Server IP : 66.29.132.122 / Your IP : 3.144.101.139 Web Server : LiteSpeed System : Linux business142.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64 User : admazpex ( 531) PHP Version : 7.2.34 Disable Function : NONE MySQL : OFF | cURL : ON | WGET : ON | Perl : ON | Python : ON | Sudo : OFF | Pkexec : OFF Directory : /proc/self/root/proc/self/root/proc/thread-self/root/proc/thread-self/root/proc/self/root/proc/thread-self/root/proc/self/root/proc/self/root/proc/self/root/proc/self/root/opt/cloudlinux/venv/lib64/python3.11/site-packages/sqlalchemy/engine/ |
Upload File : |
# engine/interfaces.py # Copyright (C) 2005-2021 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php """Define core interfaces used by the engine system.""" from .. import util from ..sql.compiler import Compiled # noqa from ..sql.compiler import TypeCompiler # noqa class Dialect(object): """Define the behavior of a specific database and DB-API combination. Any aspect of metadata definition, SQL query generation, execution, result-set handling, or anything else which varies between databases is defined under the general category of the Dialect. The Dialect acts as a factory for other database-specific object implementations including ExecutionContext, Compiled, DefaultGenerator, and TypeEngine. .. note:: Third party dialects should not subclass :class:`.Dialect` directly. Instead, subclass :class:`.default.DefaultDialect` or descendant class. All dialects include the following attributes. There are many other attributes that may be supported as well: ``name`` identifying name for the dialect from a DBAPI-neutral point of view (i.e. 'sqlite') ``driver`` identifying name for the dialect's DBAPI ``positional`` True if the paramstyle for this Dialect is positional. ``paramstyle`` the paramstyle to be used (some DB-APIs support multiple paramstyles). ``encoding`` type of encoding to use for unicode, usually defaults to 'utf-8'. ``statement_compiler`` a :class:`.Compiled` class used to compile SQL statements ``ddl_compiler`` a :class:`.Compiled` class used to compile DDL statements ``server_version_info`` a tuple containing a version number for the DB backend in use. This value is only available for supporting dialects, and is typically populated during the initial connection to the database. ``default_schema_name`` the name of the default schema. This value is only available for supporting dialects, and is typically populated during the initial connection to the database. ``execution_ctx_cls`` a :class:`.ExecutionContext` class used to handle statement execution ``execute_sequence_format`` either the 'tuple' or 'list' type, depending on what cursor.execute() accepts for the second argument (they vary). ``preparer`` a :class:`~sqlalchemy.sql.compiler.IdentifierPreparer` class used to quote identifiers. ``supports_alter`` ``True`` if the database supports ``ALTER TABLE`` - used only for generating foreign key constraints in certain circumstances ``max_identifier_length`` The maximum length of identifier names. ``supports_sane_rowcount`` Indicate whether the dialect properly implements rowcount for ``UPDATE`` and ``DELETE`` statements. ``supports_sane_multi_rowcount`` Indicate whether the dialect properly implements rowcount for ``UPDATE`` and ``DELETE`` statements when executed via executemany. ``preexecute_autoincrement_sequences`` True if 'implicit' primary key functions must be executed separately in order to get their value. This is currently oriented towards PostgreSQL. ``implicit_returning`` use RETURNING or equivalent during INSERT execution in order to load newly generated primary keys and other column defaults in one execution, which are then available via inserted_primary_key. If an insert statement has returning() specified explicitly, the "implicit" functionality is not used and inserted_primary_key will not be available. ``colspecs`` A dictionary of TypeEngine classes from sqlalchemy.types mapped to subclasses that are specific to the dialect class. This dictionary is class-level only and is not accessed from the dialect instance itself. ``supports_default_values`` Indicates if the construct ``INSERT INTO tablename DEFAULT VALUES`` is supported ``supports_sequences`` Indicates if the dialect supports CREATE SEQUENCE or similar. ``sequences_optional`` If True, indicates if the "optional" flag on the Sequence() construct should signal to not generate a CREATE SEQUENCE. Applies only to dialects that support sequences. Currently used only to allow PostgreSQL SERIAL to be used on a column that specifies Sequence() for usage on other backends. ``supports_native_enum`` Indicates if the dialect supports a native ENUM construct. This will prevent types.Enum from generating a CHECK constraint when that type is used. ``supports_native_boolean`` Indicates if the dialect supports a native boolean