/* Copyright (C) 2016-2021 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 * * Prefilter engine * * Prefilter engines have as purpose to check for a critical common part of * a set of rules. If the condition is present in the traffic, the rules * will have to be inspected individually. Otherwise, the rules can be * skipped. * * The best example of this is the MPM. From each rule take a pattern and * add it to the MPM state machine. Inspect that in one step and only * individually inspect the rules that had a match in MPM. * * This prefilter API is designed to abstract this logic so that it becomes * easier to add other types of prefilters. * * The prefilter engines are structured as a simple list of engines. Each * engine checks for a condition using it's callback function and private * data. It then adds the rule match candidates to the PrefilterRuleStore * structure. * * After the engines have run the resulting list of match candidates is * sorted by the rule id's so that the individual inspection happens in * the correct order. */ #include "suricata-common.h" #include "suricata.h" #include "detect-engine.h" #include "detect-engine-prefilter.h" #include "detect-engine-mpm.h" #include "detect-engine-frame.h" #include "app-layer-parser.h" #include "app-layer-htp.h" #include "util-profiling.h" #include "util-validate.h" static int PrefilterStoreGetId(DetectEngineCtx *de_ctx, const char *name, void (*FreeFunc)(void *)); static const PrefilterStore *PrefilterStoreGetStore(const DetectEngineCtx *de_ctx, const uint32_t id); static inline void QuickSortSigIntId(SigIntId *sids, uint32_t n) { if (n < 2) return; SigIntId p = sids[n / 2]; SigIntId *l = sids; SigIntId *r = sids + n - 1; while (l <= r) { if (*l < p) l++; else if (*r > p) r--; else { SigIntId t = *l; *l = *r; *r = t; l++; r--; } } QuickSortSigIntId(sids, r - sids + 1); QuickSortSigIntId(l, sids + n - l); } /** * \brief run prefilter engines on a transaction */ void DetectRunPrefilterTx(DetectEngineThreadCtx *det_ctx, const SigGroupHead *sgh, Packet *p, const uint8_t ipproto, const uint8_t flow_flags, const AppProto alproto, void *alstate, DetectTransaction *tx) { /* reset rule store */ det_ctx->pmq.rule_id_array_cnt = 0; SCLogDebug("packet %" PRIu64 " tx %p progress %d tx->prefilter_flags %" PRIx64, p->pcap_cnt, tx->tx_ptr, tx->tx_progress, tx->prefilter_flags); PrefilterEngine *engine = sgh->tx_engines; do { if (engine->alproto != alproto) goto next; if (engine->ctx.tx_min_progress > tx->tx_progress) break; if (tx->tx_progress > engine->ctx.tx_min_progress) { if (tx->prefilter_flags & BIT_U64(engine->ctx.tx_min_progress)) { goto next; } } PREFILTER_PROFILING_START(det_ctx); engine->cb.PrefilterTx(det_ctx, engine->pectx, p, p->flow, tx->tx_ptr, tx->tx_id, tx->tx_data_ptr, flow_flags); PREFILTER_PROFILING_END(det_ctx, engine->gid); if (tx->tx_progress > engine->ctx.tx_min_progress && engine->is_last_for_progress) { tx->prefilter_flags |= BIT_U64(engine->ctx.tx_min_progress); } next: if (engine->is_last) break; engine++; } while (1); /* Sort the rule list to lets look at pmq. * NOTE due to merging of 'stream' pmqs we *MAY* have duplicate entries */ if (likely(det_ctx->pmq.rule_id_array_cnt > 1)) { PACKET_PROFILING_DETECT_START(p, PROF_DETECT_PF_SORT1); QuickSortSigIntId(det_ctx->pmq.rule_id_array, det_ctx->pmq.rule_id_array_cnt); PACKET_PROFILING_DETECT_END(p, PROF_DETECT_PF_SORT1); } } void