/* Simple HLR/VLR database backend using dbi */ /* (C) 2008 by Jan Luebbe * (C) 2009 by Holger Hans Peter Freyther * (C) 2009 by Harald Welte * All Rights Reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * 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 Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Semi-Private-Interface (SPI) for the subscriber code */ void subscr_direct_free(struct gsm_subscriber *subscr); static char *db_basename = NULL; static char *db_dirname = NULL; static dbi_conn conn; #define SCHEMA_REVISION "4" enum { SCHEMA_META, INSERT_META, SCHEMA_SUBSCRIBER, SCHEMA_AUTH, SCHEMA_EQUIPMENT, SCHEMA_EQUIPMENT_WATCH, SCHEMA_SMS, SCHEMA_VLR, SCHEMA_APDU, SCHEMA_COUNTERS, SCHEMA_RATE, SCHEMA_AUTHKEY, SCHEMA_AUTHLAST, }; static const char *create_stmts[] = { [SCHEMA_META] = "CREATE TABLE IF NOT EXISTS Meta (" "id INTEGER PRIMARY KEY AUTOINCREMENT, " "key TEXT UNIQUE NOT NULL, " "value TEXT NOT NULL" ")", [INSERT_META] = "INSERT OR IGNORE INTO Meta " "(key, value) " "VALUES " "('revision', " SCHEMA_REVISION ")", [SCHEMA_SUBSCRIBER] = "CREATE TABLE IF NOT EXISTS Subscriber (" "id INTEGER PRIMARY KEY AUTOINCREMENT, " "created TIMESTAMP NOT NULL, " "updated TIMESTAMP NOT NULL, " "imsi NUMERIC UNIQUE NOT NULL, " "name TEXT, " "extension TEXT UNIQUE, " "authorized INTEGER NOT NULL DEFAULT 0, " "tmsi TEXT UNIQUE, " "lac INTEGER NOT NULL DEFAULT 0, " "expire_lu TIMESTAMP DEFAULT NULL" ")", [SCHEMA_AUTH] = "CREATE TABLE IF NOT EXISTS AuthToken (" "id INTEGER PRIMARY KEY AUTOINCREMENT, " "subscriber_id INTEGER UNIQUE NOT NULL, " "created TIMESTAMP NOT NULL, " "token TEXT UNIQUE NOT NULL" ")", [SCHEMA_EQUIPMENT] = "CREATE TABLE IF NOT EXISTS Equipment (" "id INTEGER PRIMARY KEY AUTOINCREMENT, " "created TIMESTAMP NOT NULL, " "updated TIMESTAMP NOT NULL, " "name TEXT, " "classmark1 NUMERIC, " "classmark2 BLOB, " "classmark3 BLOB, " "imei NUMERIC UNIQUE NOT NULL" ")", [SCHEMA_EQUIPMENT_WATCH] = "CREATE TABLE IF NOT EXISTS EquipmentWatch (" "id INTEGER PRIMARY KEY AUTOINCREMENT, " "created TIMESTAMP NOT NULL, " "updated TIMESTAMP NOT NULL, " "subscriber_id NUMERIC NOT NULL, " "equipment_id NUMERIC NOT NULL, " "UNIQUE (subscriber_id, equipment_id) " ")", [SCHEMA_SMS] = "CREATE TABLE IF NOT EXISTS SMS (" /* metadata, not part of sms */ "id INTEGER PRIMARY KEY AUTOINCREMENT, " "created TIMESTAMP NOT NULL, " "sent TIMESTAMP, " "deliver_attempts INTEGER NOT NULL DEFAULT 0, " /* data directly copied/derived from SMS */ "valid_until TIMESTAMP, " "reply_path_req INTEGER NOT NULL, " "status_rep_req INTEGER NOT NULL, " "protocol_id INTEGER NOT NULL, " "data_coding_scheme INTEGER NOT NULL, " "ud_hdr_ind INTEGER NOT NULL, " "src_addr TEXT NOT NULL, " "src_ton INTEGER NOT NULL, " "src_npi INTEGER NOT NULL, " "dest_addr TEXT NOT NULL, " "dest_ton INTEGER NOT NULL, " "dest_npi INTEGER NOT NULL, " "user_data BLOB, " /* TP-UD */ /* additional data, interpreted from SMS */ "header BLOB, " /* UD Header */ "text TEXT " /* decoded UD after UDH */ ")", [SCHEMA_VLR] = "CREATE TABLE IF NOT EXISTS VLR (" "id INTEGER PRIMARY KEY AUTOINCREMENT, " "created TIMESTAMP NOT NULL, " "updated TIMESTAMP NOT NULL, " "subscriber_id NUMERIC UNIQUE NOT NULL, " "last_bts NUMERIC NOT NULL " ")", [SCHEMA_APDU] = "CREATE TABLE IF NOT EXISTS ApduBlobs (" "id INTEGER PRIMARY KEY AUTOINCREMENT, " "created TIMESTAMP NOT NULL, " "apdu_id_flags INTEGER NOT NULL, " "subscriber_id INTEGER NOT NULL, " "apdu BLOB " ")", [SCHEMA_COUNTERS] = "CREATE TABLE IF NOT EXISTS Counters (" "id INTEGER PRIMARY KEY AUTOINCREMENT, " "timestamp TIMESTAMP NOT NULL, " "value INTEGER NOT NULL, " "name TEXT NOT NULL " ")", [SCHEMA_RATE] = "CREATE TABLE IF NOT EXISTS RateCounters (" "id INTEGER PRIMARY KEY AUTOINCREMENT, " "timestamp TIMESTAMP NOT NULL, " "value INTEGER NOT NULL, " "name TEXT NOT NULL, " "idx INTEGER NOT NULL " ")", [SCHEMA_AUTHKEY] = "CREATE TABLE IF NOT EXISTS AuthKeys (" "subscriber_id INTEGER PRIMARY KEY, " "algorithm_id INTEGER NOT NULL, " "a3a8_ki BLOB " ")", [SCHEMA_AUTHLAST] = "CREATE TABLE IF NOT EXISTS AuthLastTuples (" "subscriber_id INTEGER PRIMARY KEY, " "issued TIMESTAMP NOT NULL, " "use_count INTEGER NOT NULL DEFAULT 0, " "key_seq INTEGER NOT NULL, " "rand BLOB NOT NULL, " "sres BLOB NOT NULL, " "kc BLOB NOT NULL " ")", }; void db_error_func(dbi_conn conn, void *data) { const char *msg; dbi_conn_error(conn, &msg); LOGP(DDB, LOGL_ERROR, "DBI: %s\n", msg); osmo_log_backtrace(DDB, LOGL_ERROR); } static int update_db_revision_2(void) { dbi_result result; result = dbi_conn_query(conn, "ALTER TABLE Subscriber " "ADD COLUMN expire_lu " "TIMESTAMP DEFAULT NULL"); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to alter table Subscriber (upgrade from rev 2).\n"); return -EINVAL; } dbi_result_free(result); result = dbi_conn_query(conn, "UPDATE Meta " "SET value = '3' " "WHERE key = 'revision'"); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to update DB schema revision (upgrade from rev 2).