/* ********************************************************************************************** * File: maat_expr.cpp * Description: * Authors: Liu WenTan * Date: 2022-10-31 * Copyright: (c) 2018-2022 Geedge Networks, Inc. All rights reserved. *********************************************************************************************** */ #include #include #include #include "maat_expr.h" #include "adapter_hs.h" #include "maat_utils.h" #include "maat_kv.h" #include "maat_limits.h" #include "rcu_hash.h" #include "maat_rule.h" #include "maat_compile.h" #include "maat_group.h" #include "alignment.h" #include "maat_garbage_collection.h" #define MODULE_EXPR module_name_str("maat.expr") struct expr_schema { int item_id_column; int group_id_column; int district_column; int keywords_column; int expr_type_column; int match_method_column; int is_hexbin_column; enum hs_scan_mode scan_mode; /* adapter_hs scan mode */ enum hs_pattern_type pattern_type; /* literal or regex */ int table_id; //ugly struct table_manager *ref_tbl_mgr; }; enum expr_type { EXPR_TYPE_INVALID = -1, EXPR_TYPE_STRING = 0, EXPR_TYPE_AND, EXPR_TYPE_REGEX, EXPR_TYPE_OFFSET, EXPR_TYPE_MAX }; enum match_method { MATCH_METHOD_SUB = 0, MATCH_METHOD_RIGHT, MATCH_METHOD_LEFT, MATCH_METHOD_COMPLETE, MATCH_METHOD_MAX }; struct expr_item { long long item_id; long long group_id; long long district_id; char keywords[MAX_KEYWORDS_STR]; enum expr_type expr_type; enum hs_match_mode match_mode; int is_hexbin; int is_case_sensitive; }; struct expr_runtime { enum hs_scan_mode scan_mode; enum hs_pattern_type pattern_type; struct adapter_hs *hs; struct adapter_hs_stream *hs_stream; struct rcu_hash_table *htable; // store hs_expr rule for rebuild adapter_hs instance struct rcu_hash_table *item_htable; // store this expr table's all maat_item which will be used in expr_runtime_scan struct group2group_runtime *ref_g2g_rt; uint32_t rule_num; int n_worker_thread; struct maat_garbage_bin *ref_garbage_bin; struct log_handle *logger; long long *scan_cnt; long long *hit_cnt; // long long *stream_num; }; enum expr_type int_to_expr_type(int expr_type) { enum expr_type type = EXPR_TYPE_INVALID; switch (expr_type) { case 0: type = EXPR_TYPE_STRING; break; case 1: type = EXPR_TYPE_AND; break; case 2: type = EXPR_TYPE_REGEX; break; case 3: type = EXPR_TYPE_OFFSET; break; default: break; } return type; } enum hs_match_mode int_to_match_mode(int match_method) { enum hs_match_mode mode = HS_MATCH_MODE_INVALID; switch (match_method) { case 0: mode = HS_MATCH_MODE_SUB; break; case 1: mode = HS_MATCH_MODE_SUFFIX; break; case 2: mode = HS_MATCH_MODE_PREFIX; break; case 3: mode = HS_MATCH_MODE_EXACTLY; break; default: break; } return mode; } struct expr_item *expr_item_new(const char *line, struct expr_schema *expr_schema, struct log_handle *logger) { size_t column_offset = 0; size_t column_len = 0; int db_hexbin = -1; int expr_type = -1; int match_method_type = -1; enum table_type table_type = TABLE_TYPE_INVALID; struct expr_item *expr_item = ALLOC(struct expr_item, 1); int ret = get_column_pos(line, expr_schema->item_id_column, &column_offset, &column_len); if (ret < 0) { log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s has no