Prefilter(DetectEngineThreadCtx *det_ctx, const SigGroupHead *sgh, Packet *p, const uint8_t flags) { SCEnter(); #if 0 /* TODO review this check */ SCLogDebug("sgh %p frame_engines %p", sgh, sgh->frame_engines); if (p->proto == IPPROTO_TCP && sgh->frame_engines && p->flow && p->flow->alproto != ALPROTO_UNKNOWN && p->flow->alparser != NULL) { PACKET_PROFILING_DETECT_START(p, PROF_DETECT_PF_RECORD); PrefilterFrames(det_ctx, sgh, p, flags, p->flow->alproto); PACKET_PROFILING_DETECT_END(p, PROF_DETECT_PF_RECORD); } #endif if (sgh->pkt_engines) { PACKET_PROFILING_DETECT_START(p, PROF_DETECT_PF_PKT); /* run packet engines */ PrefilterEngine *engine = sgh->pkt_engines; do { PREFILTER_PROFILING_START(det_ctx); engine->cb.Prefilter(det_ctx, p, engine->pectx); PREFILTER_PROFILING_END(det_ctx, engine->gid); if (engine->is_last) break; engine++; } while (1); PACKET_PROFILING_DETECT_END(p, PROF_DETECT_PF_PKT); } /* run payload inspecting engines */ if (sgh->payload_engines && (p->payload_len || (p->flags & PKT_DETECT_HAS_STREAMDATA)) && !(p->flags & PKT_NOPAYLOAD_INSPECTION)) { PACKET_PROFILING_DETECT_START(p, PROF_DETECT_PF_PAYLOAD); PrefilterEngine *engine = sgh->payload_engines; while (1) { PREFILTER_PROFILING_START(det_ctx); engine->cb.Prefilter(det_ctx, p, engine->pectx); PREFILTER_PROFILING_END(det_ctx, engine->gid); if (engine->is_last) break; engine++; } PACKET_PROFILING_DETECT_END(p, PROF_DETECT_PF_PAYLOAD); } /* Sort the rule list to lets look at pmq. * NOTE due to merging of 'stream' pmqs we *MAY* have duplicate entries */ if (likely(det_ctx->pmq.rule_id_array_cnt > 1)) { PACKET_PROFILING_DETECT_START(p, PROF_DETECT_PF_SORT1); QuickSortSigIntId(det_ctx->pmq.rule_id_array, det_ctx->pmq.rule_id_array_cnt); PACKET_PROFILING_DETECT_END(p, PROF_DETECT_PF_SORT1); } SCReturn; } int PrefilterAppendEngine(DetectEngineCtx *de_ctx, SigGroupHead *sgh, void (*PrefilterFunc)(DetectEngineThreadCtx *det_ctx, Packet *p, const void *pectx), void *pectx, void (*FreeFunc)(void *pectx), const char *name) { if (sgh == NULL || PrefilterFunc == NULL || pectx == NULL) return -1; PrefilterEngineList *e = SCMallocAligned(sizeof(*e), CLS); if (e == NULL) return -1; memset(e, 0x00, sizeof(*e)); e->Prefilter = PrefilterFunc; e->pectx = pectx; e->Free = FreeFunc; if (sgh->init->pkt_engines == NULL) { sgh->init->pkt_engines = e; } else { PrefilterEngineList *t = sgh->init->pkt_engines; while (t->next != NULL) { t = t->next; } t->next = e; e->id = t->id + 1; } e->name = name; e->gid = PrefilterStoreGetId(de_ctx, e->name, e->Free); return 0; } int PrefilterAppendPayloadEngine(DetectEngineCtx *de_ctx, SigGroupHead *sgh, void (*PrefilterFunc)(DetectEngineThreadCtx *det_ctx, Packet *p, const void *pectx), void *pectx, void (*FreeFunc)(void *pectx), const char *name) { if (sgh == NULL || PrefilterFunc == NULL || pectx == NULL) return -1; PrefilterEngineList *e = SCMallocAligned(sizeof(*e), CLS); if (e == NULL) return -1; memset(e, 0x00, sizeof(*e)); e->Prefilter = PrefilterFunc; e->pectx = pectx; e->Free = FreeFunc; if (sgh->init->payload_engines == NULL) { sgh->init->payload_engines = e; } else { PrefilterEngineList *t = sgh->init->payload_engines; while (t->next != NULL) { t = t->next; } t->next = e; e->id = t->id + 1; } e->name = name; e->gid = PrefilterStoreGetId(de_ctx, e->name, e->Free); return 0; } int PrefilterAppendTxEngine(DetectEngineCtx *de_ctx, SigGroupHead *sgh, PrefilterTxFn PrefilterTxFunc, AppProto alproto, int tx_min_progress, void *pectx, void (*FreeFunc)(void *pectx), const char *name) { if (sgh == NULL || PrefilterTxFunc == NULL || pectx == NULL) return -1; PrefilterEngineList *e = SCMallocAligned(sizeof(*e), CLS); if (e == NULL) return -1; memset(e, 0x00, sizeof(*e)); e->PrefilterTx = PrefilterTxFunc; e->pectx = pectx; e->alproto = alproto; // TODO change function prototype ? DEBUG_VALIDATE_BUG_ON(tx_min_progress > UINT8_MAX); e->tx_min_progress = (uint8_t)tx_min_progress; e->Free = FreeFunc; if (sgh->init->tx_engines == NULL) { sgh->init->tx_engines = e; } else { PrefilterEngineList *t = sgh->init->tx_engines; while (t->next != NULL) { t = t->next; } t->next = e; e->id = t->id + 1; } e->name = name; e->gid = PrefilterStoreGetId(de_ctx, e->name, e->Free); return 0; } int PrefilterAppendFrameEngine(DetectEngineCtx *de_ctx, SigGroupHead *sgh, PrefilterFrameFn PrefilterFrameFunc, AppProto alproto, uint8_t frame_type, void *pectx, void (*FreeFunc)(void *pectx), const char *name) { if (sgh == NULL || PrefilterFrameFunc == NULL || pectx == NULL) return -1; PrefilterEngineList *e = SCMallocAligned(sizeof(*e), CLS); if (e == NULL) return -1; memset(e, 0x00, sizeof(*e)); e->frame_type = frame_type; e->alproto = alproto; e->PrefilterFrame = PrefilterFrameFunc; e->pectx = pectx; e->Free = FreeFunc; if (sgh->init->frame_engines == NULL) { sgh->init->frame_engines = e; } else { PrefilterEngineList *t = sgh->init->frame_engines; while (t->next != NULL) { t = t->next; } t->next = e; e->id = t->id + 1; } e->name = name; e->gid = PrefilterStoreGetId(de_ctx, e->name, e->Free); return 0; } static void PrefilterFreeEngineList(PrefilterEngineList *e) { if (e->Free && e->pectx) { e->Free(e->pectx); } SCFreeAligned(e); } void PrefilterFreeEnginesList(PrefilterEngineList *list) { PrefilterEngineList *t = list; while (t != NULL) { PrefilterEngineList *next = t->next; PrefilterFreeEngineList(t); t = next; } } static void PrefilterFreeEngines(const DetectEngineCtx *de_ctx, PrefilterEngine *list) { PrefilterEngine *t = list; while (1) { const PrefilterStore *s = PrefilterStoreGetStore(de_ctx, t->gid); if (s && s->FreeFunc && t->pectx) { s->FreeFunc(t->pectx); } if (t->is_last) break; t++; } SCFreeAligned(list); } void PrefilterCleanupRuleGroup(const DetectEngineCtx *de_ctx, SigGroupHead *sgh) { if (sgh->pkt_engines) { PrefilterFreeEngines(de_ctx, sgh->pkt_engines); sgh->pkt_engines = NULL; } if (sgh->payload_engines) { PrefilterFreeEngines(de_ctx, sgh->payload_engines); sgh->payload_engines = NULL; } if (sgh->tx_engines) { PrefilterFreeEngines(de_ctx, sgh->tx_engines); sgh->tx_engines = NULL; } if (sgh->frame_engines) { PrefilterFreeEngines(de_ctx, sgh->frame_engines); sgh->frame_engines = NULL; } } static int PrefilterSetupRuleGroupSortHelper(const void *a, const void *b) { const PrefilterEngine *s0 = a; const PrefilterEngine *s1 = b; if (s1->ctx.tx_min_progress == s0->ctx.tx_min_progress) { if (s1->alproto == s0->alproto) { return s0->local_id > s1->local_id ? 1 : -1; } else { return s0->alproto > s1->alproto ? 1 : -1; } } else { return s0->ctx.tx_min_progress > s1->ctx.tx_min_progress ? 