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# dialects/postgresql/psycopg2.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:: postgresql+psycopg2 :name: psycopg2 :dbapi: psycopg2 :connectstring: postgresql+psycopg2://user:password@host:port/dbname[?key=value&key=value...] :url: https://pypi.org/project/psycopg2/ .. _psycopg2_toplevel: psycopg2 Connect Arguments -------------------------- Keyword arguments that are specific to the SQLAlchemy psycopg2 dialect may be passed to :func:`_sa.create_engine()`, and include the following: * ``isolation_level``: This option, available for all PostgreSQL dialects, includes the ``AUTOCOMMIT`` isolation level when using the psycopg2 dialect. This option sets the **default** isolation level for the connection that is set immediately upon connection to the database before the connection is pooled. This option is generally superseded by the more modern :paramref:`_engine.Connection.execution_options.isolation_level` execution option, detailed at :ref:`dbapi_autocommit`. .. seealso:: :ref:`psycopg2_isolation_level` :ref:`dbapi_autocommit` * ``client_encoding``: sets the client encoding in a libpq-agnostic way, using psycopg2's ``set_client_encoding()`` method. .. seealso:: :ref:`psycopg2_unicode` * ``executemany_mode``, ``executemany_batch_page_size``, ``executemany_values_page_size``: Allows use of psycopg2 extensions for optimizing "executemany"-style queries. See the referenced section below for details. .. seealso:: :ref:`psycopg2_executemany_mode` .. tip:: The above keyword arguments are **dialect** keyword arguments, meaning that they are passed as explicit keyword arguments to :func:`_sa.create_engine()`:: engine = create_engine( "postgresql+psycopg2://scott:tiger@localhost/test", isolation_level="SERIALIZABLE", ) These should not be confused with **DBAPI** connect arguments, which are passed as part of the :paramref:`_sa.create_engine.connect_args` dictionary and/or are passed in the URL query string, as detailed in the section :ref:`custom_dbapi_args`. .. _psycopg2_ssl: SSL Connections --------------- The psycopg2 module has a connection argument named ``sslmode`` for controlling its behavior regarding secure (SSL) connections. The default is ``sslmode=prefer``; it will attempt an SSL connection and if that fails it will fall back to an unencrypted connection. ``sslmode=require`` may be used to ensure that only secure connections are established. Consult the psycopg2 / libpq documentation for further options that are available. Note that ``sslmode`` is specific to psycopg2 so it is included in the connection URI:: engine = sa.create_engine( "postgresql+psycopg2://scott:tiger@192.168.0.199:5432/test?sslmode=require" ) Unix Domain Connections ------------------------ psycopg2 supports connecting via Unix domain connections. When the ``host`` portion of the URL is omitted, SQLAlchemy passes ``None`` to psycopg2, which specifies Unix-domain communication rather than TCP/IP communication:: create_engine("postgresql+psycopg2://user:password@/dbname") By default, the socket file used is to connect to a Unix-domain socket in ``/tmp``, or whatever socket directory was specified when PostgreSQL was built. This value can be overridden by passing a pathname to psycopg2, using ``host`` as an additional keyword argument:: create_engine("postgresql+psycopg2://user:password@/dbname?host=/var/lib/postgresql") .. warning:: The format accepted here allows for a hostname in the main URL in addition to the "host" query string argument. **When using this URL format, the initial host is silently ignored**. That is, this URL:: engine = create_engine("postgresql+psycopg2://user:password@myhost1/dbname?host=myhost2") Above, the hostname ``myhost1`` is **silently ignored and discarded.