construct. This will prevent types.Boolean from generating a CHECK constraint when that type is used. ``dbapi_exception_translation_map`` A dictionary of names that will contain as values the names of pep-249 exceptions ("IntegrityError", "OperationalError", etc) keyed to alternate class names, to support the case where a DBAPI has exception classes that aren't named as they are referred to (e.g. IntegrityError = MyException). In the vast majority of cases this dictionary is empty. .. versionadded:: 1.0.5 """ _has_events = False def create_connect_args(self, url): """Build DB-API compatible connection arguments. Given a :class:`.URL` object, returns a tuple consisting of a ``(*args, **kwargs)`` suitable to send directly to the dbapi's connect function. The arguments are sent to the :meth:`.Dialect.connect` method which then runs the DBAPI-level ``connect()`` function. The method typically makes use of the :meth:`.URL.translate_connect_args` method in order to generate a dictionary of options. The default implementation is:: def create_connect_args(self, url): opts = url.translate_connect_args() opts.update(url.query) return [[], opts] :param url: a :class:`.URL` object :return: a tuple of ``(*args, **kwargs)`` which will be passed to the :meth:`.Dialect.connect` method. .. seealso:: :meth:`.URL.translate_connect_args` """ raise NotImplementedError() @classmethod def type_descriptor(cls, typeobj): """Transform a generic type to a dialect-specific type. Dialect classes will usually use the :func:`_types.adapt_type` function in the types module to accomplish this. The returned result is cached *per dialect class* so can contain no dialect-instance state. """ raise NotImplementedError() def initialize(self, connection): """Called during strategized creation of the dialect with a connection. Allows dialects to configure options based on server version info or other properties. The connection passed here is a SQLAlchemy Connection object, with full capabilities. The initialize() method of the base dialect should be called via super(). """ pass def reflecttable( self, connection, table, include_columns, exclude_columns, resolve_fks ): """Load table description from the database. Given a :class:`_engine.Connection` and a :class:`~sqlalchemy.schema.Table` object, reflect its columns and properties from the database. The implementation of this method is provided by :meth:`.DefaultDialect.reflecttable`, which makes use of :class:`_reflection.Inspector` to retrieve column information. Dialects should **not** seek to implement this method, and should instead implement individual schema inspection operations such as :meth:`.Dialect.get_columns`, :meth:`.Dialect.get_pk_constraint`, etc. """ raise NotImplementedError() def get_columns(self, connection, table_name, schema=None, **kw): """Return information about columns in `table_name`. Given a :class:`_engine.Connection`, a string `table_name`, and an optional string `schema`, return column information as a list of dictionaries with these keys: * ``name`` - the column's name * ``type`` - [sqlalchemy.types#TypeEngine] * ``nullable`` - boolean * ``default`` - the column's default value * ``autoincrement`` - boolean * ``sequence`` - a dictionary of the form {'name' : str, 'start' :int, 'increment': int, 'minvalue': int, 'maxvalue': int, 'nominvalue': bool, 'nomaxvalue': bool, 'cycle': bool, 'cache': int, 'order': bool} Additional column attributes may be present. """ raise NotImplementedError() @util.deprecated( "0.8", "The :meth:`.Dialect.get_primary_keys` method is deprecated and " "will be removed in a future release. Please refer to the " ":meth:`.Dialect.get_pk_constraint` method. ", ) def get_primary_keys(self, connection, table_name, schema=None, **kw): """Return information about primary keys in `table_name`.""" raise NotImplementedError() def get_pk_constraint(self, connection, table_name, schema=None, **kw): """Return information about the primary key constraint on table_name`. Given a :class:`_engine.Connection`, a string `table_name`, and an optional string `schema`, return primary key information as a dictionary with these keys: * ``constrained_columns`` - a list of column names that make up the primary key * ``name`` - optional name of the primary key constraint. """ raise NotImplementedError() def get_foreign_keys(self, connection, table_name, schema=None, **kw): """Return information about foreign_keys in `table_name`. Given a :class:`_engine.Connection`, a string `table_name`, and an optional string `schema`, return foreign key information as a list of dicts with these keys: * ``name`` - the constraint's name * ``constrained_columns`` - a list of column names that make up the foreign key * ``referred_schema`` - the name of the referred schema * ``referred_table`` - the name of the referred table * ``referred_columns`` - a list