diff options
Diffstat (limited to 'framework/src/suricata/src/util-mpm-ac-tile.c')
-rw-r--r-- | framework/src/suricata/src/util-mpm-ac-tile.c | 2855 |
1 files changed, 2855 insertions, 0 deletions
diff --git a/framework/src/suricata/src/util-mpm-ac-tile.c b/framework/src/suricata/src/util-mpm-ac-tile.c new file mode 100644 index 00000000..f3a52d6e --- /dev/null +++ b/framework/src/suricata/src/util-mpm-ac-tile.c @@ -0,0 +1,2855 @@ +/* Copyright (C) 2013-2014 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 Ken Steele <suricata@tilera.com> + * \author Anoop Saldanha <anoopsaldanha@gmail.com> + * + * Aho-corasick MPM optimized for the Tilera Tile-Gx architecture. + * + * Efficient String Matching: An Aid to Bibliographic Search + * Alfred V. Aho and Margaret J. Corasick + * + * - Started with util-mpm-ac.c: + * - 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. + * + * - Added these optimizations: + * - Compress the input alphabet from 256 characters down + * to the actual characters used in the patterns, plus + * one character for all the unused characters. + * - Reduce the size of the delta table so that each state + * is the smallest power of two that is larger than the + * size of the compressed alphabet. + * - Specialized the search function based on state count + * (small for 8-bit large for 16-bit) and the size of + * the alphabet, so that it is constant inside the + * function for better optimization. + * + * \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). + + * - 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. + * - Reorder the compressed alphabet to put the most common characters + * first. + */ + +#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-memcpy.h" +#include "util-mpm-ac-tile.h" + +#ifndef __tile__ +void MpmACTileRegister(void) +{ +} +#endif + +/* There are Tilera Tile-Gx specific optimizations in this code. */ +#ifdef __tile__ + +void SCACTileInitCtx(MpmCtx *); +void SCACTileInitThreadCtx(MpmCtx *, MpmThreadCtx *, uint32_t); +void SCACTileDestroyCtx(MpmCtx *); +void SCACTileDestroyThreadCtx(MpmCtx *, MpmThreadCtx *); +int SCACTileAddPatternCI(MpmCtx *, uint8_t *, uint16_t, uint16_t, uint16_t, + uint32_t, SigIntId, uint8_t); +int SCACTileAddPatternCS(MpmCtx *, uint8_t *, uint16_t, uint16_t, uint16_t, + uint32_t, SigIntId, uint8_t); +int SCACTilePreparePatterns(MpmCtx *mpm_ctx); +uint32_t SCACTileSearch(MpmCtx *mpm_ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, uint8_t *buf, + uint16_t buflen); +void SCACTilePrintInfo(MpmCtx *mpm_ctx); +void SCACTilePrintSearchStats(MpmThreadCtx *mpm_thread_ctx); +void SCACTileRegisterTests(void); + +uint32_t SCACTileSearchLarge(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchSmall256(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchSmall128(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchSmall64(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchSmall32(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchSmall16(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchSmall8(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); + +uint32_t SCACTileSearchTiny256(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchTiny128(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchTiny64(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchTiny32(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchTiny16(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); +uint32_t SCACTileSearchTiny8(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen); + + +static void SCACTileDestroyInitCtx(MpmCtx *mpm_ctx); + + +/* a placeholder to denote a failure transition in the goto table */ +#define SC_AC_TILE_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 + +/** + * \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 SCACTileGetConfig() +{ +} + +/** + * \internal + * \brief Compares 2 patterns. We use it for the hashing process during the + * the initial pattern insertion time, to cull duplicate sigs. + * + * \param p Pointer to the first pattern(SCACTilePattern). + * \param pat Pointer to the second pattern(raw pattern array). + * \param patlen Pattern length. + * \param flags Flags. We don't need this. + * + * \retval hash A 32 bit unsigned hash. + */ +static inline int SCACTileCmpPattern(SCACTilePattern *p, uint8_t *pat, + uint16_t patlen, char flags) +{ + if (p->len != patlen) + return 0; + + if (p->flags != flags) + return 0; + + if (flags & MPM_PATTERN_FLAG_NOCASE) { + // Case insensitive + if (SCMemcmpLowercase(p->cs, pat, patlen) != 0) + return 0; + + } else { + // Case sensitive + if (SCMemcmp(p->cs, pat, patlen) != 0) + return 0; + } + + return 1; +} + +/** + * \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 SCACTileInitHashRaw(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 SCACTilePattern *SCACTileInitHashLookup(SCACTileCtx *ctx, + uint8_t *pat, + uint16_t patlen, + char flags, + uint32_t pid) +{ + uint32_t hash = SCACTileInitHashRaw(pat, patlen); + + if (ctx->init_hash == NULL) { + return NULL; + } + + SCACTilePattern *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 SCACTilePattern *SCACTileAllocPattern(MpmCtx *mpm_ctx) +{ + SCACTilePattern *p = SCMalloc(sizeof(SCACTilePattern)); + if (unlikely(p == NULL)) { + exit(EXIT_FAILURE); + } + memset(p, 0, sizeof(SCACTilePattern)); + + mpm_ctx->memory_cnt++; + mpm_ctx->memory_size += sizeof(SCACTilePattern); + + return p; +} + +/** + * \internal + * \brief Used to free SCACTilePattern instances. + * + * \param mpm_ctx Pointer to the mpm context. + * \param p Pointer to the SCACTilePattern instance to be freed. + * \param free Free the above pointer or not. + */ +static void SCACTileFreePattern(MpmCtx *mpm_ctx, SCACTilePattern *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) { + SCFree(p); + mpm_ctx->memory_cnt--; + mpm_ctx->memory_size -= sizeof(SCACTilePattern); + } +} + +static inline uint32_t SCACTileInitHash(SCACTilePattern *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 SCACTileInitHashAdd(SCACTileCtx *ctx, SCACTilePattern *p) +{ + uint32_t hash = SCACTileInitHash(p); + + if (ctx->init_hash == NULL) { + return 0; + } + + if (ctx->init_hash[hash] == NULL) { + ctx->init_hash[hash] = p; + return 0; + } + + SCACTilePattern *tt = NULL; + SCACTilePattern *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 Count the occurences of each character in the pattern and + * accumulate into a histogram. Really only used to detect unused + * characters, so could just set to 1 instead of counting. + */ +static inline void SCACTileHistogramAlphabet(SCACTileCtx *ctx, + SCACTilePattern *p) +{ + for (int i = 0; i < p->len; i++) { + ctx->alpha_hist[p->ci[i]]++; + } +} + +/* Use Alpahbet Histogram to create compressed alphabet. + */ +static void SCACTileInitTranslateTable(SCACTileCtx *ctx) +{ + /* Count the number of ASCII values actually appearing in any + * pattern. Create compressed mapping table with unused + * characters mapping to zero. + */ + for (int i = 0; i < 256; i++) { + /* Move all upper case counts to lower case */ + if (i >= 'A' && i <= 'Z') { + ctx->alpha_hist[i - 'A' + 'a'] += ctx->alpha_hist[i]; + ctx->alpha_hist[i] = 0; + } + if (ctx->alpha_hist[i]) { + ctx->alphabet_size++; + ctx->translate_table[i] = ctx->alphabet_size; + } else + ctx->translate_table[i] = 0; + } + /* Fix up translation table for uppercase */ + for (int i = 'A'; i <= 'Z'; i++) + ctx->translate_table[i] = ctx->translate_table[i - 'A' + 'a']; + + SCLogDebug(" Alphabet size %d", ctx->alphabet_size); + + /* Round alphabet size up to next power-of-two Leave one extra + * space For the unused-chararacters = 0 mapping. + */ + ctx->alphabet_size += 1; /* Extra space for unused-character */ + if (ctx->alphabet_size <= 8) { + ctx->alphabet_storage = 8; + } else if (ctx->alphabet_size <= 16) { + ctx->alphabet_storage = 16; + } else if (ctx->alphabet_size <= 32) { + ctx->alphabet_storage = 32; + } else if (ctx->alphabet_size <= 64) { + ctx->alphabet_storage = 64; + } else if (ctx->alphabet_size <= 128) { + ctx->alphabet_storage = 128; + } else + ctx->alphabet_storage = 256; +} + +/** + * \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 SCACTileAddPattern(MpmCtx *mpm_ctx, uint8_t *pat, uint16_t patlen, + uint16_t offset, uint16_t depth, uint32_t pid, + uint32_t sid, uint8_t flags) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_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. */ + SCACTilePattern *p = SCACTileInitHashLookup(ctx, pat, patlen, flags, pid); + if (p == NULL) { + SCLogDebug("Allocing new pattern"); + + /* p will never be NULL */ + p = SCACTileAllocPattern(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 */ + SCACTileInitHashAdd(ctx, p); + /* Count alphabet usages */ + SCACTileHistogramAlphabet(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; + } + + 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: + SCACTileFreePattern(mpm_ctx, p); + return -1; +} + +static void SCACTileReallocOutputTable(SCACTileCtx *ctx, int new_state_count) +{ + + /* reallocate space in the output table for the new state */ + size_t size = ctx->allocated_state_count * sizeof(SCACTileOutputTable); + void *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; +} + +static void SCACTileReallocState(SCACTileCtx *ctx, int new_state_count) +{ + /* reallocate space in the goto table to include a new state */ + size_t size = ctx->allocated_state_count * sizeof(int32_t) * 256; + void *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; + + SCACTileReallocOutputTable(ctx, new_state_count); +} + +/** + * \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 SCACTileInitNewState(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + int aa = 0; + + /* 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; + + SCACTileReallocState(ctx, ctx->allocated_state_count); + } + + /* set all transitions for the newly assigned state as FAIL transitions */ + for (aa = 0; aa < ctx->alphabet_size; aa++) { + ctx->goto_table[ctx->state_count][aa] = SC_AC_TILE_FAIL; + } + + memset(ctx->output_table + ctx->state_count, 0, + sizeof(SCACTileOutputTable)); + + 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 SCACTileSetOutputState(int32_t state, MpmPatternIndex pindex, MpmCtx *mpm_ctx) +{ + void *ptmp; + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + + SCACTileOutputTable *output_state = &ctx->output_table[state]; + uint32_t i = 0; + + /* Don't add the pattern more than once to the same state. */ + for (i = 0; i < output_state->no_of_entries; i++) { + if (output_state->patterns[i] == pindex) + return; + } + + /* Increase the size of the array of pids for this state and add + * the new pid. */ + output_state->no_of_entries++; + ptmp = SCRealloc(output_state->patterns, + output_state->no_of_entries * sizeof(MpmPatternIndex)); + if (ptmp == NULL) { + SCFree(output_state->patterns); + output_state->patterns = NULL; + SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); + exit(EXIT_FAILURE); + } + output_state->patterns = ptmp; + + output_state->patterns[output_state->no_of_entries - 1] = pindex; +} + +/** + * \brief Helper function used by SCACTileCreateGotoTable. 