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# dialects/oracle/oracledb.py # Copyright (C) 2005-2024 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: https://www.opensource.org/licenses/mit-license.php # mypy: ignore-errors r""" .. dialect:: oracle+oracledb :name: python-oracledb :dbapi: oracledb :connectstring: oracle+oracledb://user:pass@hostname:port[/dbname][?service_name=<service>[&key=value&key=value...]] :url: https://oracle.github.io/python-oracledb/ Description ----------- python-oracledb is released by Oracle to supersede the cx_Oracle driver. It is fully compatible with cx_Oracle and features both a "thin" client mode that requires no dependencies, as well as a "thick" mode that uses the Oracle Client Interface in the same way as cx_Oracle. .. seealso:: :ref:`cx_oracle` - all of cx_Oracle's notes apply to the oracledb driver as well, with the exception that oracledb supports two phase transactions. The SQLAlchemy ``oracledb`` dialect provides both a sync and an async implementation under the same dialect name. The proper version is selected depending on how the engine is created: * calling :func:`_sa.create_engine` with ``oracle+oracledb://...`` will automatically select the sync version, e.g.:: from sqlalchemy import create_engine sync_engine = create_engine("oracle+oracledb://scott:tiger@localhost/?service_name=XEPDB1") * calling :func:`_asyncio.create_async_engine` with ``oracle+oracledb://...`` will automatically select the async version, e.g.:: from sqlalchemy.ext.asyncio import create_async_engine asyncio_engine = create_async_engine("oracle+oracledb://scott:tiger@localhost/?service_name=XEPDB1") The asyncio version of the dialect may also be specified explicitly using the ``oracledb_async`` suffix, as:: from sqlalchemy.ext.asyncio import create_async_engine asyncio_engine = create_async_engine("oracle+oracledb_async://scott:tiger@localhost/?service_name=XEPDB1") .. versionadded:: 2.0.25 added support for the async version of oracledb. Thick mode support ------------------ By default the ``python-oracledb`` is started in thin mode, that does not require oracle client libraries to be installed in the system. The ``python-oracledb`` driver also support a "thick" mode, that behaves similarly to ``cx_oracle`` and requires that Oracle Client Interface (OCI) is installed. To enable this mode, the user may call ``oracledb.init_oracle_client`` manually, or by passing the parameter ``thick_mode=True`` to :func:`_sa.create_engine`. To pass custom arguments to ``init_oracle_client``, like the ``lib_dir`` path, a dict may be passed to this parameter, as in:: engine = sa.create_engine("oracle+oracledb://...", thick_mode={ "lib_dir": "/path/to/oracle/client/lib", "driver_name": "my-app" }) .. seealso:: https://python-oracledb.readthedocs.io/en/latest/api_manual/module.html#oracledb.init_oracle_client Two Phase Transactions Supported -------------------------------- Two phase transactions are fully supported under oracledb. Starting with oracledb 2.3 two phase transactions are supported also in thin mode. APIs for two phase transactions are provided at the Core level via :meth:`_engine.Connection.begin_twophase` and :paramref:`_orm.Session.twophase` for transparent ORM use. .. versionchanged:: 2.0.32 added support for two phase transactions .. versionadded:: 2.0.0 added support for oracledb driver. """ # noqa from __future__ import annotations import collections import re from typing import Any from typing import TYPE_CHECKING from . import cx_oracle as _cx_oracle from ... import exc from ... import pool from ...connectors.asyncio import AsyncAdapt_dbapi_connection from ...connectors.asyncio import AsyncAdapt_dbapi_cursor from ...connectors.asyncio import AsyncAdapt_dbapi_ss_cursor from ...connectors.asyncio import AsyncAdaptFallback_dbapi_connection from ...engine import default from ...util import