of column names in the referred table that correspond to constrained_columns """ raise NotImplementedError() def get_table_names(self, connection, schema=None, **kw): """Return a list of table names for `schema`.""" raise NotImplementedError() def get_temp_table_names(self, connection, schema=None, **kw): """Return a list of temporary table names on the given connection, if supported by the underlying backend. """ raise NotImplementedError() def get_view_names(self, connection, schema=None, **kw): """Return a list of all view names available in the database. :param schema: Optional, retrieve names from a non-default schema. """ raise NotImplementedError() def get_temp_view_names(self, connection, schema=None, **kw): """Return a list of temporary view names on the given connection, if supported by the underlying backend. """ raise NotImplementedError() def get_view_definition(self, connection, view_name, schema=None, **kw): """Return view definition. Given a :class:`_engine.Connection`, a string `view_name`, and an optional string `schema`, return the view definition. """ raise NotImplementedError() def get_indexes(self, connection, table_name, schema=None, **kw): """Return information about indexes in `table_name`. Given a :class:`_engine.Connection`, a string `table_name` and an optional string `schema`, return index information as a list of dictionaries with these keys: * ``name`` - the index's name * ``column_names`` - list of column names in order * ``unique`` - boolean """ raise NotImplementedError() def get_unique_constraints( self, connection, table_name, schema=None, **kw ): r"""Return information about unique constraints in `table_name`. Given a string `table_name` and an optional string `schema`, return unique constraint information as a list of dicts with these keys: * ``name`` - the unique constraint's name * ``column_names`` - list of column names in order * ``**kw`` - other options passed to the dialect's get_unique_constraints() method. .. versionadded:: 0.9.0 """ raise NotImplementedError() def get_check_constraints(self, connection, table_name, schema=None, **kw): r"""Return information about check constraints in `table_name`. Given a string `table_name` and an optional string `schema`, return check constraint information as a list of dicts with these keys: * ``name`` - the check constraint's name * ``sqltext`` - the check constraint's SQL expression * ``**kw`` - other options passed to the dialect's get_check_constraints() method. .. versionadded:: 1.1.0 """ raise NotImplementedError() def get_table_comment(self, connection, table_name, schema=None, **kw): r"""Return the "comment" for the table identified by `table_name`. Given a string `table_name` and an optional string `schema`, return table comment information as a dictionary with this key: text text of the comment Raises ``NotImplementedError`` for dialects that don't support comments. .. versionadded:: 1.2 """ raise NotImplementedError() def normalize_name(self, name): """convert the given name to lowercase if it is detected as case insensitive. This method is only used if the dialect defines requires_name_normalize=True. """ raise NotImplementedError() def denormalize_name(self, name): """convert the given name to a case insensitive identifier for the backend if it is an all-lowercase name. This method is only used if the dialect defines requires_name_normalize=True. """ raise NotImplementedError() def has_table(self, connection, table_name, schema=None): """Check the existence of a particular table in the database. Given a :class:`_engine.Connection` object and a string `table_name`, return True if the given table (possibly within the specified `schema`) exists in the database, False otherwise. """ raise NotImplementedError() def has_sequence(self, connection, sequence_name, schema=None): """Check the existence of a particular sequence in the database. Given a :class:`_engine.Connection` object and a string `sequence_name`, return True if the given sequence exists in the database, False otherwise. """ raise NotImplementedError() def _get_server_version_info(self, connection): """Retrieve the server version info from the given connection. This is used by the default implementation to populate the "server_version_info" attribute and is called exactly once upon first connect. """ raise NotImplementedError() def _get_default_schema_name(self, connection): """Return the string name of the currently selected schema from the given connection. This is used by the default implementation to populate the "default_schema_name" attribute and is called exactly once upon first connect. """ raise NotImplementedError() def do_begin(self, dbapi_connection): """Provide an implementation of ``connection.begin()``, given a DB-API connection. The DBAPI has no dedicated "begin" method and it is expected that transactions