetectFilemagicData; static int DetectFilemagicMatch (DetectEngineThreadCtx *, Flow *, uint8_t, File *, const Signature *, const SigMatchCtx *); static int DetectFilemagicSetup (DetectEngineCtx *, Signature *, const char *); #ifdef UNITTESTS static void DetectFilemagicRegisterTests(void); #endif static void DetectFilemagicFree(DetectEngineCtx *, void *); static int g_file_match_list_id = 0; static int DetectFilemagicSetupSticky(DetectEngineCtx *de_ctx, Signature *s, const char *str); static int g_file_magic_buffer_id = 0; static int PrefilterMpmFilemagicRegister(DetectEngineCtx *de_ctx, SigGroupHead *sgh, MpmCtx *mpm_ctx, const DetectBufferMpmRegistry *mpm_reg, int list_id); static uint8_t DetectEngineInspectFilemagic(DetectEngineCtx *de_ctx, DetectEngineThreadCtx *det_ctx, const DetectEngineAppInspectionEngine *engine, const Signature *s, Flow *f, uint8_t flags, void *alstate, void *txv, uint64_t tx_id); static int g_magic_thread_ctx_id = -1; /** * \brief Registration function for keyword: filemagic */ void DetectFilemagicRegister(void) { sigmatch_table[DETECT_FILEMAGIC].name = "filemagic"; sigmatch_table[DETECT_FILEMAGIC].desc = "match on the information libmagic returns about a file"; sigmatch_table[DETECT_FILEMAGIC].url = "/rules/file-keywords.html#filemagic"; sigmatch_table[DETECT_FILEMAGIC].FileMatch = DetectFilemagicMatch; sigmatch_table[DETECT_FILEMAGIC].Setup = DetectFilemagicSetup; sigmatch_table[DETECT_FILEMAGIC].Free = DetectFilemagicFree; #ifdef UNITTESTS sigmatch_table[DETECT_FILEMAGIC].RegisterTests = DetectFilemagicRegisterTests; #endif sigmatch_table[DETECT_FILEMAGIC].flags = SIGMATCH_QUOTES_MANDATORY|SIGMATCH_HANDLE_NEGATION; sigmatch_table[DETECT_FILEMAGIC].alternative = DETECT_FILE_MAGIC; sigmatch_table[DETECT_FILE_MAGIC].name = "file.magic"; sigmatch_table[DETECT_FILE_MAGIC].desc = "sticky buffer to match on the file magic"; sigmatch_table[DETECT_FILE_MAGIC].url = "/rules/file-keywords.html#filemagic"; sigmatch_table[DETECT_FILE_MAGIC].Setup = DetectFilemagicSetupSticky; sigmatch_table[DETECT_FILE_MAGIC].flags = SIGMATCH_NOOPT|SIGMATCH_INFO_STICKY_BUFFER; g_file_match_list_id = DetectBufferTypeRegister("files"); for (int i = 0; file_protos_ts[i].alproto != ALPROTO_UNKNOWN; i++) { DetectAppLayerInspectEngineRegister2("file.magic", file_protos_ts[i].alproto, SIG_FLAG_TOSERVER, file_protos_ts[i].progress, DetectEngineInspectFilemagic, NULL); DetectAppLayerMpmRegister2("file.magic", SIG_FLAG_TOSERVER, 2, PrefilterMpmFilemagicRegister, NULL, file_protos_ts[i].alproto, file_protos_ts[i].progress); } for (int i = 0; file_protos_tc[i].alproto != ALPROTO_UNKNOWN; i++) { DetectAppLayerInspectEngineRegister2("file.magic", file_protos_tc[i].alproto, SIG_FLAG_TOCLIENT, file_protos_tc[i].progress, DetectEngineInspectFilemagic, NULL); DetectAppLayerMpmRegister2("file.magic", SIG_FLAG_TOCLIENT, 2, PrefilterMpmFilemagicRegister, NULL, file_protos_tc[i].alproto, file_protos_tc[i].progress); } DetectBufferTypeSetDescriptionByName("file.magic", "file magic"); DetectBufferTypeSupportsMultiInstance("file.magic"); g_file_magic_buffer_id = DetectBufferTypeGetByName("file.magic"); SCLogDebug("registering filemagic rule option"); return; } #define FILEMAGIC_MIN_SIZE 512 /** * \brief run the magic check * * \param file the file * * \retval -1 error * \retval 0 ok */ int FilemagicThreadLookup(magic_t *ctx, File *file) { if (ctx == NULL || file == NULL || FileDataSize(file) == 0) { SCReturnInt(-1); } const uint8_t *data = NULL; uint32_t data_len = 0; uint64_t offset = 0; StreamingBufferGetData(file->sb, &data, &data_len, &offset); if (offset == 0) { if (FileDataSize(file) >= FILEMAGIC_MIN_SIZE) { file->magic = MagicThreadLookup(ctx, data, data_len); } else if (file->state >= FILE_STATE_CLOSED) { file->magic = MagicThreadLookup(ctx, data, data_len); } } SCReturnInt(0); } /** * \brief match the specified filemagic * * \param t thread local vars * \param det_ctx pattern matcher thread local data * \param f *LOCKED* flow * \param flags direction flags * \param file file being inspected * \param s signature being inspected * \param m sigmatch that we will cast into DetectFilemagicData * * \retval 0 no match * \retval 1 match */ static int DetectFilemagicMatch (DetectEngineThreadCtx *det_ctx, Flow *f, uint8_t flags, File *file, const Signature *s, const SigMatchCtx *m) { SCEnter(); int ret = 0; DetectFilemagicData *filemagic = (DetectFilemagicData *)m; DetectFilemagicThreadData *tfilemagic = (DetectFilemagicThreadData *)DetectThreadCtxGetKeywordThreadCtx(det_ctx, g_magic_thread_ctx_id); if (tfilemagic == NULL) { SCReturnInt(0); } if (file->magic == NULL) { FilemagicThreadLookup(&tfilemagic->ctx, file); } if (file->magic != NULL) { SCLogDebug("magic %s", file->magic); /* we include the \0 in the inspection, so patterns can match on the * end of the string. */ if (BoyerMooreNocase(filemagic->name, filemagic->len, (uint8_t *)file->magic, strlen(file->magic) + 1, filemagic->bm_ctx) != NULL) { #ifdef DEBUG if (SCLogDebugEnabled()) { char *name = SCMalloc(filemagic->len + 1); if (name != NULL) { memcpy(name, filemagic->name, filemagic->len); name[filemagic->len] = '\0'; SCLogDebug("will look for filemagic %s", name); SCFree(name); } } #endif if (!(filemagic->flags & DETECT_CONTENT_NEGATED)) { ret = 1; } } else if (filemagic->flags & DETECT_CONTENT_NEGATED) { SCLogDebug("negated match"); ret = 1; } } SCReturnInt(ret); } /** * \brief Parse the filemagic keyword * * \param de_ctx Pointer to the detection engine context * \param idstr Pointer to the user provided option * * \retval filemagic pointer to DetectFilemagicData on success * \retval NULL on failure */ static DetectFilemagicData *DetectFilemagicParse (DetectEngineCtx *de_ctx, const char *str, bool negate) { DetectFilemagicData *filemagic = NULL; /* We have a correct filemagic option */ filemagic = SCMalloc(sizeof(DetectFilemagicData)); if (unlikely(filemagic == NULL)) goto error; memset(filemagic, 0x00, sizeof(DetectFilemagicData)); if (DetectContentDataParse ("filemagic", str, &filemagic->name, &filemagic->len) == -1) { goto error; } filemagic->bm_ctx = BoyerMooreNocaseCtxInit(filemagic->name, filemagic->len); if (filemagic->bm_ctx == NULL) { goto error; } if (negate) { filemagic->flags |= DETECT_CONTENT_NEGATED; } SCLogDebug("flags %02X", filemagic->flags); if (filemagic->flags & DETECT_CONTENT_NEGATED) { SCLogDebug("negated filemagic"); } #ifdef DEBUG if (SCLogDebugEnabled()) { char *name = SCMalloc(filemagic->len + 1); if (name != NULL) { memcpy(name, filemagic->name, filemagic->len); name[filemagic->len] = '\0'; SCLogDebug("will look for filemagic %s", name); SCFree(name); } } #endif return filemagic; error: if (filemagic != NULL) DetectFilemagicFree(de_ctx, filemagic); return NULL; } static void *DetectFilemagicThreadInit(void *data /*@unused@*/) { DetectFilemagicThreadData *t = SCCalloc(1, sizeof(DetectFilemagicThreadData)); if (unlikely(t == NULL)) { SCLogError("couldn't alloc ctx memory"); return NULL; } t->ctx = MagicInitContext(); if (t->ctx == NULL) goto error; return (void *)t; error: if (t->ctx) magic_close(t->ctx); SCFree(t); return NULL; } static void DetectFilemagicThreadFree(void *ctx) { if (ctx != NULL) { DetectFilemagicThreadData *t = (DetectFilemagicThreadData *)ctx; if (t->ctx) magic_close(t->ctx); SCFree(t); } } /** * \brief this function is used to parse filemagic options * \brief into the current signature * * \param de_ctx pointer to the Detection Engine Context * \param s pointer to the Current Signature * \param str pointer to