item_id", __FUNCTION__, __LINE__, expr_schema->table_id, line); goto error; } expr_item->item_id = atoll(line + column_offset); ret = get_column_pos(line, expr_schema->group_id_column, &column_offset, &column_len); if (ret < 0) { log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s has no group_id", __FUNCTION__, __LINE__, expr_schema->table_id, line); goto error; } expr_item->group_id = atoll(line + column_offset); table_type = table_manager_get_table_type(expr_schema->ref_tbl_mgr, expr_schema->table_id); if (table_type == TABLE_TYPE_EXPR_PLUS) { ret = get_column_pos(line, expr_schema->district_column, &column_offset, &column_len); if (ret < 0) { goto error; } if (column_len >= MAX_DISTRICT_STR) { log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s district length too long", __FUNCTION__, __LINE__, expr_schema->table_id, line); goto error; } char district[MAX_DISTRICT_STR] = {0}; memcpy(district, (line + column_offset), column_len); assert(strlen(district) > 0); str_unescape(district); expr_item->district_id = table_manager_get_district_id(expr_schema->ref_tbl_mgr, district); } else { expr_item->district_id = DISTRICT_ANY; } ret = get_column_pos(line, expr_schema->expr_type_column, &column_offset, &column_len); if (ret < 0) { log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s has no expr_type", __FUNCTION__, __LINE__, expr_schema->table_id, line); goto error; } expr_type = atoi(line + column_offset); expr_item->expr_type = int_to_expr_type(expr_type); if (expr_item->expr_type == EXPR_TYPE_INVALID) { log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s has invalid expr_type", __FUNCTION__, __LINE__, expr_schema->table_id, line); goto error; } ret = get_column_pos(line, expr_schema->match_method_column, &column_offset, &column_len); if (ret < 0) { log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s has no match_method", __FUNCTION__, __LINE__, expr_schema->table_id, line); goto error; } match_method_type = atoi(line + column_offset); expr_item->match_mode = int_to_match_mode(match_method_type); if (expr_item->match_mode == HS_MATCH_MODE_INVALID) { log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s has invalid match_method", __FUNCTION__, __LINE__, expr_schema->table_id, line); goto error; } ret = get_column_pos(line, expr_schema->is_hexbin_column, &column_offset, &column_len); if (ret < 0) { log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s has no is_hexbin", __FUNCTION__, __LINE__, expr_schema->table_id, line); goto error; } db_hexbin = atoi(line + column_offset); switch (db_hexbin) { case 0: expr_item->is_hexbin = FALSE; expr_item->is_case_sensitive = FALSE; break; case 1: expr_item->is_hexbin = TRUE; expr_item->is_case_sensitive = TRUE; break; case 2: expr_item->is_hexbin = FALSE; expr_item->is_case_sensitive = TRUE; break; default: log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s has invalid hexbin value:%d", __FUNCTION__, __LINE__, expr_schema->table_id, line, db_hexbin); goto error; } ret = get_column_pos(line, expr_schema->keywords_column, &column_offset, &column_len); if (ret < 0) { log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s has no keywords", __FUNCTION__, __LINE__, expr_schema->table_id, line); goto