#include #include #include #include #include #include #include static int relay_load_single(MDB_txn *mdb_txn, MDB_dbi mdb_dbi, db_key_relay_e key_relay, uint8_t relay_num, MDB_val *value) { int err; size_t key_size = sizeof(db_key_relay_e) + sizeof(uint8_t); uint8_t *key_data = malloc(key_size); uint8_t *key_data_writer = key_data; memmove(key_data_writer, &relay_num, sizeof(uint8_t)); key_data_writer += sizeof(uint8_t); memmove(key_data_writer, &key_relay, sizeof(db_key_relay_e)); MDB_val key; key.mv_size = key_size; key.mv_data = key_data; if((err = mdb_get(mdb_txn, mdb_dbi, &key, value)) != 0) { LOG_ERROR("mdb_get error %s\n", mdb_strerror(err)); mdb_txn_abort(mdb_txn); free(key_data); return 1; } free(key_data); return 0; } relay_t* relay_load(MDB_env *mdb_env, uint8_t num) { int err; MDB_txn *mdb_txn; MDB_dbi mdb_dbi; relay_t *new_relay; if((err = mdb_txn_begin(mdb_env, NULL, MDB_RDONLY, &mdb_txn)) != 0) { LOG_ERROR("mdb_txn_begin error %s\n", mdb_strerror(err)); return relay_create(num); } if((err = mdb_dbi_open(mdb_txn, "relays", 0, &mdb_dbi)) != 0) { switch(err) { case MDB_NOTFOUND: LOG_INFO("no relay for num %d found in db. returning new one (no relays db)\n", num); mdb_txn_abort(mdb_txn); return relay_create(num); default: LOG_ERROR("mdb_txn_begin error %s\n", mdb_strerror(err)); return relay_create(num); } } new_relay = malloc(sizeof(relay_t)); new_relay->number = num; MDB_val value; if((err = relay_load_single(mdb_txn, mdb_dbi, DB_KEY_RELAY_NAME, num, &value)) != 0) { LOG_INFO("no relay for num %d found in db. returning new one\n", num); mdb_txn_abort(mdb_txn); // transaction is read only return relay_create(num); } strncpy(new_relay->name, (char*)value.mv_data, MAX_NAME_LENGTH); new_relay->name[MAX_NAME_LENGTH] = '\0'; mdb_txn_abort(mdb_txn); // transaction is read only for(int i = 0; i < 7; ++i) { new_relay->schedules[i] = schedule_load(mdb_env, num, i); } return new_relay; }