\n"); return -EINVAL; } dbi_result_free(result); return 0; } /** * Copied from the normal sms_from_result_v3 to avoid having * to make sure that the real routine will remain backward * compatible. */ static struct gsm_sms *sms_from_result_v3(dbi_result result) { struct gsm_sms *sms = sms_alloc(); long long unsigned int sender_id; struct gsm_subscriber *sender; const char *text, *daddr; const unsigned char *user_data; char buf[32]; if (!sms) return NULL; sms->id = dbi_result_get_ulonglong(result, "id"); sender_id = dbi_result_get_ulonglong(result, "sender_id"); snprintf(buf, sizeof(buf), "%llu", sender_id); sender = db_get_subscriber(GSM_SUBSCRIBER_ID, buf); OSMO_ASSERT(sender); strncpy(sms->src.addr, sender->extension, sizeof(sms->src.addr)-1); subscr_direct_free(sender); sender = NULL; sms->reply_path_req = dbi_result_get_ulonglong(result, "reply_path_req"); sms->status_rep_req = dbi_result_get_ulonglong(result, "status_rep_req"); sms->ud_hdr_ind = dbi_result_get_ulonglong(result, "ud_hdr_ind"); sms->protocol_id = dbi_result_get_ulonglong(result, "protocol_id"); sms->data_coding_scheme = dbi_result_get_ulonglong(result, "data_coding_scheme"); daddr = dbi_result_get_string(result, "dest_addr"); if (daddr) { strncpy(sms->dst.addr, daddr, sizeof(sms->dst.addr)); sms->dst.addr[sizeof(sms->dst.addr)-1] = '\0'; } sms->user_data_len = dbi_result_get_field_length(result, "user_data"); user_data = dbi_result_get_binary(result, "user_data"); if (sms->user_data_len > sizeof(sms->user_data)) sms->user_data_len = (uint8_t) sizeof(sms->user_data); memcpy(sms->user_data, user_data, sms->user_data_len); text = dbi_result_get_string(result, "text"); if (text) { strncpy(sms->text, text, sizeof(sms->text)); sms->text[sizeof(sms->text)-1] = '\0'; } return sms; } static int update_db_revision_3(void) { dbi_result result; struct gsm_sms *sms; LOGP(DDB, LOGL_NOTICE, "Going to migrate from revision 3\n"); result = dbi_conn_query(conn, "BEGIN EXCLUSIVE TRANSACTION"); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to begin transaction (upgrade from rev 3)\n"); return -EINVAL; } dbi_result_free(result); /* Rename old SMS table to be able create a new one */ result = dbi_conn_query(conn, "ALTER TABLE SMS RENAME TO SMS_3"); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to rename the old SMS table (upgrade from rev 3).\n"); goto rollback; } dbi_result_free(result); /* Create new SMS table with all the bells and whistles! */ result = dbi_conn_query(conn, create_stmts[SCHEMA_SMS]); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to create a new SMS table (upgrade from rev 3).\n"); goto rollback; } dbi_result_free(result); /* Cycle through old messages and convert them to the new format */ result = dbi_conn_query(conn, "SELECT * FROM SMS_3"); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed fetch messages from the old SMS table (upgrade from rev 3).\n"); goto rollback; } while (dbi_result_next_row(result)) { sms = sms_from_result_v3(result); if (db_sms_store(sms) != 0) { LOGP(DDB, LOGL_ERROR, "Failed to store message to the new SMS table(upgrade from rev 3).\n"); sms_free(sms); dbi_result_free(result); goto rollback; } sms_free(sms); } dbi_result_free(result); /* Remove the temporary table */ result = dbi_conn_query(conn, "DROP TABLE SMS_3"); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to drop the old SMS table (upgrade from rev 3).\n"); goto rollback; } dbi_result_free(result); /* We're done. Bump DB Meta revision to 4 */ result = dbi_conn_query(conn, "UPDATE Meta " "SET value = '4' " "WHERE key = 'revision'"); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to update DB schema revision (upgrade from rev 3).\n"); goto rollback; } dbi_result_free(result); result = dbi_conn_query(conn, "COMMIT TRANSACTION"); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to commit the transaction (upgrade from rev 3)\n"); return -EINVAL; } /* Shrink DB file size by actually wiping out SMS_3 table data */ result = dbi_conn_query(conn, "VACUUM"); if (!result) LOGP(DDB, LOGL_ERROR, "VACUUM failed. Ignoring it (upgrade from rev 3).\n"); else dbi_result_free(result); return 0; rollback: result = dbi_conn_query(conn, "ROLLBACK TRANSACTION"); if (!result) LOGP(DDB, LOGL_ERROR, "Rollback failed (upgrade from rev 3).\n"); else dbi_result_free(result); return -EINVAL; } static int check_db_revision(void) { dbi_result result; const char *rev_s; int db_rev = 0; /* Make a query */ result = dbi_conn_query(conn, "SELECT value FROM Meta " "WHERE key = 'revision'"); if (!result) return -EINVAL; if (!dbi_result_next_row(result)) { dbi_result_free(result); return -EINVAL; } /* Fetch the DB schema revision */ rev_s = dbi_result_get_string(result, "value"); if (!rev_s) { dbi_result_free(result); return -EINVAL; } if (!strcmp(rev_s, SCHEMA_REVISION)) { /* Everything is fine */ dbi_result_free(result); return 0; } db_rev = atoi(rev_s); dbi_result_free(result); /* Incremental migration waterfall */ switch (db_rev) { case 2: if (update_db_revision_2()) goto error; case 3: if (update_db_revision_3()) goto error; /* The end of waterfall */ break; default: LOGP(DDB, LOGL_FATAL, "Invalid database schema revision '%d'.