# Copyright 2018 John Reese # Licensed under the MIT license """ Core implementation of aiosqlite proxies """ import asyncio import logging import sqlite3 import sys import warnings from functools import partial from pathlib import Path from queue import Empty, Queue from threading import Thread from typing import ( Any, AsyncIterator, Callable, Generator, Iterable, Optional, Type, Union, ) from warnings import warn from .context import contextmanager from .cursor import Cursor __all__ = ["connect", "Connection", "Cursor"] LOG = logging.getLogger("aiosqlite") def get_loop(future: asyncio.Future) -> asyncio.AbstractEventLoop: if sys.version_info >= (3, 7): return future.get_loop() else: return future._loop class Connection(Thread): def __init__( self, connector: Callable[[], sqlite3.Connection], iter_chunk_size: int, loop: Optional[asyncio.AbstractEventLoop] = None, ) -> None: super().__init__() self._running = True self._connection: Optional[sqlite3.Connection] = None self._connector = connector self._tx: Queue = Queue() self._iter_chunk_size = iter_chunk_size if loop is not None: warn( "aiosqlite.Connection no longer uses the `loop` parameter", DeprecationWarning, ) @property def _conn(self) -> sqlite3.Connection: if self._connection is None: raise ValueError("no active connection") return self._connection def _execute_insert( self, sql: str, parameters: Iterable[Any] ) -> Optional[sqlite3.Row]: cursor = self._conn.execute(sql, parameters) cursor.execute("SELECT last_insert_rowid()") return cursor.fetchone() def _execute_fetchall( self, sql: str, parameters: Iterable[Any] ) -> Iterable[sqlite3.Row]: cursor = self._conn.execute(sql, parameters) return cursor.fetchall() def run(self) -> None: """ Execute function calls on a separate thread. :meta private: """ while self._running: try: future, function = self._tx.get(timeout=0.1) except Empty: continue try: LOG.debug("executing %s", function) result = function() LOG.debug("returning %s", result) def set_result(fut, result): if not fut.done(): fut.set_result(result) get_loop(future).call_soon_threadsafe(set_result, future, result) except BaseException as e: LOG.info("returning exception %s", e) def set_exception(fut, e): if not fut.done(): fut.set_exception(e) get_loop(future).call_soon_threadsafe(set_exception, future, e) async def _execute(self, fn, *args, **kwargs): """Queue a function with the given arguments for execution.""" function = partial(fn, *args, **kwargs) future = asyncio.get_event_loop().create_future() self._tx.put_nowait((future, function)) return await future async def _connect(self) -> "Connection": """Connect to the actual sqlite database.""" if self._connection is None: try: self._connection = await self._execute(self._connector) except Exception: self._running = False self._connection = None raise return self def __await__(self) -> Generator[Any, None, "Connection"]: self.start() return self._connect().__await__() async def __aenter__(self) -> "Connection": return await self async def __aexit__(self, exc_type, exc_val, exc_tb) -> None: await self.close() @contextmanager async def cursor(self) -> Cursor: """Create an aiosqlite cursor wrapping a sqlite3 cursor object.""" return Cursor(self, await self._execute(self._conn.cursor)) async def commit(self) -> None: """Commit the current transaction.""" await self._execute(self._conn.commit) async def rollback(self) -> None: """Roll back the current transaction.""" await self._execute(self._conn.rollback) async def close(self) -> None: """Complete queued queries/cursors and close the connection.""" try: await self._execute(self._conn.close) except Exception: LOG.info("exception occurred while closing connection") raise finally: self._running = False self._connection = None @contextmanager async def execute(self, sql: str, parameters: Iterable[Any] = None) -> Cursor: """Helper to create a cursor and execute the given query.""" if parameters is None: parameters = [] cursor = await self._execute(self._conn.execute, sql, parameters) return Cursor(self, cursor) @contextmanager async def execute_insert( self, sql: str, parameters: Iterable[Any] = None ) -> Optional[sqlite3.Row]: """Helper to insert and get the last_insert_rowid.""" if parameters is None: parameters = [] return await self._execute(self._execute_insert, sql, parameters) @contextmanager async def execute_fetchall( self, sql: str, parameters: Iterable[Any] = None ) -> Iterable[sqlite3.Row]: """Helper to execute a query and return all the data.""" if parameters is None: parameters = [] return await self._execute(self._execute_fetchall, sql, parameters) @contextmanager async def executemany( self, sql: str, parameters: Iterable[Iterable[Any]] ) -> Cursor: """Helper to create a cursor and execute the given multiquery.""" cursor = await self._execute(self._conn.executemany, sql, parameters) return Cursor(self, cursor) @contextmanager async def executescript(self, sql_script: str) -> Cursor: """Helper to create a cursor and execute a user script.""" cursor = await self._execute(self._conn.executescript, sql_script) return Cursor(self, cursor) async def interrupt(self) -> None: """Interrupt pending queries.""" return self._conn.interrupt() async def create_function( self, name: str, num_params: int, func: Callable, deterministic: bool = False ) -> None: """ Create user-defined function that can be later used within SQL statements. Must be run within the same thread that query executions take place so instead of executing directly against the connection, we defer this to `run` function. In Python 3.8 and above, if *deterministic* is true, the created function is marked as deterministic, which allows SQLite to perform additional optimizations. This flag is supported by SQLite 3.8.3 or higher, ``NotSupportedError`` will be raised if used with older versions. """ if sys.version_info >= (3, 8): await self._execute( self._conn.create_function, name, num_params, func, deterministic=deterministic, ) else: if deterministic: warnings.warn( "Deterministic function support is only available on " 'Python 3.8+. Function "{}" will be registered as ' "non-deterministic as per SQLite defaults.".format(name) ) await self._execute(self._conn.create_function, name, num_params, func) @property def in_transaction(self) -> bool: return self._conn.in_transaction @property def isolation_level(self) -> str: return self._conn.isolation_level @isolation_level.setter def isolation_level(self, value: str) -> None: self._conn.isolation_level = value @property def row_factory(self) -> "Optional[Type]": # py3.5.2 compat (#24) return self._conn.row_factory @row_factory.setter def row_factory(self, factory: "Optional[Type]") -> None: # py3.5.2 compat (#24) self._conn.row_factory = factory @property def text_factory(self) -> Type: return self._conn.text_factory @text_factory.setter def text_factory(self, factory: Type) -> None: self._conn.text_factory = factory @property def total_changes(self) -> int: return self._conn.total_changes async def enable_load_extension(self, value: bool) -> None: await self._execute(self._conn.enable_load_extension, value) # type: ignore async def load_extension(self, path: str): await self._execute(self._conn.load_extension, path) # type: ignore async def set_progress_handler( self, handler: Callable[[], Optional[int]], n: int ) -> None: await self._execute(self._conn.set_progress_handler, handler, n) async def set_trace_callback(self, handler: Callable) -> None: await self._execute(self._conn.set_trace_callback, handler) async def iterdump(self) -> AsyncIterator[str]: """ Return an async iterator to dump the database in SQL text format. Example:: async for line in db.iterdump(): ... """ dump_queue: Queue = Queue() def dumper(): try: for line in self._conn.iterdump(): dump_queue.put_nowait(line) dump_queue.put_nowait(None) except Exception: LOG.exception("exception while dumping db") dump_queue.put_nowait(None) raise fut = self._execute(dumper) task = asyncio.ensure_future(fut) while True: try: line: Optional[str] = dump_queue.get_nowait() if line is None: break yield line except Empty: if task.done(): LOG.warning("iterdump completed unexpectedly") break await asyncio.sleep(0.01) await task async def backup( self, target: Union["Connection", sqlite3.Connection], *, pages: int = 0, progress: Optional[Callable[[int, int, int], None]] = None, name: str = "main", sleep: float = 0.250 ) -> None: """ Make a backup of the current database to the target database. Takes either a standard sqlite3 or aiosqlite Connection object as the target. """ if sys.version_info < (3, 7): raise RuntimeError("backup() method is only available on Python 3.7+") if isinstance(target, Connection): target = target._conn await self._execute( self._conn.backup, target, pages=pages, progress=progress, name=name, sleep=sleep, ) def connect( database: Union[str, Path], *, iter_chunk_size=64, loop: Optional[asyncio.AbstractEventLoop] = None, **kwargs: Any ) -> Connection: """Create and return a connection proxy to the sqlite database.""" if loop is not None: warn( "aiosqlite.connect() no longer uses the `loop` parameter", DeprecationWarning, ) def connector() -> sqlite3.Connection: if isinstance(database, str): loc = database elif isinstance(database, bytes): loc = database.decode("utf-8") else: loc = str(database) return sqlite3.connect(loc, **kwargs) return Connection(connector, iter_chunk_size)