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 void SCACTileEnter(uint8_t *pattern, uint16_t pattern_len, + MpmPatternIndex pindex, MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + + int32_t state = 0; + int32_t newstate = 0; + int i = 0; + int p = 0; + int tc; + + /* Walk down the trie till we have a match for the pattern prefix */ + state = 0; + for (i = 0; i < pattern_len; i++) { + tc = ctx->translate_table[pattern[i]]; + if (ctx->goto_table[state][tc] == SC_AC_TILE_FAIL) + break; + state = ctx->goto_table[state][tc]; + } + + /* Add the non-matching pattern suffix to the trie, from the last state + * we left off */ + for (p = i; p < pattern_len; p++) { + newstate = SCACTileInitNewState(mpm_ctx); + tc = ctx->translate_table[pattern[p]]; + ctx->goto_table[state][tc] = newstate; + state = newstate; + } + + /* Add this pattern id, to the output table of the last state, where the + * pattern ends in the trie */ + SCACTileSetOutputState(state, pindex, mpm_ctx); +} + +/** + * \internal + * \brief Create the goto table. + * + * \param mpm_ctx Pointer to the mpm context. + */ +static void SCACTileCreateGotoTable(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + + uint32_t i = 0; + + /* add each pattern to create the goto table */ + for (i = 0; i < mpm_ctx->pattern_cnt; i++) { + SCACTileEnter(ctx->parray[i]->ci, ctx->parray[i]->len, + i, mpm_ctx); + } + + int aa = 0; + for (aa = 0; aa < ctx->alphabet_size; aa++) { + if (ctx->goto_table[0][aa] == SC_AC_TILE_FAIL) { + ctx->goto_table[0][aa] = 0; + } + } +} + +static inline int SCACTileStateQueueIsEmpty(StateQueue *q) +{ + if (q->top == q->bot) + return 1; + else + return 0; +} + +static inline void SCACTileEnqueue(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); + } +} + +static inline int32_t SCACTileDequeue(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++]; +} + +/** + * \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 void SCACTileClubOutputStates(int32_t dst_state, + int32_t src_state, + MpmCtx *mpm_ctx) +{ + void *ptmp; + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + + uint32_t i = 0; + uint32_t j = 0; + + SCACTileOutputTable *output_dst_state = &ctx->output_table[dst_state]; + SCACTileOutputTable *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->patterns[i] == output_dst_state->patterns[j]) { + break; + } + } + if (j == output_dst_state->no_of_entries) { + output_dst_state->no_of_entries++; + + ptmp = SCRealloc(output_dst_state->patterns, + (output_dst_state->no_of_entries * sizeof(uint32_t))); + if (ptmp == NULL) { + SCFree(output_dst_state->patterns); + output_dst_state->patterns = NULL; + SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); + exit(EXIT_FAILURE); + } + output_dst_state->patterns = ptmp; + + output_dst_state->patterns[output_dst_state->no_of_entries - 1] = + output_src_state->patterns[i]; + } + } +} + +/** + * \internal + * \brief Create the failure table. + * + * \param mpm_ctx Pointer to the mpm context. + */ +static void SCACTileCreateFailureTable(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + + int aa = 0; + int32_t state = 0; + int32_t r_state = 0; + + StateQueue q; + memset(&q, 0, sizeof(StateQueue)); + + /* Allocate space for the failure table. A failure entry in the table for + * every state(SCACTileCtx->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 (aa = 0; aa < ctx->alphabet_size; aa++) { + int32_t temp_state = ctx->goto_table[0][aa]; + if (temp_state != 0) { + SCACTileEnqueue(&q, temp_state); + ctx->failure_table[temp_state] = 0; + } + } + + while (!SCACTileStateQueueIsEmpty(&q)) { + /* pick up every state from the queue and add failure transitions */ + r_state = SCACTileDequeue(&q); + for (aa = 0; aa < ctx->alphabet_size; aa++) { + int32_t temp_state = ctx->goto_table[r_state][aa]; + if (temp_state == SC_AC_TILE_FAIL) + continue; + SCACTileEnqueue(&q, temp_state); + state = ctx->failure_table[r_state]; + + while(ctx->goto_table[state][aa] == SC_AC_TILE_FAIL) + state = ctx->failure_table[state]; + ctx->failure_table[temp_state] = ctx->goto_table[state][aa]; + SCACTileClubOutputStates(temp_state, ctx->failure_table[temp_state], + mpm_ctx); + } + } +} + +/* + * Set the next state for 1 byte next-state. + */ +static void SCACTileSetState1Byte(SCACTileCtx *ctx, int state, int aa, + int next_state, int outputs) +{ + uint8_t *state_table = (uint8_t*)ctx->state_table; + uint8_t encoded_next_state = next_state; + + if (next_state == SC_AC_TILE_FAIL) { + SCLogError(SC_ERR_MEM_ALLOC, "Error FAIL state in output"); + exit(EXIT_FAILURE); + } + + if (outputs == 0) + encoded_next_state |= (1 << 7); + + state_table[state * ctx->alphabet_storage + aa] = encoded_next_state; +} + +/* + * Set the next state for 2 byte next-state. + */ +static void SCACTileSetState2Bytes(SCACTileCtx *ctx, int state, int aa, + int next_state, int outputs) +{ + uint16_t *state_table = (uint16_t*)ctx->state_table; + uint16_t encoded_next_state = next_state; + + if (next_state == SC_AC_TILE_FAIL) { + SCLogError(SC_ERR_MEM_ALLOC, "Error FAIL state in output"); + exit(EXIT_FAILURE); + } + + if (outputs == 0) + encoded_next_state |= (1 << 15); + + state_table[state * ctx->alphabet_storage + aa] = encoded_next_state; +} + +/* + * Set the next state for 4 byte next-state. + */ +static void SCACTileSetState4Bytes(SCACTileCtx *ctx, int state, int aa, + int next_state, int outputs) +{ + uint32_t *state_table = (uint32_t*)ctx->state_table; + uint32_t encoded_next_state = next_state; + + if (next_state == SC_AC_TILE_FAIL) { + SCLogError(SC_ERR_MEM_ALLOC, "Error FAIL state in output"); + exit(EXIT_FAILURE); + } + + if (outputs == 0) + encoded_next_state |= (1 << 31); + + state_table[state * ctx->alphabet_storage + aa] = encoded_next_state; +} + +/** + * \internal + * \brief Create the delta table. + * + * \param mpm_ctx Pointer to the mpm context. + */ +static inline void SCACTileCreateDeltaTable(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + + int aa = 0; + int32_t r_state = 0; + + if (ctx->state_count < 32767) { + if (ctx->state_count < 128) { + ctx->bytes_per_state = 1; + ctx->set_next_state = SCACTileSetState1Byte; + + switch(ctx->alphabet_storage) { + case 8: + ctx->search = SCACTileSearchTiny8; + break; + case 16: + ctx->search = SCACTileSearchTiny16; + break; + case 32: + ctx->search = SCACTileSearchTiny32; + break; + case 64: + ctx->search = SCACTileSearchTiny64; + break; + case 128: + ctx->search = SCACTileSearchTiny128; + break; + default: + ctx->search = SCACTileSearchTiny256; + } + } else { + /* 16-bit state needed */ + ctx->bytes_per_state = 2; + ctx->set_next_state = SCACTileSetState2Bytes; + + switch(ctx->alphabet_storage) { + case 