1 : -1; } } void PrefilterSetupRuleGroup(DetectEngineCtx *de_ctx, SigGroupHead *sgh) { int r = PatternMatchPrepareGroup(de_ctx, sgh); if (r != 0) { FatalError("failed to set up pattern matching"); } /* set up engines if needed - when prefilter is set to auto we run * all engines, otherwise only those that have been forced by the * prefilter keyword. */ const enum DetectEnginePrefilterSetting setting = de_ctx->prefilter_setting; for (int i = 0; i < DETECT_TBLSIZE; i++) { if (sigmatch_table[i].SetupPrefilter != NULL && (setting == DETECT_PREFILTER_AUTO || de_ctx->sm_types_prefilter[i])) { sigmatch_table[i].SetupPrefilter(de_ctx, sgh); } } /* we have lists of engines in sgh->init now. Lets setup the * match arrays */ PrefilterEngineList *el; if (sgh->init->pkt_engines != NULL) { uint32_t cnt = 0; for (el = sgh->init->pkt_engines ; el != NULL; el = el->next) { cnt++; } sgh->pkt_engines = SCMallocAligned(cnt * sizeof(PrefilterEngine), CLS); if (sgh->pkt_engines == NULL) { return; } memset(sgh->pkt_engines, 0x00, (cnt * sizeof(PrefilterEngine))); PrefilterEngine *e = sgh->pkt_engines; for (el = sgh->init->pkt_engines ; el != NULL; el = el->next) { e->local_id = el->id; e->cb.Prefilter = el->Prefilter; e->pectx = el->pectx; el->pectx = NULL; // e now owns the ctx e->gid = el->gid; if (el->next == NULL) { e->is_last = TRUE; } e++; } } if (sgh->init->payload_engines != NULL) { uint32_t cnt = 0; for (el = sgh->init->payload_engines ; el != NULL; el = el->next) { cnt++; } sgh->payload_engines = SCMallocAligned(cnt * sizeof(PrefilterEngine), CLS); if (sgh->payload_engines == NULL) { return; } memset(sgh->payload_engines, 0x00, (cnt * sizeof(PrefilterEngine))); PrefilterEngine *e = sgh->payload_engines; for (el = sgh->init->payload_engines ; el != NULL; el = el->next) { e->local_id = el->id; e->cb.Prefilter = el->Prefilter; e->pectx = el->pectx; el->pectx = NULL; // e now owns the ctx e->gid = el->gid; if (el->next == NULL) { e->is_last = TRUE; } e++; } } if (sgh->init->tx_engines != NULL) { uint32_t cnt = 0; for (el = sgh->init->tx_engines ; el != NULL; el = el->next) { cnt++; } sgh->tx_engines = SCMallocAligned(cnt * sizeof(PrefilterEngine), CLS); if (sgh->tx_engines == NULL) { return; } memset(sgh->tx_engines, 0x00, (cnt * sizeof(PrefilterEngine))); uint16_t local_id = 0; PrefilterEngine *e = sgh->tx_engines; for (el = sgh->init->tx_engines ; el != NULL; el = el->next) { e->local_id = local_id++; e->alproto = el->alproto; e->ctx.tx_min_progress = el->tx_min_progress; e->cb.PrefilterTx = el->PrefilterTx; e->pectx = el->pectx; el->pectx = NULL; // e now owns the ctx e->gid = el->gid; e++; } /* sort by tx_min_progress, then alproto, then local_id */ qsort(sgh->tx_engines, local_id, sizeof(PrefilterEngine), PrefilterSetupRuleGroupSortHelper); sgh->tx_engines[local_id - 1].is_last = true; sgh->tx_engines[local_id - 1].is_last_for_progress = true; PrefilterEngine *engine; /* per alproto to set is_last_for_progress per alproto because the inspect * loop skips over engines that are not the correct alproto */ for (AppProto a = 1; a < ALPROTO_FAILED; a++) { int last_tx_progress = 0; bool last_tx_progress_set = false; PrefilterEngine *prev_engine = NULL; engine = sgh->tx_engines; do { BUG_ON(engine->ctx.tx_min_progress < last_tx_progress); if (engine->alproto == a) { if (last_tx_progress_set && engine->ctx.tx_min_progress > last_tx_progress) { if (prev_engine) { prev_engine->is_last_for_progress = true; } } last_tx_progress_set = true; prev_engine = engine; } else { if (prev_engine) { prev_engine->is_last_for_progress = true; } } last_tx_progress = engine->ctx.tx_min_progress; if (engine->is_last) break; engine++; } while (1); } #ifdef DEBUG SCLogDebug("sgh %p", sgh); engine = sgh->tx_engines; do { SCLogDebug("engine: gid %u alproto %s tx_min_progress %d is_last %s " "is_last_for_progress %s", engine->gid, AppProtoToString(engine->alproto), engine->ctx.tx_min_progress, engine->is_last ? "true" : "false", engine->is_last_for_progress ? "true" : "false"); if (engine->is_last) break; engine++; } while (1); #endif } if (sgh->init->frame_engines != NULL) { uint32_t cnt = 0; for (el = sgh->init->frame_engines; el != NULL; el = el->next) { cnt++; } sgh->frame_engines = SCMallocAligned(cnt * sizeof(PrefilterEngine), CLS); if (sgh->frame_engines == NULL) { return; } memset(sgh->frame_engines, 0x00, (cnt * sizeof(PrefilterEngine))); PrefilterEngine *e = sgh->frame_engines; for (el = sgh->init->frame_engines; el != NULL; el = el->next) { e->local_id = el->id; e->ctx.frame_type = el->frame_type; e->cb.PrefilterFrame = el->PrefilterFrame; e->alproto = el->alproto; e->pectx = el->pectx; el->pectx = NULL; // e now owns the ctx e->gid = el->gid; if (el->next == NULL) { e->is_last = TRUE; } e++; } } } /* hash table for assigning a unique id to each engine type. */ static uint32_t PrefilterStoreHashFunc(HashListTable *ht, void *data, uint16_t datalen) { PrefilterStore *ctx = data; uint32_t hash = strlen(ctx->name); for (size_t u = 0; u < strlen(ctx->name); u++) { hash += ctx->name[u]; } hash %= ht->array_size; return hash; } static char PrefilterStoreCompareFunc(void *data1, uint16_t len1, void *data2, uint16_t len2) { PrefilterStore *ctx1 = data1; PrefilterStore *ctx2 = data2; return (strcmp(ctx1->name, ctx2->name) == 0); } static void PrefilterStoreFreeFunc(void *ptr) { SCFree(ptr); } void PrefilterDeinit(DetectEngineCtx *de_ctx) { if (de_ctx->prefilter_hash_table != NULL) { HashListTableFree(de_ctx->prefilter_hash_table); } } void PrefilterInit(DetectEngineCtx *de_ctx) { BUG_ON(de_ctx->prefilter_hash_table != NULL); de_ctx->prefilter_hash_table = HashListTableInit(256, PrefilterStoreHashFunc, PrefilterStoreCompareFunc, PrefilterStoreFreeFunc); BUG_ON(de_ctx->prefilter_hash_table == NULL); } static int PrefilterStoreGetId(DetectEngineCtx *de_ctx, const char *name, void (*FreeFunc)(void *)) { PrefilterStore ctx = { name, FreeFunc, 0 }; BUG_ON(de_ctx->prefilter_hash_table == NULL); SCLogDebug("looking up %s", name); PrefilterStore *rctx = HashListTableLookup(de_ctx->prefilter_hash_table, (void *)&ctx, 0); if (rctx != NULL) { return rctx->id; } PrefilterStore *actx = SCCalloc(1, sizeof(*actx)); if (actx == NULL) { return -1; } actx->name = name; actx->FreeFunc = FreeFunc; actx->id = de_ctx->prefilter_id++; SCLogDebug("prefilter engine %s has profile id %u", actx->name, actx->id); int ret = HashListTableAdd(de_ctx->prefilter_hash_table, actx, 0); if (ret != 0) { SCFree(actx); return -1; } int r = actx->id; return r; } /** \warning slow */ static const PrefilterStore *PrefilterStoreGetStore(const DetectEngineCtx *de_ctx, const uint32_t id) { const PrefilterStore *store = NULL; if (de_ctx->prefilter_hash_table != NULL) { HashListTableBucket *hb = HashListTableGetListHead(de_ctx->prefilter_hash_table); for ( ; hb != NULL; hb = HashListTableGetListNext(hb)) { PrefilterStore *ctx = HashListTableGetListData(hb); if (ctx->id == id) { store = ctx; break; } } } return store; } #ifdef PROFILING const