\n", db_rev); return -EINVAL; } return 0; error: LOGP(DDB, LOGL_FATAL, "Failed to update database " "from schema revision '%d'.\n", db_rev); return -EINVAL; } static int db_configure(void) { dbi_result result; result = dbi_conn_query(conn, "PRAGMA synchronous = FULL"); if (!result) return -EINVAL; dbi_result_free(result); return 0; } int db_init(const char *name) { dbi_initialize(NULL); conn = dbi_conn_new("sqlite3"); if (conn == NULL) { LOGP(DDB, LOGL_FATAL, "Failed to create connection.\n"); return 1; } dbi_conn_error_handler( conn, db_error_func, NULL ); /* MySQL dbi_conn_set_option(conn, "host", "localhost"); dbi_conn_set_option(conn, "username", "your_name"); dbi_conn_set_option(conn, "password", "your_password"); dbi_conn_set_option(conn, "dbname", "your_dbname"); dbi_conn_set_option(conn, "encoding", "UTF-8"); */ /* SqLite 3 */ db_basename = strdup(name); db_dirname = strdup(name); dbi_conn_set_option(conn, "sqlite3_dbdir", dirname(db_dirname)); dbi_conn_set_option(conn, "dbname", basename(db_basename)); if (dbi_conn_connect(conn) < 0) goto out_err; return 0; out_err: free(db_dirname); free(db_basename); db_dirname = db_basename = NULL; return -1; } int db_prepare(void) { dbi_result result; int i; for (i = 0; i < ARRAY_SIZE(create_stmts); i++) { result = dbi_conn_query(conn, create_stmts[i]); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to create some table.\n"); return 1; } dbi_result_free(result); } if (check_db_revision() < 0) { LOGP(DDB, LOGL_FATAL, "Database schema revision invalid, " "please update your database schema\n"); return -1; } db_configure(); return 0; } int db_fini(void) { dbi_conn_close(conn); dbi_shutdown(); free(db_dirname); free(db_basename); return 0; } struct gsm_subscriber *db_create_subscriber(const char *imsi, uint64_t smin, uint64_t smax, bool alloc_exten) { dbi_result result; struct gsm_subscriber *subscr; /* Is this subscriber known in the db? */ subscr = db_get_subscriber(GSM_SUBSCRIBER_IMSI, imsi); if (subscr) { subscr_put(subscr); return NULL; } subscr = subscr_alloc(); if (!subscr) return NULL; subscr->flags |= GSM_SUBSCRIBER_FIRST_CONTACT; result = dbi_conn_queryf(conn, "INSERT INTO Subscriber " "(imsi, created, updated) " "VALUES " "(%s, datetime('now'), datetime('now')) ", imsi ); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to create Subscriber by IMSI.\n"); subscr_put(subscr); return NULL; } subscr->id = dbi_conn_sequence_last(conn, NULL); strncpy(subscr->imsi, imsi, sizeof(subscr->imsi)-1); dbi_result_free(result); LOGP(DDB, LOGL_INFO, "New Subscriber: ID %llu, IMSI %s\n", subscr->id, subscr->imsi); if (alloc_exten) db_subscriber_alloc_exten(subscr, smin, smax); return subscr; } osmo_static_assert(sizeof(unsigned char) == sizeof(struct gsm48_classmark1), classmark1_size); static int get_equipment_by_subscr(struct gsm_subscriber *subscr) { dbi_result result; const char *string; unsigned char cm1; const unsigned char *cm2, *cm3; struct gsm_equipment *equip = &subscr->equipment; result = dbi_conn_queryf(conn, "SELECT Equipment.* " "FROM Equipment JOIN EquipmentWatch ON " "EquipmentWatch.equipment_id=Equipment.id " "WHERE EquipmentWatch.subscriber_id = %llu " "ORDER BY EquipmentWatch.updated DESC", subscr->id); if (!result) return -EIO; if (!dbi_result_next_row(result)) { dbi_result_free(result); return -ENOENT; } equip->id = dbi_result_get_ulonglong(result, "id"); string = dbi_result_get_string(result, "imei"); if (string) strncpy(equip->imei, string, sizeof(equip->imei)-1); string = dbi_result_get_string(result, "classmark1"); if (string) { cm1 = atoi(string) & 0xff; memcpy(&equip->classmark1, &cm1, sizeof(equip->classmark1)); } equip->classmark2_len = dbi_result_get_field_length(result, "classmark2"); cm2 = dbi_result_get_binary(result, "classmark2"); if (equip->classmark2_len > sizeof(equip->classmark2)) equip->classmark2_len = sizeof(equip->classmark2); if (cm2) memcpy(equip->classmark2, cm2, equip->classmark2_len); equip->classmark3_len = dbi_result_get_field_length(result, "classmark3"); cm3 = dbi_result_get_binary(result, "classmark3"); if (equip->classmark3_len > sizeof(equip->classmark3)) equip->classmark3_len = sizeof(equip->classmark3); if (cm3) memcpy(equip->classmark3, cm3, equip->classmark3_len); dbi_result_free(result); return 0; } int db_get_authinfo_for_subscr(struct gsm_auth_info *ainfo, struct gsm_subscriber *subscr) { dbi_result result; const unsigned char *a3a8_ki; result = dbi_conn_queryf(conn, "SELECT * FROM AuthKeys WHERE subscriber_id=%llu", subscr->id); if (!result) return -EIO; if (!dbi_result_next_row(result)) { dbi_result_free(result); return -ENOENT; } ainfo->auth_algo = dbi_result_get_ulonglong(result, "algorithm_id"); ainfo->a3a8_ki_len = dbi_result_get_field_length(result, "a3a8_ki"); a3a8_ki = dbi_result_get_binary(result, "a3a8_ki"); if (ainfo->a3a8_ki_len > sizeof(ainfo->a3a8_ki)) ainfo->a3a8_ki_len = sizeof(ainfo->a3a8_ki); memcpy(ainfo->a3a8_ki, a3a8_ki, ainfo->a3a8_ki_len); dbi_result_free(result); return 0; } int db_sync_authinfo_for_subscr(struct gsm_auth_info *ainfo, struct gsm_subscriber *subscr) { dbi_result result; struct gsm_auth_info ainfo_old; int rc, upd; unsigned char *ki_str; /* Deletion ? */ if (ainfo == NULL) { result = dbi_conn_queryf(conn, "DELETE FROM AuthKeys WHERE subscriber_id=%llu", subscr->id); if (!result) return -EIO; dbi_result_free(result); return 0; } /* Check if already existing */ rc = db_get_authinfo_for_subscr(&ainfo_old, subscr); if (rc && rc != -ENOENT) return rc; upd = rc ? 