error; } if (column_len >= MAX_KEYWORDS_STR) { log_error(logger, MODULE_EXPR, "[%s:%d] expr table(table_id:%d) line:%s keywords length too long", __FUNCTION__, __LINE__, expr_schema->table_id, line); goto error; } memcpy(expr_item->keywords, (line + column_offset), column_len); return expr_item; error: FREE(expr_item); return NULL; } void expr_item_free(struct expr_item *expr_item) { FREE(expr_item); } enum hs_scan_mode scan_mode_str_to_enum(const char *mode_str) { enum hs_scan_mode scan_mode = HS_SCAN_MODE_MAX; if (strcmp(mode_str, "block") == 0) { scan_mode = HS_SCAN_MODE_BLOCK; } else if (strcmp(mode_str, "stream") == 0) { scan_mode = HS_SCAN_MODE_STREAM; } else { assert(0); } return scan_mode; } enum hs_pattern_type pattern_type_str_to_enum(const char *type_str) { enum hs_pattern_type pattern_type = HS_PATTERN_TYPE_MAX; if (strcmp(type_str, "literal") == 0) { pattern_type = HS_PATTERN_TYPE_STR; } else if (strcmp(type_str, "regex") == 0) { pattern_type = HS_PATTERN_TYPE_REG; } else { assert(0); } return pattern_type; } void *expr_schema_new(cJSON *json, struct table_manager *tbl_mgr, const char *table_name, struct log_handle *logger) { int read_cnt = 0; struct expr_schema *expr_schema = ALLOC(struct expr_schema, 1); cJSON *custom_item = NULL; cJSON *item = cJSON_GetObjectItem(json, "table_id"); if (item != NULL && item->type == cJSON_Number) { expr_schema->table_id = item->valueint; read_cnt++; } item = cJSON_GetObjectItem(json, "custom"); if (item == NULL || item->type != cJSON_Object) { log_error(logger, MODULE_EXPR, "[%s:%d] table %s has no custom column", table_name); goto error; } custom_item = cJSON_GetObjectItem(item, "scan_mode"); if (custom_item != NULL && custom_item->type == cJSON_String) { expr_schema->scan_mode = scan_mode_str_to_enum(custom_item->valuestring); read_cnt++; } custom_item = cJSON_GetObjectItem(item, "pattern_type"); if (custom_item != NULL && custom_item->type == cJSON_String) { expr_schema->pattern_type = pattern_type_str_to_enum(custom_item->valuestring); read_cnt++; } custom_item = cJSON_GetObjectItem(item, "item_id"); if (custom_item != NULL && custom_item->type == cJSON_Number) { expr_schema->item_id_column = custom_item->valueint; read_cnt++; } custom_item = cJSON_GetObjectItem(item, "group_id"); if (custom_item != NULL && custom_item->type == cJSON_Number) { expr_schema->group_id_column = custom_item->valueint; read_cnt++; } custom_item = cJSON_GetObjectItem(item, "keywords"); if (custom_item != NULL && custom_item->type == cJSON_Number) { expr_schema->keywords_column = custom_item->valueint; read_cnt++; } /* expr_plus has district */ custom_item = cJSON_GetObjectItem(item, "district"); if (custom_item != NULL && custom_item->type == cJSON_Number) { expr_schema->district_column = custom_item->valueint; } custom_item = cJSON_GetObjectItem(item, "expr_type"); if (custom_item != NULL && custom_item->type == cJSON_Number) { expr_schema->expr_type_column = custom_item->valueint; read_cnt++; } custom_item = cJSON_GetObjectItem(item, "match_method"); if (custom_item != NULL && custom_item->type == cJSON_Number) { expr_schema->match_method_column = custom_item->valueint; read_cnt++; } custom_item = cJSON_GetObjectItem(item, "is_hexbin"); if (custom_item != NULL && custom_item->type == cJSON_Number) { expr_schema->is_hexbin_column = custom_item->valueint; read_cnt++; } expr_schema->ref_tbl_mgr = tbl_mgr; if (read_cnt < 9) { goto error; } return expr_schema; error: FREE(expr_schema); return NULL; } void expr_schema_free(void *expr_schema) { FREE(expr_schema); } void expr_rule_free(struct hs_expr *expr_rule) { if (NULL == expr_rule) { return; } for (size_t i = 0; i < expr_rule->n_patterns; i++) { FREE(expr_rule->patterns[i].pat); } FREE(expr_rule); } void expr_ex_data_free(void *user_ctx, void *data) { struct hs_expr *expr_rule = (struct hs_expr *)data; expr_rule_free(expr_rule); } void *expr_runtime_new(void *expr_schema, int max_thread_num, struct maat_garbage_bin *garbage_bin, struct log_handle *logger) { if (NULL == expr_schema) { return NULL; } struct expr_schema *schema = (struct expr_schema *)expr_schema; struct expr_runtime *expr_rt = ALLOC(struct expr_runtime, 1); expr_rt->htable = rcu_hash_new(expr_ex_data_free); expr_rt->item_htable = rcu_hash_new(maat_item_free); expr_rt->scan_mode = schema->scan_mode; expr_rt->pattern_type = schema->pattern_type; expr_rt->n_worker_thread = max_thread_num; expr_rt->ref_garbage_bin = garbage_bin; expr_rt->logger = logger; expr_rt->hit_cnt = alignment_int64_array_alloc(max_thread_num); expr_rt->scan_cnt = alignment_int64_array_alloc(max_thread_num); return expr_rt; } void expr_runtime_free(void *expr_runtime) { if (NULL == expr_runtime) { return; } struct expr_runtime *expr_rt = (struct expr_runtime *)expr_runtime; if (expr_rt->hs != NULL) { adapter_hs_destroy(expr_rt->hs); expr_rt->hs = NULL; } if (expr_rt->hs_stream != NULL) { adapter_hs_stream_close(expr_rt->hs_stream); expr_rt->hs_stream = NULL; } if (expr_rt->htable != NULL) { rcu_hash_free(expr_rt->htable); expr_rt->htable = NULL; } if (expr_rt->item_htable != NULL) { rcu_hash_free(expr_rt->item_htable); expr_rt->item_htable = NULL; } if (expr_rt->hit_cnt != NULL) { alignment_int64_array_free(expr_rt->hit_cnt); expr_rt->hit_cnt = NULL; } if (expr_rt->scan_cnt != NULL) { alignment_int64_array_free(expr_rt->scan_cnt); expr_rt->scan_cnt = NULL; } FREE(expr_rt); } int expr_runtime_update_row(struct expr_runtime *expr_rt, char *key, size_t key_len, long long item_id, struct hs_expr *expr_rule, int is_valid) { void *data = NULL; if (0 == is_valid) { //delete data = rcu_hash_find(expr_rt->htable, key, key_len); if (NULL == data) { data = rcu_hash_updating_find(expr_rt->htable, key, key_len); if (NULL == data) { log_error(expr_rt->logger, MODULE_EXPR, "[%s:%d] the key of expr rule(rule_id:%lld) not exist, can't be deleted from expr runtime htable", __FUNCTION__, __LINE__, item_id); return -1; } } rcu_hash_del(expr_rt->htable, key, key_len); } else { //add data = rcu_hash_find(expr_rt->htable, key, key_len); if (data != NULL) { log_error(expr_rt->logger, MODULE_EXPR, "[%s:%d] the key of expr rule(rule_id:%lld) already exist, can't be added to expr runtime htable", __FUNCTION__, __LINE__, item_id); return -1; } data = rcu_hash_updating_find(expr_rt->htable, key, key_len); if (data != NULL) { log_error(expr_rt->logger, MODULE_EXPR, "[%s:%d] the key of expr rule(rule_id:%lld) already