** The host which is connected is the ``myhost2`` host. This is to maintain some degree of compatibility with PostgreSQL's own URL format which has been tested to behave the same way and for which tools like PifPaf hardcode two hostnames. .. seealso:: `PQconnectdbParams \ <https://www.postgresql.org/docs/current/static/libpq-connect.html#LIBPQ-PQCONNECTDBPARAMS>`_ .. _psycopg2_multi_host: Specifying multiple fallback hosts ----------------------------------- psycopg2 supports multiple connection points in the connection string. When the ``host`` parameter is used multiple times in the query section of the URL, SQLAlchemy will create a single string of the host and port information provided to make the connections. Tokens may consist of ``host::port`` or just ``host``; in the latter case, the default port is selected by libpq. In the example below, three host connections are specified, for ``HostA::PortA``, ``HostB`` connecting to the default port, and ``HostC::PortC``:: create_engine( "postgresql+psycopg2://user:password@/dbname?host=HostA:PortA&host=HostB&host=HostC:PortC" ) As an alternative, libpq query string format also may be used; this specifies ``host`` and ``port`` as single query string arguments with comma-separated lists - the default port can be chosen by indicating an empty value in the comma separated list:: create_engine( "postgresql+psycopg2://user:password@/dbname?host=HostA,HostB,HostC&port=PortA,,PortC" ) With either URL style, connections to each host is attempted based on a configurable strategy, which may be configured using the libpq ``target_session_attrs`` parameter. Per libpq this defaults to ``any`` which indicates a connection to each host is then attempted until a connection is successful. Other strategies include ``primary``, ``prefer-standby``, etc. The complete list is documented by PostgreSQL at `libpq connection strings <https://www.postgresql.org/docs/current/libpq-connect.html#LIBPQ-CONNSTRING>`_. For example, to indicate two hosts using the ``primary`` strategy:: create_engine( "postgresql+psycopg2://user:password@/dbname?host=HostA:PortA&host=HostB&host=HostC:PortC&target_session_attrs=primary" ) .. versionchanged:: 1.4.40 Port specification in psycopg2 multiple host format is repaired, previously ports were not correctly interpreted in this context. libpq comma-separated format is also now supported. .. versionadded:: 1.3.20 Support for multiple hosts in PostgreSQL connection string. .. seealso:: `libpq connection strings <https://www.postgresql.org/docs/current/libpq-connect.html#LIBPQ-CONNSTRING>`_ - please refer to this section in the libpq documentation for complete background on multiple host support. Empty DSN Connections / Environment Variable Connections --------------------------------------------------------- The psycopg2 DBAPI can connect to PostgreSQL by passing an empty DSN to the libpq client library, which by default indicates to connect to a localhost PostgreSQL database that is open for "trust" connections. This behavior can be further tailored using a particular set of environment variables which are prefixed with ``PG_...``, which are consumed by ``libpq`` to take the place of any or all elements of the connection string. For this form, the URL can be passed without any elements other than the initial scheme:: engine = create_engine('postgresql+psycopg2://') In the above form, a blank "dsn" string is passed to the ``psycopg2.connect()`` function which in turn represents an empty DSN passed to libpq. .. versionadded:: 1.3.2 support for parameter-less connections with psycopg2. .. seealso:: `Environment Variables\ <https://www.postgresql.org/docs/current/libpq-envars.html>`_ - PostgreSQL documentation on how to use ``PG_...