are implicit. This hook is provided for those DBAPIs that might need additional help in this area. Note that :meth:`.Dialect.do_begin` is not called unless a :class:`.Transaction` object is in use. The :meth:`.Dialect.do_autocommit` hook is provided for DBAPIs that need some extra commands emitted after a commit in order to enter the next transaction, when the SQLAlchemy :class:`_engine.Connection` is used in its default "autocommit" mode. :param dbapi_connection: a DBAPI connection, typically proxied within a :class:`.ConnectionFairy`. """ raise NotImplementedError() def do_rollback(self, dbapi_connection): """Provide an implementation of ``connection.rollback()``, given a DB-API connection. :param dbapi_connection: a DBAPI connection, typically proxied within a :class:`.ConnectionFairy`. """ raise NotImplementedError() def do_commit(self, dbapi_connection): """Provide an implementation of ``connection.commit()``, given a DB-API connection. :param dbapi_connection: a DBAPI connection, typically proxied within a :class:`.ConnectionFairy`. """ raise NotImplementedError() def do_close(self, dbapi_connection): """Provide an implementation of ``connection.close()``, given a DBAPI connection. This hook is called by the :class:`_pool.Pool` when a connection has been detached from the pool, or is being returned beyond the normal capacity of the pool. """ raise NotImplementedError() def create_xid(self): """Create a two-phase transaction ID. This id will be passed to do_begin_twophase(), do_rollback_twophase(), do_commit_twophase(). Its format is unspecified. """ raise NotImplementedError() def do_savepoint(self, connection, name): """Create a savepoint with the given name. :param connection: a :class:`_engine.Connection`. :param name: savepoint name. """ raise NotImplementedError() def do_rollback_to_savepoint(self, connection, name): """Rollback a connection to the named savepoint. :param connection: a :class:`_engine.Connection`. :param name: savepoint name. """ raise NotImplementedError() def do_release_savepoint(self, connection, name): """Release the named savepoint on a connection. :param connection: a :class:`_engine.Connection`. :param name: savepoint name. """ raise NotImplementedError() def do_begin_twophase(self, connection, xid): """Begin a two phase transaction on the given connection. :param connection: a :class:`_engine.Connection`. :param xid: xid """ raise NotImplementedError() def do_prepare_twophase(self, connection, xid): """Prepare a two phase transaction on the given connection. :param connection: a :class:`_engine.Connection`. :param xid: xid """ raise NotImplementedError() def do_rollback_twophase( self, connection, xid, is_prepared=True, recover=False ): """Rollback a two phase transaction on the given connection. :param connection: a :class:`_engine.Connection`. :param xid: xid :param is_prepared: whether or not :meth:`.TwoPhaseTransaction.prepare` was called. :param recover: if the recover flag was passed. """ raise NotImplementedError() def do_commit_twophase( self, connection, xid, is_prepared=True, recover=False ): """Commit a two phase transaction on the given connection. :param connection: a :class:`_engine.Connection`. :param xid: xid :param is_prepared: whether or not :meth:`.TwoPhaseTransaction.prepare` was called. :param recover: if the recover flag was passed. """ raise NotImplementedError() def do_recover_twophase(self, connection): """Recover list of uncommitted prepared two phase transaction identifiers on the given connection. :param connection: a :class:`_engine.Connection`. """ raise NotImplementedError() def do_executemany(self, cursor, statement, parameters, context=None): """Provide an implementation of ``cursor.executemany(statement, parameters)``. """ raise NotImplementedError() def do_execute(self, cursor, statement, parameters, context=None): """Provide an implementation of ``cursor.execute(statement, parameters)``. """ raise NotImplementedError() def do_execute_no_params( self, cursor, statement, parameters, context=None ): """Provide an implementation of ``cursor.execute(statement)``. The parameter collection should not be sent. """ raise NotImplementedError() def is_disconnect(self, e, connection, cursor): """Return True if the given DB-API error indicates an invalid connection. """ raise NotImplementedError() def connect(self, *cargs, **cparams): r"""Establish a connection using this dialect's DBAPI. The default implementation of this method is:: def connect(self, *cargs, **cparams): return self.dbapi.connect(*cargs, **cparams) The ``*cargs, **cparams`` parameters are generated directly from this dialect's :meth:`.Dialect.create_connect_args` method. This method may be used for dialects that need to perform programmatic per-connection steps when a new connection is procured from the DBAPI. :param \*cargs: positional