exist, can't be added to expr runtime htable", __FUNCTION__, __LINE__, item_id); return -1; } rcu_hash_add(expr_rt->htable, key, key_len, (void *)expr_rule); } return 0; } enum hs_pattern_type expr_type2pattern_type(enum expr_type expr_type) { enum hs_pattern_type pattern_type = HS_PATTERN_TYPE_MAX; switch (expr_type) { case EXPR_TYPE_STRING: case EXPR_TYPE_AND: case EXPR_TYPE_OFFSET: pattern_type = HS_PATTERN_TYPE_STR; break; case EXPR_TYPE_REGEX: pattern_type = HS_PATTERN_TYPE_REG; break; default: break; } return pattern_type; } static int convertHextoint(char srctmp) { if (isdigit(srctmp)) { return srctmp - '0'; } else { char temp = toupper(srctmp); temp = temp - 'A' + 10; return temp; } } static size_t hex2bin(char *hex, int hex_len, char *binary, size_t size) { size_t resultlen = 0; int high,low; for (int i = 0; i < hex_len && size > resultlen; i += 2, resultlen++) { high = convertHextoint(hex[i]); low = convertHextoint(hex[i+1]); binary[resultlen] = high * 16 + low; } size = resultlen; binary[resultlen] = '\0'; return resultlen; } #define MAAT_MAX_EXPR_ITEM_NUM 8 struct hs_expr *expr_item_to_expr_rule(struct expr_item *expr_item, void *user_data, struct log_handle *logger) { size_t i = 0; size_t sub_expr_cnt = 0; char *pos = NULL; char *tmp = NULL; char *saveptr = NULL; char *sub_key_array[MAAT_MAX_EXPR_ITEM_NUM]; int key_left_offset[MAAT_MAX_EXPR_ITEM_NUM]; int key_right_offset[MAAT_MAX_EXPR_ITEM_NUM]; /* -1 means offset no limit, As long as the pattern appears in the scan data, it will hit */ memset(key_left_offset, -1, sizeof(key_left_offset)); memset(key_right_offset, -1, sizeof(key_right_offset)); struct hs_expr *expr_rule = ALLOC(struct hs_expr, 1); switch (expr_item->expr_type) { case EXPR_TYPE_AND: case EXPR_TYPE_REGEX: for (i = 0, pos = expr_item->keywords; ; i++, pos = NULL) { tmp = strtok_r_esc(pos, '&', &saveptr); if (NULL == tmp) { break; } if (i >= MAAT_MAX_EXPR_ITEM_NUM) { log_error(logger, MODULE_EXPR, "[%s:%d] expr item_id:%d too many patterns", __FUNCTION__, __LINE__, expr_item->item_id); return NULL; } sub_key_array[i] = tmp; if (expr_item->expr_type == EXPR_TYPE_REGEX) { sub_key_array[i] = str_unescape_and(sub_key_array[i]); } else { sub_key_array[i] = str_unescape(sub_key_array[i]); } } sub_expr_cnt = i; break; case EXPR_TYPE_OFFSET: for (i = 0, pos = expr_item->keywords; ; i++, pos = NULL) { tmp = strtok_r_esc(pos, '&', &saveptr); if (NULL == tmp) { break; } if (i >= MAAT_MAX_EXPR_ITEM_NUM) { log_error(logger, MODULE_EXPR, "[%s:%d] expr item_id:%d too many patterns", __FUNCTION__, __LINE__, expr_item->item_id); return NULL; } sub_key_array[i] = tmp; sscanf(sub_key_array[i], "%d-%d:", &(key_left_offset[i]),&(key_right_offset[i])); if (!(key_left_offset[i] >= 0 && key_right_offset[i] > 0 && key_left_offset[i] <= key_right_offset[i])) { log_error(logger, MODULE_EXPR, "[%s:%d] expr item:%d has invalid offset.", __FUNCTION__, __LINE__, expr_item->item_id); return NULL; } sub_key_array[i] = (char *)memchr(sub_key_array[i], ':', strlen(sub_key_array[i])); if (NULL == sub_key_array[i]) { log_error(logger, MODULE_EXPR, "[%s:%d] expr item:%d has invalid offset keyword format.", __FUNCTION__, __LINE__, expr_item->item_id); return