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Diffstat (limited to 'framework/src/suricata/src/util-mpm-ac.c')
-rw-r--r-- | framework/src/suricata/src/util-mpm-ac.c | 3341 |
1 files changed, 0 insertions, 3341 deletions
diff --git a/framework/src/suricata/src/util-mpm-ac.c b/framework/src/suricata/src/util-mpm-ac.c deleted file mode 100644 index c8f6be77..00000000 --- a/framework/src/suricata/src/util-mpm-ac.c +++ /dev/null @@ -1,3341 +0,0 @@ -/* Copyright (C) 2007-2014 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 Anoop Saldanha <anoopsaldanha@gmail.com> - * - * First iteration of aho-corasick MPM from - - * - * Efficient String Matching: An Aid to Bibliographic Search - * Alfred V. Aho and Margaret J. Corasick - * - * - Uses the delta table for calculating transitions, instead of having - * separate goto and failure transitions. - * - If we cross 2 ** 16 states, we use 4 bytes in the transition table - * to hold each state, otherwise we use 2 bytes. - * - This version of the MPM is heavy on memory, but it performs well. - * If you can fit the ruleset with this mpm on your box without hitting - * swap, this is the MPM to go for. - * - * \todo - Do a proper analyis of our existing MPMs and suggest a good one based - * on the pattern distribution and the expected traffic(say http). - * - Tried out loop unrolling without any perf increase. Need to dig deeper. - * - Irrespective of whether we cross 2 ** 16 states or not,shift to using - * uint32_t for state type, so that we can integrate it's status as a - * final state or not in the topmost byte. We are already doing it if - * state_count is > 2 ** 16. - * - Test case-senstive patterns if they have any ascii chars. If they - * don't treat them as nocase. - * - Carry out other optimizations we are working on. hashes, compression. - */ - -#include "suricata-common.h" -#include "suricata.h" - -#include "detect.h" -#include "detect-parse.h" -#include "detect-engine.h" - -#include "conf.h" -#include "util-debug.h" -#include "util-unittest.h" -#include "util-unittest-helper.h" -#include "util-memcmp.h" -#include "util-mpm-ac.h" -#include "util-memcpy.h" - -#ifdef __SC_CUDA_SUPPORT__ - -#include "util-mpm.h" -#include "tm-threads.h" -#include "detect-engine-mpm.h" -#include "util-cuda.h" -#include "util-cuda-handlers.h" -#endif /* __SC_CUDA_SUPPORT__ */ - -void SCACInitCtx(MpmCtx *); -void SCACInitThreadCtx(MpmCtx *, MpmThreadCtx *, uint32_t); -void SCACDestroyCtx(MpmCtx *); -void SCACDestroyThreadCtx(MpmCtx *, MpmThreadCtx *); -int SCACAddPatternCI(MpmCtx *, uint8_t *, uint16_t, uint16_t, uint16_t, - uint32_t, SigIntId, uint8_t); -int SCACAddPatternCS(MpmCtx *, uint8_t *, uint16_t, uint16_t, uint16_t, - uint32_t, SigIntId, uint8_t); -int SCACPreparePatterns(MpmCtx *mpm_ctx); -uint32_t SCACSearch(MpmCtx *mpm_ctx, MpmThreadCtx *mpm_thread_ctx, - PatternMatcherQueue *pmq, uint8_t *buf, uint16_t buflen); -void SCACPrintInfo(MpmCtx *mpm_ctx); -void SCACPrintSearchStats(MpmThreadCtx *mpm_thread_ctx); -void SCACRegisterTests(void); - -/* a placeholder to denote a failure transition in the goto table */ -#define SC_AC_FAIL (-1) -/* size of the hash table used to speed up pattern insertions initially */ -#define INIT_HASH_SIZE 65536 - -#define STATE_QUEUE_CONTAINER_SIZE 65536 - -static int construct_both_16_and_32_state_tables = 0; - -/** - * \brief Helper structure used by AC during state table creation - */ -typedef struct StateQueue_ { - int32_t store[STATE_QUEUE_CONTAINER_SIZE]; - int top; - int bot; -} StateQueue; - -/** - * \internal - * \brief Initialize the AC context with user specified conf parameters. We - * aren't retrieving anything for AC conf now, but we will certainly - * need it, when we customize AC. - */ -static void SCACGetConfig() -{ - //ConfNode *ac_conf; - //const char *hash_val = NULL; - - //ConfNode *pm = ConfGetNode("pattern-matcher"); - - return; -} - -/** - * \internal - * \brief Creates a hash of the pattern. We use it for the hashing process - * during the initial pattern insertion time, to cull duplicate sigs. - * - * \param pat Pointer to the pattern. - * \param patlen Pattern length. - * - * \retval hash A 32 bit unsigned hash. - */ -static inline uint32_t SCACInitHashRaw(uint8_t *pat, uint16_t patlen) -{ - uint32_t hash = patlen * pat[0]; - if (patlen > 1) - hash += pat[1]; - - return (hash % INIT_HASH_SIZE); -} - -/** - * \internal - * \brief Looks up a pattern. We use it for the hashing process during the - * the initial pattern insertion time, to cull duplicate sigs. - * - * \param ctx Pointer to the AC ctx. - * \param pat Pointer to the pattern. - * \param patlen Pattern length. - * \param flags Flags. We don't need this. - * - * \retval hash A 32 bit unsigned hash. - */ -static inline SCACPattern *SCACInitHashLookup(SCACCtx *ctx, uint8_t *pat, - uint16_t patlen, char flags, - uint32_t pid) -{ - uint32_t hash = SCACInitHashRaw(pat, patlen); - - if (ctx->init_hash == NULL) { - return NULL; - } - - SCACPattern *t = ctx->init_hash[hash]; - for ( ; t != NULL; t = t->next) { - if (t->id == pid) - return t; - } - - return NULL; -} - -/** - * \internal - * \brief Allocs a new pattern instance. - * - * \param mpm_ctx Pointer to the mpm context. - * - * \retval p Pointer to the newly created pattern. - */ -static inline SCACPattern *SCACAllocPattern(MpmCtx *mpm_ctx) -{ - SCACPattern *p = SCMalloc(sizeof(SCACPattern)); - if (unlikely(p == NULL)) { - exit(EXIT_FAILURE); - } - memset(p, 0, sizeof(SCACPattern)); - - mpm_ctx->memory_cnt++; - mpm_ctx->memory_size += sizeof(SCACPattern); - - return p; -} - -/** - * \internal - * \brief Used to free SCACPattern instances. - * - * \param mpm_ctx Pointer to the mpm context. - * \param p Pointer to the SCACPattern instance to be freed. - * \param free Free the above pointer or not. - */ -static inline void SCACFreePattern(MpmCtx *mpm_ctx, SCACPattern *p) -{ - if (p != NULL && p->cs != NULL && p->cs != p->ci) { - SCFree(p->cs); - mpm_ctx->memory_cnt--; - mpm_ctx->memory_size -= p->len; - } - - if (p != NULL && p->ci != NULL) { - SCFree(p->ci); - mpm_ctx->memory_cnt--; - mpm_ctx->memory_size -= p->len; - } - - if (p != NULL && p->original_pat != NULL) { - SCFree(p->original_pat); - mpm_ctx->memory_cnt--; - mpm_ctx->memory_size -= p->len; - } - - if (p != NULL && p->sids != NULL) { - SCFree(p->sids); - } - - if (p != NULL) { - SCFree(p); - mpm_ctx->memory_cnt--; - mpm_ctx->memory_size -= sizeof(SCACPattern); - } - return; -} - -static inline uint32_t SCACInitHash(SCACPattern *p) -{ - uint32_t hash = p->len * p->original_pat[0]; - if (p->len > 1) - hash += p->original_pat[1]; - - return (hash % INIT_HASH_SIZE); -} - -static inline int SCACInitHashAdd(SCACCtx *ctx, SCACPattern *p) -{ - uint32_t hash = SCACInitHash(p); - - if (ctx->init_hash == NULL) { - return 0; - } - - if (ctx->init_hash[hash] == NULL) { - ctx->init_hash[hash] = p; - return 0; - } - - SCACPattern *tt = NULL; - SCACPattern *t = ctx->init_hash[hash]; - - /* get the list tail */ - do { - tt = t; - t = t->next; - } while (t != NULL); - - tt->next = p; - - return 0; -} - -/** - * \internal - * \brief Add a pattern to the mpm-ac context. - * - * \param mpm_ctx Mpm context. - * \param pat Pointer to the pattern. - * \param patlen Length of the pattern. - * \param pid Pattern id - * \param sid Signature id (internal id). - * \param flags Pattern's MPM_PATTERN_* flags. - * - * \retval 0 On success. - * \retval -1 On failure. - */ -static int SCACAddPattern(MpmCtx *mpm_ctx, uint8_t *pat, uint16_t patlen, - uint16_t offset, uint16_t depth, uint32_t pid, - SigIntId sid, uint8_t flags) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - - SCLogDebug("Adding pattern for ctx %p, patlen %"PRIu16" and pid %" PRIu32, - ctx, patlen, pid); - - if (patlen == 0) { - SCLogWarning(SC_ERR_INVALID_ARGUMENTS, "pattern length 0"); - return 0; - } - - /* check if we have already inserted this pattern */ - SCACPattern *p = SCACInitHashLookup(ctx, pat, patlen, flags, pid); - if (p == NULL) { - SCLogDebug("Allocing new pattern"); - - /* p will never be NULL */ - p = SCACAllocPattern(mpm_ctx); - - p->len = patlen; - p->flags = flags; - p->id = pid; - - p->original_pat = SCMalloc(patlen); - if (p->original_pat == NULL) - goto error; - mpm_ctx->memory_cnt++; - mpm_ctx->memory_size += patlen; - memcpy(p->original_pat, pat, patlen); - - p->ci = SCMalloc(patlen); - if (p->ci == NULL) - goto error; - mpm_ctx->memory_cnt++; - mpm_ctx->memory_size += patlen; - memcpy_tolower(p->ci, pat, patlen); - - /* setup the case sensitive part of the pattern */ - if (p->flags & MPM_PATTERN_FLAG_NOCASE) { - /* nocase means no difference between cs and ci */ - p->cs = p->ci; - } else { - if (memcmp(p->ci, pat, p->len) == 0) { - /* no diff between cs and ci: pat is lowercase */ - p->cs = p->ci; - } else { - p->cs = SCMalloc(patlen); - if (p->cs == NULL) - goto error; - mpm_ctx->memory_cnt++; - mpm_ctx->memory_size += patlen; - memcpy(p->cs, pat, patlen); - } - } - - /* put in the pattern hash */ - SCACInitHashAdd(ctx, p); - - //if (mpm_ctx->pattern_cnt == 65535) { - // SCLogError(SC_ERR_AHO_CORASICK, "Max search words reached. Can't " - // "insert anymore. Exiting"); - // exit(EXIT_FAILURE); - //} - mpm_ctx->pattern_cnt++; - - if (mpm_ctx->maxlen < patlen) - mpm_ctx->maxlen = patlen; - - if (mpm_ctx->minlen == 0) { - mpm_ctx->minlen = patlen; - } else { - if (mpm_ctx->minlen > patlen) - mpm_ctx->minlen = patlen; - } - - /* we need the max pat id */ - if (pid > ctx->max_pat_id) - ctx->max_pat_id = pid; - - p->sids_size = 1; - p->sids = SCMalloc(p->sids_size * sizeof(SigIntId)); - BUG_ON(p->sids == NULL); - p->sids[0] = sid; - //SCLogInfo("MPM added %u:%u", pid, sid); - } else { - /* TODO figure out how we can be called multiple times for the same CTX with the same sid */ - - int found = 0; - uint32_t x = 0; - for (x = 0; x < p->sids_size; x++) { - if (p->sids[x] == sid) { - found = 1; - break; - } - } - if (!found) { - SigIntId *sids = SCRealloc(p->sids, (sizeof(SigIntId) * (p->sids_size + 1))); - BUG_ON(sids == NULL); - p->sids = sids; - p->sids[p->sids_size] = sid; - p->sids_size++; - //SCLogInfo("p->sids_size %u", p->sids_size); - //SCLogInfo("MPM added %u:%u (append)", pid, sid); - } else { - //SCLogInfo("rule %u already part of pid %u", sid, pid); - } - } - - return 0; - -error: - SCACFreePattern(mpm_ctx, p); - return -1; -} - -/** - * \internal - * \brief Initialize a new state in the goto and output tables. - * - * \param mpm_ctx Pointer to the mpm context. - * - * \retval The state id, of the newly created state. - */ -static inline int SCACReallocState(SCACCtx *ctx, uint32_t cnt) -{ - void *ptmp; - int size = 0; - - /* reallocate space in the goto table to include a new state */ - size = cnt * ctx->single_state_size; - ptmp = SCRealloc(ctx->goto_table, size); - if (ptmp == NULL) { - SCFree(ctx->goto_table); - ctx->goto_table = NULL; - SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); - exit(EXIT_FAILURE); - } - ctx->goto_table = ptmp; - - /* reallocate space in the output table for the new state */ - int oldsize = ctx->state_count * sizeof(SCACOutputTable); - size = cnt * sizeof(SCACOutputTable); - SCLogDebug("oldsize %d size %d cnt %u ctx->state_count %u", - oldsize, size, cnt, ctx->state_count); - - ptmp = SCRealloc(ctx->output_table, size); - if (ptmp == NULL) { - SCFree(ctx->output_table); - ctx->output_table = NULL; - SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); - exit(EXIT_FAILURE); - } - ctx->output_table = ptmp; - - memset(((uint8_t *)ctx->output_table + oldsize), 0, (size - oldsize)); - - /* \todo using it temporarily now during dev, since I have restricted - * state var in SCACCtx->state_table to uint16_t. */ - //if (ctx->state_count > 65536) { - // printf("state count exceeded\n"); - // exit(EXIT_FAILURE); - //} - - return 0;//ctx->state_count++; -} - -/** \internal - * \brief Shrink state after setup is done - * - * Shrinks only the output table, goto table is freed after calling this - */ -static void SCACShrinkState(SCACCtx *ctx) -{ - /* reallocate space in the output table for the new state */ -#ifdef DEBUG - int oldsize = ctx->allocated_state_count * sizeof(SCACOutputTable); -#endif - int newsize = ctx->state_count * sizeof(SCACOutputTable); - - SCLogDebug("oldsize %d newsize %d ctx->allocated_state_count %u " - "ctx->state_count %u: shrink by %d bytes", oldsize, - newsize, ctx->allocated_state_count, ctx->state_count, - oldsize - newsize); - - void *ptmp = SCRealloc(ctx->output_table, newsize); - if (ptmp == NULL) { - SCFree(ctx->output_table); - ctx->output_table = NULL; - SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); - exit(EXIT_FAILURE); - } - ctx->output_table = ptmp; -} - -static inline int SCACInitNewState(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx;; - - /* Exponentially increase the allocated space when needed. */ - if (ctx->allocated_state_count < ctx->state_count + 1) { - if (ctx->allocated_state_count == 0) - ctx->allocated_state_count = 256; - else - ctx->allocated_state_count *= 2; - - SCACReallocState(ctx, ctx->allocated_state_count); - - } -#if 0 - if (ctx->allocated_state_count > 260) { - SCACOutputTable *output_state = &ctx->output_table[260]; - SCLogInfo("output_state %p %p %u", output_state, output_state->pids, output_state->no_of_entries); - } -#endif - int ascii_code = 0; - /* set all transitions for the newly assigned state as FAIL transitions */ - for (ascii_code = 0; ascii_code < 256; ascii_code++) { - ctx->goto_table[ctx->state_count][ascii_code] = SC_AC_FAIL; - } - - return ctx->state_count++; -} - -/** - * \internal - * \brief Adds a pid to the output table for a state. - * - * \param state The state to whose output table we should add the pid. - * \param pid The pattern id to add. - * \param mpm_ctx Pointer to the mpm context. - */ -static void SCACSetOutputState(int32_t state, uint32_t pid, MpmCtx *mpm_ctx) -{ - void *ptmp; - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - SCACOutputTable *output_state = &ctx->output_table[state]; - uint32_t i = 0; - - for (i = 0; i < output_state->no_of_entries; i++) { - if (output_state->pids[i] == pid) - return; - } - - output_state->no_of_entries++; - ptmp = SCRealloc(output_state->pids, - output_state->no_of_entries * sizeof(uint32_t)); - if (ptmp == NULL) { - SCFree(output_state->pids); - output_state->pids = NULL; - SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); - exit(EXIT_FAILURE); - } - output_state->pids = ptmp; - - output_state->pids[output_state->no_of_entries - 1] = pid; - - return; -} - -/** - * \brief Helper function used by SCACCreateGotoTable. Adds a pattern to the - * goto table. - * - * \param pattern Pointer to the pattern. - * \param pattern_len Pattern length. - * \param pid The pattern id, that corresponds to this pattern. We - * need it to updated the output table for this pattern. - * \param mpm_ctx Pointer to the mpm context. - */ -static inline void SCACEnter(uint8_t *pattern, uint16_t pattern_len, uint32_t pid, - MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - int32_t state = 0; - int32_t newstate = 0; - int i = 0; - int p = 0; - - /* walk down the trie till we have a match for the pattern prefix */ - state = 0; - for (i = 0; i < pattern_len; i++) { - if (ctx->goto_table[state][pattern[i]] != SC_AC_FAIL) { - state = ctx->goto_table[state][pattern[i]]; - } else { - break; - } - } - - /* add the non-matching pattern suffix to the trie, from the last state - * we left off */ - for (p = i; p < pattern_len; p++) { - newstate = SCACInitNewState(mpm_ctx); - ctx->goto_table[state][pattern[p]] = newstate; - state = newstate; - } - - /* add this pattern id, to the output table of the last state, where the - * pattern ends in the trie */ - SCACSetOutputState(state, pid, mpm_ctx); - - return; -} - -/** - * \internal - * \brief Create the goto table. - * - * \param mpm_ctx Pointer to the mpm context. - */ -static inline void SCACCreateGotoTable(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - uint32_t i = 0; - - /* add each pattern to create the goto table */ - for (i = 0; i < mpm_ctx->pattern_cnt; i++) { - SCACEnter(ctx->parray[i]->ci, ctx->parray[i]->len, - ctx->parray[i]->id, mpm_ctx); - } - - int ascii_code = 0; - for (ascii_code = 0; ascii_code < 256; ascii_code++) { - if (ctx->goto_table[0][ascii_code] == SC_AC_FAIL) { - ctx->goto_table[0][ascii_code] = 0; - } - } - - return; -} - -static inline void SCACDetermineLevel1Gap(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - uint32_t u = 0; - - int map[256]; - memset(map, 0, sizeof(map)); - - for (u = 0; u < mpm_ctx->pattern_cnt; u++) - map[ctx->parray[u]->ci[0]] = 1; - - for (u = 0; u < 256; u++) { - if (map[u] == 0) - continue; - int32_t newstate = SCACInitNewState(mpm_ctx); - ctx->goto_table[0][u] = newstate; - } - - return; -} - -static inline int SCACStateQueueIsEmpty(StateQueue *q) -{ - if (q->top == q->bot) - return 1; - else - return 0; -} - -static inline void SCACEnqueue(StateQueue *q, int32_t state) -{ - int i = 0; - - /*if we already have this */ - for (i = q->bot; i < q->top; i++) { - if (q->store[i] == state) - return; - } - - q->store[q->top++] = state; - - if (q->top == STATE_QUEUE_CONTAINER_SIZE) - q->top = 0; - - if (q->top == q->bot) { - SCLogCritical(SC_ERR_AHO_CORASICK, "Just ran out of space in the queue. " - "Fatal Error. Exiting. Please file a bug report on this"); - exit(EXIT_FAILURE); - } - - return; -} - -static inline int32_t SCACDequeue(StateQueue *q) -{ - if (q->bot == STATE_QUEUE_CONTAINER_SIZE) - q->bot = 0; - - if (q->bot == q->top) { - SCLogCritical(SC_ERR_AHO_CORASICK, "StateQueue behaving weirdly. " - "Fatal Error. Exiting. Please file a bug report on this"); - exit(EXIT_FAILURE); - } - - return q->store[q->bot++]; -} - -/* -#define SCACStateQueueIsEmpty(q) (((q)->top == (q)->bot) ? 