import logging import sqlite3 import typing import uuid from urllib.parse import urlencode import aiosqlite from sqlalchemy.dialects.sqlite import pysqlite from sqlalchemy.engine.cursor import CursorResultMetaData from sqlalchemy.engine.interfaces import Dialect, ExecutionContext from sqlalchemy.sql import ClauseElement from sqlalchemy.sql.ddl import DDLElement from databases.backends.common.records import Record, Row, create_column_maps from databases.core import LOG_EXTRA, DatabaseURL from databases.interfaces import ConnectionBackend, DatabaseBackend, TransactionBackend logger = logging.getLogger("databases") class SQLiteBackend(DatabaseBackend): def __init__( self, database_url: typing.Union[DatabaseURL, str], **options: typing.Any ) -> None: self._database_url = DatabaseURL(database_url) self._options = options self._dialect = pysqlite.dialect(paramstyle="qmark") # aiosqlite does not support decimals self._dialect.supports_native_decimal = False self._pool = SQLitePool(self._database_url, **self._options) async def connect(self) -> None: ... async def disconnect(self) -> None: # if it extsis, remove reference to connection to cached in-memory database on disconnect if self._pool._memref: self._pool._memref = None # assert self._pool is not None, "DatabaseBackend is not running" # self._pool.close() # await self._pool.wait_closed() # self._pool = None def connection(self) -> "SQLiteConnection": return SQLiteConnection(self._pool, self._dialect) class SQLitePool: def __init__(self, url: DatabaseURL, **options: typing.Any) -> None: self._database = url.database self._memref = None # add query params to database connection string if url.options: self._database += "?" + urlencode(url.options) self._options = options if url.options and "cache" in url.options: # reference to a connection to the cached in-memory database must be held to keep it from being deleted self._memref = sqlite3.connect(self._database, **self._options) async def acquire(self) -> aiosqlite.Connection: connection = aiosqlite.connect( database=self._database, isolation_level=None, **self._options ) await connection.__aenter__() return connection async def release(self, connection: aiosqlite.Connection) -> None: await connection.__aexit__(None, None, None) class CompilationContext: def __init__(self, context: ExecutionContext): self.context = context class SQLiteConnection(ConnectionBackend): def __init__(self, pool: SQLitePool, dialect: Dialect): self._pool = pool self._dialect = dialect self._connection: typing.Optional[aiosqlite.Connection] = None async def acquire(self) -> None: assert self._connection is None, "Connection is already acquired" self._connection = await self._pool.acquire() async def release(self) -> None: assert self._connection is not None, "Connection is not acquired" await self._pool.release(self._connection) self._connection = None async def fetch_all(self, query: ClauseElement) -> typing.List[Record]: assert self._connection is not None, "Connection is not acquired" query_str, args, result_columns, context = self._compile(query) column_maps = create_column_maps(result_columns) dialect = self._dialect async with self._connection.execute(query_str, args) as cursor: rows = await cursor.fetchall() metadata = CursorResultMetaData(context, cursor.description) rows = [ Row( metadata, metadata._processors, metadata._keymap, row, ) for row in rows ] return [Record(row, result_columns, dialect, column_maps) for row in rows] async def fetch_one(self, query: ClauseElement) -> typing.Optional[Record]: assert self._connection is not None, "Connection is not acquired" query_str, args, result_columns, context = self._compile(query) column_maps = create_column_maps(result_columns) dialect = self._dialect async with self._connection.execute(query_str, args) as cursor: row = await cursor.fetchone() if row is None: return None metadata = CursorResultMetaData(context, cursor.description) row = Row( metadata, metadata._processors, metadata._keymap, row, ) return Record(row, result_columns, dialect, column_maps) async def execute(self, query: ClauseElement) -> typing.Any: assert self._connection is not None, "Connection is not acquired" query_str, args, result_columns, context = self._compile(query) async with self._connection.cursor() as cursor: await cursor.execute(query_str, args) if cursor.lastrowid == 0: return cursor.rowcount return cursor.lastrowid async def execute_many(self, queries: typing.List[ClauseElement]) -> None: assert self._connection is not None, "Connection is not acquired" for single_query in queries: await self.execute(single_query) async def iterate( self, query: ClauseElement ) -> typing.AsyncGenerator[typing.Any, None]: assert self._connection is not None, "Connection is not acquired" query_str, args, result_columns, context = self._compile(query) column_maps = create_column_maps(result_columns) dialect = self._dialect async with self._connection.execute(query_str, args) as cursor: metadata = CursorResultMetaData(context, cursor.description) async for row in cursor: record = Row( metadata, metadata._processors, metadata._keymap, row, ) yield Record(record, result_columns, dialect, column_maps) def transaction(self) -> TransactionBackend: return SQLiteTransaction(self) def _compile(self, query: ClauseElement) -> typing.Tuple[str, list, tuple]: compiled = query.compile( dialect=self._dialect, compile_kwargs={"render_postcompile": True} ) execution_context = self._dialect.execution_ctx_cls() execution_context.dialect = self._dialect args = [] result_map = None if not isinstance(query, DDLElement): compiled_params = sorted(compiled.params.items()) params = compiled.construct_params() for key in compiled.positiontup: raw_val = params[key] if key in compiled._bind_processors: val = compiled._bind_processors[key](raw_val) else: val = raw_val args.append(val) execution_context.result_column_struct = ( compiled._result_columns, compiled._ordered_columns, compiled._textual_ordered_columns, compiled._ad_hoc_textual, compiled._loose_column_name_matching, ) mapping = { key: "$" + str(i) for i, (key, _) in enumerate(compiled_params, start=1) } compiled_query = compiled.string % mapping result_map = compiled._result_columns else: compiled_query = compiled.string query_message = compiled_query.replace(" \n", " ").replace("\n", " ") logger.debug( "Query: %s Args: %s", query_message, repr(tuple(args)), extra=LOG_EXTRA ) return compiled.string, args, result_map, CompilationContext(execution_context) @property def raw_connection(self) -> aiosqlite.core.Connection: assert self._connection is not None, "Connection is not acquired" return self._connection class SQLiteTransaction(TransactionBackend): def __init__(self, connection: SQLiteConnection): self._connection = connection self._is_root = False self._savepoint_name = "" async def start( self, is_root: bool, extra_options: typing.Dict[typing.Any, typing.Any] ) -> None: assert self._connection._connection is not None, "Connection is not acquired" self._is_root = is_root if self._is_root: async with self._connection._connection.execute("BEGIN") as cursor: await cursor.close() else: id = str(uuid.uuid4()).replace("-", "_") self._savepoint_name = f"STARLETTE_SAVEPOINT_{id}" async with self._connection._connection.execute( f"SAVEPOINT {self._savepoint_name}" ) as cursor: await cursor.close() async def commit(self) -> None: assert self._connection._connection is not None, "Connection is not acquired" if self._is_root: async with self._connection._connection.execute("COMMIT") as cursor: await cursor.close() else: async with self._connection._connection.execute( f"RELEASE SAVEPOINT {self._savepoint_name}" ) as cursor: await cursor.close() async def rollback(self) -> None: assert self._connection._connection is not None, "Connection is not acquired" if self._is_root: async with self._connection._connection.execute("ROLLBACK") as cursor: await cursor.close() else: async with self._connection._connection.execute( f"ROLLBACK TO SAVEPOINT {self._savepoint_name}" ) as cursor: await cursor.close()