8: + ctx->search = SCACTileSearchSmall8; + break; + case 16: + ctx->search = SCACTileSearchSmall16; + break; + case 32: + ctx->search = SCACTileSearchSmall32; + break; + case 64: + ctx->search = SCACTileSearchSmall64; + break; + case 128: + ctx->search = SCACTileSearchSmall128; + break; + default: + ctx->search = SCACTileSearchSmall256; + } + } + } else { + /* 32-bit next state */ + ctx->search = SCACTileSearchLarge; + ctx->bytes_per_state = 4; + ctx->set_next_state = SCACTileSetState4Bytes; + + ctx->alphabet_storage = 256; /* Change? */ + } + + StateQueue q; + memset(&q, 0, sizeof(StateQueue)); + + for (aa = 0; aa < ctx->alphabet_size; aa++) { + int temp_state = ctx->goto_table[0][aa]; + if (temp_state != 0) + SCACTileEnqueue(&q, temp_state); + } + + while (!SCACTileStateQueueIsEmpty(&q)) { + r_state = SCACTileDequeue(&q); + + for (aa = 0; aa < ctx->alphabet_size; aa++) { + int temp_state = ctx->goto_table[r_state][aa]; + if (temp_state != SC_AC_TILE_FAIL) { + SCACTileEnqueue(&q, temp_state); + } else { + int f_state = ctx->failure_table[r_state]; + ctx->goto_table[r_state][aa] = ctx->goto_table[f_state][aa]; + } + } + } +} + +static void SCACTileClubOutputStatePresenceWithDeltaTable(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + + int aa = 0; + uint32_t state = 0; + + /* Allocate next-state table. */ + int size = ctx->state_count * ctx->bytes_per_state * ctx->alphabet_storage; + void *state_table = SCMalloc(size); + if (unlikely(state_table == NULL)) { + SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); + exit(EXIT_FAILURE); + } + memset(state_table, 0, size); + ctx->state_table = state_table; + + mpm_ctx->memory_cnt++; + mpm_ctx->memory_size += size; + + SCLogInfo("Delta Table size %d, alphabet: %d, %d-byte states: %d", + size, ctx->alphabet_size, ctx->bytes_per_state, ctx->state_count); + + /* Copy next state from Goto table, which is 32 bits and encode it into the next + * state table, which can be 1, 2 or 4 bytes each and include if there is an + * output. + */ + for (state = 0; state < ctx->state_count; state++) { + for (aa = 0; aa < ctx->alphabet_size; aa++) { + int next_state = ctx->goto_table[state][aa]; + int next_state_outputs = ctx->output_table[next_state].no_of_entries; + ctx->set_next_state(ctx, state, aa, next_state, next_state_outputs); + } + } +} + +static inline void SCACTileInsertCaseSensitiveEntriesForPatterns(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_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->pattern_list[ctx->output_table[state].patterns[k]].cs != NULL) { + /* TODO - Find better way to store this. */ + ctx->output_table[state].patterns[k] &= 0x0FFFFFFF; + ctx->output_table[state].patterns[k] |= 1 << 31; + } + } + } +} + +#if 0 +static void SCACTilePrintDeltaTable(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_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 < ctx->alphabet_size; j++) { + if (SCACTileGetDelta(i, j, mpm_ctx) != 0) { + printf(" %c -> %d\n", j, SCACTileGetDelta(i, j, mpm_ctx)); + } + } + } +} +#endif + +/** + * \brief Process the patterns and prepare the state table. + * + * \param mpm_ctx Pointer to the mpm context. + */ +static void SCACTilePrepareStateTable(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + + /* Create Alphabet compression and Lower Case translation table. */ + SCACTileInitTranslateTable(ctx); + + /* create the 0th state in the goto table and output_table */ + SCACTileInitNewState(mpm_ctx); + + /* create the goto table */ + SCACTileCreateGotoTable(mpm_ctx); + /* create the failure table */ + SCACTileCreateFailureTable(mpm_ctx); + /* create the final state(delta) table */ + SCACTileCreateDeltaTable(mpm_ctx); + /* club the output state presence with delta transition entries */ + SCACTileClubOutputStatePresenceWithDeltaTable(mpm_ctx); + + /* club nocase entries */ + SCACTileInsertCaseSensitiveEntriesForPatterns(mpm_ctx); + +#if 0 + SCACTilePrintDeltaTable(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; +} + + +/** + * \brief Process Internal AC MPM tables to create the Search Context + * + * The search context is only the data needed to search the MPM. + * + * \param mpm_ctx Pointer to the mpm context. + */ +static void SCACTilePrepareSearch(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + + /* Resize the output table to be only as big as its final size. */ + SCACTileReallocOutputTable(ctx, ctx->state_count); + + search_ctx->search = ctx->search; + memcpy(search_ctx->translate_table, ctx->translate_table, sizeof(ctx->translate_table)); + + /* Move the state table from the Init context */ + search_ctx->state_table = ctx->state_table; + ctx->state_table = NULL; /* So that it won't get freed twice. */ + + /* Move the output_table from the Init context to the Search Context */ + /* TODO: Could be made more compact */ + search_ctx->output_table = ctx->output_table; + ctx->output_table = NULL; + + search_ctx->pattern_list = ctx->pattern_list; + ctx->pattern_list = NULL; + + /* One bit per pattern, rounded up to the next byte size. */ + search_ctx->mpm_bitarray_size = (mpm_ctx->pattern_cnt + 7) / 8; + + /* Can now free the Initialization data */ + SCACTileDestroyInitCtx(mpm_ctx); +} + +/** + * \brief Process the patterns added to the mpm, and create the internal tables. + * + * \param mpm_ctx Pointer to the mpm context. + */ +int SCACTilePreparePatterns(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + + if (mpm_ctx->pattern_cnt == 0 || search_ctx->init_ctx == NULL) { + SCLogDebug("no patterns supplied to this mpm_ctx"); + return 0; + } + SCACTileCtx *ctx = search_ctx->init_ctx; + if (ctx->init_hash == NULL) { + SCLogDebug("no patterns supplied to this mpm_ctx"); + return 0; + } + + /* alloc the pattern array */ + ctx->parray = (SCACTilePattern **)SCMalloc(mpm_ctx->pattern_cnt * + sizeof(SCACTilePattern *)); + if (ctx->parray == NULL) + goto error; + memset(ctx->parray, 0, mpm_ctx->pattern_cnt * sizeof(SCACTilePattern *)); + + /* populate it with the patterns in the hash */ + uint32_t i = 0, p = 0; + for (i = 0; i < INIT_HASH_SIZE; i++) { + SCACTilePattern *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; + + /* Handle case patterns by storing a copy of the pattern to compare + * to each possible match (no-case). + * + * Allocate the memory for the array and each of the strings as one block. + */ + size_t string_space_needed = 0; + for (i = 0; i < mpm_ctx->pattern_cnt; i++) { + if (!