`` environment variables for connections. .. _psycopg2_execution_options: Per-Statement/Connection Execution Options ------------------------------------------- The following DBAPI-specific options are respected when used with :meth:`_engine.Connection.execution_options`, :meth:`.Executable.execution_options`, :meth:`_query.Query.execution_options`, in addition to those not specific to DBAPIs: * ``isolation_level`` - Set the transaction isolation level for the lifespan of a :class:`_engine.Connection` (can only be set on a connection, not a statement or query). See :ref:`psycopg2_isolation_level`. * ``stream_results`` - Enable or disable usage of psycopg2 server side cursors - this feature makes use of "named" cursors in combination with special result handling methods so that result rows are not fully buffered. Defaults to False, meaning cursors are buffered by default. * ``max_row_buffer`` - when using ``stream_results``, an integer value that specifies the maximum number of rows to buffer at a time. This is interpreted by the :class:`.BufferedRowCursorResult`, and if omitted the buffer will grow to ultimately store 1000 rows at a time. .. versionchanged:: 1.4 The ``max_row_buffer`` size can now be greater than 1000, and the buffer will grow to that size. .. _psycopg2_batch_mode: .. _psycopg2_executemany_mode: Psycopg2 Fast Execution Helpers ------------------------------- Modern versions of psycopg2 include a feature known as `Fast Execution Helpers \ <https://www.psycopg.org/docs/extras.html#fast-execution-helpers>`_, which have been shown in benchmarking to improve psycopg2's executemany() performance, primarily with INSERT statements, by at least an order of magnitude. SQLAlchemy implements a native form of the "insert many values" handler that will rewrite a single-row INSERT statement to accommodate for many values at once within an extended VALUES clause; this handler is equivalent to psycopg2's ``execute_values()`` handler; an overview of this feature and its configuration are at :ref:`engine_insertmanyvalues`. .. versionadded:: 2.0 Replaced psycopg2's ``execute_values()`` fast execution helper with a native SQLAlchemy mechanism known as :ref:`insertmanyvalues <engine_insertmanyvalues>`. The psycopg2 dialect retains the ability to use the psycopg2-specific ``execute_batch()`` feature, although it is not expected that this is a widely used feature. The use of this extension may be enabled using the ``executemany_mode`` flag which may be passed to :func:`_sa.create_engine`:: engine = create_engine( "postgresql+psycopg2://scott:tiger@host/dbname", executemany_mode='values_plus_batch') Possible options for ``executemany_mode`` include: * ``values_only`` - this is the default value. SQLAlchemy's native :ref:`insertmanyvalues <engine_insertmanyvalues>` handler is used for qualifying INSERT statements, assuming :paramref:`_sa.create_engine.use_insertmanyvalues` is left at its default value of ``True``. This handler rewrites simple INSERT statements to include multiple VALUES clauses so that many parameter sets can be inserted with one statement. * ``'values_plus_batch'``- SQLAlchemy's native :ref:`insertmanyvalues <engine_insertmanyvalues>` handler is used for qualifying INSERT statements, assuming :paramref:`_sa.create_engine.use_insertmanyvalues` is left at its default value of ``True``. Then, psycopg2's ``execute_batch()`` handler is used for qualifying UPDATE and DELETE statements when executed with multiple parameter sets. When using this mode, the :attr:`_engine.CursorResult.rowcount` attribute will not contain a value for executemany-style executions against UPDATE and DELETE statements. .. versionchanged:: 2.0 Removed the ``'batch'`` and ``'None'`` options from psycopg2 ``executemany_mode``. Control over batching for INSERT statements is now configured via the :paramref:`_sa.create_engine.use_insertmanyvalues` engine-level parameter. The term "qualifying statements" refers to the statement being executed being a Core :func:`_expression.insert`, :func:`_expression.update` or :func:`_expression.delete` construct, and **not** a plain textual SQL string or one constructed using :func:`_expression.text`. It also may **not** be a special "extension" statement such as an "ON CONFLICT" "upsert" statement. When using the ORM, all insert/update/delete statements used by the ORM flush process are qualifying. The "page size" for the psycopg2 "batch" strategy can be affected by using the ``executemany_batch_page_size`` parameter, which