NULL; } sub_key_array[i]++;//jump over ':' sub_key_array[i] = str_unescape(sub_key_array[i]); } sub_expr_cnt = i; break; case EXPR_TYPE_STRING: sub_expr_cnt = 1; sub_key_array[0] = expr_item->keywords; sub_key_array[0] = str_unescape(sub_key_array[0]); break; default: break; } size_t region_str_len = 0; char *region_string = NULL; size_t sub_key_len = 0; for (i = 0; i < sub_expr_cnt; i++) { if (FALSE == expr_item->is_case_sensitive) { // insensitive expr_rule->patterns[i].case_sensitive = HS_CASE_INSESITIVE; } enum hs_pattern_type pattern_type = expr_type2pattern_type(expr_item->expr_type); if (TRUE == expr_item->is_hexbin && pattern_type != HS_PATTERN_TYPE_REG) { region_str_len = strlen(sub_key_array[i]) + 1; region_string = ALLOC(char, region_str_len); region_str_len = hex2bin(sub_key_array[i], strlen(sub_key_array[i]), region_string, region_str_len); } if (region_string != NULL) { expr_rule->patterns[i].pat = ALLOC(char, region_str_len); memcpy(expr_rule->patterns[i].pat, region_string, region_str_len); expr_rule->patterns[i].pat_len = region_str_len; FREE(region_string); } else { sub_key_len = strlen(sub_key_array[i]); expr_rule->patterns[i].pat = ALLOC(char, sub_key_len); memcpy(expr_rule->patterns[i].pat, sub_key_array[i], sub_key_len); expr_rule->patterns[i].pat_len = sub_key_len; } expr_rule->patterns[i].match_mode = expr_item->match_mode; if (expr_rule->patterns[i].match_mode == HS_MATCH_MODE_SUB) { expr_rule->patterns[i].l_offset = key_left_offset[i]; expr_rule->patterns[i].r_offset = key_right_offset[i]; } } expr_rule->expr_id = expr_item->item_id; expr_rule->user_tag = user_data; expr_rule->n_patterns = sub_expr_cnt; //mytest // printf("expr_rule->expr_id:%u\n", expr_rule->expr_id); // printf("expr_rule->n_patterns:%zu\n", expr_rule->n_patterns); // for (size_t i = 0; i < expr_rule->n_patterns; i++) { // printf("expr_rule->patterns[%zu].pat:%s\n", i, expr_rule->patterns[i].pat); // printf("expr_rule->patterns[%zu].pat_len:%zu\n", i, expr_rule->patterns[i].pat_len); // printf("expr_rule->patterns[%zu].l_offset:%d\n", i, expr_rule->patterns[i].l_offset); // printf("expr_rule->patterns[%zu].r_offset:%d\n", i, expr_rule->patterns[i].r_offset); // } return expr_rule; } int expr_runtime_update(void *expr_runtime, void *expr_schema, const char *line, int valid_column) { if (NULL == expr_runtime || NULL == expr_schema || NULL == line) { return -1; } int ret = -1; struct maat_item_inner *u_para = NULL; struct maat_item *item = NULL; struct hs_expr *expr_rule = NULL; struct expr_schema *schema = (struct expr_schema *)expr_schema; struct expr_runtime *expr_rt = (struct expr_runtime *)expr_runtime; long long item_id = get_column_value(line, schema->item_id_column); if (item_id < 0) { return -1; } int is_valid = get_column_value(line, valid_column); //printf(" item_id:%lld is_valid:%d\n", item_id, is_valid); if (is_valid < 0) { return -1; } else if (0 == is_valid) { //delete item = (struct maat_item *)rcu_hash_find(expr_rt->item_htable, (char *)&item_id, sizeof(item_id)); if (NULL == item) { item = (struct maat_item *)rcu_hash_updating_find(expr_rt->item_htable, (char *)&item_id, sizeof(item_id)); if (NULL == item) { return -1; } } rcu_hash_del(expr_rt->item_htable, (char *)&item_id, sizeof(item_id)); } else { //add item = (struct maat_item *)rcu_hash_find(expr_rt->item_htable, (char *)&item_id, sizeof(item_id)); if (item) { log_error(expr_rt->logger, MODULE_EXPR, "[%s:%d] expr runtime add item(item_id:%lld) to item_htable failed, already exist", __FUNCTION__, __LINE__, item_id); return -1; } item = (struct maat_item *)rcu_hash_updating_find(expr_rt->item_htable, (char *)&item_id, sizeof(item_id)); if (item) { log_error(expr_rt->logger, MODULE_EXPR, "[%s:%d] expr runtime add item(item_id:%lld) to item_htable failed, already exist", __FUNCTION__, __LINE__, item_id); return -1; } struct expr_item *expr_item = expr_item_new(line, schema, expr_rt->logger); if (NULL == expr_item) { return -1; } u_para = maat_item_inner_new(expr_item->group_id, item_id, expr_item->district_id); item = maat_item_new(item_id, expr_item->group_id, u_para, maat_item_inner_free); rcu_hash_add(expr_rt->item_htable, (char *)&item_id, sizeof(item_id), item); expr_rule = expr_item_to_expr_rule(expr_item, u_para, expr_rt->logger); expr_item_free(expr_item); if (NULL == expr_rule) { log_error(expr_rt->logger, MODULE_EXPR, "[%s:%d] transform expr table(table_id:%d) item(item_id:%lld) to expr_rule failed", __FUNCTION__, __LINE__, schema->table_id, item_id); return -1; } } char *key = (char *)&item_id; ret = expr_runtime_update_row(expr_rt, key, sizeof(item_id), item_id, expr_rule, is_valid); if (ret < 0) { if (expr_rule != NULL) { expr_rule_free(expr_rule); } return -1; } return 0; } int expr_runtime_commit(void *expr_runtime, const char *table_name) { if (NULL == expr_runtime) { return -1; } struct expr_runtime *expr_rt = (struct expr_runtime *)expr_runtime; int updating_flag = rcu_hash_is_updating(expr_rt->htable); if (0 == updating_flag) { return 0; } rcu_hash_commit(expr_rt->htable); struct hs_expr *rules = NULL; void **ex_data_array = NULL; size_t rule_cnt = rcu_hash_list(expr_rt->htable, &ex_data_array); //printf("rcu_hash_commit rule_cnt:%zu\n", rule_cnt); if (rule_cnt > 0) { rules = ALLOC(struct hs_expr, rule_cnt); for (size_t i = 0; i < rule_cnt; i++) { rules[i] = *(struct hs_expr *)ex_data_array[i]; //printf("expr_id:%lld\n", rules[i].expr_id); // for (size_t j = 0; j < rules[i].n_patterns; j++) { // printf("rules[%zu].patterns[%zu]:%s\n", i, j, rules[i].patterns[j].pat); // } } } log_info(expr_rt->logger, MODULE_EXPR, "table[%s] committing %zu expr rules for rebuilding adapter_hs engine", table_name, rule_cnt); int ret = 0; struct adapter_hs *new_adapter_hs = NULL; struct adapter_hs *old_adapter_hs = NULL; new_adapter_hs = adapter_hs_initialize(expr_rt->scan_mode, expr_rt->pattern_type, expr_rt->n_worker_thread, rules, rule_cnt, expr_rt->logger); if (NULL == new_adapter_hs) { log_error(expr_rt->logger, MODULE_EXPR, "[%s:%d] table[%s] rebuild adapter_hs engine failed when update %zu expr rules", __FUNCTION__, __LINE__, table_name, rule_cnt); ret = -1; } old_adapter_hs = expr_rt->hs; expr_rt->hs = new_adapter_hs; if (old_adapter_hs != NULL) { maat_garbage_bagging(expr_rt->ref_garbage_bin, old_adapter_hs, (void (*)(void*))adapter_hs_destroy); } rcu_hash_commit(expr_rt->item_htable); expr_rt->rule_num = rule_cnt; if (rules != NULL) { FREE(rules); } if (ex_data_array != NULL) { FREE(ex_data_array); } return ret; } int expr_runtime_scan(struct expr_runtime *expr_rt, int thread_id, const char *data, size_t data_len, int vtable_id, struct maat_state *state) { if (0 == expr_rt->rule_num) { //empty expr table return 0; } size_t n_hit_item = 0; struct hs_scan_result hit_results[MAX_SCANNER_HIT_ITEM_NUM] = {0}; int ret = adapter_hs_scan(expr_rt->hs, thread_id, data, data_len, hit_results, MAX_SCANNER_HIT_ITEM_NUM, &n_hit_item); if (ret < 0) { return -1; } if (0 == n_hit_item) { return 0; } if (n_hit_item > MAX_SCANNER_HIT_ITEM_NUM) { log_info(expr_rt->logger, MODULE_EXPR, "hit expr item count:%d exceed maxium:%d", n_hit_item, MAX_SCANNER_HIT_ITEM_NUM); n_hit_item = MAX_SCANNER_HIT_ITEM_NUM; } long long hit_item_ids[MAX_SCANNER_HIT_ITEM_NUM]; struct maat_item_inner *item = NULL; int real_hit_item_cnt = 0; long long district_id = state->district_id; memset(hit_item_ids, 0, sizeof(hit_item_ids)); for (size_t i = 0; i < n_hit_item; i++) { item = (struct maat_item_inner *)(hit_results[i].user_tag); if (item->district_id == district_id || item->district_id == DISTRICT_ANY) { hit_item_ids[real_hit_item_cnt++] = hit_results[i].item_id; } } size_t group_hit_cnt = 0; ret = maat_compile_state_update(expr_rt->item_htable, vtable_id, hit_item_ids, real_hit_item_cnt, &group_hit_cnt, state); if (ret < 0) { return -1; } return group_hit_cnt; } int expr_runtime_stream_open(struct expr_runtime *expr_rt, int thread_id) { if (NULL == expr_rt || thread_id < 0) { return -1; } struct adapter_hs_stream *hs_stream = adapter_hs_stream_open(expr_rt->hs, thread_id); if (NULL == hs_stream) { return -1; } expr_rt->hs_stream = hs_stream; return 0; } int expr_runtime_stream_scan(struct expr_runtime *expr_rt, const char *data, size_t data_len, int vtable_id, struct maat_state *state) { if (0 == expr_rt->rule_num) { //empty expr table return 0; } size_t n_hit_item = 0; struct hs_scan_result hit_results[MAX_SCANNER_HIT_ITEM_NUM] = {0}; int ret = adapter_hs_scan_stream(expr_rt->hs_stream, data, data_len, hit_results, MAX_SCANNER_HIT_ITEM_NUM, &n_hit_item); if (ret < 0) { return -1; } if (0 == n_hit_item) { return 0; } if (n_hit_item > MAX_SCANNER_HIT_ITEM_NUM) { log_info(expr_rt->logger, MODULE_EXPR, "hit expr item count:%d exceed maxium:%d", n_hit_item, MAX_SCANNER_HIT_ITEM_NUM); n_hit_item = MAX_SCANNER_HIT_ITEM_NUM; } long long hit_item_ids[MAX_SCANNER_HIT_ITEM_NUM]; memset(hit_item_ids, 0, sizeof(hit_item_ids)); for (size_t i = 0; i < n_hit_item; i++) { hit_item_ids[i] = hit_results[i].item_id; } size_t group_hit_cnt = 0; ret = maat_compile_state_update(expr_rt->item_htable, vtable_id, hit_item_ids, n_hit_item, &group_hit_cnt, state); if (ret < 0) { return -1; } return group_hit_cnt; } void expr_runtime_stream_close(struct expr_runtime *expr_rt) { if (expr_rt != NULL) { adapter_hs_stream_close(expr_rt->hs_stream); expr_rt->hs_stream = NULL; } } void expr_runtime_scan_hit_inc(struct expr_runtime *expr_rt, int thread_id) { alignment_int64_array_add(expr_rt->hit_cnt, thread_id, 1); } long long expr_runtime_scan_hit_sum(struct expr_runtime *expr_rt, int n_thread) { return alignment_int64_array_sum(expr_rt->hit_cnt, n_thread); }