(ctx->parray[i]->flags & MPM_PATTERN_FLAG_NOCASE)) { + /* Round up to next 8 byte aligned length */ + uint32_t space = ((ctx->parray[i]->len + 7) / 8) * 8; + string_space_needed += space; + } + } + + size_t pattern_list_size = mpm_ctx->pattern_cnt * sizeof(SCACTilePatternList); + size_t mem_size = string_space_needed + pattern_list_size; + void *mem_block = SCCalloc(1, mem_size); + if (mem_block == NULL) { + SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); + exit(EXIT_FAILURE); + } + mpm_ctx->memory_cnt++; + mpm_ctx->memory_size += mem_size; + /* Split the allocated block into pattern list array and string space. */ + ctx->pattern_list = mem_block; + uint8_t *string_space = mem_block + pattern_list_size; + + /* Now make the copies of the no-case strings. */ + for (i = 0; i < mpm_ctx->pattern_cnt; i++) { + if (!(ctx->parray[i]->flags & MPM_PATTERN_FLAG_NOCASE)) { + uint32_t len = ctx->parray[i]->len; + uint32_t space = ((len + 7) / 8) * 8; + memcpy(string_space, ctx->parray[i]->original_pat, len); + ctx->pattern_list[i].cs = string_space; + ctx->pattern_list[i].patlen = len; + string_space += space; + } + ctx->pattern_list[i].pid = ctx->parray[i]->id; + + /* ACPatternList now owns this memory */ + ctx->pattern_list[i].sids_size = ctx->parray[i]->sids_size; + ctx->pattern_list[i].sids = ctx->parray[i]->sids; + } + + /* prepare the state table required by AC */ + SCACTilePrepareStateTable(mpm_ctx); + + /* Convert to the Search Context structure */ + SCACTilePrepareSearch(mpm_ctx); + + 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 SCACTileInitThreadCtx(MpmCtx *mpm_ctx, MpmThreadCtx *mpm_thread_ctx, + uint32_t matchsize) +{ + memset(mpm_thread_ctx, 0, sizeof(MpmThreadCtx)); + + mpm_thread_ctx->ctx = SCMalloc(sizeof(SCACTileThreadCtx)); + if (mpm_thread_ctx->ctx == NULL) { + exit(EXIT_FAILURE); + } + memset(mpm_thread_ctx->ctx, 0, sizeof(SCACTileThreadCtx)); + mpm_thread_ctx->memory_cnt++; + mpm_thread_ctx->memory_size += sizeof(SCACTileThreadCtx); +} + +/** + * \brief Initialize the AC context. + * + * \param mpm_ctx Mpm context. + */ +void SCACTileInitCtx(MpmCtx *mpm_ctx) +{ + if (mpm_ctx->ctx != NULL) + return; + + /* Search Context */ + mpm_ctx->ctx = SCMalloc(sizeof(SCACTileSearchCtx)); + if (mpm_ctx->ctx == NULL) { + exit(EXIT_FAILURE); + } + memset(mpm_ctx->ctx, 0, sizeof(SCACTileSearchCtx)); + + mpm_ctx->memory_cnt++; + mpm_ctx->memory_size += sizeof(SCACTileSearchCtx); + + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + + /* MPM Creation context */ + search_ctx->init_ctx = SCMalloc(sizeof(SCACTileCtx)); + if (search_ctx->init_ctx == NULL) { + exit(EXIT_FAILURE); + } + memset(search_ctx->init_ctx, 0, sizeof(SCACTileCtx)); + + mpm_ctx->memory_cnt++; + mpm_ctx->memory_size += sizeof(SCACTileCtx); + + /* initialize the hash we use to speed up pattern insertions */ + SCACTileCtx *ctx = search_ctx->init_ctx; + ctx->init_hash = SCMalloc(sizeof(SCACTilePattern *) * INIT_HASH_SIZE); + if (ctx->init_hash == NULL) { + exit(EXIT_FAILURE); + } + memset(ctx->init_hash, 0, sizeof(SCACTilePattern *) * 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 */ + SCACTileGetConfig(); +} + +/** + * \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 SCACTileDestroyThreadCtx(MpmCtx *mpm_ctx, MpmThreadCtx *mpm_thread_ctx) +{ + SCACTilePrintSearchStats(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(SCACTileThreadCtx); + } +} + +static void SCACTileDestroyInitCtx(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_ctx; + + if (ctx == NULL) + return; + + if (ctx->init_hash != NULL) { + SCFree(ctx->init_hash); + ctx->init_hash = NULL; + } + + if (ctx->parray != NULL) { + uint32_t i; + for (i = 0; i < mpm_ctx->pattern_cnt; i++) { + if (ctx->parray[i] != NULL) { + SCACTileFreePattern(mpm_ctx, ctx->parray[i]); + } + } + + SCFree(ctx->parray); + ctx->parray = NULL; + } + + if (ctx->state_table != NULL) { + SCFree(ctx->state_table); + + mpm_ctx->memory_cnt--; + mpm_ctx->memory_size -= (ctx->state_count * + ctx->bytes_per_state * ctx->alphabet_storage); + } + + if (ctx->output_table != NULL) { + uint32_t state; + for (state = 0; state < ctx->state_count; state++) { + if (ctx->output_table[state].patterns != NULL) { + SCFree(ctx->output_table[state].patterns); + } + } + SCFree(ctx->output_table); + } + + if (ctx->pattern_list != NULL) { + uint32_t i; + for (i = 0; i < mpm_ctx->pattern_cnt; i++) { + if (ctx->pattern_list[i].cs != NULL) + SCFree(ctx->pattern_list[i].cs); + if (ctx->pattern_list[i].sids != NULL) + SCFree(ctx->pattern_list[i].sids); + } + SCFree(ctx->pattern_list); + } + + SCFree(ctx); + search_ctx->init_ctx = NULL; + mpm_ctx->memory_cnt--; + mpm_ctx->memory_size -= sizeof(SCACTileCtx); +} + +/** + * \brief Destroy the mpm context. + * + * \param mpm_ctx Pointer to the mpm context. + */ +void SCACTileDestroyCtx(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + if (search_ctx == NULL) + return; + + /* Destroy Initialization data */ + SCACTileDestroyInitCtx(mpm_ctx); + + /* Free Search tables */ + SCFree(search_ctx->state_table); + SCFree(search_ctx->pattern_list); + SCFree(search_ctx->output_table); + + SCFree(search_ctx); + mpm_ctx->ctx = NULL; + + mpm_ctx->memory_cnt--; + mpm_ctx->memory_size -= sizeof(SCACTileSearchCtx); +} + +/* + * Heavily optimized pattern matching routine for TILE-Gx. + */ + +#define SCHECK(x) ((x) > 0) +#define BTYPE int32_t +// Extract byte N=0,1,2,3 from x +#define