defaults to 100. For the "insertmanyvalues" feature, the page size can be controlled using the :paramref:`_sa.create_engine.insertmanyvalues_page_size` parameter, which defaults to 1000. An example of modifying both parameters is below:: engine = create_engine( "postgresql+psycopg2://scott:tiger@host/dbname", executemany_mode='values_plus_batch', insertmanyvalues_page_size=5000, executemany_batch_page_size=500) .. seealso:: :ref:`engine_insertmanyvalues` - background on "insertmanyvalues" :ref:`tutorial_multiple_parameters` - General information on using the :class:`_engine.Connection` object to execute statements in such a way as to make use of the DBAPI ``.executemany()`` method. .. _psycopg2_unicode: Unicode with Psycopg2 ---------------------- The psycopg2 DBAPI driver supports Unicode data transparently. The client character encoding can be controlled for the psycopg2 dialect in the following ways: * For PostgreSQL 9.1 and above, the ``client_encoding`` parameter may be passed in the database URL; this parameter is consumed by the underlying ``libpq`` PostgreSQL client library:: engine = create_engine("postgresql+psycopg2://user:pass@host/dbname?client_encoding=utf8") Alternatively, the above ``client_encoding`` value may be passed using :paramref:`_sa.create_engine.connect_args` for programmatic establishment with ``libpq``:: engine = create_engine( "postgresql+psycopg2://user:pass@host/dbname", connect_args={'client_encoding': 'utf8'} ) * For all PostgreSQL versions, psycopg2 supports a client-side encoding value that will be passed to database connections when they are first established. The SQLAlchemy psycopg2 dialect supports this using the ``client_encoding`` parameter passed to :func:`_sa.create_engine`:: engine = create_engine( "postgresql+psycopg2://user:pass@host/dbname", client_encoding="utf8" ) .. tip:: The above ``client_encoding`` parameter admittedly is very similar in appearance to usage of the parameter within the :paramref:`_sa.create_engine.connect_args` dictionary; the difference above is that the parameter is consumed by psycopg2 and is passed to the database connection using ``SET client_encoding TO 'utf8'``; in the previously mentioned style, the parameter is instead passed through psycopg2 and consumed by the ``libpq`` library. * A common way to set up client encoding with PostgreSQL databases is to ensure it is configured within the server-side postgresql.conf file; this is the recommended way to set encoding for a server that is consistently of one encoding in all databases:: # postgresql.conf file # client_encoding = sql_ascii # actually, defaults to database # encoding client_encoding = utf8 Transactions ------------ The psycopg2 dialect fully supports SAVEPOINT and two-phase commit operations. .. _psycopg2_isolation_level: Psycopg2 Transaction Isolation Level ------------------------------------- As discussed in :ref:`postgresql_isolation_level`, all PostgreSQL dialects support setting of transaction isolation level both via the ``isolation_level`` parameter passed to :func:`_sa.create_engine` , as well as the ``isolation_level`` argument used by :meth:`_engine.Connection.execution_options`. When using the psycopg2 dialect , these options make use of psycopg2's ``set_isolation_level()`` connection method, rather than emitting a PostgreSQL directive; this is because psycopg2's API-level setting is always emitted at the start of each transaction in any case. The psycopg2 dialect supports these constants for isolation level: * ``READ COMMITTED`` * ``READ UNCOMMITTED`` * ``REPEATABLE READ`` * ``SERIALIZABLE`` * ``AUTOCOMMIT`` .. seealso:: :ref:`postgresql_isolation_level` :ref:`pg8000_isolation_level` NOTICE logging --------------- The psycopg2 dialect will log PostgreSQL NOTICE messages via the ``sqlalchemy.dialects.postgresql`` logger. When this logger is set to the ``logging.INFO`` level, notice messages will be logged:: import logging logging.getLogger('sqlalchemy.dialects.postgresql').setLevel(logging.INFO) Above, it