1 : 0) - -#define SCACEnqueue(q, state) do { \ - int i = 0; \ - \ - for (i = (q)->bot; i < (q)->top; i++) { \ - if ((q)->store[i] == state) \ - return; \ - } \ - \ - (q)->store[(q)->top++] = state; \ - \ - if ((q)->top == STATE_QUEUE_CONTAINER_SIZE) \ - (q)->top = 0; \ - \ - if ((q)->top == (q)->bot) { \ - SCLogCritical(SC_ERR_AHO_CORASICK, "Just ran out of space in the queue. " \ - "Fatal Error. Exiting. Please file a bug report on this"); \ - exit(EXIT_FAILURE); \ - } \ - } while (0) - -#define SCACDequeue(q) ( (((q)->bot == STATE_QUEUE_CONTAINER_SIZE)? ((q)->bot = 0): 0), \ - (((q)->bot == (q)->top) ? \ - (printf("StateQueue behaving " \ - "weirdly. Fatal Error. Exiting. Please " \ - "file a bug report on this"), \ - exit(EXIT_FAILURE)) : 0), \ - (q)->store[(q)->bot++]) \ -*/ - -/** - * \internal - * \brief Club the output data from 2 states and store it in the 1st state. - * dst_state_data = {dst_state_data} UNION {src_state_data} - * - * \param dst_state First state(also the destination) for the union operation. - * \param src_state Second state for the union operation. - * \param mpm_ctx Pointer to the mpm context. - */ -static inline void SCACClubOutputStates(int32_t dst_state, int32_t src_state, - MpmCtx *mpm_ctx) -{ - void *ptmp; - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - uint32_t i = 0; - uint32_t j = 0; - - SCACOutputTable *output_dst_state = &ctx->output_table[dst_state]; - SCACOutputTable *output_src_state = &ctx->output_table[src_state]; - - for (i = 0; i < output_src_state->no_of_entries; i++) { - for (j = 0; j < output_dst_state->no_of_entries; j++) { - if (output_src_state->pids[i] == output_dst_state->pids[j]) { - break; - } - } - if (j == output_dst_state->no_of_entries) { - output_dst_state->no_of_entries++; - - ptmp = SCRealloc(output_dst_state->pids, - (output_dst_state->no_of_entries * sizeof(uint32_t))); - if (ptmp == NULL) { - SCFree(output_dst_state->pids); - output_dst_state->pids = NULL; - SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); - exit(EXIT_FAILURE); - } - output_dst_state->pids = ptmp; - - output_dst_state->pids[output_dst_state->no_of_entries - 1] = - output_src_state->pids[i]; - } - } - - return; -} - -/** - * \internal - * \brief Create the failure table. - * - * \param mpm_ctx Pointer to the mpm context. - */ -static inline void SCACCreateFailureTable(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - int ascii_code = 0; - int32_t state = 0; - int32_t r_state = 0; - - StateQueue q; - memset(&q, 0, sizeof(StateQueue)); - - /* allot space for the failure table. A failure entry in the table for - * every state(SCACCtx->state_count) */ - ctx->failure_table = SCMalloc(ctx->state_count * sizeof(int32_t)); - if (ctx->failure_table == NULL) { - SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); - exit(EXIT_FAILURE); - } - memset(ctx->failure_table, 0, ctx->state_count * sizeof(int32_t)); - - /* add the failure transitions for the 0th state, and add every non-fail - * transition from the 0th state to the queue for further processing - * of failure states */ - for (ascii_code = 0; ascii_code < 256; ascii_code++) { - int32_t temp_state = ctx->goto_table[0][ascii_code]; - if (temp_state != 0) { - SCACEnqueue(&q, temp_state); - ctx->failure_table[temp_state] = 0; - } - } - - while (!SCACStateQueueIsEmpty(&q)) { - /* pick up every state from the queue and add failure transitions */ - r_state = SCACDequeue(&q); - for (ascii_code = 0; ascii_code < 256; ascii_code++) { - int32_t temp_state = ctx->goto_table[r_state][ascii_code]; - if (temp_state == SC_AC_FAIL) - continue; - SCACEnqueue(&q, temp_state); - state = ctx->failure_table[r_state]; - - while(ctx->goto_table[state][ascii_code] == SC_AC_FAIL) - state = ctx->failure_table[state]; - ctx->failure_table[temp_state] = ctx->goto_table[state][ascii_code]; - SCACClubOutputStates(temp_state, ctx->failure_table[temp_state], - mpm_ctx); - } - } - - return; -} - -/** - * \internal - * \brief Create the delta table. - * - * \param mpm_ctx Pointer to the mpm context. - */ -static inline void SCACCreateDeltaTable(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - int ascii_code = 0; - int32_t r_state = 0; - - if ((ctx->state_count < 32767) || construct_both_16_and_32_state_tables) { - ctx->state_table_u16 = SCMalloc(ctx->state_count * - sizeof(SC_AC_STATE_TYPE_U16) * 256); - if (ctx->state_table_u16 == NULL) { - SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); - exit(EXIT_FAILURE); - } - memset(ctx->state_table_u16, 0, - ctx->state_count * sizeof(SC_AC_STATE_TYPE_U16) * 256); - - mpm_ctx->memory_cnt++; - mpm_ctx->memory_size += (ctx->state_count * - sizeof(SC_AC_STATE_TYPE_U16) * 256); - - StateQueue q; - memset(&q, 0, sizeof(StateQueue)); - - for (ascii_code = 0; ascii_code < 256; ascii_code++) { - SC_AC_STATE_TYPE_U16 temp_state = ctx->goto_table[0][ascii_code]; - ctx->state_table_u16[0][ascii_code] = temp_state; - if (temp_state != 0) - SCACEnqueue(&q, temp_state); - } - - while (!SCACStateQueueIsEmpty(&q)) { - r_state = SCACDequeue(&q); - - for (ascii_code = 0; ascii_code < 256; ascii_code++) { - int32_t temp_state = ctx->goto_table[r_state][ascii_code]; - if (temp_state != SC_AC_FAIL) { - SCACEnqueue(&q, temp_state); - ctx->state_table_u16[r_state][ascii_code] = temp_state; - } else { - ctx->state_table_u16[r_state][ascii_code] = - ctx->state_table_u16[ctx->failure_table[r_state]][ascii_code]; - } - } - } - } - - if (!(ctx->state_count < 32767) || construct_both_16_and_32_state_tables) { - /* create space for the state table. We could have used the existing goto - * table, but since we have it set to hold 32 bit state values, we will create - * a new state table here of type SC_AC_STATE_TYPE(current set to uint16_t) */ - ctx->state_table_u32 = SCMalloc(ctx->state_count * - sizeof(SC_AC_STATE_TYPE_U32) * 256); - if (ctx->state_table_u32 == NULL) { - SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); - exit(EXIT_FAILURE); - } - memset(ctx->state_table_u32, 0, - ctx->state_count * sizeof(SC_AC_STATE_TYPE_U32) * 256); - - mpm_ctx->memory_cnt++; - mpm_ctx->memory_size += (ctx->state_count * - sizeof(SC_AC_STATE_TYPE_U32) * 256); - - StateQueue q; - memset(&q, 0, sizeof(StateQueue)); - - for (ascii_code = 0; ascii_code < 256; ascii_code++) { - SC_AC_STATE_TYPE_U32 temp_state = ctx->goto_table[0][ascii_code]; - ctx->state_table_u32[0][ascii_code] = temp_state; - if (temp_state != 0) - SCACEnqueue(&q, temp_state); - } - - while (!SCACStateQueueIsEmpty(&q)) { - r_state = SCACDequeue(&q); - - for (ascii_code = 0; ascii_code < 256; ascii_code++) { - int32_t temp_state = ctx->goto_table[r_state][ascii_code]; - if (temp_state != SC_AC_FAIL) { - SCACEnqueue(&q, temp_state); - ctx->state_table_u32[r_state][ascii_code] = temp_state; - } else { - ctx->state_table_u32[r_state][ascii_code] = - ctx->state_table_u32[ctx->failure_table[r_state]][ascii_code]; - } - } - } - } - - return; -} - -static inline void SCACClubOutputStatePresenceWithDeltaTable(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - int ascii_code = 0; - uint32_t state = 0; - uint32_t temp_state = 0; - - if ((ctx->state_count < 32767) || construct_both_16_and_32_state_tables) { - for (state = 0; state < ctx->state_count; state++) { - for (ascii_code = 0; ascii_code < 256; ascii_code++) { - temp_state = ctx->state_table_u16[state & 0x7FFF][ascii_code]; - if (ctx->output_table[temp_state & 0x7FFF].no_of_entries != 0) - ctx->state_table_u16[state & 0x7FFF][ascii_code] |= (1 << 15); - } - } - } - - if (!(ctx->state_count < 32767) || construct_both_16_and_32_state_tables) { - for (state = 0; state < ctx->state_count; state++) { - for (ascii_code = 0; ascii_code < 256; ascii_code++) { - temp_state = ctx->state_table_u32[state & 0x00FFFFFF][ascii_code]; - if (ctx->output_table[temp_state & 0x00FFFFFF].no_of_entries != 0) - ctx->state_table_u32[state & 0x00FFFFFF][ascii_code] |= (1 << 24); - } - } - } - - return; -} - -static inline void SCACInsertCaseSensitiveEntriesForPatterns(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - uint32_t state = 0; - uint32_t k = 0; - - for (state = 0; state < ctx->state_count; state++) { - if (ctx->output_table[state].no_of_entries == 0) - continue; - - for (k = 0; k < ctx->output_table[state].no_of_entries; k++) { - if (ctx->pid_pat_list[ctx->output_table[state].pids[k]].cs != NULL) { - ctx->output_table[state].pids[k] &= 0x0000FFFF; - ctx->output_table[state].pids[k] |= 1 << 16; - } - } - } - - return; -} - -#if 0 -static void SCACPrintDeltaTable(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - int i = 0, j = 0; - - printf("##############Delta Table##############\n"); - for (i = 0; i < ctx->state_count; i++) { - printf("%d: \n", i); - for (j = 0; j < 256; j++) { - if (SCACGetDelta(i, j, mpm_ctx) != 0) { - printf(" %c -> %d\n", j, SCACGetDelta(i, j, mpm_ctx)); - } - } - } - - return; -} -#endif - -/** - * \brief Process the patterns and prepare the state table. - * - * \param mpm_ctx Pointer to the mpm context. - */ -static inline void SCACPrepareStateTable(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - - /* create the 0th state in the goto table and output_table */ - SCACInitNewState(mpm_ctx); - - SCACDetermineLevel1Gap(mpm_ctx); - - /* create the goto table */ - SCACCreateGotoTable(mpm_ctx); - /* create the failure table */ - SCACCreateFailureTable(mpm_ctx); - /* create the final state(delta) table */ - SCACCreateDeltaTable(mpm_ctx); - /* club the output state presence with delta transition entries */ - SCACClubOutputStatePresenceWithDeltaTable(mpm_ctx); - - /* club nocase entries */ - SCACInsertCaseSensitiveEntriesForPatterns(mpm_ctx); - - /* shrink the memory */ - SCACShrinkState(ctx); - -#if 0 - SCACPrintDeltaTable(mpm_ctx); -#endif - - /* we don't need these anymore */ - SCFree(ctx->goto_table); - ctx->goto_table = NULL; - SCFree(ctx->failure_table); - ctx->failure_table = NULL; - - return; -} - -/** - * \brief Process the patterns added to the mpm, and create the internal tables. - * - * \param mpm_ctx Pointer to the mpm context. - */ -int SCACPreparePatterns(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - - if (mpm_ctx->pattern_cnt == 0 || ctx->init_hash == NULL) { - SCLogDebug("no patterns supplied to this mpm_ctx"); - return 0; - } - - /* alloc the pattern array */ - ctx->parray = (SCACPattern **)SCMalloc(mpm_ctx->pattern_cnt * - sizeof(SCACPattern *)); - if (ctx->parray == NULL) - goto error; - memset(ctx->parray, 0, mpm_ctx->pattern_cnt * sizeof(SCACPattern *)); - mpm_ctx->memory_cnt++; - mpm_ctx->memory_size += (mpm_ctx->pattern_cnt * sizeof(SCACPattern *)); - - /* populate it with the patterns in the hash */ - uint32_t i = 0, p = 0; - for (i = 0; i < INIT_HASH_SIZE; i++) { - SCACPattern *node = ctx->init_hash[i], *nnode = NULL; - while(node != NULL) { - nnode = node->next; - node->next = NULL; - ctx->parray[p++] = node; - node = nnode; - } - } - - /* we no longer need the hash, so free it's memory */ - SCFree(ctx->init_hash); - ctx->init_hash = NULL; - - /* the memory consumed by a single state in our goto table */ - ctx->single_state_size = sizeof(int32_t) * 256; - - /* handle no case patterns */ - ctx->pid_pat_list = SCMalloc((ctx->max_pat_id + 1)* sizeof(SCACPatternList)); - if (ctx->pid_pat_list == NULL) { - SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); - exit(EXIT_FAILURE); - } - memset(ctx->pid_pat_list, 0, (ctx->max_pat_id + 1) * sizeof(SCACPatternList)); - - for (i = 0; i < mpm_ctx->pattern_cnt; i++) { - if (!