0 : 1; /* Update / Insert */ dbi_conn_quote_binary_copy(conn, ainfo->a3a8_ki, ainfo->a3a8_ki_len, &ki_str); if (!upd) { result = dbi_conn_queryf(conn, "INSERT INTO AuthKeys " "(subscriber_id, algorithm_id, a3a8_ki) " "VALUES (%llu, %u, %s)", subscr->id, ainfo->auth_algo, ki_str); } else { result = dbi_conn_queryf(conn, "UPDATE AuthKeys " "SET algorithm_id=%u, a3a8_ki=%s " "WHERE subscriber_id=%llu", ainfo->auth_algo, ki_str, subscr->id); } free(ki_str); if (!result) return -EIO; dbi_result_free(result); return 0; } int db_get_lastauthtuple_for_subscr(struct gsm_auth_tuple *atuple, struct gsm_subscriber *subscr) { dbi_result result; int len; const unsigned char *blob; result = dbi_conn_queryf(conn, "SELECT * FROM AuthLastTuples WHERE subscriber_id=%llu", subscr->id); if (!result) return -EIO; if (!dbi_result_next_row(result)) { dbi_result_free(result); return -ENOENT; } memset(atuple, 0, sizeof(*atuple)); atuple->use_count = dbi_result_get_ulonglong(result, "use_count"); atuple->key_seq = dbi_result_get_ulonglong(result, "key_seq"); len = dbi_result_get_field_length(result, "rand"); if (len != sizeof(atuple->vec.rand)) goto err_size; blob = dbi_result_get_binary(result, "rand"); memcpy(atuple->vec.rand, blob, len); len = dbi_result_get_field_length(result, "sres"); if (len != sizeof(atuple->vec.sres)) goto err_size; blob = dbi_result_get_binary(result, "sres"); memcpy(atuple->vec.sres, blob, len); len = dbi_result_get_field_length(result, "kc"); if (len != sizeof(atuple->vec.kc)) goto err_size; blob = dbi_result_get_binary(result, "kc"); memcpy(atuple->vec.kc, blob, len); dbi_result_free(result); return 0; err_size: dbi_result_free(result); return -EIO; } int db_sync_lastauthtuple_for_subscr(struct gsm_auth_tuple *atuple, struct gsm_subscriber *subscr) { dbi_result result; int rc, upd; struct gsm_auth_tuple atuple_old; unsigned char *rand_str, *sres_str, *kc_str; /* Deletion ? */ if (atuple == NULL) { result = dbi_conn_queryf(conn, "DELETE FROM AuthLastTuples WHERE subscriber_id=%llu", subscr->id); if (!result) return -EIO; dbi_result_free(result); return 0; } /* Check if already existing */ rc = db_get_lastauthtuple_for_subscr(&atuple_old, subscr); if (rc && rc != -ENOENT) return rc; upd = rc ? 0 : 1; /* Update / Insert */ dbi_conn_quote_binary_copy(conn, atuple->vec.rand, sizeof(atuple->vec.rand), &rand_str); dbi_conn_quote_binary_copy(conn, atuple->vec.sres, sizeof(atuple->vec.sres), &sres_str); dbi_conn_quote_binary_copy(conn, atuple->vec.kc, sizeof(atuple->vec.kc), &kc_str); if (!upd) { result = dbi_conn_queryf(conn, "INSERT INTO AuthLastTuples " "(subscriber_id, issued, use_count, " "key_seq, rand, sres, kc) " "VALUES (%llu, datetime('now'), %u, " "%u, %s, %s, %s ) ", subscr->id, atuple->use_count, atuple->key_seq, rand_str, sres_str, kc_str); } else { char *issued = atuple->key_seq == atuple_old.key_seq ? "issued" : "datetime('now')"; result = dbi_conn_queryf(conn, "UPDATE AuthLastTuples " "SET issued=%s, use_count=%u, " "key_seq=%u, rand=%s, sres=%s, kc=%s " "WHERE subscriber_id = %llu", issued, atuple->use_count, atuple->key_seq, rand_str, sres_str, kc_str, subscr->id); } free(rand_str); free(sres_str); free(kc_str); if (!result) return -EIO; dbi_result_free(result); return 0; } static void db_set_from_query(struct gsm_subscriber *subscr, dbi_conn result) { const char *string; string = dbi_result_get_string(result, "imsi"); if (string) strncpy(subscr->imsi, string, sizeof(subscr->imsi)-1); string = dbi_result_get_string(result, "tmsi"); if (string) subscr->tmsi = tmsi_from_string(string); string = dbi_result_get_string(result, "name"); if (string) { strncpy(subscr->name, string, GSM_NAME_LENGTH); subscr->name[sizeof(subscr->name)-1] = '\0'; } string = dbi_result_get_string(result, "extension"); if (string) strncpy(subscr->extension, string, GSM_EXTENSION_LENGTH); subscr->lac = dbi_result_get_ulonglong(result, "lac"); if (!dbi_result_field_is_null(result, "expire_lu")) subscr->expire_lu = dbi_result_get_datetime(result, "expire_lu"); else subscr->expire_lu = GSM_SUBSCRIBER_NO_EXPIRATION; subscr->authorized = dbi_result_get_ulonglong(result, "authorized"); } #define BASE_QUERY "SELECT * FROM Subscriber " struct gsm_subscriber *db_get_subscriber(enum gsm_subscriber_field field, const char *id) { dbi_result result; char *quoted; struct gsm_subscriber *subscr; switch (field) { case GSM_SUBSCRIBER_IMSI: dbi_conn_quote_string_copy(conn, id, "ed); result = dbi_conn_queryf(conn, BASE_QUERY "WHERE imsi = %s ", quoted ); free(quoted); break; case GSM_SUBSCRIBER_TMSI: dbi_conn_quote_string_copy(conn, id, "ed); result = dbi_conn_queryf(conn, BASE_QUERY "WHERE tmsi = %s ", quoted ); free(quoted); break; case GSM_SUBSCRIBER_EXTENSION: dbi_conn_quote_string_copy(conn, id, "ed); result = dbi_conn_queryf(conn, BASE_QUERY "WHERE extension = %s ", quoted ); free(quoted); break; case GSM_SUBSCRIBER_ID: dbi_conn_quote_string_copy(conn, id, "ed); result = dbi_conn_queryf(conn, BASE_QUERY "WHERE id = %s ", quoted); free(quoted); break; default: LOGP(DDB, LOGL_NOTICE, "Unknown query selector for Subscriber.