is assumed that logging is configured externally. If this is not the case, configuration such as ``logging.basicConfig()`` must be utilized:: import logging logging.basicConfig() # log messages to stdout logging.getLogger('sqlalchemy.dialects.postgresql').setLevel(logging.INFO) .. seealso:: `Logging HOWTO <https://docs.python.org/3/howto/logging.html>`_ - on the python.org website .. _psycopg2_hstore: HSTORE type ------------ The ``psycopg2`` DBAPI includes an extension to natively handle marshalling of the HSTORE type. The SQLAlchemy psycopg2 dialect will enable this extension by default when psycopg2 version 2.4 or greater is used, and it is detected that the target database has the HSTORE type set up for use. In other words, when the dialect makes the first connection, a sequence like the following is performed: 1. Request the available HSTORE oids using ``psycopg2.extras.HstoreAdapter.get_oids()``. If this function returns a list of HSTORE identifiers, we then determine that the ``HSTORE`` extension is present. This function is **skipped** if the version of psycopg2 installed is less than version 2.4. 2. If the ``use_native_hstore`` flag is at its default of ``True``, and we've detected that ``HSTORE`` oids are available, the ``psycopg2.extensions.register_hstore()`` extension is invoked for all connections. The ``register_hstore()`` extension has the effect of **all Python dictionaries being accepted as parameters regardless of the type of target column in SQL**. The dictionaries are converted by this extension into a textual HSTORE expression. If this behavior is not desired, disable the use of the hstore extension by setting ``use_native_hstore`` to ``False`` as follows:: engine = create_engine("postgresql+psycopg2://scott:tiger@localhost/test", use_native_hstore=False) The ``HSTORE`` type is **still supported** when the ``psycopg2.extensions.register_hstore()`` extension is not used. It merely means that the coercion between Python dictionaries and the HSTORE string format, on both the parameter side and the result side, will take place within SQLAlchemy's own marshalling logic, and not that of ``psycopg2`` which may be more performant. """ # noqa from __future__ import annotations import collections.abc as collections_abc import logging import re from typing import cast from . import ranges from ._psycopg_common import _PGDialect_common_psycopg from ._psycopg_common import _PGExecutionContext_common_psycopg from .base import PGIdentifierPreparer from .json import JSON from .json import JSONB from ... import types as sqltypes from ... import util from ...util import FastIntFlag from ...util import parse_user_argument_for_enum logger = logging.getLogger("sqlalchemy.dialects.postgresql") class _PGJSON(JSON): def result_processor(self, dialect, coltype): return None class _PGJSONB(JSONB): def result_processor(self, dialect, coltype): return None class _Psycopg2Range(ranges.AbstractSingleRangeImpl): _psycopg2_range_cls = "none" def bind_processor(self, dialect): psycopg2_Range = getattr( cast(PGDialect_psycopg2, dialect)._psycopg2_extras, self._psycopg2_range_cls, ) def to_range(value): if isinstance(value, ranges.Range): value = psycopg2_Range( value.lower, value.upper, value.bounds, value.empty ) return value return to_range def result_processor(self, dialect, coltype): def to_range(value): if value is not None: value = ranges.Range( value._lower, value._upper, bounds=value._bounds if value._bounds else "[)", empty=not value._bounds, ) return value return to_range class _Psycopg2NumericRange(_Psycopg2Range): _psycopg2_range_cls = "NumericRange" class _Psycopg2DateRange(_Psycopg2Range): _psycopg2_range_cls = "DateRange" class _Psycopg2DateTimeRange(_Psycopg2Range): _psycopg2_range_cls = "DateTimeRange" class _Psycopg2DateTimeTZRange(_Psycopg2Range): _psycopg2_range_cls = "DateTimeTZRange" class PGExecutionContext_psycopg2(_PGExecutionContext_common_psycopg): _psycopg2_fetched_rows = None def post_exec(self): self._log_notices(self.cursor) def _log_notices(self, cursor): # check also that notices is an iterable, after it's already # established that we will be iterating through it. This is to get # around test suites such as SQLAlchemy's using a Mock object for # cursor if not cursor.connection.notices or not isinstance( cursor.connection.notices, collections_abc.Iterable ): return for notice in cursor.connection.notices: # NOTICE messages have a # newline character at the end logger.info(notice.rstrip()) cursor.connection.notices[:] = [] class PGIdentifierPreparer_psycopg2(PGIdentifierPreparer): pass class ExecutemanyMode(FastIntFlag): EXECUTEMANY_VALUES = 0 EXECUTEMANY_VALUES_PLUS_BATCH = 1 ( EXECUTEMANY_VALUES, EXECUTEMANY_VALUES_PLUS_BATCH, ) = ExecutemanyMode.__members__.values() class PGDialect_psycopg2(_PGDialect_common_psycopg): driver = "psycopg2" supports_statement_cache = True supports_server_side_cursors = True default_paramstyle = "pyformat" # set to true based on psycopg2 version supports_sane_multi_rowcount = False execution_ctx_cls = PGExecutionContext_psycopg2 preparer = PGIdentifierPreparer_psycopg2 psycopg2_version = (0, 0) use_insertmanyvalues_wo_returning = True returns_native_bytes = False _has_native_hstore = True colspecs = util.update_copy( _PGDialect_common_psycopg.colspecs, { JSON: _PGJSON, sqltypes.JSON: _PGJSON, JSONB: _PGJSONB, ranges.INT4RANGE: _Psycopg2NumericRange, ranges.INT8RANGE: _Psycopg2NumericRange, ranges.NUMRANGE: _Psycopg2NumericRange, ranges.DATERANGE: _Psycopg2DateRange, ranges.TSRANGE: _Psycopg2DateTimeRange, ranges.TSTZRANGE: _Psycopg2DateTimeTZRange, }, ) def __init__( self, executemany_mode="values_only", executemany_batch_page_size=100, **kwargs, ): _PGDialect_common_psycopg.__init__(self, **kwargs) if self._native_inet_types: raise NotImplementedError( "The psycopg2 dialect does not implement " "ipaddress type handling; native_inet_types cannot be set " "to ``True`` when using this dialect." ) # Parse executemany_mode argument, allowing it to be only one of the # symbol names self.executemany_mode = parse_user_argument_for_enum( executemany_mode, { EXECUTEMANY_VALUES: ["values_only"], EXECUTEMANY_VALUES_PLUS_BATCH: ["values_plus_batch"], }, "executemany_mode", ) self.executemany_batch_page_size = executemany_batch_page_size if self.dbapi and hasattr(self.dbapi, "__version__"): m = re.match(r"(\d+)\.(\d+)(?:\.(\d+))?", self.dbapi.__version__) if m: self.psycopg2_version = tuple( int(x) for x in m.group(1, 2, 3) if x is not None ) if self.psycopg2_version < (2, 7): raise ImportError( "psycopg2 version 2.7 or higher is required." ) def initialize(self, connection): super().initialize(connection) self._has_native_hstore = ( self.use_native_hstore and self._hstore_oids(connection.connection.dbapi_connection) is not None ) self.supports_sane_multi_rowcount = ( self.executemany_mode is not EXECUTEMANY_VALUES_PLUS_BATCH ) @classmethod def import_dbapi(cls): import psycopg2 return psycopg2 @util.memoized_property def _psycopg2_extensions(cls): from psycopg2 import extensions return extensions @util.memoized_property def _psycopg2_extras(cls): from psycopg2 import extras return extras @util.memoized_property def _isolation_lookup(self): extensions = self._psycopg2_extensions return { "AUTOCOMMIT": extensions.ISOLATION_LEVEL_AUTOCOMMIT, "READ COMMITTED": extensions.ISOLATION_LEVEL_READ_COMMITTED, "READ UNCOMMITTED": extensions.ISOLATION_LEVEL_READ_UNCOMMITTED, "REPEATABLE READ": extensions.ISOLATION_LEVEL_REPEATABLE_READ, "SERIALIZABLE": extensions.ISOLATION_LEVEL_SERIALIZABLE, } def set_isolation_level(self, dbapi_connection, level): dbapi_connection.set_isolation_level(self._isolation_lookup[level]) def set_readonly(self, connection, value): connection.readonly = value def get_readonly(self, connection): return connection.readonly def set_deferrable(self, connection, value): connection.deferrable = value def get_deferrable(self, connection): return connection.deferrable def on_connect(self): extras = self._psycopg2_extras