/*** * Here are the wrappers for the lightning database * NOTE: In this implementation, the database will contain the base32 encoded value * of the multihash key if the file exists on disk. */ #include #include #include #include #include #include "lmdb.h" #include "libp2p/utils/logger.h" #include "ipfs/repo/fsrepo/lmdb_datastore.h" #include "ipfs/repo/fsrepo/journalstore.h" #include "varint.h" /** * Build a "value" section for a datastore record * @param timestamp the timestamp * @param data the data (usually a base32 of the cid hash) * @param data_length the length of data * @param result the resultant data object * @param result_size the size of the result * @returns true(1) on success, otherwise 0 */ int repo_fsrepo_lmdb_build_record(const unsigned long long timestamp, const uint8_t *data, size_t data_length, uint8_t **result, size_t *result_size) { // turn timestamp into varint uint8_t ts_varint[8]; size_t num_bytes; if (varint_encode(timestamp, &ts_varint[0], 8, &num_bytes) == NULL) { return 0; } // make new structure *result = (uint8_t *) malloc(num_bytes + data_length); if (*result == NULL) { return 0; } memcpy(*result, ts_varint, num_bytes); memcpy(&(*result)[num_bytes], data, data_length); *result_size = data_length + num_bytes; return 1; } /** * read a "value" section from a datastore record. * @param data what we read from the datastore * @param data_length the length of what we read from the datastore * @param timestamp the timestamp that was read from the datastore * @param record_pos where the data starts (without the timestamp) * @param record_size the size of the data section of the record * @returns true(1) on success, false(0) otherwise */ int repo_fsrepo_lmdb_parse_record(uint8_t *data, size_t data_length, unsigned long long *timestamp, uint8_t *record_pos, size_t *record_size) { size_t varint_size = 0; *timestamp = varint_decode(data, data_length, &varint_size); record_pos = &data[varint_size]; return 1; } /*** * retrieve a record from the database and put in a pre-sized buffer * @param key the key to look for * @param key_size the length of the key * @param data the data that is retrieved * @param max_data_size the length of the data buffer * @param data_size the length of the data that was found in the database * @param datastore where to look for the data * @returns true(1) on success */ int repo_fsrepo_lmdb_get(const char* key, size_t key_size, unsigned char* data, size_t max_data_size, size_t* data_size, const struct Datastore* datastore) { MDB_txn* mdb_txn; MDB_dbi mdb_dbi; struct MDB_val db_key; struct MDB_val db_value; MDB_env* mdb_env = (MDB_env*)datastore->handle; if (mdb_env == NULL) return 0; // open transaction if (mdb_txn_begin(mdb_env, NULL, 0, &mdb_txn) != 0) return 0; if (mdb_dbi_open(mdb_txn, DATASTORE_DB, MDB_DUPSORT | MDB_CREATE, &mdb_dbi) != 0) { mdb_txn_commit(mdb_txn); return 0; } // prepare data db_key.mv_size = key_size; db_key.mv_data = (char*)key; if (mdb_get(mdb_txn, mdb_dbi, &db_key, &db_value) != 0) { mdb_txn_commit(mdb_txn); return 0; } // the data from the database includes a timestamp. We'll need to strip it off. unsigned long long timestamp; uint8_t *pos = NULL; size_t size = 0; if (!repo_fsrepo_lmdb_parse_record(db_key.mv_data, db_key.mv_size, ×tamp, pos, &size)) { mdb_txn_commit(mdb_txn); return 0; } // Was it too big to fit in the buffer they sent? if (size > max_data_size) { mdb_txn_commit(mdb_txn); return 0; } // set return values memcpy(data, pos, size); (*data_size) = size; // clean up mdb_txn_commit(mdb_txn); return 1; } /** * Get the current time UTC * @returns number of seconds since epoch in UTC */ unsigned long long lmdb_datastore_gmt_time() { time_t local = time(NULL); struct tm *gmt = gmtime(&local); return (unsigned long long)mktime(gmt); } /** * Write data to the datastore with the specified key * @param key the key * @param key_size the length of the key * @param data the data to be written * @param data_size the length of the data to be written * @param datastore the datastore to write to * @returns true(1) on success */ int repo_fsrepo_lmdb_put(unsigned const char* key, size_t key_size, unsigned char* data, size_t data_size, const struct Datastore* datastore) { int retVal; MDB_txn* mdb_txn; MDB_dbi mdb_dbi; struct MDB_val db_key; struct MDB_val db_value; MDB_env* mdb_env = (MDB_env*)datastore->handle; if (mdb_env == NULL) return 0; // open transaction retVal = mdb_txn_begin(mdb_env, NULL, 0, &mdb_txn); if (retVal != 0) return 0; retVal = mdb_dbi_open(mdb_txn, DATASTORE_DB, MDB_DUPSORT | MDB_CREATE, &mdb_dbi); if (retVal != 0) return 0; // add the timestamp unsigned long long timestamp = lmdb_datastore_gmt_time(); uint8_t *record; size_t record_size; repo_fsrepo_lmdb_build_record(timestamp, data, data_size, &record, &record_size); // prepare data db_key.mv_size = key_size; db_key.mv_data = (char*)key; // write db_value.mv_size = record_size; db_value.mv_data = record; retVal = mdb_put(mdb_txn, mdb_dbi, &db_key, &db_value, MDB_NODUPDATA | MDB_NOOVERWRITE); if (retVal == 0) { // the normal case lmdb_journalstore_journal_add(mdb_txn, timestamp, key, key_size); retVal = 1; } else { if (retVal == MDB_KEYEXIST) // We tried to add a key that already exists. Skip. retVal = 1; else retVal = 0; } // cleanup free(record); mdb_txn_commit(mdb_txn); return retVal; } /** * Open an lmdb database with the given parameters. * Note: for now, the parameters are not used * @param argc number of parameters in the following array * @param argv an array of parameters */ int repo_fsrepro_lmdb_open(int argc, char** argv, struct Datastore* datastore) { // create environment struct MDB_env* mdb_env; if (mdb_env_create(&mdb_env) < 0) { mdb_env_close(mdb_env); return 0; } // at most, 2 databases will be opened. The datastore and the journal. MDB_dbi dbs = 2; if (mdb_env_set_maxdbs(mdb_env, dbs) != 0) { mdb_env_close(mdb_env); return 0; } // open the environment if (mdb_env_open(mdb_env, datastore->path, 0, S_IRWXU) < 0) { mdb_env_close(mdb_env); return 0; } datastore->handle = (void*)mdb_env; return 1; } /*** * Close an LMDB database * NOTE: for now, argc and argv are not used * @param argc number of parameters in the argv array * @param argv parameters to be passed in * @param datastore the datastore struct that contains information about the opened database */ int repo_fsrepo_lmdb_close(struct Datastore* datastore) { struct MDB_env* mdb_env = (struct MDB_env*)datastore->handle; mdb_env_close(mdb_env); return 1; } /*** * Create a new cursor on the datastore database * @param datastore the place to store the cursor * @returns true(1) on success, false(0) otherwise */ int repo_fsrepo_lmdb_cursor_open(struct Datastore* datastore) { if (datastore->handle != NULL) { MDB_env* mdb_env = (MDB_env*)datastore->handle; MDB_dbi mdb_dbi; if (datastore->cursor == NULL ) { datastore->cursor = malloc(sizeof(struct lmdb_trans_cursor)); struct lmdb_trans_cursor* cursor = (struct lmdb_trans_cursor*)datastore->cursor; // open transaction if (mdb_txn_begin(mdb_env, NULL, 0, &cursor->transaction) != 0) return 0; MDB_txn* mdb_txn = (MDB_txn*)cursor->transaction; if (mdb_dbi_open(mdb_txn, DATASTORE_DB, MDB_DUPSORT | MDB_CREATE, &mdb_dbi) != 0) { mdb_txn_commit(mdb_txn); return 0; } // open cursor if (mdb_cursor_open(mdb_txn, mdb_dbi, &cursor->cursor) != 0) { mdb_txn_commit(mdb_txn); return 0; } return 1; } } return 0; } /*** * Get a record using a cursor * @param key the key from the record * @param key_length the length of the key * @param value the value of the record * @param value_length the length of the value * @param CURSOR_FIRST or CURSOR_NEXT * @param datastore holds the reference to the opened cursor * @returns true(1) on success, false(0) otherwise */ int repo_fsrepo_lmdb_cursor_get(unsigned char** key, int* key_length, unsigned char** value, int* value_length, enum DatastoreCursorOp op, struct Datastore* datastore) { if (datastore->cursor != NULL) { struct lmdb_trans_cursor* tc = (struct lmdb_trans_cursor*)datastore->cursor; MDB_val mdb_key; MDB_val mdb_value; MDB_cursor_op co = MDB_FIRST; if (op == CURSOR_FIRST) co = MDB_FIRST; else if (op == CURSOR_NEXT) co = MDB_NEXT; if (mdb_cursor_get(tc->cursor, &mdb_key, &mdb_value, co) != 0) { return 0; } *key = (unsigned char*)malloc(mdb_key.mv_size); memcpy(*key, mdb_key.mv_data, mdb_key.mv_size); *key_length = mdb_key.mv_size; if (value != NULL) { // don't do this if a null is passed in, time saver *value = (unsigned char*)malloc(mdb_value.mv_size); memcpy(*value, mdb_value.mv_data, mdb_value.mv_size); *value_length = mdb_value.mv_size; } return 1; } return 0; } /** * Close an existing cursor * @param datastore the context * @returns true(1) on success */ int repo_fsrepo_lmdb_cursor_close(struct Datastore* datastore) { if (datastore->cursor != NULL) { struct lmdb_trans_cursor* cursor = (struct lmdb_trans_cursor*)datastore->cursor; if (cursor->cursor != NULL) { mdb_cursor_close(cursor->cursor); mdb_txn_commit(cursor->transaction); free(cursor); return 1; } free(cursor); } return 0; } /*** * Places the LMDB methods into the datastore's function pointers * @param datastore the datastore to fill * @returns true(1) on success; */ int repo_fsrepo_lmdb_cast(struct Datastore* datastore) { datastore->datastore_open = &repo_fsrepro_lmdb_open; datastore->datastore_close = &repo_fsrepo_lmdb_close; datastore->datastore_put = &repo_fsrepo_lmdb_put; datastore->datastore_get = &repo_fsrepo_lmdb_get; datastore->datastore_cursor_open = &repo_fsrepo_lmdb_cursor_open; datastore->datastore_cursor_get = &repo_fsrepo_lmdb_cursor_get; datastore->datastore_cursor_close = &repo_fsrepo_lmdb_cursor_close; datastore->cursor = NULL; return 1; } /*** * Creates the directory * @param datastore contains the path that needs to be created * @returns true(1) on success */ int repo_fsrepo_lmdb_create_directory(struct Datastore* datastore) { #ifdef __MINGW32__ return mkdir(datastore->path) == 0; #else return mkdir(datastore->path, S_IRWXU) == 0; #endif }