BYTE0(x) __insn_bfextu(x, 0, 7) +#define BYTE1(x) __insn_bfextu(x, 8, 15) +#define BYTE2(x) __insn_bfextu(x, 16, 23) +#define BYTE3(x) __insn_bfextu(x, 24, 31) + +int CheckMatch(SCACTileSearchCtx *ctx, PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen, + uint16_t state, int i, int matches, + uint8_t *mpm_bitarray) +{ + SCACTilePatternList *pattern_list = ctx->pattern_list; + uint8_t *buf_offset = buf + i + 1; // Lift out of loop + uint32_t no_of_entries = ctx->output_table[state].no_of_entries; + MpmPatternIndex *patterns = ctx->output_table[state].patterns; + uint8_t *pmq_bitarray = pmq->pattern_id_bitarray; + uint32_t k; + + for (k = 0; k < no_of_entries; k++) { + MpmPatternIndex pindex = patterns[k] & 0x0FFFFFFF; + if (mpm_bitarray[pindex / 8] & (1 << (pindex % 8))) { + /* Pattern already seen by this MPM. */ + /* NOTE: This is faster then rechecking if it is a case-sensitive match + * since we know this pattern has already been seen, but imcrementing + * matches here could over report matches. For example if the case-sensitive + * pattern is "Foo" and the string is "Foo bar foo", matches would be reported + * as 2, when it should really be 1, since "foo" is not a true match. + */ + matches++; + continue; + } + uint32_t pid = pattern_list[pindex].pid; + /* Double check case-sensitve match now. */ + if (patterns[k] >> 31) { + uint16_t patlen = pattern_list[pindex].patlen; + if (SCMemcmpNZ(pattern_list[pindex].cs, buf_offset - patlen, patlen) != 0) { + /* Case-sensitive match failed. */ + continue; + } + } + /* New match found */ + mpm_bitarray[pindex / 8] |= (1 << (pindex % 8)); + + if ((pmq_bitarray[pid / 8] & (1 << (pid % 8))) == 0) { + pmq_bitarray[(pid) / 8] |= (1 << ((pid) % 8)); + MpmAddPid(pmq, pid); + } + + /* Always add the Signature IDs, since they could be different in the current MPM + * than in a previous MPM on the same PMQ when finding the same pattern. + */ + MpmAddSids(pmq, pattern_list[pindex].sids, + pattern_list[pindex].sids_size); + matches++; + } + + return matches; +} + +/** + * \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 SCACTileSearch(MpmCtx *mpm_ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, uint8_t *buf, uint16_t buflen) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + + if (buflen == 0) + return 0; + + /* Context specific matching function. */ + return search_ctx->search(search_ctx, mpm_thread_ctx, pmq, buf, buflen); +} + +/* This function handles (ctx->state_count >= 32767) */ +uint32_t SCACTileSearchLarge(SCACTileSearchCtx *ctx, MpmThreadCtx *mpm_thread_ctx, + PatternMatcherQueue *pmq, + uint8_t *buf, uint16_t buflen) +{ + int i = 0; + int matches = 0; + + uint8_t mpm_bitarray[ctx->mpm_bitarray_size]; + memset(mpm_bitarray, 0, ctx->mpm_bitarray_size); + + uint8_t* restrict xlate = ctx->translate_table; + register int state = 0; + int32_t (*state_table_u32)[256] = ctx->state_table; + for (i = 0; i < buflen; i++) { + state = state_table_u32[state & 0x00FFFFFF][xlate[buf[i]]]; + if (SCHECK(state)) { + matches = CheckMatch(ctx, pmq, buf, buflen, state, i, matches, mpm_bitarray); + } + } /* for (i = 0; i < buflen; i++) */ + + return matches; +} + +/* + * Search with Alphabet size of 256 and 16-bit next-state entries. + * Next state entry has MSB as "match" and 15 LSB bits as next-state index. + */ +// y = 1<<log_mult * (x & (1<<width -1)) +#define SINDEX_INTERNAL(y, x, log_mult, width) \ + __insn_bfins(y, x, log_mult, log_mult + (width - 1)) + +/* Type of next_state */ +#define STYPE int16_t +// Hint to compiler to expect L2 hit latency for Load int16_t +#define SLOAD(x) __insn_ld2s_L2((STYPE* restrict)(x)) + +#define FUNC_NAME SCACTileSearchSmall256 +// y = 256 * (x & 0x7FFF) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 8, 15) +#include "util-mpm-ac-tile-small.c" + +/* Search with Alphabet size of 128 */ +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchSmall128 +// y = 128 * (x & 0x7FFF) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 7, 15) +#include "util-mpm-ac-tile-small.c" + +/* Search with Alphabet size of 64 */ +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchSmall64 +// y = 64 * (x & 0x7FFF) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 6, 15) +#include "util-mpm-ac-tile-small.c" + +/* Search with Alphabet size of 32 */ +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchSmall32 +// y = 32 * (x & 0x7FFF) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 5, 15) +#include "util-mpm-ac-tile-small.c" + +/* Search with Alphabet size of 16 */ +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchSmall16 +// y = 16 * (x & 0x7FFF) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 4, 15) +#include "util-mpm-ac-tile-small.c" + +/* Search with Alphabet size of 8 */ +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchSmall8 +// y = 8 * (x & 0x7FFF) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 3, 15) +#include "util-mpm-ac-tile-small.c" + +/* + * Search with Alphabet size of 256 and 8-bit next-state entries. + * Next state entry has MSB as "match" and 15 LSB bits as next-state index. + */ +#undef STYPE +#define STYPE int8_t +// Hint to compiler to expect L2 hit latency for Load int8_t +#undef SLOAD +#define SLOAD(x) __insn_ld1s_L2((STYPE* restrict)(x)) + +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchTiny256 +// y = 256 * (x & 0x7F) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 8, 7) +#include "util-mpm-ac-tile-small.c" + +/* Search with Alphabet size of 128 */ +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchTiny128 +// y = 128 * (x & 0x7F) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 7, 7) +#include "util-mpm-ac-tile-small.c" + +/* Search with Alphabet size of 64 */ +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchTiny64 +// y = 64 * (x & 0x7F) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 6, 7) +#include "util-mpm-ac-tile-small.c" + +/* Search with Alphabet size of 32 */ +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchTiny32 +// y = 32 * (x & 0x7F) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 5, 7) +#include "util-mpm-ac-tile-small.c" + +/* Search with Alphabet size of 16 */ +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchTiny16 +// y = 16 * (x & 0x7F) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 4, 7) +#include "util-mpm-ac-tile-small.c" + +/* Search with Alphabet size of 8 */ +#undef FUNC_NAME +#undef SINDEX +#define FUNC_NAME SCACTileSearchTiny8 +// y = 8 * (x & 0x7F) +#define SINDEX(y,x) SINDEX_INTERNAL(y, x, 3, 7) +#include "util-mpm-ac-tile-small.c" + + +/** + * \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 SCACTileAddPatternCI(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 SCACTileAddPattern(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 SCACTileAddPatternCS(MpmCtx *mpm_ctx, uint8_t *pat, uint16_t patlen, + uint16_t offset, uint16_t depth, uint32_t pid, + SigIntId sid, uint8_t flags) +{ + return SCACTileAddPattern(mpm_ctx, pat, patlen, offset, depth, + pid, sid, flags); +} + +void SCACTilePrintSearchStats(MpmThreadCtx *mpm_thread_ctx) +{ +#ifdef SC_AC_TILE_COUNTERS + SCACTileThreadCtx *ctx = (SCACTileThreadCtx *)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_TILE_COUNTERS */ +} + +void SCACTilePrintInfo(MpmCtx *mpm_ctx) +{ + SCACTileSearchCtx *search_ctx = (SCACTileSearchCtx *)mpm_ctx->ctx; + SCACTileCtx *ctx = search_ctx->init_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(" SCACTileCtx: %" PRIuMAX "\n", (uintmax_t)sizeof(SCACTileCtx)); + printf(" SCACTilePattern %" PRIuMAX "\n", (uintmax_t)sizeof(SCACTilePattern)); + printf(" SCACTilePattern %" PRIuMAX "\n", (uintmax_t)sizeof(SCACTilePattern)); + 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: %d\n", ctx->state_count); + printf("\n"); +} + +/************************** Mpm Registration ***************************/ + +/** + * \brief Register the aho-corasick mpm for Tilera Tile-Gx processor. + */ +void MpmACTileRegister(void) +{ + mpm_table[MPM_AC_TILE].name = "ac-tile"; + mpm_table[MPM_AC_TILE].max_pattern_length = 0; + + mpm_table[MPM_AC_TILE].InitCtx = SCACTileInitCtx; + mpm_table[MPM_AC_TILE].InitThreadCtx = SCACTileInitThreadCtx; + mpm_table[MPM_AC_TILE].DestroyCtx = SCACTileDestroyCtx; + mpm_table[MPM_AC_TILE].DestroyThreadCtx = SCACTileDestroyThreadCtx; + mpm_table[MPM_AC_TILE].AddPattern = SCACTileAddPatternCS; + mpm_table[MPM_AC_TILE].AddPatternNocase = SCACTileAddPatternCI; + mpm_table[MPM_AC_TILE].Prepare = SCACTilePreparePatterns; + mpm_table[MPM_AC_TILE].Search = SCACTileSearch; + mpm_table[MPM_AC_TILE].Cleanup = NULL; + mpm_table[MPM_AC_TILE].PrintCtx = SCACTilePrintInfo; + mpm_table[MPM_AC_TILE].PrintThreadCtx = SCACTilePrintSearchStats; + mpm_table[MPM_AC_TILE].RegisterUnittests = SCACTileRegisterTests; +} + + +/*************************************Unittests********************************/ + +#ifdef UNITTESTS + +static int SCACTileTest01(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + /* 1 match */ + MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcd", 4, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghjiklmnopqrstuvwxyz"; + + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest02(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + /* 1 match */ + MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abce", 4, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghjiklmnopqrstuvwxyz"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 0) + result = 1; + else + printf("0 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest03(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghjiklmnopqrstuvwxyz"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 3) + result = 1; + else + printf("3 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest04(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghjiklmnopqrstuvwxyz"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest05(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghjiklmnopqrstuvwxyz"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 3) + result = 1; + else + printf("3 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest06(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcd", 4, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcd"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest07(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_TILE); + SCACTileInitThreadCtx(&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 */ + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 135) + result = 1; + else + printf("135 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest08(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + /* 1 match */ + MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcd", 4, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)"a", 1); + + if (cnt == 0) + result = 1; + else + printf("0 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest09(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + /* 1 match */ + MpmAddPatternCS(&mpm_ctx, (uint8_t *)"ab", 2, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)"ab", 2); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest10(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + /* 1 match */ + MpmAddPatternCS(&mpm_ctx, (uint8_t *)"abcdefgh", 8, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "01234567890123456789012345678901234567890123456789" + "01234567890123456789012345678901234567890123456789" + "abcdefgh" + "01234567890123456789012345678901234567890123456789" + "01234567890123456789012345678901234567890123456789"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest11(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_TILE); + SCACTileInitThreadCtx(&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 (SCACTilePreparePatterns(&mpm_ctx) == -1) + goto end; + + result = 1; + + char *buf = "he"; + result &= (SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, (uint8_t *)buf, + strlen(buf)) == 1); + buf = "she"; + result &= (SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, (uint8_t *)buf, + strlen(buf)) == 2); + buf = "his"; + result &= (SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, (uint8_t *)buf, + strlen(buf)) == 1); + buf = "hers"; + result &= (SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, (uint8_t *)buf, + strlen(buf)) == 2); + + end: + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest12(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghijklmnopqrstuvwxyz"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 2) + result = 1; + else + printf("2 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest13(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghijklmnopqrstuvwxyzABCD"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest14(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghijklmnopqrstuvwxyzABCDE"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest15(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghijklmnopqrstuvwxyzABCDEF"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest16(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghijklmnopqrstuvwxyzABC"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest17(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghijklmnopqrstuvwxyzAB"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest18(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcde""fghij""klmno""pqrst""uvwxy""z"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest19(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest20(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "AAAAA""AAAAA""AAAAA""AAAAA""AAAAA""AAAAA""AA"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest21(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + /* 1 */ + MpmAddPatternCS(&mpm_ctx, (uint8_t *)"AA", 2, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)"AA", 2); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest22(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "abcdefghijklmnopqrstuvwxyz"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 2) + result = 1; + else + printf("2 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest23(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + /* 1 */ + MpmAddPatternCS(&mpm_ctx, (uint8_t *)"AA", 2, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)"aa", 2); + + if (cnt == 0) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest24(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + /* 1 */ + MpmAddPatternCI(&mpm_ctx, (uint8_t *)"AA", 2, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)"aa", 2); + + if (cnt == 1) + result = 1; + else + printf("1 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest25(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 3) + result = 1; + else + printf("3 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest26(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_TILE); + SCACTileInitThreadCtx(&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); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "works"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 1) + result = 1; + else + printf("3 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest27(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + /* 0 match */ + MpmAddPatternCS(&mpm_ctx, (uint8_t *)"ONE", 3, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "tone"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 0) + result = 1; + else + printf("0 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest28(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_TILE); + SCACTileInitThreadCtx(&mpm_ctx, &mpm_thread_ctx, 0); + + /* 0 match */ + MpmAddPatternCS(&mpm_ctx, (uint8_t *)"one", 3, 0, 0, 0, 0, 0); + PmqSetup(&pmq, 1); + + SCACTilePreparePatterns(&mpm_ctx); + + char *buf = "tONE"; + uint32_t cnt = SCACTileSearch(&mpm_ctx, &mpm_thread_ctx, &pmq, + (uint8_t *)buf, strlen(buf)); + + if (cnt == 0) + result = 1; + else + printf("0 != %" PRIu32 " ",cnt); + + SCACTileDestroyCtx(&mpm_ctx); + SCACTileDestroyThreadCtx(&mpm_ctx, &mpm_thread_ctx); + PmqFree(&pmq); + return result; +} + +static int SCACTileTest29(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 SCACTileRegisterTests(void) +{ + +#ifdef UNITTESTS + UtRegisterTest("SCACTileTest01", SCACTileTest01, 1); + UtRegisterTest("SCACTileTest02", SCACTileTest02, 1); + UtRegisterTest("SCACTileTest03", SCACTileTest03, 1); + UtRegisterTest("SCACTileTest04", SCACTileTest04, 1); + UtRegisterTest("SCACTileTest05", SCACTileTest05, 1); + UtRegisterTest("SCACTileTest06", SCACTileTest06, 1); + UtRegisterTest("SCACTileTest07", SCACTileTest07, 1); + UtRegisterTest("SCACTileTest08", SCACTileTest08, 1); + UtRegisterTest("SCACTileTest09", SCACTileTest09, 1); + UtRegisterTest("SCACTileTest10", SCACTileTest10, 1); + UtRegisterTest("SCACTileTest11", SCACTileTest11, 1); + UtRegisterTest("SCACTileTest12", SCACTileTest12, 1); + UtRegisterTest("SCACTileTest13", SCACTileTest13, 1); + UtRegisterTest("SCACTileTest14", SCACTileTest14, 1); + UtRegisterTest("SCACTileTest15", SCACTileTest15, 1); + UtRegisterTest("SCACTileTest16", SCACTileTest16, 1); + UtRegisterTest("SCACTileTest17", SCACTileTest17, 1); + UtRegisterTest("SCACTileTest18", SCACTileTest18, 1); + UtRegisterTest("SCACTileTest19", SCACTileTest19, 1); + UtRegisterTest("SCACTileTest20", SCACTileTest20, 1); + UtRegisterTest("SCACTileTest21", SCACTileTest21, 1); + UtRegisterTest("SCACTileTest22", SCACTileTest22, 1); + UtRegisterTest("SCACTileTest23", SCACTileTest23, 1); + UtRegisterTest("SCACTileTest24", SCACTileTest24, 1); + UtRegisterTest("SCACTileTest25", SCACTileTest25, 1); + UtRegisterTest("SCACTileTest26", SCACTileTest26, 1); + UtRegisterTest("SCACTileTest27", SCACTileTest27, 1); + UtRegisterTest("SCACTileTest28", SCACTileTest28, 1); + UtRegisterTest("SCACTileTest29", SCACTileTest29, 1); +#endif +} + +#endif /* __tile__ */ |