(ctx->parray[i]->flags & MPM_PATTERN_FLAG_NOCASE)) { - ctx->pid_pat_list[ctx->parray[i]->id].cs = SCMalloc(ctx->parray[i]->len); - if (ctx->pid_pat_list[ctx->parray[i]->id].cs == NULL) { - SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); - exit(EXIT_FAILURE); - } - memcpy(ctx->pid_pat_list[ctx->parray[i]->id].cs, - ctx->parray[i]->original_pat, ctx->parray[i]->len); - ctx->pid_pat_list[ctx->parray[i]->id].patlen = ctx->parray[i]->len; - } - - /* ACPatternList now owns this memory */ - //SCLogInfo("ctx->parray[i]->sids_size %u", ctx->parray[i]->sids_size); - ctx->pid_pat_list[ctx->parray[i]->id].sids_size = ctx->parray[i]->sids_size; - ctx->pid_pat_list[ctx->parray[i]->id].sids = ctx->parray[i]->sids; - - ctx->parray[i]->sids_size = 0; - ctx->parray[i]->sids = NULL; - } - - /* prepare the state table required by AC */ - SCACPrepareStateTable(mpm_ctx); - -#ifdef __SC_CUDA_SUPPORT__ - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - int r = SCCudaMemAlloc(&ctx->state_table_u32_cuda, - ctx->state_count * sizeof(unsigned int) * 256); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemAlloc failure."); - exit(EXIT_FAILURE); - } - - r = SCCudaMemcpyHtoD(ctx->state_table_u32_cuda, - ctx->state_table_u32, - ctx->state_count * sizeof(unsigned int) * 256); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemcpyHtoD failure."); - exit(EXIT_FAILURE); - } - } -#endif - - /* free all the stored patterns. Should save us a good 100-200 mbs */ - for (i = 0; i < mpm_ctx->pattern_cnt; i++) { - if (ctx->parray[i] != NULL) { - SCACFreePattern(mpm_ctx, ctx->parray[i]); - } - } - SCFree(ctx->parray); - ctx->parray = NULL; - mpm_ctx->memory_cnt--; - mpm_ctx->memory_size -= (mpm_ctx->pattern_cnt * sizeof(SCACPattern *)); - - return 0; - -error: - return -1; -} - -/** - * \brief Init the mpm thread context. - * - * \param mpm_ctx Pointer to the mpm context. - * \param mpm_thread_ctx Pointer to the mpm thread context. - * \param matchsize We don't need this. - */ -void SCACInitThreadCtx(MpmCtx *mpm_ctx, MpmThreadCtx *mpm_thread_ctx, uint32_t matchsize) -{ - memset(mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - - mpm_thread_ctx->ctx = SCMalloc(sizeof(SCACThreadCtx)); - if (mpm_thread_ctx->ctx == NULL) { - exit(EXIT_FAILURE); - } - memset(mpm_thread_ctx->ctx, 0, sizeof(SCACThreadCtx)); - mpm_thread_ctx->memory_cnt++; - mpm_thread_ctx->memory_size += sizeof(SCACThreadCtx); - - return; -} - -/** - * \brief Initialize the AC context. - * - * \param mpm_ctx Mpm context. - */ -void SCACInitCtx(MpmCtx *mpm_ctx) -{ - if (mpm_ctx->ctx != NULL) - return; - - mpm_ctx->ctx = SCMalloc(sizeof(SCACCtx)); - if (mpm_ctx->ctx == NULL) { - exit(EXIT_FAILURE); - } - memset(mpm_ctx->ctx, 0, sizeof(SCACCtx)); - - mpm_ctx->memory_cnt++; - mpm_ctx->memory_size += sizeof(SCACCtx); - - /* initialize the hash we use to speed up pattern insertions */ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - ctx->init_hash = SCMalloc(sizeof(SCACPattern *) * INIT_HASH_SIZE); - if (ctx->init_hash == NULL) { - exit(EXIT_FAILURE); - } - memset(ctx->init_hash, 0, sizeof(SCACPattern *) * INIT_HASH_SIZE); - - /* get conf values for AC from our yaml file. We have no conf values for - * now. We will certainly need this, as we develop the algo */ - SCACGetConfig(); - - SCReturn; -} - -/** - * \brief Destroy the mpm thread context. - * - * \param mpm_ctx Pointer to the mpm context. - * \param mpm_thread_ctx Pointer to the mpm thread context. - */ -void SCACDestroyThreadCtx(MpmCtx *mpm_ctx, MpmThreadCtx *mpm_thread_ctx) -{ - SCACPrintSearchStats(mpm_thread_ctx); - - if (mpm_thread_ctx->ctx != NULL) { - SCFree(mpm_thread_ctx->ctx); - mpm_thread_ctx->ctx = NULL; - mpm_thread_ctx->memory_cnt--; - mpm_thread_ctx->memory_size -= sizeof(SCACThreadCtx); - } - - return; -} - -/** - * \brief Destroy the mpm context. - * - * \param mpm_ctx Pointer to the mpm context. - */ -void SCACDestroyCtx(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx == NULL) - return; - - if (ctx->init_hash != NULL) { - SCFree(ctx->init_hash); - ctx->init_hash = NULL; - mpm_ctx->memory_cnt--; - mpm_ctx->memory_size -= (INIT_HASH_SIZE * sizeof(SCACPattern *)); - } - - if (ctx->parray != NULL) { - uint32_t i; - for (i = 0; i < mpm_ctx->pattern_cnt; i++) { - if (ctx->parray[i] != NULL) { - SCACFreePattern(mpm_ctx, ctx->parray[i]); - } - } - - SCFree(ctx->parray); - ctx->parray = NULL; - mpm_ctx->memory_cnt--; - mpm_ctx->memory_size -= (mpm_ctx->pattern_cnt * sizeof(SCACPattern *)); - } - - if (ctx->state_table_u16 != NULL) { - SCFree(ctx->state_table_u16); - ctx->state_table_u16 = NULL; - - mpm_ctx->memory_cnt++; - mpm_ctx->memory_size -= (ctx->state_count * - sizeof(SC_AC_STATE_TYPE_U16) * 256); - } - if (ctx->state_table_u32 != NULL) { - SCFree(ctx->state_table_u32); - ctx->state_table_u32 = NULL; - - mpm_ctx->memory_cnt++; - mpm_ctx->memory_size -= (ctx->state_count * - sizeof(SC_AC_STATE_TYPE_U32) * 256); - } - - if (ctx->output_table != NULL) { - uint32_t state_count; - for (state_count = 0; state_count < ctx->state_count; state_count++) { - if (ctx->output_table[state_count].pids != NULL) { - SCFree(ctx->output_table[state_count].pids); - } - } - SCFree(ctx->output_table); - } - - if (ctx->pid_pat_list != NULL) { - int i; - for (i = 0; i < (ctx->max_pat_id + 1); i++) { - if (ctx->pid_pat_list[i].cs != NULL) - SCFree(ctx->pid_pat_list[i].cs); - if (ctx->pid_pat_list[i].sids != NULL) - SCFree(ctx->pid_pat_list[i].sids); - } - SCFree(ctx->pid_pat_list); - } - - SCFree(mpm_ctx->ctx); - mpm_ctx->memory_cnt--; - mpm_ctx->memory_size -= sizeof(SCACCtx); - - return; -} - -/** - * \brief The aho corasick search function. - * - * \param mpm_ctx Pointer to the mpm context. - * \param mpm_thread_ctx Pointer to the mpm thread context. - * \param pmq Pointer to the Pattern Matcher Queue to hold - * search matches. - * \param buf Buffer to be searched. - * \param buflen Buffer length. - * - * \retval matches Match count. - */ -uint32_t SCACSearch(MpmCtx *mpm_ctx, MpmThreadCtx *mpm_thread_ctx, - PatternMatcherQueue *pmq, uint8_t *buf, uint16_t buflen) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - int i = 0; - int matches = 0; - - /* \todo tried loop unrolling with register var, with no perf increase. Need - * to dig deeper */ - /* \todo Change it for stateful MPM. Supply the state using mpm_thread_ctx */ - SCACPatternList *pid_pat_list = ctx->pid_pat_list; - - uint8_t bitarray[pmq->pattern_id_bitarray_size]; - memset(bitarray, 0, pmq->pattern_id_bitarray_size); - - if (ctx->state_count < 32767) { - register SC_AC_STATE_TYPE_U16 state = 0; - SC_AC_STATE_TYPE_U16 (*state_table_u16)[256] = ctx->state_table_u16; - for (i = 0; i < buflen; i++) { - state = state_table_u16[state & 0x7FFF][u8_tolower(buf[i])]; - if (state & 0x8000) { - uint32_t no_of_entries = ctx->output_table[state & 0x7FFF].no_of_entries; - uint32_t *pids = ctx->output_table[state & 0x7FFF].pids; - uint32_t k; - for (k = 0; k < no_of_entries; k++) { - if (pids[k] & 0xFFFF0000) { - uint32_t lower_pid = pids[k] & 0x0000FFFF; - if (SCMemcmp(pid_pat_list[lower_pid].cs, - buf + i - pid_pat_list[lower_pid].patlen + 1, - pid_pat_list[lower_pid].patlen) != 0) { - /* inside loop */ - continue; - } - if (bitarray[(lower_pid) / 8] & (1 << ((lower_pid) % 8))) { - ; - } else { - pmq->pattern_id_bitarray[(lower_pid) / 8] |= (1 << ((lower_pid) % 8)); - bitarray[(lower_pid) / 8] |= (1 << ((lower_pid) % 8)); - MpmAddPid(pmq, lower_pid); - MpmAddSids(pmq, pid_pat_list[lower_pid].sids, pid_pat_list[lower_pid].sids_size); - } - matches++; - } else { - if (bitarray[pids[k] / 8] & (1 << (pids[k] % 8))) { - ; - } else { - pmq->pattern_id_bitarray[(pids[k]) / 8] |= (1 << ((pids[k]) % 8)); - bitarray[pids[k] / 8] |= (1 << (pids[k] % 8)); - MpmAddPid(pmq, pids[k]); - MpmAddSids(pmq, pid_pat_list[pids[k]].sids, pid_pat_list[pids[k]].sids_size); - } - matches++; - } - //loop1: - //; - } - } - } /* for (i = 0; i < buflen; i++) */ - - } else { - register SC_AC_STATE_TYPE_U32 state = 0; - SC_AC_STATE_TYPE_U32 (*state_table_u32)[256] = ctx->state_table_u32; - for (i = 0; i < buflen; i++) { - state = state_table_u32[state & 0x00FFFFFF][u8_tolower(buf[i])]; - if (state & 0xFF000000) { - uint32_t