\n"); return NULL; } if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to query Subscriber.\n"); return NULL; } if (!dbi_result_next_row(result)) { DEBUGP(DDB, "Failed to find the Subscriber. '%u' '%s'\n", field, id); dbi_result_free(result); return NULL; } subscr = subscr_alloc(); subscr->id = dbi_result_get_ulonglong(result, "id"); db_set_from_query(subscr, result); DEBUGP(DDB, "Found Subscriber: ID %llu, IMSI %s, NAME '%s', TMSI %x, EXTEN '%s', LAC %hu, AUTH %u\n", subscr->id, subscr->imsi, subscr->name, subscr->tmsi, subscr->extension, subscr->lac, subscr->authorized); dbi_result_free(result); get_equipment_by_subscr(subscr); return subscr; } int db_subscriber_update(struct gsm_subscriber *subscr) { char buf[32]; dbi_result result; /* Copy the id to a string as queryf with %llu is failing */ sprintf(buf, "%llu", subscr->id); result = dbi_conn_queryf(conn, BASE_QUERY "WHERE id = %s", buf); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to query Subscriber: %llu\n", subscr->id); return -EIO; } if (!dbi_result_next_row(result)) { DEBUGP(DDB, "Failed to find the Subscriber. %llu\n", subscr->id); dbi_result_free(result); return -EIO; } db_set_from_query(subscr, result); dbi_result_free(result); get_equipment_by_subscr(subscr); return 0; } int db_sync_subscriber(struct gsm_subscriber *subscriber) { dbi_result result; char tmsi[14]; char *q_tmsi, *q_name, *q_extension; dbi_conn_quote_string_copy(conn, subscriber->name, &q_name); if (subscriber->extension[0] != '\0') dbi_conn_quote_string_copy(conn, subscriber->extension, &q_extension); else q_extension = strdup("NULL"); if (subscriber->tmsi != GSM_RESERVED_TMSI) { sprintf(tmsi, "%u", subscriber->tmsi); dbi_conn_quote_string_copy(conn, tmsi, &q_tmsi); } else q_tmsi = strdup("NULL"); if (subscriber->expire_lu == GSM_SUBSCRIBER_NO_EXPIRATION) { result = dbi_conn_queryf(conn, "UPDATE Subscriber " "SET updated = datetime('now'), " "name = %s, " "extension = %s, " "authorized = %i, " "tmsi = %s, " "lac = %i, " "expire_lu = NULL " "WHERE imsi = %s ", q_name, q_extension, subscriber->authorized, q_tmsi, subscriber->lac, subscriber->imsi); } else { result = dbi_conn_queryf(conn, "UPDATE Subscriber " "SET updated = datetime('now'), " "name = %s, " "extension = %s, " "authorized = %i, " "tmsi = %s, " "lac = %i, " "expire_lu = datetime(%i, 'unixepoch') " "WHERE imsi = %s ", q_name, q_extension, subscriber->authorized, q_tmsi, subscriber->lac, (int) subscriber->expire_lu, subscriber->imsi); } free(q_tmsi); free(q_name); free(q_extension); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to update Subscriber (by IMSI).\n"); return 1; } dbi_result_free(result); return 0; } int db_subscriber_delete(struct gsm_subscriber *subscr) { dbi_result result; result = dbi_conn_queryf(conn, "DELETE FROM AuthKeys WHERE subscriber_id=%llu", subscr->id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to delete Authkeys for %llu\n", subscr->id); return -1; } dbi_result_free(result); result = dbi_conn_queryf(conn, "DELETE FROM AuthLastTuples WHERE subscriber_id=%llu", subscr->id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to delete AuthLastTuples for %llu\n", subscr->id); return -1; } dbi_result_free(result); result = dbi_conn_queryf(conn, "DELETE FROM AuthToken WHERE subscriber_id=%llu", subscr->id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to delete AuthToken for %llu\n", subscr->id); return -1; } dbi_result_free(result); result = dbi_conn_queryf(conn, "DELETE FROM EquipmentWatch WHERE subscriber_id=%llu", subscr->id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to delete EquipmentWatch for %llu\n", subscr->id); return -1; } dbi_result_free(result); if (subscr->extension[0] != '\0') { result = dbi_conn_queryf(conn, "DELETE FROM SMS WHERE src_addr=%s OR dest_addr=%s", subscr->extension, subscr->extension); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to delete SMS for %llu\n", subscr->id); return -1; } dbi_result_free(result); } result = dbi_conn_queryf(conn, "DELETE FROM VLR WHERE subscriber_id=%llu", subscr->id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to delete VLR for %llu\n", subscr->id); return -1; } dbi_result_free(result); result = dbi_conn_queryf(conn, "DELETE FROM ApduBlobs WHERE subscriber_id=%llu", subscr->id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to delete ApduBlobs for %llu\n", subscr->id); return -1; } dbi_result_free(result); result = dbi_conn_queryf(conn, "DELETE FROM Subscriber WHERE id=%llu", subscr->id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to delete Subscriber for %llu\n", subscr->id); return -1; } dbi_result_free(result); return 