the user provided "filemagic" option * * \retval 0 on Success * \retval -1 on Failure */ static int DetectFilemagicSetup (DetectEngineCtx *de_ctx, Signature *s, const char *str) { SigMatch *sm = NULL; DetectFilemagicData *filemagic = DetectFilemagicParse(de_ctx, str, s->init_data->negated); if (filemagic == NULL) return -1; g_magic_thread_ctx_id = DetectRegisterThreadCtxFuncs( de_ctx, "filemagic", DetectFilemagicThreadInit, NULL, DetectFilemagicThreadFree, 1); if (g_magic_thread_ctx_id == -1) goto error; /* Okay so far so good, lets get this into a SigMatch * and put it in the Signature. */ sm = SigMatchAlloc(); if (sm == NULL) goto error; sm->type = DETECT_FILEMAGIC; sm->ctx = (void *)filemagic; SigMatchAppendSMToList(s, sm, g_file_match_list_id); s->file_flags |= (FILE_SIG_NEED_FILE|FILE_SIG_NEED_MAGIC); return 0; error: DetectFilemagicFree(de_ctx, filemagic); if (sm != NULL) SCFree(sm); return -1; } /** * \brief this function will free memory associated with DetectFilemagicData * * \param filemagic pointer to DetectFilemagicData */ static void DetectFilemagicFree(DetectEngineCtx *de_ctx, void *ptr) { if (ptr != NULL) { DetectFilemagicData *filemagic = (DetectFilemagicData *)ptr; if (filemagic->bm_ctx != NULL) { BoyerMooreCtxDeInit(filemagic->bm_ctx); } if (filemagic->name != NULL) SCFree(filemagic->name); SCFree(filemagic); } } /* file.magic implementation */ /** * \brief this function setup the file.magic keyword used in the rule * * \param de_ctx Pointer to the Detection Engine Context * \param s Pointer to the Signature to which the current keyword belongs * \param str Should hold an empty string always * * \retval 0 On success */ static int DetectFilemagicSetupSticky(DetectEngineCtx *de_ctx, Signature *s, const char *str) { if (DetectBufferSetActiveList(de_ctx, s, g_file_magic_buffer_id) < 0) return -1; if (g_magic_thread_ctx_id == -1) { g_magic_thread_ctx_id = DetectRegisterThreadCtxFuncs(de_ctx, "filemagic", DetectFilemagicThreadInit, NULL, DetectFilemagicThreadFree, 1); if (g_magic_thread_ctx_id == -1) return -1; } return 0; } static InspectionBuffer *FilemagicGetDataCallback(DetectEngineThreadCtx *det_ctx, const DetectEngineTransforms *transforms, Flow *f, uint8_t flow_flags, File *cur_file, int list_id, int local_file_id) { SCEnter(); InspectionBuffer *buffer = InspectionBufferMultipleForListGet(det_ctx, list_id, local_file_id); if (buffer == NULL) return NULL; if (buffer->initialized) return buffer; if (cur_file->magic == NULL) { DetectFilemagicThreadData *tfilemagic = (DetectFilemagicThreadData *)DetectThreadCtxGetKeywordThreadCtx(det_ctx, g_magic_thread_ctx_id); if (tfilemagic == NULL) { InspectionBufferSetupMultiEmpty(buffer); return NULL; } FilemagicThreadLookup(&tfilemagic->ctx, cur_file); } if (cur_file->magic == NULL) { return NULL; } const uint8_t *data = (const uint8_t *)cur_file->magic; uint32_t data_len = (uint32_t)strlen(cur_file->magic); InspectionBufferSetupMulti(buffer, transforms, data, data_len); SCReturnPtr(buffer, "InspectionBuffer"); } static uint8_t DetectEngineInspectFilemagic(DetectEngineCtx *de_ctx, DetectEngineThreadCtx *det_ctx, const DetectEngineAppInspectionEngine *engine, const Signature *s, Flow *f, uint8_t flags, void *alstate, void *txv, uint64_t tx_id) { const DetectEngineTransforms *transforms = NULL; if (!engine->mpm) { transforms = engine->v2.transforms; } AppLayerGetFileState files = AppLayerParserGetTxFiles(f, alstate, txv, flags); FileContainer *ffc = files.fc; if (ffc == NULL) { return DETECT_ENGINE_INSPECT_SIG_CANT_MATCH_FILES; } uint8_t r = DETECT_ENGINE_INSPECT_SIG_NO_MATCH; int local_file_id = 0; for (File *file = ffc->head; file != NULL; file = file->next) { InspectionBuffer *buffer = FilemagicGetDataCallback( det_ctx, transforms, f, flags, file, engine->sm_list, local_file_id); if (buffer == NULL) continue; det_ctx->buffer_offset = 0; det_ctx->discontinue_matching = 0; det_ctx->inspection_recursion_counter = 0; int match = DetectEngineContentInspection(de_ctx, det_ctx, s, engine->smd, NULL, f, (uint8_t *)buffer->inspect, buffer->inspect_len, buffer->inspect_offset, DETECT_CI_FLAGS_SINGLE, DETECT_ENGINE_CONTENT_INSPECTION_MODE_STATE); if (match == 1) { return DETECT_ENGINE_INSPECT_SIG_MATCH; } else { r = DETECT_ENGINE_INSPECT_SIG_CANT_MATCH_FILES; } local_file_id++; } return r; } typedef struct PrefilterMpmFilemagic { int list_id; const MpmCtx *mpm_ctx; const DetectEngineTransforms *transforms; } PrefilterMpmFilemagic; /** \brief Filedata Filedata Mpm prefilter callback * * \param det_ctx detection engine thread ctx * \param p packet to inspect * \param f flow to inspect * \param txv tx to inspect * \param pectx inspection context */ static void PrefilterTxFilemagic(DetectEngineThreadCtx *det_ctx, const void *pectx, Packet *p, Flow *f, void *txv, const uint64_t idx, const AppLayerTxData *txd, const uint8_t flags) { SCEnter(); if (!AppLayerParserHasFilesInDir(txd, flags)) return; const PrefilterMpmFilemagic *ctx = (const PrefilterMpmFilemagic *)pectx; const MpmCtx *mpm_ctx = ctx->mpm_ctx; const int list_id = ctx->list_id; AppLayerGetFileState files = AppLayerParserGetTxFiles(f, f->alstate, txv, flags); FileContainer *ffc = files.fc; if (ffc != NULL) { int local_file_id = 0; for (File *file = ffc->head; file != NULL; file = file->next) { InspectionBuffer *buffer = FilemagicGetDataCallback( det_ctx, ctx->transforms, f, flags, file, list_id, local_file_id); if (buffer == NULL) continue; if (buffer->inspect_len >= mpm_ctx->minlen) { (void)mpm_table[mpm_ctx->mpm_type].Search(mpm_ctx, &det_ctx->mtcu, &det_ctx->pmq, buffer->inspect, buffer->inspect_len); PREFILTER_PROFILING_ADD_BYTES(det_ctx, buffer->inspect_len); } local_file_id++; } } } static void PrefilterMpmFilemagicFree(void *ptr) { SCFree(ptr); } static int PrefilterMpmFilemagicRegister(DetectEngineCtx *de_ctx, SigGroupHead *sgh, MpmCtx *mpm_ctx, const DetectBufferMpmRegistry *mpm_reg, int list_id) { PrefilterMpmFilemagic *pectx = SCCalloc(1, sizeof(*pectx)); if (pectx == NULL) return -1; pectx->list_id = list_id; pectx->mpm_ctx = mpm_ctx; pectx->transforms = &mpm_reg->transforms; return PrefilterAppendTxEngine(de_ctx, sgh, PrefilterTxFilemagic, mpm_reg->app_v2.alproto, mpm_reg->app_v2.tx_min_progress, pectx, PrefilterMpmFilemagicFree, mpm_reg->pname); } #ifdef UNITTESTS /* UNITTESTS */ /** * \test DetectFilemagicTestParse01 */ static int DetectFilemagicTestParse01 (void) { DetectFilemagicData *dnd = DetectFilemagicParse(NULL, "secret.pdf", false); FAIL_IF_NULL(dnd); DetectFilemagicFree(NULL, dnd); PASS; } /** * \test DetectFilemagicTestParse02 */ static int DetectFilemagicTestParse02 (void) { DetectFilemagicData *dnd = DetectFilemagicParse(NULL, "backup.tar.gz", false); FAIL_IF_NULL(dnd); FAIL_IF_NOT(dnd->len == 13); FAIL_IF_NOT(memcmp(dnd->name, "backup.tar.gz", 13) == 0); DetectFilemagicFree(NULL, dnd); PASS; } /** * \test DetectFilemagicTestParse03 */ static int DetectFilemagicTestParse03 (void) { DetectFilemagicData *dnd = DetectFilemagicParse(NULL, "cmd.exe", false); FAIL_IF_NULL(dnd); FAIL_IF_NOT(dnd->len == 7); FAIL_IF_NOT(memcmp(dnd->name, "cmd.exe", 7) == 0); DetectFilemagicFree(NULL, dnd); PASS; } /** * \brief this function registers unit tests for DetectFilemagic */ void DetectFilemagicRegisterTests(void) { UtRegisterTest("DetectFilemagicTestParse01", DetectFilemagicTestParse01); UtRegisterTest("DetectFilemagicTestParse02", DetectFilemagicTestParse02); UtRegisterTest("DetectFilemagicTestParse03", DetectFilemagicTestParse03); } #endif /* UNITTESTS */ #endif /* HAVE_MAGIC */