no_of_entries = ctx->output_table[state & 0x00FFFFFF].no_of_entries; - uint32_t *pids = ctx->output_table[state & 0x00FFFFFF].pids; - uint32_t k; - for (k = 0; k < no_of_entries; k++) { - if (pids[k] & 0xFFFF0000) { - uint32_t lower_pid = pids[k] & 0x0000FFFF; - if (SCMemcmp(pid_pat_list[lower_pid].cs, - buf + i - pid_pat_list[lower_pid].patlen + 1, - pid_pat_list[lower_pid].patlen) != 0) { - /* inside loop */ - continue; - } - if (bitarray[(lower_pid) / 8] & (1 << ((lower_pid) % 8))) { - ; - } else { - pmq->pattern_id_bitarray[(lower_pid) / 8] |= (1 << ((lower_pid) % 8)); - bitarray[(lower_pid) / 8] |= (1 << ((lower_pid) % 8)); - MpmAddPid(pmq, lower_pid); - MpmAddSids(pmq, pid_pat_list[lower_pid].sids, pid_pat_list[lower_pid].sids_size); - } - matches++; - } else { - if (bitarray[pids[k] / 8] & (1 << (pids[k] % 8))) { - ; - } else { - pmq->pattern_id_bitarray[(pids[k]) / 8] |= (1 << ((pids[k]) % 8)); - bitarray[pids[k] / 8] |= (1 << (pids[k] % 8)); - MpmAddPid(pmq, pids[k]); - MpmAddSids(pmq, pid_pat_list[pids[k]].sids, pid_pat_list[pids[k]].sids_size); - } - matches++; - } - //loop1: - //; - } - } - } /* for (i = 0; i < buflen; i++) */ - } - - return matches; -} - -/** - * \brief Add a case insensitive pattern. Although we have different calls for - * adding case sensitive and insensitive patterns, we make a single call - * for either case. No special treatment for either case. - * - * \param mpm_ctx Pointer to the mpm context. - * \param pat The pattern to add. - * \param patnen The pattern length. - * \param offset Ignored. - * \param depth Ignored. - * \param pid The pattern id. - * \param sid Ignored. - * \param flags Flags associated with this pattern. - * - * \retval 0 On success. - * \retval -1 On failure. - */ -int SCACAddPatternCI(MpmCtx *mpm_ctx, uint8_t *pat, uint16_t patlen, - uint16_t offset, uint16_t depth, uint32_t pid, - SigIntId sid, uint8_t flags) -{ - flags |= MPM_PATTERN_FLAG_NOCASE; - return SCACAddPattern(mpm_ctx, pat, patlen, offset, depth, pid, sid, flags); -} - -/** - * \brief Add a case sensitive pattern. Although we have different calls for - * adding case sensitive and insensitive patterns, we make a single call - * for either case. No special treatment for either case. - * - * \param mpm_ctx Pointer to the mpm context. - * \param pat The pattern to add. - * \param patnen The pattern length. - * \param offset Ignored. - * \param depth Ignored. - * \param pid The pattern id. - * \param sid Ignored. - * \param flags Flags associated with this pattern. - * - * \retval 0 On success. - * \retval -1 On failure. - */ -int SCACAddPatternCS(MpmCtx *mpm_ctx, uint8_t *pat, uint16_t patlen, - uint16_t offset, uint16_t depth, uint32_t pid, - SigIntId sid, uint8_t flags) -{ - return SCACAddPattern(mpm_ctx, pat, patlen, offset, depth, pid, sid, flags); -} - -void SCACPrintSearchStats(MpmThreadCtx *mpm_thread_ctx) -{ - -#ifdef SC_AC_COUNTERS - SCACThreadCtx *ctx = (SCACThreadCtx *)mpm_thread_ctx->ctx; - printf("AC Thread Search stats (ctx %p)\n", ctx); - printf("Total calls: %" PRIu32 "\n", ctx->total_calls); - printf("Total matches: %" PRIu64 "\n", ctx->total_matches); -#endif /* SC_AC_COUNTERS */ - - return; -} - -void SCACPrintInfo(MpmCtx *mpm_ctx) -{ - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - - printf("MPM AC Information:\n"); - printf("Memory allocs: %" PRIu32 "\n", mpm_ctx->memory_cnt); - printf("Memory alloced: %" PRIu32 "\n", mpm_ctx->memory_size); - printf(" Sizeof:\n"); - printf(" MpmCtx %" PRIuMAX "\n", (uintmax_t)sizeof(MpmCtx)); - printf(" SCACCtx: %" PRIuMAX "\n", (uintmax_t)sizeof(SCACCtx)); - printf(" SCACPattern %" PRIuMAX "\n", (uintmax_t)sizeof(SCACPattern)); - printf(" SCACPattern %" PRIuMAX "\n", (uintmax_t)sizeof(SCACPattern)); - printf("Unique Patterns: %" PRIu32 "\n", mpm_ctx->pattern_cnt); - printf("Smallest: %" PRIu32 "\n", mpm_ctx->minlen); - printf("Largest: %" PRIu32 "\n", mpm_ctx->maxlen); - printf("Total states in the state table: %" PRIu32 "\n", ctx->state_count); - printf("\n"); - - return; -} - -/****************************Cuda side of things****************************/ - -#ifdef __SC_CUDA_SUPPORT__ - -/* \todo Technically it's generic to all mpms, but since we use ac only, the - * code internally directly references ac and hence it has found its - * home in this file, instead of util-mpm.c - */ -void DetermineCudaStateTableSize(DetectEngineCtx *de_ctx) -{ - MpmCtx *mpm_ctx = NULL; - - int ac_16_tables = 0; - int ac_32_tables = 0; - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_proto_tcp_packet, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_proto_tcp_packet, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_proto_udp_packet, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_proto_udp_packet, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_proto_other_packet, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_uri, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_uri, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hcbd, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hcbd, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hhd, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hhd, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hrhd, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hrhd, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hmd, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hmd, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hcd, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hcd, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hrud, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hrud, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_stream, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_stream, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hsmd, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hsmd, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hscd, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_hscd, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_huad, 0); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - mpm_ctx = MpmFactoryGetMpmCtxForProfile(de_ctx, de_ctx->sgh_mpm_context_huad, 1); - if (mpm_ctx->mpm_type == MPM_AC_CUDA) { - SCACCtx *ctx = (SCACCtx *)mpm_ctx->ctx; - if (ctx->state_count < 32767) - ac_16_tables++; - else - ac_32_tables++; - } - - if (ac_16_tables > 0 && ac_32_tables > 0) - SCACConstructBoth16and32StateTables(); - - - SCLogDebug("Total mpm ac 16 bit state tables - %d\n", ac_16_tables); - SCLogDebug("Total mpm ac 32 bit state tables - %d\n", ac_32_tables); - -} - -void CudaReleasePacket(Packet *p) -{ - if (p->cuda_pkt_vars.cuda_mpm_enabled == 1) { - p->cuda_pkt_vars.cuda_mpm_enabled = 0; - SCMutexLock(&p->cuda_pkt_vars.cuda_mutex); - p->cuda_pkt_vars.cuda_done = 0; - SCMutexUnlock(&p->cuda_pkt_vars.cuda_mutex); - } - - return; -} - -/* \todos - * - Use texture memory - Can we fit all the arrays into a 3d texture. - * Texture memory definitely offers slightly better performance even - * on gpus that offer cache for global memory. - * - Packetpool - modify to support > 65k max pending packets. We are - * hitting packetpool limit currently even with 65k packets. - * - Use streams. We have tried overlapping parsing results from the - * previous call with invoking the next call. - * - Offer higher priority to decode threads. - * - Modify pcap file mode to support reading from multiple pcap files - * and hence we will have multiple receive threads. - * - Split state table into many small pieces and have multiple threads - * run each small state table on the same payload. - * - Used a config peference of l1 over shared memory with no noticeable - * perf increase. Explore it in detail over cards/architectures. - * - Constant memory performance sucked. Explore it in detail. - * - Currently all our state tables are small. Implement 16 bit state - * tables on priority. - * - Introduce profiling. - * - Retrieve sgh before buffer packet. - * - Buffer smsgs too. - */ - -void SCACConstructBoth16and32StateTables(void) -{ - construct_both_16_and_32_state_tables = 1; - - return; -} - -/* \todo Reduce offset buffer size. Probably a 100,000 entry would be sufficient. */ -static void *SCACCudaDispatcher(void *arg) -{ -#define BLOCK_SIZE 32 - - int r = 0; - ThreadVars *tv = (ThreadVars *)arg; - MpmCudaConf *conf = CudaHandlerGetCudaProfile("mpm"); - uint32_t sleep_interval_ms = conf->batching_timeout; - - SCLogInfo("AC Cuda Mpm Dispatcher using a timeout of " - "\"%"PRIu32"\" micro-seconds", sleep_interval_ms); - - CudaBufferData *cb_data = - CudaHandlerModuleGetData(MPM_AC_CUDA_MODULE_NAME, - MPM_AC_CUDA_MODULE_CUDA_BUFFER_NAME); - - CUcontext cuda_context = - CudaHandlerModuleGetContext(MPM_AC_CUDA_MODULE_NAME, conf->device_id); - if (cuda_context == 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "context is NULL."); - exit(EXIT_FAILURE); - } - r = SCCudaCtxPushCurrent(cuda_context); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "context push failed."); - exit(EXIT_FAILURE); - } - CUmodule cuda_module = 0; - if (CudaHandlerGetCudaModule(&cuda_module, "util-mpm-ac-cuda-kernel") < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error retrieving cuda module."); - exit(EXIT_FAILURE); - } - CUfunction kernel = 0; -#if __WORDSIZE==64 - if (SCCudaModuleGetFunction(&kernel, cuda_module, "SCACCudaSearch64") == -1) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error retrieving kernel"); - exit(EXIT_FAILURE); - } -#else - if (SCCudaModuleGetFunction(&kernel, cuda_module, "SCACCudaSearch32") == -1) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error retrieving kernel"); - exit(EXIT_FAILURE); - } -#endif - - uint8_t g_u8_lowercasetable[256]; - for (int c = 0; c < 256; c++) - g_u8_lowercasetable[c] = tolower((uint8_t)c); - CUdeviceptr cuda_g_u8_lowercasetable_d = 0; - CUdeviceptr cuda_packets_buffer_d = 0; - CUdeviceptr cuda_offset_buffer_d = 0; - CUdeviceptr cuda_results_buffer_d = 0; - uint32_t *cuda_results_buffer_h = NULL; - r = SCCudaMemAlloc(&cuda_g_u8_lowercasetable_d, sizeof(g_u8_lowercasetable)); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemAlloc failure."); - exit(EXIT_FAILURE); - } - r = SCCudaMemcpyHtoD(cuda_g_u8_lowercasetable_d, g_u8_lowercasetable, sizeof(g_u8_lowercasetable)); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemcpyHtoD failure."); - exit(EXIT_FAILURE); - } - r = SCCudaMemAlloc(&cuda_packets_buffer_d, conf->gpu_transfer_size); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemAlloc failure."); - exit(EXIT_FAILURE); - } - r = SCCudaMemAlloc(&cuda_offset_buffer_d, conf->gpu_transfer_size * 4); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemAlloc failure."); - exit(EXIT_FAILURE); - } - r = SCCudaMemAlloc(&cuda_results_buffer_d, conf->gpu_transfer_size * 8); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemAlloc failure."); - exit(EXIT_FAILURE); - } - r = SCCudaMemAllocHost((void **)&cuda_results_buffer_h, conf->gpu_transfer_size * 8); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemAlloc failure."); - exit(EXIT_FAILURE); - } - - CudaBufferCulledInfo cb_culled_info; - memset(&cb_culled_info, 0, sizeof(cb_culled_info)); - - TmThreadsSetFlag(tv, THV_INIT_DONE); - while (1) { - if (TmThreadsCheckFlag(tv, THV_KILL)) - break; - - usleep(sleep_interval_ms); - - /**************** 1 SEND ****************/ - CudaBufferCullCompletedSlices(cb_data, &cb_culled_info, conf->gpu_transfer_size); - if (cb_culled_info.no_of_items == 0) - continue; -#if 0 - SCLogInfo("1 - cb_culled_info.no_of_items-%"PRIu32" " - "cb_culled_info.buffer_len - %"PRIu32" " - "cb_culled_info.average size - %f " - "cb_culled_info.d_buffer_start_offset - %"PRIu32" " - "cb_culled_info.op_buffer_start_offset - %"PRIu32" " - "cb_data.no_of_items - %"PRIu32" " - "cb_data.d_buffer_read - %"PRIu32" " - "cb_data.d_buffer_write - %"PRIu32" " - "cb_data.op_buffer_read - %"PRIu32" " - "cb_data.op_buffer_write - %"PRIu32"\n", - cb_culled_info.no_of_items, - cb_culled_info.d_buffer_len, - cb_culled_info.d_buffer_len / (float)cb_culled_info.no_of_items, - cb_culled_info.d_buffer_start_offset, - cb_culled_info.op_buffer_start_offset, - cb_data->no_of_items, - cb_data->d_buffer_read, - cb_data->d_buffer_write, - cb_data->op_buffer_read, - cb_data->op_buffer_write); -#endif - r = SCCudaMemcpyHtoDAsync(cuda_packets_buffer_d, (cb_data->d_buffer + cb_culled_info.d_buffer_start_offset), cb_culled_info.d_buffer_len, 0); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemcpyHtoD failure."); - exit(EXIT_FAILURE); - } - r = SCCudaMemcpyHtoDAsync(cuda_offset_buffer_d, (cb_data->o_buffer + cb_culled_info.op_buffer_start_offset), sizeof(uint32_t) * cb_culled_info.no_of_items, 0); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemcpyHtoD failure."); - exit(EXIT_FAILURE); - } - void *args[] = { &cuda_packets_buffer_d, - &cb_culled_info.d_buffer_start_offset, - &cuda_offset_buffer_d, - &cuda_results_buffer_d, - &cb_culled_info.no_of_items, - &cuda_g_u8_lowercasetable_d }; - r = SCCudaLaunchKernel(kernel, - (cb_culled_info.no_of_items / BLOCK_SIZE) + 1, 1, 1, - BLOCK_SIZE, 1, 1, - 0, 0, - args, NULL); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaLaunchKernel failure."); - exit(EXIT_FAILURE); - } - r = SCCudaMemcpyDtoHAsync(cuda_results_buffer_h, cuda_results_buffer_d, sizeof(uint32_t) * (cb_culled_info.d_buffer_len * 2), 0); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaMemcpyDtoH failure."); - exit(EXIT_FAILURE); - } - - - - /**************** 1 SYNCHRO ****************/ - r = SCCudaCtxSynchronize(); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "SCCudaCtxSynchronize failure."); - exit(EXIT_FAILURE); - } - - /************* 1 Parse Results ************/ - uint32_t i_op_start_offset = cb_culled_info.op_buffer_start_offset; - uint32_t no_of_items = cb_culled_info.no_of_items; - uint32_t *o_buffer = cb_data->o_buffer; - uint32_t d_buffer_start_offset = cb_culled_info.d_buffer_start_offset; - for (uint32_t i = 0; i < no_of_items; i++, i_op_start_offset++) { - Packet *p = (Packet *)cb_data->p_buffer[i_op_start_offset]; - - SCMutexLock(&p->cuda_pkt_vars.cuda_mutex); - if (p->cuda_pkt_vars.cuda_mpm_enabled == 0) { - p->cuda_pkt_vars.cuda_done = 0; - SCMutexUnlock(&p->cuda_pkt_vars.cuda_mutex); - continue; - } - - p->cuda_pkt_vars.cuda_gpu_matches = - cuda_results_buffer_h[((o_buffer[i_op_start_offset] - d_buffer_start_offset) * 2)]; - if (p->cuda_pkt_vars.cuda_gpu_matches != 0) { - memcpy(p->cuda_pkt_vars.cuda_results, - cuda_results_buffer_h + - ((o_buffer[i_op_start_offset] - d_buffer_start_offset) * 2), - (cuda_results_buffer_h[((o_buffer[i_op_start_offset] - - d_buffer_start_offset) * 2)] * sizeof(uint32_t)) + 4); - } - - p->cuda_pkt_vars.cuda_done = 1; - SCMutexUnlock(&p->cuda_pkt_vars.cuda_mutex); - SCCondSignal(&p->cuda_pkt_vars.cuda_cond); - } - if (no_of_items != 0) - CudaBufferReportCulledConsumption(cb_data, &cb_culled_info); - } /* while (1) */ - - r = SCCudaModuleUnload(cuda_module); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error unloading cuda module."); - exit(EXIT_FAILURE); - } - r = SCCudaMemFree(cuda_packets_buffer_d); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error freeing cuda device memory."); - exit(EXIT_FAILURE); - } - r = SCCudaMemFree(cuda_offset_buffer_d); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error freeing cuda device memory."); - exit(EXIT_FAILURE); - } - r = SCCudaMemFree(cuda_results_buffer_d); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error freeing cuda device memory."); - exit(EXIT_FAILURE); - } - r = SCCudaMemFreeHost(cuda_results_buffer_h); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error freeing cuda host memory."); - exit(EXIT_FAILURE); - } - - TmThreadsSetFlag(tv, THV_RUNNING_DONE); - TmThreadWaitForFlag(tv, THV_DEINIT); - TmThreadsSetFlag(tv, THV_CLOSED); - - return NULL; - -#undef BLOCK_SIZE -} - -uint32_t SCACCudaPacketResultsProcessing(Packet *p, MpmCtx *mpm_ctx, - PatternMatcherQueue *pmq) -{ - uint32_t u = 0; - - while (!p->cuda_pkt_vars.cuda_done) { - SCMutexLock(&p->cuda_pkt_vars.cuda_mutex); - if (p->cuda_pkt_vars.cuda_done) { - SCMutexUnlock(&p->cuda_pkt_vars.cuda_mutex); - break; - } else { - SCCondWait(&p->cuda_pkt_vars.cuda_cond, &p->cuda_pkt_vars.cuda_mutex); - SCMutexUnlock(&p->cuda_pkt_vars.cuda_mutex); - } - } /* while */ - p->cuda_pkt_vars.cuda_done = 0; - p->cuda_pkt_vars.cuda_mpm_enabled = 0; - - uint32_t cuda_matches = p->cuda_pkt_vars.cuda_gpu_matches; - if (cuda_matches == 0) - return 0; - - uint32_t matches = 0; - uint32_t *results = p->cuda_pkt_vars.cuda_results + 1; - uint8_t *buf = p->payload; - SCACCtx *ctx = mpm_ctx->ctx; - SCACOutputTable *output_table = ctx->output_table; - SCACPatternList *pid_pat_list = ctx->pid_pat_list; - - for (u = 0; u < cuda_matches; u += 2) { - uint32_t offset = results[u]; - uint32_t state = results[u + 1]; - /* we should technically be doing state & 0x00FFFFFF, but we don't - * since the cuda kernel does that for us */ - uint32_t no_of_entries = output_table[state].no_of_entries; - /* we should technically be doing state & 0x00FFFFFF, but we don't - * since the cuda kernel does that for us */ - uint32_t *pids = output_table[state].pids; - uint32_t k; - /* note that this is not a verbatim copy from SCACSearch(). We - * don't copy the pattern id into the pattern_id_array. That's - * the only change */ - for (k = 0; k < no_of_entries; k++) { - if (pids[k] & 0xFFFF0000) { - uint32_t lower_pid = pids[k] & 0x0000FFFF; - if (SCMemcmp(pid_pat_list[lower_pid].cs, - buf + offset - pid_pat_list[lower_pid].patlen + 1, - pid_pat_list[lower_pid].patlen) != 0) { - /* inside loop */ - continue; - } - if (pmq->pattern_id_bitarray[(lower_pid) / 8] & (1 << ((lower_pid) % 8))) { - ; - } else { - pmq->pattern_id_bitarray[(lower_pid) / 8] |= (1 << ((lower_pid) % 8)); - } - matches++; - } else { - if (pmq->pattern_id_bitarray[pids[k] / 8] & (1 << (pids[k] % 8))) { - ; - } else { - pmq->pattern_id_bitarray[pids[k] / 8] |= (1 << (pids[k] % 8)); - } - matches++; - } - } - } - - return matches; -} - -void SCACCudaStartDispatcher(void) -{ - /* create the threads */ - ThreadVars *tv = TmThreadCreate("Cuda_Mpm_AC_Dispatcher", - NULL, NULL, - NULL, NULL, - "custom", SCACCudaDispatcher, 0); - if (tv == NULL) { - SCLogError(SC_ERR_THREAD_CREATE, "Error creating a thread for " - "ac cuda dispatcher. Killing engine."); - exit(EXIT_FAILURE); - } - if (TmThreadSpawn(tv) != 0) { - SCLogError(SC_ERR_THREAD_SPAWN, "Failed to spawn thread for " - "ac cuda dispatcher. Killing engine."); - exit(EXIT_FAILURE); - } - - return; -} - -int MpmCudaBufferSetup(void) -{ - int r = 0; - MpmCudaConf *conf = CudaHandlerGetCudaProfile("mpm"); - if (conf == NULL) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error