0; } /** * List all the authorized and non-expired subscribers. The callback will * be called one by one. The subscr argument is not fully initialize and * subscr_get/subscr_put must not be called. The passed in pointer will be * deleted after the callback by the database call. */ int db_subscriber_list_active(void (*cb)(struct gsm_subscriber*,void*), void *closure) { dbi_result result; result = dbi_conn_query(conn, "SELECT * from Subscriber WHERE LAC != 0 AND authorized = 1"); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to list active subscribers\n"); return -1; } while (dbi_result_next_row(result)) { struct gsm_subscriber *subscr; subscr = subscr_alloc(); subscr->id = dbi_result_get_ulonglong(result, "id"); db_set_from_query(subscr, result); cb(subscr, closure); OSMO_ASSERT(subscr->use_count == 1); llist_del(&subscr->entry); talloc_free(subscr); } dbi_result_free(result); return 0; } int db_sync_equipment(struct gsm_equipment *equip) { dbi_result result; unsigned char *cm2, *cm3; char *q_imei; uint8_t classmark1; memcpy(&classmark1, &equip->classmark1, sizeof(classmark1)); DEBUGP(DDB, "Sync Equipment IMEI=%s, classmark1=%02x", equip->imei, classmark1); if (equip->classmark2_len) DEBUGPC(DDB, ", classmark2=%s", osmo_hexdump(equip->classmark2, equip->classmark2_len)); if (equip->classmark3_len) DEBUGPC(DDB, ", classmark3=%s", osmo_hexdump(equip->classmark3, equip->classmark3_len)); DEBUGPC(DDB, "\n"); dbi_conn_quote_binary_copy(conn, equip->classmark2, equip->classmark2_len, &cm2); dbi_conn_quote_binary_copy(conn, equip->classmark3, equip->classmark3_len, &cm3); dbi_conn_quote_string_copy(conn, equip->imei, &q_imei); result = dbi_conn_queryf(conn, "UPDATE Equipment SET " "updated = datetime('now'), " "classmark1 = %u, " "classmark2 = %s, " "classmark3 = %s " "WHERE imei = %s ", classmark1, cm2, cm3, q_imei); free(cm2); free(cm3); free(q_imei); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to update Equipment\n"); return -EIO; } dbi_result_free(result); return 0; } int db_subscriber_expire(void *priv, void (*callback)(void *priv, long long unsigned int id)) { dbi_result result; result = dbi_conn_query(conn, "SELECT id " "FROM Subscriber " "WHERE lac != 0 AND " "( expire_lu is NOT NULL " "AND expire_lu < datetime('now') ) " "LIMIT 1"); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to get expired subscribers\n"); return -EIO; } while (dbi_result_next_row(result)) callback(priv, dbi_result_get_ulonglong(result, "id")); dbi_result_free(result); return 0; } int db_subscriber_alloc_tmsi(struct gsm_subscriber *subscriber) { dbi_result result = NULL; char tmsi[14]; char *tmsi_quoted; for (;;) { if (RAND_bytes((uint8_t *) &subscriber->tmsi, sizeof(subscriber->tmsi)) != 1) { LOGP(DDB, LOGL_ERROR, "RAND_bytes failed\n"); return 1; } if (subscriber->tmsi == GSM_RESERVED_TMSI) continue; sprintf(tmsi, "%u", subscriber->tmsi); dbi_conn_quote_string_copy(conn, tmsi, &tmsi_quoted); result = dbi_conn_queryf(conn, "SELECT * FROM Subscriber " "WHERE tmsi = %s ", tmsi_quoted); free(tmsi_quoted); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to query Subscriber " "while allocating new TMSI.\n"); return 1; } if (dbi_result_get_numrows(result)) { dbi_result_free(result); continue; } if (!dbi_result_next_row(result)) { dbi_result_free(result); DEBUGP(DDB, "Allocated TMSI %u for IMSI %s.\n", subscriber->tmsi, subscriber->imsi); return db_sync_subscriber(subscriber); } dbi_result_free(result); } return 0; } int db_subscriber_alloc_exten(struct gsm_subscriber *subscriber, uint64_t smin, uint64_t smax) { dbi_result result = NULL; uint32_t try; for (;;) { try = (rand() % (smax - smin + 1) + smin); result = dbi_conn_queryf(conn, "SELECT * FROM Subscriber " "WHERE extension = %i", try ); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to query Subscriber " "while allocating new extension.\n"); return 1; } if (dbi_result_get_numrows(result)){ dbi_result_free(result); continue; } if (!dbi_result_next_row(result)) { dbi_result_free(result); break; } dbi_result_free(result); } sprintf(subscriber->extension, "%i", try); DEBUGP(DDB, "Allocated extension %i for IMSI %s.\n", try, subscriber->imsi); return db_sync_subscriber(subscriber); } /* * try to allocate a new unique token for this subscriber and return it * via a parameter. if the subscriber already has a token, return * an error. */ int db_subscriber_alloc_token(struct gsm_subscriber *subscriber, uint32_t *token) { dbi_result result; uint32_t try; for (;;) { if (RAND_bytes((uint8_t *) &try, sizeof(try)) != 1) { LOGP(DDB, LOGL_ERROR, "RAND_bytes failed\n"); return 1; } if (!try) /* 0 is an invalid token */ continue; result = dbi_conn_queryf(conn, "SELECT * FROM AuthToken " "WHERE subscriber_id = %llu OR token = \"%08X\" ", subscriber->id, try); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to query AuthToken " "while allocating new token.