parameters returned from the :meth:`.Dialect.create_connect_args` method :param \*\*cparams: keyword parameters returned from the :meth:`.Dialect.create_connect_args` method. :return: a DBAPI connection, typically from the :pep:`249` module level ``.connect()`` function. .. seealso:: :meth:`.Dialect.create_connect_args` :meth:`.Dialect.on_connect` """ def on_connect(self): """Return a callable which sets up a newly created DBAPI connection. The callable should accept a single argument "conn" which is the DBAPI connection itself. The inner callable has no return value. E.g.:: class MyDialect(default.DefaultDialect): # ... def on_connect(self): def do_on_connect(connection): connection.execute("SET SPECIAL FLAGS etc") return do_on_connect This is used to set dialect-wide per-connection options such as isolation modes, Unicode modes, etc. The "do_on_connect" callable is invoked by using the :meth:`_events.PoolEvents.first_connect` and :meth:`_events.PoolEvents.connect` event hooks, then unwrapping the DBAPI connection and passing it into the callable. The reason it is invoked for both events is so that any dialect-level initialization that occurs upon first connection, which also makes use of the :meth:`_events.PoolEvents.first_connect` method, will proceed after this hook has been called. This currently means the hook is in fact called twice for the very first connection in which a dialect creates; and once per connection afterwards. If None is returned, no event listener is generated. :return: a callable that accepts a single DBAPI connection as an argument, or None. .. seealso:: :meth:`.Dialect.connect` - allows the DBAPI ``connect()`` sequence itself to be controlled. """ return None def reset_isolation_level(self, dbapi_conn): """Given a DBAPI connection, revert its isolation to the default. Note that this is a dialect-level method which is used as part of the implementation of the :class:`_engine.Connection` and :class:`_engine.Engine` isolation level facilities; these APIs should be preferred for most typical use cases. .. seealso:: :meth:`_engine.Connection.get_isolation_level` - view current level :attr:`_engine.Connection.default_isolation_level` - view default level :paramref:`.Connection.execution_options.isolation_level` - set per :class:`_engine.Connection` isolation level :paramref:`_sa.create_engine.isolation_level` - set per :class:`_engine.Engine` isolation level """ raise NotImplementedError() def set_isolation_level(self, dbapi_conn, level): """Given a DBAPI connection, set its isolation level. Note that this is a dialect-level method which is used as part of the implementation of the :class:`_engine.Connection` and :class:`_engine.Engine` isolation level facilities; these APIs should be preferred for most typical use cases. .. seealso:: :meth:`_engine.Connection.get_isolation_level` - view current level :attr:`_engine.Connection.default_isolation_level` - view default level :paramref:`.Connection.execution_options.isolation_level` - set per :class:`_engine.Connection` isolation level :paramref:`_sa.create_engine.isolation_level` - set per :class:`_engine.Engine` isolation level """ raise NotImplementedError() def get_isolation_level(self, dbapi_conn): """Given a DBAPI connection, return its isolation level. When working with a :class:`_engine.Connection` object, the corresponding DBAPI connection may be procured using the :attr:`_engine.Connection.connection` accessor. Note that this is a dialect-level method which is used as part of the implementation of the :class:`_engine.Connection` and :class:`_engine.Engine` isolation level facilities; these APIs should be preferred for most typical use cases. .. seealso:: :meth:`_engine.Connection.get_isolation_level` - view current level :attr:`_engine.Connection.default_isolation_level` - view default level :paramref:`.Connection.execution_options.isolation_level` - set per :class:`_engine.Connection` isolation level :paramref:`_sa.create_engine.isolation_level` - set per :class:`_engine.Engine` isolation level """ raise NotImplementedError() def get_default_isolation_level(self, dbapi_conn): """Given a DBAPI connection, return its isolation level, or a default isolation level if one cannot be retrieved. This method may only raise NotImplementedError and **must not raise any other exception**, as it is used implicitly upon first connect. The method **must return a value** for a dialect that supports isolation level settings, as this level is what will be reverted towards when a per-connection isolation level change is made. The method defaults to using the :meth:`.Dialect.get_isolation_level` method unless overridden by a dialect. .. versionadded:: 1.3.22 """ raise NotImplementedError() @classmethod def get_dialect_cls(cls, url): """Given a URL, return the :class:`.Dialect` that will be used. This is a hook that allows