asbool from ...util import await_fallback from ...util import await_only if TYPE_CHECKING: from oracledb import AsyncConnection from oracledb import AsyncCursor class OracleExecutionContext_oracledb( _cx_oracle.OracleExecutionContext_cx_oracle ): pass class OracleDialect_oracledb(_cx_oracle.OracleDialect_cx_oracle): supports_statement_cache = True execution_ctx_cls = OracleExecutionContext_oracledb driver = "oracledb" _min_version = (1,) def __init__( self, auto_convert_lobs=True, coerce_to_decimal=True, arraysize=None, encoding_errors=None, thick_mode=None, **kwargs, ): super().__init__( auto_convert_lobs, coerce_to_decimal, arraysize, encoding_errors, **kwargs, ) if self.dbapi is not None and ( thick_mode or isinstance(thick_mode, dict) ): kw = thick_mode if isinstance(thick_mode, dict) else {} self.dbapi.init_oracle_client(**kw) @classmethod def import_dbapi(cls): import oracledb return oracledb @classmethod def is_thin_mode(cls, connection): return connection.connection.dbapi_connection.thin @classmethod def get_async_dialect_cls(cls, url): return OracleDialectAsync_oracledb def _load_version(self, dbapi_module): version = (0, 0, 0) if dbapi_module is not None: m = re.match(r"(\d+)\.(\d+)(?:\.(\d+))?", dbapi_module.version) if m: version = tuple( int(x) for x in m.group(1, 2, 3) if x is not None ) self.oracledb_ver = version if ( self.oracledb_ver > (0, 0, 0) and self.oracledb_ver < self._min_version ): raise exc.InvalidRequestError( f"oracledb version {self._min_version} and above are supported" ) def do_begin_twophase(self, connection, xid): conn_xis = connection.connection.xid(*xid) connection.connection.tpc_begin(conn_xis) connection.connection.info["oracledb_xid"] = conn_xis def do_prepare_twophase(self, connection, xid): should_commit = connection.connection.tpc_prepare() connection.info["oracledb_should_commit"] = should_commit def do_rollback_twophase( self, connection, xid, is_prepared=True, recover=False ): if recover: conn_xid = connection.connection.xid(*xid) else: conn_xid = None connection.connection.tpc_rollback(conn_xid) def do_commit_twophase( self, connection, xid, is_prepared=True, recover=False ): conn_xid = None if not is_prepared: should_commit = connection.connection.tpc_prepare() elif recover: conn_xid = connection.connection.xid(*xid) should_commit = True else: should_commit = connection.info["oracledb_should_commit"] if should_commit: connection.connection.tpc_commit(conn_xid) def do_recover_twophase(self, connection): return [ # oracledb seems to return bytes ( fi, gti.decode() if isinstance(gti, bytes) else gti, bq.decode() if isinstance(bq, bytes) else bq, ) for fi, gti, bq in connection.connection.tpc_recover() ] class AsyncAdapt_oracledb_cursor(AsyncAdapt_dbapi_cursor): _cursor: AsyncCursor __slots__ = () @property def outputtypehandler(self): return self._cursor.outputtypehandler @outputtypehandler.setter def outputtypehandler(self, value): self._cursor.outputtypehandler = value def var(self, *args, **kwargs): return self._cursor.var(*args, **kwargs) def close(self): self._rows.clear() self._cursor.close() def setinputsizes(self, *args: Any, **kwargs: Any) -> Any: return self._cursor.setinputsizes(*args, **kwargs) def _aenter_cursor(self, cursor: AsyncCursor) -> AsyncCursor: try: return cursor.__enter__() except Exception as error: self._adapt_connection._handle_exception(error) async def _execute_async(self, operation, parameters): # override to not use mutex, oracledb already has mutex if parameters is None: result = await self._cursor.execute(operation) else: result = await self._cursor.execute(operation, parameters) if self._cursor.description and not self.server_side: self._rows = collections.deque(await self._cursor.fetchall()) return result async def _executemany_async( self, operation, seq_of_parameters, ): # override to not use mutex, oracledb already has mutex return