obtaining cuda mpm profile."); - return -1; - } - - CUcontext cuda_context = CudaHandlerModuleGetContext(MPM_AC_CUDA_MODULE_NAME, conf->device_id); - if (cuda_context == 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error retrieving cuda context."); - return -1; - } - r = SCCudaCtxPushCurrent(cuda_context); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error pushing cuda context."); - return -1; - } - - uint8_t *d_buffer = NULL; - uint32_t *o_buffer = NULL; - void **p_buffer = NULL; - - r = SCCudaMemAllocHost((void *)&d_buffer, conf->cb_buffer_size); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Cuda alloc host failure."); - return -1; - } - SCLogInfo("Allocated a cuda d_buffer - %"PRIu32" bytes", conf->cb_buffer_size); - r = SCCudaMemAllocHost((void *)&o_buffer, sizeof(uint32_t) * UTIL_MPM_CUDA_CUDA_BUFFER_OPBUFFER_ITEMS_DEFAULT); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Cuda alloc host failue."); - return -1; - } - r = SCCudaMemAllocHost((void *)&p_buffer, sizeof(void *) * UTIL_MPM_CUDA_CUDA_BUFFER_OPBUFFER_ITEMS_DEFAULT); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Cuda alloc host failure."); - return -1; - } - - r = SCCudaCtxPopCurrent(NULL); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "cuda context pop failure."); - return -1; - } - - CudaBufferData *cb = CudaBufferRegisterNew(d_buffer, conf->cb_buffer_size, o_buffer, p_buffer, UTIL_MPM_CUDA_CUDA_BUFFER_OPBUFFER_ITEMS_DEFAULT); - if (cb == NULL) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error registering new cb instance."); - return -1; - } - CudaHandlerModuleStoreData(MPM_AC_CUDA_MODULE_NAME, MPM_AC_CUDA_MODULE_CUDA_BUFFER_NAME, cb); - - return 0; -} - -int MpmCudaBufferDeSetup(void) -{ - int r = 0; - MpmCudaConf *conf = CudaHandlerGetCudaProfile("mpm"); - if (conf == NULL) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error obtaining cuda mpm profile."); - return -1; - } - - CudaBufferData *cb_data = CudaHandlerModuleGetData(MPM_AC_CUDA_MODULE_NAME, MPM_AC_CUDA_MODULE_CUDA_BUFFER_NAME); - BUG_ON(cb_data == NULL); - - CUcontext cuda_context = CudaHandlerModuleGetContext(MPM_AC_CUDA_MODULE_NAME, conf->device_id); - if (cuda_context == 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error retrieving cuda context."); - return -1; - } - r = SCCudaCtxPushCurrent(cuda_context); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error pushing cuda context."); - return -1; - } - - r = SCCudaMemFreeHost(cb_data->d_buffer); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error freeing cuda host memory."); - return -1; - } - r = SCCudaMemFreeHost(cb_data->o_buffer); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error freeing cuda host memory."); - return -1; - } - r = SCCudaMemFreeHost(cb_data->p_buffer); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "Error freeing cuda host memory."); - return -1; - } - - r = SCCudaCtxPopCurrent(NULL); - if (r < 0) { - SCLogError(SC_ERR_AC_CUDA_ERROR, "cuda context pop failure."); - return -1; - } - - CudaBufferDeRegister(cb_data); - - return 0; -} - -#endif /* __SC_CUDA_SUPPORT */ - -/************************** Mpm Registration ***************************/ - -/** - * \brief Register the aho-corasick mpm. - */ -void MpmACRegister(void) -{ - mpm_table[MPM_AC].name = "ac"; - /* don't need this. isn't that awesome? no more chopping and blah blah */ - mpm_table[MPM_AC].max_pattern_length = 0; - - mpm_table[MPM_AC].InitCtx = SCACInitCtx; - mpm_table[MPM_AC].InitThreadCtx = SCACInitThreadCtx; - mpm_table[MPM_AC].DestroyCtx = SCACDestroyCtx; - mpm_table[MPM_AC].DestroyThreadCtx = SCACDestroyThreadCtx; - mpm_table[MPM_AC].AddPattern = SCACAddPatternCS; - mpm_table[MPM_AC].AddPatternNocase = SCACAddPatternCI; - mpm_table[MPM_AC].Prepare = SCACPreparePatterns; - mpm_table[MPM_AC].Search = SCACSearch; - mpm_table[MPM_AC].Cleanup = NULL; - mpm_table[MPM_AC].PrintCtx = SCACPrintInfo; - mpm_table[MPM_AC].PrintThreadCtx = SCACPrintSearchStats; - mpm_table[MPM_AC].RegisterUnittests = SCACRegisterTests; - - return; -} - -#ifdef __SC_CUDA_SUPPORT__ - -/** - * \brief Register the aho-corasick cuda mpm. - */ -void MpmACCudaRegister(void) -{ - mpm_table[MPM_AC_CUDA].name = "ac-cuda"; - /* don't need this. isn't that awesome? no more chopping and blah blah */ - mpm_table[MPM_AC_CUDA].max_pattern_length = 0; - - mpm_table[MPM_AC_CUDA].InitCtx = SCACInitCtx; - mpm_table[MPM_AC_CUDA].InitThreadCtx = SCACInitThreadCtx; - mpm_table[MPM_AC_CUDA].DestroyCtx = SCACDestroyCtx; - mpm_table[MPM_AC_CUDA].DestroyThreadCtx = SCACDestroyThreadCtx; - mpm_table[MPM_AC_CUDA].AddPattern = SCACAddPatternCS; - mpm_table[MPM_AC_CUDA].AddPatternNocase = SCACAddPatternCI; - mpm_table[MPM_AC_CUDA].Prepare = SCACPreparePatterns; - mpm_table[MPM_AC_CUDA].Search = SCACSearch; - mpm_table[MPM_AC_CUDA].Cleanup = NULL; - mpm_table[MPM_AC_CUDA].PrintCtx = SCACPrintInfo; - mpm_table[MPM_AC_CUDA].PrintThreadCtx = SCACPrintSearchStats; - mpm_table[MPM_AC_CUDA].RegisterUnittests = SCACRegisterTests; - - return; -} - -#endif /* __SC_CUDA_SUPPORT__ */ - -/*************************************Unittests********************************/ - -#ifdef UNITTESTS - -static int SCACTest01(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcd", 4, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghjiklmnopqrstuvwxyz"; - - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest02(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abce", 4, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghjiklmnopqrstuvwxyz"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 0) - result = 1; - else - printf("0 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest03(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcd", 4, 0, 0, 0, 0, 0); - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"bcde", 4, 0, 0, 1, 0, 0); - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"fghj", 4, 0, 0, 2, 0, 0); - PmqSetup(&pmq, 3); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghjiklmnopqrstuvwxyz"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 3) - result = 1; - else - printf("3 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest04(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcd", 4, 0, 0, 0, 0, 0); - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"bcdegh", 6, 0, 0, 1, 0, 0); - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"fghjxyz", 7, 0, 0, 2, 0, 0); - PmqSetup(&pmq, 3); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghjiklmnopqrstuvwxyz"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest05(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - MpmAddPatternCI(&mpm_ctx, (uint8_t *)"ABCD", 4, 0, 0, 0, 0, 0); - MpmAddPatternCI(&mpm_ctx, (uint8_t *)"bCdEfG", 6, 0, 0, 1, 0, 0); - MpmAddPatternCI(&mpm_ctx, (uint8_t *)"fghJikl", 7, 0, 0, 2, 0, 0); - PmqSetup(&pmq, 3); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghjiklmnopqrstuvwxyz"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 3) - result = 1; - else - printf("3 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest06(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcd", 4, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcd"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest07(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* should match 30 times */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"A", 1, 0, 0, 0, 0, 0); - /* should match 29 times */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"AA", 2, 0, 0, 1, 0, 0); - /* should match 28 times */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"AAA", 3, 0, 0, 2, 0, 0); - /* 26 */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"AAAAA", 5, 0, 0, 3, 0, 0); - /* 21 */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"AAAAAAAAAA", 10, 0, 0, 4, 0, 0); - /* 1 */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAA", - 30, 0, 0, 5, 0, 0); - PmqSetup(&pmq, 6); - /* total matches: 135 */ - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 135) - result = 1; - else - printf("135 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest08(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcd", 4, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)"a", 1); - - if (cnt == 0) - result = 1; - else - printf("0 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest09(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"ab", 2, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)"ab", 2); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest10(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcdefgh", 8, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "01234567890123456789012345678901234567890123456789" - "01234567890123456789012345678901234567890123456789" - "abcdefgh" - "01234567890123456789012345678901234567890123456789" - "01234567890123456789012345678901234567890123456789"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest11(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - if (MpmAddPatternCS(&mpm_ctx, (uint8_t *)"he", 2, 0, 0, 1, 0, 0) == -1) - goto end; - if (MpmAddPatternCS(&mpm_ctx, (uint8_t *)"she", 3, 0, 0, 2, 0, 0) == -1) - goto end; - if (MpmAddPatternCS(&mpm_ctx, (uint8_t *)"his", 3, 0, 0, 3, 0, 0) == -1) - goto end; - if (MpmAddPatternCS(&mpm_ctx, (uint8_t *)"hers", 4, 0, 0, 4, 0, 0) == -1) - goto end; - PmqSetup(&pmq, 5); - - if (SCACPreparePatterns(&mpm_ctx) == -1) - goto