char *PrefilterStoreGetName(const uint32_t id) { return NULL; } #endif #include "util-print.h" typedef struct PrefilterMpmCtx { int list_id; InspectionBufferGetDataPtr GetData; const MpmCtx *mpm_ctx; const DetectEngineTransforms *transforms; } PrefilterMpmCtx; /** \brief Generic 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 PrefilterMpm(DetectEngineThreadCtx *det_ctx, const void *pectx, Packet *p, Flow *f, void *txv, const uint64_t idx, const AppLayerTxData *_txd, const uint8_t flags) { SCEnter(); const PrefilterMpmCtx *ctx = (const PrefilterMpmCtx *)pectx; const MpmCtx *mpm_ctx = ctx->mpm_ctx; SCLogDebug("running on list %d", ctx->list_id); InspectionBuffer *buffer = ctx->GetData(det_ctx, ctx->transforms, f, flags, txv, ctx->list_id); if (buffer == NULL) return; const uint32_t data_len = buffer->inspect_len; const uint8_t *data = buffer->inspect; SCLogDebug("mpm'ing buffer:"); //PrintRawDataFp(stdout, data, data_len); if (data != NULL && data_len >= mpm_ctx->minlen) { (void)mpm_table[mpm_ctx->mpm_type].Search(mpm_ctx, &det_ctx->mtcu, &det_ctx->pmq, data, data_len); PREFILTER_PROFILING_ADD_BYTES(det_ctx, data_len); } } static void PrefilterGenericMpmFree(void *ptr) { SCFree(ptr); } int PrefilterGenericMpmRegister(DetectEngineCtx *de_ctx, SigGroupHead *sgh, MpmCtx *mpm_ctx, const DetectBufferMpmRegistry *mpm_reg, int list_id) { SCEnter(); PrefilterMpmCtx *pectx = SCCalloc(1, sizeof(*pectx)); if (pectx == NULL) return -1; pectx->list_id = list_id; pectx->GetData = mpm_reg->app_v2.GetData; pectx->mpm_ctx = mpm_ctx; pectx->transforms = &mpm_reg->transforms; int r = PrefilterAppendTxEngine(de_ctx, sgh, PrefilterMpm, mpm_reg->app_v2.alproto, mpm_reg->app_v2.tx_min_progress, pectx, PrefilterGenericMpmFree, mpm_reg->pname); if (r != 0) { SCFree(pectx); } return r; } /* generic mpm for pkt engines */ typedef struct PrefilterMpmPktCtx { int list_id; InspectionBufferGetPktDataPtr GetData; const MpmCtx *mpm_ctx; const DetectEngineTransforms *transforms; } PrefilterMpmPktCtx; /** \brief Generic 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 PrefilterMpmPkt(DetectEngineThreadCtx *det_ctx, Packet *p, const void *pectx) { SCEnter(); const PrefilterMpmPktCtx *ctx = (const PrefilterMpmPktCtx *)pectx; const MpmCtx *mpm_ctx = ctx->mpm_ctx; SCLogDebug("running on list %d", ctx->list_id); InspectionBuffer *buffer = ctx->GetData(det_ctx, ctx->transforms, p, ctx->list_id); if (buffer == NULL) return; const uint32_t data_len = buffer->inspect_len; const uint8_t *data = buffer->inspect; SCLogDebug("mpm'ing buffer:"); //PrintRawDataFp(stdout, data, data_len); if (data != NULL && data_len >= mpm_ctx->minlen) { (void)mpm_table[mpm_ctx->mpm_type].Search(mpm_ctx, &det_ctx->mtcu, &det_ctx->pmq, data, data_len); PREFILTER_PROFILING_ADD_BYTES(det_ctx, data_len); } } static void PrefilterMpmPktFree(void *ptr) { SCFree(ptr); } int PrefilterGenericMpmPktRegister(DetectEngineCtx *de_ctx, SigGroupHead *sgh, MpmCtx *mpm_ctx, const DetectBufferMpmRegistry *mpm_reg, int list_id) { SCEnter(); PrefilterMpmPktCtx *pectx = SCCalloc(1, sizeof(*pectx)); if (pectx == NULL) return -1; pectx->list_id = list_id; pectx->GetData = mpm_reg->pkt_v1.GetData; pectx->mpm_ctx = mpm_ctx; pectx->transforms = &mpm_reg->transforms; int r = PrefilterAppendEngine(de_ctx, sgh, PrefilterMpmPkt, pectx, PrefilterMpmPktFree, mpm_reg->pname); if (r != 0) { SCFree(pectx); } return r; }