\n"); return 1; } if (dbi_result_get_numrows(result)) { dbi_result_free(result); continue; } if (!dbi_result_next_row(result)) { dbi_result_free(result); break; } dbi_result_free(result); } result = dbi_conn_queryf(conn, "INSERT INTO AuthToken " "(subscriber_id, created, token) " "VALUES " "(%llu, datetime('now'), \"%08X\") ", subscriber->id, try); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to create token %08X for " "IMSI %s.\n", try, subscriber->imsi); return 1; } dbi_result_free(result); *token = try; DEBUGP(DDB, "Allocated token %08X for IMSI %s.\n", try, subscriber->imsi); return 0; } int db_subscriber_assoc_imei(struct gsm_subscriber *subscriber, char imei[GSM23003_IMEISV_NUM_DIGITS]) { unsigned long long equipment_id, watch_id; dbi_result result; strncpy(subscriber->equipment.imei, imei, sizeof(subscriber->equipment.imei)-1); result = dbi_conn_queryf(conn, "INSERT OR IGNORE INTO Equipment " "(imei, created, updated) " "VALUES " "(%s, datetime('now'), datetime('now')) ", imei); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to create Equipment by IMEI.\n"); return 1; } equipment_id = 0; if (dbi_result_get_numrows_affected(result)) { equipment_id = dbi_conn_sequence_last(conn, NULL); } dbi_result_free(result); if (equipment_id) DEBUGP(DDB, "New Equipment: ID %llu, IMEI %s\n", equipment_id, imei); else { result = dbi_conn_queryf(conn, "SELECT id FROM Equipment " "WHERE imei = %s ", imei ); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to query Equipment by IMEI.\n"); return 1; } if (!dbi_result_next_row(result)) { LOGP(DDB, LOGL_ERROR, "Failed to find the Equipment.\n"); dbi_result_free(result); return 1; } equipment_id = dbi_result_get_ulonglong(result, "id"); dbi_result_free(result); } result = dbi_conn_queryf(conn, "INSERT OR IGNORE INTO EquipmentWatch " "(subscriber_id, equipment_id, created, updated) " "VALUES " "(%llu, %llu, datetime('now'), datetime('now')) ", subscriber->id, equipment_id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to create EquipmentWatch.\n"); return 1; } watch_id = 0; if (dbi_result_get_numrows_affected(result)) watch_id = dbi_conn_sequence_last(conn, NULL); dbi_result_free(result); if (watch_id) DEBUGP(DDB, "New EquipmentWatch: ID %llu, IMSI %s, IMEI %s\n", equipment_id, subscriber->imsi, imei); else { result = dbi_conn_queryf(conn, "UPDATE EquipmentWatch " "SET updated = datetime('now') " "WHERE subscriber_id = %llu AND equipment_id = %llu ", subscriber->id, equipment_id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to update EquipmentWatch.\n"); return 1; } dbi_result_free(result); DEBUGP(DDB, "Updated EquipmentWatch: ID %llu, IMSI %s, IMEI %s\n", equipment_id, subscriber->imsi, imei); } return 0; } /* store an [unsent] SMS to the database */ int db_sms_store(struct gsm_sms *sms) { dbi_result result; char *q_text, *q_daddr, *q_saddr; unsigned char *q_udata; char *validity_timestamp = "2222-2-2"; /* FIXME: generate validity timestamp based on validity_minutes */ dbi_conn_quote_string_copy(conn, (char *)sms->text, &q_text); dbi_conn_quote_string_copy(conn, (char *)sms->dst.addr, &q_daddr); dbi_conn_quote_string_copy(conn, (char *)sms->src.addr, &q_saddr); dbi_conn_quote_binary_copy(conn, sms->user_data, sms->user_data_len, &q_udata); /* FIXME: correct validity period */ result = dbi_conn_queryf(conn, "INSERT INTO SMS " "(created, valid_until, " "reply_path_req, status_rep_req, protocol_id, " "data_coding_scheme, ud_hdr_ind, " "user_data, text, " "dest_addr, dest_ton, dest_npi, " "src_addr, src_ton, src_npi) VALUES " "(datetime('now'), %u, " "%u, %u, %u, " "%u, %u, " "%s, %s, " "%s, %u, %u, " "%s, %u, %u)", validity_timestamp, sms->reply_path_req, sms->status_rep_req, sms->protocol_id, sms->data_coding_scheme, sms->ud_hdr_ind, q_udata, q_text, q_daddr, sms->dst.ton, sms->dst.npi, q_saddr, sms->src.ton, sms->src.npi); free(q_text); free(q_udata); free(q_daddr); free(q_saddr); if (!result) return -EIO; dbi_result_free(result); return 0; } static struct gsm_sms *sms_from_result(struct gsm_network *net, dbi_result result) { struct gsm_sms *sms = sms_alloc(); const char *text, *daddr, *saddr; const unsigned char *user_data; if (!sms) return NULL; sms->id = dbi_result_get_ulonglong(result, "id"); /* FIXME: validity */ /* FIXME: those should all be get_uchar, but sqlite3 is braindead */ sms->reply_path_req = dbi_result_get_ulonglong(result, "reply_path_req"); sms->status_rep_req = dbi_result_get_ulonglong(result, "status_rep_req"); sms->ud_hdr_ind = dbi_result_get_ulonglong(result, "ud_hdr_ind"); sms->protocol_id = dbi_result_get_ulonglong(result, "protocol_id"); sms->data_coding_scheme = dbi_result_get_ulonglong(result, "data_coding_scheme"); /* sms->msg_ref is temporary and not stored in DB */ sms->dst.npi = dbi_result_get_ulonglong(result, "dest_npi"); sms->dst.ton = dbi_result_get_ulonglong(result, "dest_ton"); daddr = dbi_result_get_string(result, "dest_addr"); if (daddr) { strncpy(sms->dst.addr, daddr, sizeof(sms->dst.addr)); sms->dst.addr[sizeof(sms->dst.addr)-1] = '\0'; } sms->receiver = subscr_get_by_extension(net->subscr_group, sms->dst.addr); sms->src.npi = dbi_result_get_ulonglong(result, "src_npi"); sms->src.ton = dbi_result_get_ulonglong(result, "src_ton"); saddr = dbi_result_get_string(result, "src_addr"); if (saddr) { strncpy(sms->src.addr, saddr, sizeof(sms->src.addr)); sms->src.addr[sizeof(sms->src.addr)-1] = '\0'; } sms->user_data_len = dbi_result_get_field_length(result, "user_data"); user_data = dbi_result_get_binary(result, "user_data"); if (sms->user_data_len > sizeof(sms->user_data)) sms->user_data_len = (uint8_t) sizeof(sms->user_data); memcpy(sms->user_data, user_data, sms->user_data_len); text = dbi_result_get_string(result, "text"); if (text) { strncpy(sms->text, text, sizeof(sms->text)); sms->text[sizeof(sms->text)-1] = '\0'; } return sms; } struct gsm_sms *db_sms_get(struct gsm_network *net, unsigned long long id) { dbi_result result; struct gsm_sms *sms; result = dbi_conn_queryf(conn, "SELECT * FROM SMS WHERE SMS.id = %llu", id); if (!result) return NULL; if (!dbi_result_next_row(result)) { dbi_result_free(result); return NULL; } sms = sms_from_result(net, result); dbi_result_free(result); return sms; } /* retrieve the next unsent SMS with ID >= min_id */ struct gsm_sms *db_sms_get_unsent(struct gsm_network *net, unsigned long long min_id) { dbi_result result; struct gsm_sms *sms; result = dbi_conn_queryf(conn, "SELECT SMS.* " "FROM SMS JOIN Subscriber ON " "SMS.dest_addr = Subscriber.extension " "WHERE SMS.id >= %llu AND SMS.sent IS NULL " "AND Subscriber.lac > 0 " "ORDER BY SMS.id LIMIT 1", min_id); if (!result) return NULL; if (!dbi_result_next_row(result)) { dbi_result_free(result); return NULL; } sms = sms_from_result(net, result); dbi_result_free(result); return sms; } struct gsm_sms *db_sms_get_unsent_by_subscr(struct gsm_network *net, unsigned long long min_subscr_id, unsigned int failed) { dbi_result result; struct gsm_sms *sms; result = dbi_conn_queryf(conn, "SELECT SMS.* " "FROM SMS JOIN Subscriber ON " "SMS.dest_addr = Subscriber.extension " "WHERE Subscriber.id >= %llu AND SMS.sent IS NULL " "AND Subscriber.lac > 0 AND SMS.deliver_attempts < %u " "ORDER BY Subscriber.id, SMS.id LIMIT 1", min_subscr_id, failed); if (!result) return NULL; if (!dbi_result_next_row(result)) { dbi_result_free(result); return NULL; } sms = sms_from_result(net, result); dbi_result_free(result); return sms; } /* retrieve the next unsent SMS for a given subscriber */ struct gsm_sms *db_sms_get_unsent_for_subscr(struct gsm_subscriber *subscr) { dbi_result result; struct gsm_sms *sms; result = dbi_conn_queryf(conn, "SELECT SMS.* " "FROM SMS JOIN Subscriber ON " "SMS.dest_addr = Subscriber.extension " "WHERE Subscriber.id = %llu AND SMS.sent IS NULL " "AND Subscriber.lac > 0 " "ORDER BY SMS.id LIMIT 1", subscr->id); if (!result) return NULL; if (!dbi_result_next_row(result)) { dbi_result_free(result); return NULL; } sms = sms_from_result(subscr->group->net, result); dbi_result_free(result); return sms; } /* mark a given SMS as delivered */ int db_sms_mark_delivered(struct gsm_sms *sms) { dbi_result result; result = dbi_conn_queryf(conn, "UPDATE SMS " "SET sent = datetime('now') " "WHERE id = %llu", sms->id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to mark SMS %llu as sent.\n", sms->id); return 1; } dbi_result_free(result); return 0; } /* increase the number of attempted deliveries */ int db_sms_inc_deliver_attempts(struct gsm_sms *sms) { dbi_result result; result = dbi_conn_queryf(conn, "UPDATE SMS " "SET deliver_attempts = deliver_attempts + 1 " "WHERE id = %llu", sms->id); if (!result) { LOGP(DDB, LOGL_ERROR, "Failed to inc deliver attempts for " "SMS %llu.\n", sms->id); return 1; } dbi_result_free(result); return 0; } int db_apdu_blob_store(struct gsm_subscriber *subscr, uint8_t apdu_id_flags, uint8_t len, uint8_t *apdu) { dbi_result result; unsigned char *q_apdu; dbi_conn_quote_binary_copy(conn, apdu, len, &q_apdu); result = dbi_conn_queryf(conn, "INSERT INTO ApduBlobs " "(created,subscriber_id,apdu_id_flags,apdu) VALUES " "(datetime('now'),%llu,%u,%s)", subscr->id, apdu_id_flags, q_apdu); free(q_apdu); if (!result) return -EIO; dbi_result_free(result); return 0; } int db_store_counter(struct osmo_counter *ctr) { dbi_result result; char *q_name; dbi_conn_quote_string_copy(conn, ctr->name, &q_name); result = dbi_conn_queryf(conn, "INSERT INTO Counters " "(timestamp,name,value) VALUES " "(datetime('now'),%s,%lu)", q_name, ctr->value); free(q_name); if (!result) return -EIO; dbi_result_free(result); return 0; } static int db_store_rate_ctr(struct rate_ctr_group *ctrg, unsigned int num, char *q_prefix) { dbi_result result; char *q_name; dbi_conn_quote_string_copy(conn, ctrg->desc->ctr_desc[num].name, &q_name); result = dbi_conn_queryf(conn, "Insert INTO RateCounters " "(timestamp,name,idx,value) VALUES " "(datetime('now'),%s.%s,%u,%"PRIu64")", q_prefix, q_name, ctrg->idx, ctrg->ctr[num].current); free(q_name); if (!result) return -EIO; dbi_result_free(result); return 0; } int db_store_rate_ctr_group(struct rate_ctr_group *ctrg) { unsigned int i; char *q_prefix; dbi_conn_quote_string_copy(conn, ctrg->desc->group_name_prefix, &q_prefix); for (i = 0; i < ctrg->desc->num_ctr; i++) db_store_rate_ctr(ctrg, i, q_prefix); free(q_prefix); return 0; }