end; - - result = 1; - - char *buf = "he"; - result &= (SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, (uint8_t *)buf, - strlen(buf)) == 1); - buf = "she"; - result &= (SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, (uint8_t *)buf, - strlen(buf)) == 2); - buf = "his"; - result &= (SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, (uint8_t *)buf, - strlen(buf)) == 1); - buf = "hers"; - result &= (SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, (uint8_t *)buf, - strlen(buf)) == 2); - - end: - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest12(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"wxyz", 4, 0, 0, 0, 0, 0); - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"vwxyz", 5, 0, 0, 1, 0, 0); - PmqSetup(&pmq, 2); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghijklmnopqrstuvwxyz"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 2) - result = 1; - else - printf("2 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest13(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - char *pat = "abcdefghijklmnopqrstuvwxyzABCD"; - MpmAddPatternCS(&mpm_ctx, (uint8_t *)pat, strlen(pat), 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghijklmnopqrstuvwxyzABCD"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest14(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - char *pat = "abcdefghijklmnopqrstuvwxyzABCDE"; - MpmAddPatternCS(&mpm_ctx, (uint8_t *)pat, strlen(pat), 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghijklmnopqrstuvwxyzABCDE"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest15(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - char *pat = "abcdefghijklmnopqrstuvwxyzABCDEF"; - MpmAddPatternCS(&mpm_ctx, (uint8_t *)pat, strlen(pat), 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghijklmnopqrstuvwxyzABCDEF"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest16(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - char *pat = "abcdefghijklmnopqrstuvwxyzABC"; - MpmAddPatternCS(&mpm_ctx, (uint8_t *)pat, strlen(pat), 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghijklmnopqrstuvwxyzABC"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest17(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - char *pat = "abcdefghijklmnopqrstuvwxyzAB"; - MpmAddPatternCS(&mpm_ctx, (uint8_t *)pat, strlen(pat), 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghijklmnopqrstuvwxyzAB"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest18(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - char *pat = "abcde""fghij""klmno""pqrst""uvwxy""z"; - MpmAddPatternCS(&mpm_ctx, (uint8_t *)pat, strlen(pat), 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcde""fghij""klmno""pqrst""uvwxy""z"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest19(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 */ - char *pat = "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"; - MpmAddPatternCS(&mpm_ctx, (uint8_t *)pat, strlen(pat), 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest20(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 */ - char *pat = "AAAAA""AAAAA""AAAAA""AAAAA""AAAAA""AAAAA""AA"; - MpmAddPatternCS(&mpm_ctx, (uint8_t *)pat, strlen(pat), 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "AAAAA""AAAAA""AAAAA""AAAAA""AAAAA""AAAAA""AA"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest21(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"AA", 2, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)"AA", 2); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest22(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcd", 4, 0, 0, 0, 0, 0); - /* 1 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcde", 5, 0, 0, 1, 0, 0); - PmqSetup(&pmq, 2); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "abcdefghijklmnopqrstuvwxyz"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 2) - result = 1; - else - printf("2 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest23(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"AA", 2, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)"aa", 2); - - if (cnt == 0) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest24(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 1 */ - MpmAddPatternCI(&mpm_ctx, (uint8_t *)"AA", 2, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)"aa", 2); - - if (cnt == 1) - result = 1; - else - printf("1 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest25(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - MpmAddPatternCI(&mpm_ctx, (uint8_t *)"ABCD", 4, 0, 0, 0, 0, 0); - MpmAddPatternCI(&mpm_ctx, (uint8_t *)"bCdEfG", 6, 0, 0, 1, 0, 0); - MpmAddPatternCI(&mpm_ctx, (uint8_t *)"fghiJkl", 7, 0, 0, 2, 0, 0); - PmqSetup(&pmq, 3); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 3) - result = 1; - else - printf("3 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest26(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0x00, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - MpmAddPatternCI(&mpm_ctx, (uint8_t *)"Works", 5, 0, 0, 0, 0, 0); - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"Works", 5, 0, 0, 1, 0, 0); - PmqSetup(&pmq, 2); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "works"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 1) - result = 1; - else - printf("3 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest27(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 0 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"ONE", 3, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "tone"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 0) - result = 1; - else - printf("0 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest28(void) -{ - int result = 0; - MpmCtx mpm_ctx; - MpmThreadCtx mpm_thread_ctx; - PatternMatcherQueue pmq; - - memset(&mpm_ctx, 0, sizeof(MpmCtx)); - memset(&mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); - MpmInitCtx(&mpm_ctx, MPM_AC); - SCACInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); - - /* 0 match */ - MpmAddPatternCS(&mpm_ctx, (uint8_t *)"one", 3, 0, 0, 0, 0, 0); - PmqSetup(&pmq, 1); - - SCACPreparePatterns(&mpm_ctx); - - char *buf = "tONE"; - uint32_t cnt = SCACSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, - (uint8_t *)buf, strlen(buf)); - - if (cnt == 0) - result = 1; - else - printf("0 != %" PRIu32 " ",cnt); - - SCACDestroyCtx(&mpm_ctx); - SCACDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); - PmqFree(&pmq); - return result; -} - -static int SCACTest29(void) -{ - uint8_t *buf = (uint8_t *)"onetwothreefourfivesixseveneightnine"; - uint16_t buflen = strlen((char *)buf); - Packet *p = NULL; - ThreadVars th_v; - DetectEngineThreadCtx *det_ctx = NULL; - int result = 0; - - memset(&th_v, 0, sizeof(th_v)); - p = UTHBuildPacket(buf, buflen, IPPROTO_TCP); - - DetectEngineCtx *de_ctx = DetectEngineCtxInit(); - if (de_ctx == NULL) - goto end; - - de_ctx->flags |= DE_QUIET; - - de_ctx->sig_list = SigInit(de_ctx, "alert tcp any any -> any any " - "(content:\"onetwothreefourfivesixseveneightnine\"; sid:1;)"); - if (de_ctx->sig_list == NULL) - goto end; - de_ctx->sig_list->next = SigInit(de_ctx, "alert tcp any any -> any any " - "(content:\"onetwothreefourfivesixseveneightnine\"; fast_pattern:3,3; sid:2;)"); - if (de_ctx->sig_list->next == NULL) - goto end; - - SigGroupBuild(de_ctx); - DetectEngineThreadCtxInit(&th_v, (void *)de_ctx, (void *)&det_ctx); - - SigMatchSignatures(&th_v, de_ctx, det_ctx, p); - if (PacketAlertCheck(p, 1) != 1) { - printf("if (PacketAlertCheck(p, 1) != 1) failure\n"); - goto end; - } - if (PacketAlertCheck(p, 2) != 1) { - printf("if (PacketAlertCheck(p, 1) != 2) failure\n"); - goto end; - } - - result = 1; -end: - if (de_ctx != NULL) { - SigGroupCleanup(de_ctx); - SigCleanSignatures(de_ctx); - - DetectEngineThreadCtxDeinit(&th_v, (void *)det_ctx); - DetectEngineCtxFree(de_ctx); - } - - UTHFreePackets(&p, 1); - return result; -} - -#endif /* UNITTESTS */ - -void SCACRegisterTests(void) -{ - -#ifdef UNITTESTS - UtRegisterTest("SCACTest01", SCACTest01, 1); - UtRegisterTest("SCACTest02", SCACTest02, 1); - UtRegisterTest("SCACTest03", SCACTest03, 1); - UtRegisterTest("SCACTest04", SCACTest04, 1); - UtRegisterTest("SCACTest05", SCACTest05, 1); - UtRegisterTest("SCACTest06", SCACTest06, 1); - UtRegisterTest("SCACTest07", SCACTest07, 1); - UtRegisterTest("SCACTest08", SCACTest08, 1); - UtRegisterTest("SCACTest09", SCACTest09, 1); - UtRegisterTest("SCACTest10", SCACTest10, 1); - UtRegisterTest("SCACTest11", SCACTest11, 1); - UtRegisterTest("SCACTest12", SCACTest12, 1); - UtRegisterTest("SCACTest13", SCACTest13, 1); - UtRegisterTest("SCACTest14", SCACTest14, 1); - UtRegisterTest("SCACTest15", SCACTest15, 1); - UtRegisterTest("SCACTest16", SCACTest16, 1); - UtRegisterTest("SCACTest17", SCACTest17, 1); - UtRegisterTest("SCACTest18", SCACTest18, 1); - UtRegisterTest("SCACTest19", SCACTest19, 1); - UtRegisterTest("SCACTest20", SCACTest20, 1); - UtRegisterTest("SCACTest21", SCACTest21, 1); - UtRegisterTest("SCACTest22", SCACTest22, 1); - UtRegisterTest("SCACTest23", SCACTest23, 1); - UtRegisterTest("SCACTest24", SCACTest24, 1); - UtRegisterTest("SCACTest25", SCACTest25, 1); - UtRegisterTest("SCACTest26", SCACTest26, 1); - UtRegisterTest("SCACTest27", SCACTest27, 1); - UtRegisterTest("SCACTest28", SCACTest28, 1); - UtRegisterTest("SCACTest29", SCACTest29, 1); -#endif - - return; -} |