fns = [] if self.client_encoding is not None: def on_connect(dbapi_conn): dbapi_conn.set_client_encoding(self.client_encoding) fns.append(on_connect) if self.dbapi: def on_connect(dbapi_conn): extras.register_uuid(None, dbapi_conn) fns.append(on_connect) if self.dbapi and self.use_native_hstore: def on_connect(dbapi_conn): hstore_oids = self._hstore_oids(dbapi_conn) if hstore_oids is not None: oid, array_oid = hstore_oids kw = {"oid": oid} kw["array_oid"] = array_oid extras.register_hstore(dbapi_conn, **kw) fns.append(on_connect) if self.dbapi and self._json_deserializer: def on_connect(dbapi_conn): extras.register_default_json( dbapi_conn, loads=self._json_deserializer ) extras.register_default_jsonb( dbapi_conn, loads=self._json_deserializer ) fns.append(on_connect) if fns: def on_connect(dbapi_conn): for fn in fns: fn(dbapi_conn) return on_connect else: return None def do_executemany(self, cursor, statement, parameters, context=None): if self.executemany_mode is EXECUTEMANY_VALUES_PLUS_BATCH: if self.executemany_batch_page_size: kwargs = {"page_size": self.executemany_batch_page_size} else: kwargs = {} self._psycopg2_extras.execute_batch( cursor, statement, parameters, **kwargs ) else: cursor.executemany(statement, parameters) def do_begin_twophase(self, connection, xid): connection.connection.tpc_begin(xid) def do_prepare_twophase(self, connection, xid): connection.connection.tpc_prepare() def _do_twophase(self, dbapi_conn, operation, xid, recover=False): if recover: if dbapi_conn.status != self._psycopg2_extensions.STATUS_READY: dbapi_conn.rollback() operation(xid) else: operation() def do_rollback_twophase( self, connection, xid, is_prepared=True, recover=False ): dbapi_conn = connection.connection.dbapi_connection self._do_twophase( dbapi_conn, dbapi_conn.tpc_rollback, xid, recover=recover ) def do_commit_twophase( self, connection, xid, is_prepared=True, recover=False ): dbapi_conn = connection.connection.dbapi_connection self._do_twophase( dbapi_conn, dbapi_conn.tpc_commit, xid, recover=recover ) @util.memoized_instancemethod def _hstore_oids(self, dbapi_connection): extras = self._psycopg2_extras oids = extras.HstoreAdapter.get_oids(dbapi_connection) if oids is not None and oids[0]: return oids[0:2] else: return None def is_disconnect(self, e, connection, cursor): if isinstance(e, self.dbapi.Error): # check the "closed" flag. this might not be # present on old psycopg2 versions. Also, # this flag doesn't actually help in a lot of disconnect # situations, so don't rely on it. if getattr(connection, "closed", False): return True # checks based on strings. in the case that .closed # didn't cut it, fall back onto these. str_e = str(e).partition("\n")[0] for msg in self._is_disconnect_messages: idx = str_e.find(msg) if idx >= 0 and '"' not in str_e[:idx]: return True return False @util.memoized_property def _is_disconnect_messages(self): return ( # these error messages from libpq: interfaces/libpq/fe-misc.c # and interfaces/libpq/fe-secure.c. "terminating connection", "closed the connection", "connection not open", "could not receive data from server", "could not send data to server", # psycopg2 client errors, psycopg2/connection.h, # psycopg2/cursor.h "connection already closed", "cursor already closed", # not sure where this path is originally from, it may # be obsolete. It really says "losed", not "closed". "losed the connection unexpectedly", # these can occur in newer SSL "connection has been closed unexpectedly", "SSL error: decryption failed or bad record mac", "SSL SYSCALL error: Bad file descriptor", "SSL SYSCALL error: EOF detected", "SSL SYSCALL error: Operation timed out", "SSL SYSCALL error: Bad address", # This can occur in OpenSSL 1 when an unexpected EOF occurs. # https://www.openssl.org/docs/man1.1.1/man3/SSL_get_error.html#BUGS # It may also occur in newer OpenSSL for a non-recoverable I/O # error as a result of a system call that does not set 'errno' # in libc. "SSL SYSCALL error: Success", ) dialect = PGDialect_psycopg2