await self._cursor.executemany(operation, seq_of_parameters) def __enter__(self): return self def __exit__(self, type_: Any, value: Any, traceback: Any) -> None: self.close() class AsyncAdapt_oracledb_ss_cursor( AsyncAdapt_dbapi_ss_cursor, AsyncAdapt_oracledb_cursor ): __slots__ = () def close(self) -> None: if self._cursor is not None: self._cursor.close() self._cursor = None # type: ignore class AsyncAdapt_oracledb_connection(AsyncAdapt_dbapi_connection): _connection: AsyncConnection __slots__ = () thin = True _cursor_cls = AsyncAdapt_oracledb_cursor _ss_cursor_cls = None @property def autocommit(self): return self._connection.autocommit @autocommit.setter def autocommit(self, value): self._connection.autocommit = value @property def outputtypehandler(self): return self._connection.outputtypehandler @outputtypehandler.setter def outputtypehandler(self, value): self._connection.outputtypehandler = value @property def version(self): return self._connection.version @property def stmtcachesize(self): return self._connection.stmtcachesize @stmtcachesize.setter def stmtcachesize(self, value): self._connection.stmtcachesize = value def cursor(self): return AsyncAdapt_oracledb_cursor(self) def ss_cursor(self): return AsyncAdapt_oracledb_ss_cursor(self) def xid(self, *args: Any, **kwargs: Any) -> Any: return self._connection.xid(*args, **kwargs) def tpc_begin(self, *args: Any, **kwargs: Any) -> Any: return self.await_(self._connection.tpc_begin(*args, **kwargs)) def tpc_commit(self, *args: Any, **kwargs: Any) -> Any: return self.await_(self._connection.tpc_commit(*args, **kwargs)) def tpc_prepare(self, *args: Any, **kwargs: Any) -> Any: return self.await_(self._connection.tpc_prepare(*args, **kwargs)) def tpc_recover(self, *args: Any, **kwargs: Any) -> Any: return self.await_(self._connection.tpc_recover(*args, **kwargs)) def tpc_rollback(self, *args: Any, **kwargs: Any) -> Any: return self.await_(self._connection.tpc_rollback(*args, **kwargs)) class AsyncAdaptFallback_oracledb_connection( AsyncAdaptFallback_dbapi_connection, AsyncAdapt_oracledb_connection ): __slots__ = () class OracledbAdaptDBAPI: def __init__(self, oracledb) -> None: self.oracledb = oracledb for k, v in self.oracledb.__dict__.items(): if k != "connect": self.__dict__[k] = v def connect(self, *arg, **kw): async_fallback = kw.pop("async_fallback", False) creator_fn = kw.pop("async_creator_fn", self.oracledb.connect_async) if asbool(async_fallback): return AsyncAdaptFallback_oracledb_connection( self, await_fallback(creator_fn(*arg, **kw)) ) else: return AsyncAdapt_oracledb_connection( self, await_only(creator_fn(*arg, **kw)) ) class OracleExecutionContextAsync_oracledb(OracleExecutionContext_oracledb): # restore default create cursor create_cursor = default.DefaultExecutionContext.create_cursor def create_default_cursor(self): # copy of OracleExecutionContext_cx_oracle.create_cursor c = self._dbapi_connection.cursor() if self.dialect.arraysize: c.arraysize = self.dialect.arraysize return c def create_server_side_cursor(self): c = self._dbapi_connection.ss_cursor() if self.dialect.arraysize: c.arraysize = self.dialect.arraysize return c class OracleDialectAsync_oracledb(OracleDialect_oracledb): is_async = True supports_server_side_cursors = True supports_statement_cache = True execution_ctx_cls = OracleExecutionContextAsync_oracledb _min_version = (2,) # thick_mode mode is not supported by asyncio, oracledb will raise @classmethod def import_dbapi(cls): import oracledb return OracledbAdaptDBAPI(oracledb) @classmethod def get_pool_class(cls, url): async_fallback = url.query.get("async_fallback", False) if asbool(async_fallback): return pool.FallbackAsyncAdaptedQueuePool else: return pool.AsyncAdaptedQueuePool def get_driver_connection(self, connection): return connection._connection dialect = OracleDialect_oracledb dialect_async = OracleDialectAsync_oracledb