an external plugin to provide functionality around an existing dialect, by allowing the plugin to be loaded from the url based on an entrypoint, and then the plugin returns the actual dialect to be used. By default this just returns the cls. .. versionadded:: 1.0.3 """ return cls @classmethod def load_provisioning(cls): """Set up the provision.py module for this dialect. For dialects that include a provision.py module that sets up provisioning followers, this method should initiate that process. A typical implementation would be:: @classmethod def load_provisioning(cls): __import__("mydialect.provision") The default method assumes a module named ``provision.py`` inside the owning package of the current dialect, based on the ``__module__`` attribute:: @classmethod def load_provisioning(cls): package = ".".join(cls.__module__.split(".")[0:-1]) try: __import__(package + ".provision") except ImportError: pass .. versionadded:: 1.3.14 """ @classmethod def engine_created(cls, engine): """A convenience hook called before returning the final :class:`_engine.Engine`. If the dialect returned a different class from the :meth:`.get_dialect_cls` method, then the hook is called on both classes, first on the dialect class returned by the :meth:`.get_dialect_cls` method and then on the class on which the method was called. The hook should be used by dialects and/or wrappers to apply special events to the engine or its components. In particular, it allows a dialect-wrapping class to apply dialect-level events. .. versionadded:: 1.0.3 """ pass class CreateEnginePlugin(object): """A set of hooks intended to augment the construction of an :class:`_engine.Engine` object based on entrypoint names in a URL. The purpose of :class:`.CreateEnginePlugin` is to allow third-party systems to apply engine, pool and dialect level event listeners without the need for the target application to be modified; instead, the plugin names can be added to the database URL. Target applications for :class:`.CreateEnginePlugin` include: * connection and SQL performance tools, e.g. which use events to track number of checkouts and/or time spent with statements * connectivity plugins such as proxies Plugins are registered using entry points in a similar way as that of dialects:: entry_points={ 'sqlalchemy.plugins': [ 'myplugin = myapp.plugins:MyPlugin' ] A plugin that uses the above names would be invoked from a database URL as in:: from sqlalchemy import create_engine engine = create_engine( "mysql+pymysql://scott:tiger@localhost/test?plugin=myplugin") Alternatively, the :paramref:`.create_engine.plugins" argument may be passed as a list to :func:`_sa.create_engine`:: engine = create_engine( "mysql+pymysql://scott:tiger@localhost/test", plugins=["myplugin"]) .. versionadded:: 1.2.3 plugin names can also be specified to :func:`_sa.create_engine` as a list The ``plugin`` argument supports multiple instances, so that a URL may specify multiple plugins; they are loaded in the order stated in the URL:: engine = create_engine( "mysql+pymysql://scott:tiger@localhost/" "test?plugin=plugin_one&plugin=plugin_twp&plugin=plugin_three") A plugin can receive additional arguments from the URL string as well as from the keyword arguments passed to :func:`_sa.create_engine`. The :class:`.URL` object and the keyword dictionary are passed to the constructor so that these arguments can be extracted from the url's :attr:`.URL.query` collection as well as from the dictionary:: class MyPlugin(CreateEnginePlugin): def __init__(self, url, kwargs): self.my_argument_one = url.query.pop('my_argument_one') self.my_argument_two = url.query.pop('my_argument_two') self.my_argument_three = kwargs.pop('my_argument_three', None) Arguments like those illustrated above would be consumed from the following:: from sqlalchemy import create_engine engine = create_engine( "mysql+pymysql://scott:tiger@localhost/" "test?plugin=myplugin&my_argument_one=foo&my_argument_two=bar", my_argument_three='bat') The URL and dictionary are used for subsequent setup of the engine as they are, so the plugin can modify their arguments in-place. Arguments that are only understood by the plugin should be popped or otherwise removed so that they aren't interpreted as erroneous arguments afterwards. When the engine creation process completes and produces the :class:`_engine.Engine` object, it is again passed to the plugin via the :meth:`.CreateEnginePlugin.engine_created` hook. In this hook, additional changes can be made to the engine, most typically involving setup of events (e.g. those defined in :ref:`core_event_toplevel`). .. versionadded:: 1.1 """ def __init__(self, url, kwargs): """Construct a new :class:`.CreateEnginePlugin`. The plugin object is instantiated individually for each call to :func:`_sa.create_engine`. A single :class:`_engine. Engine` will be passed to the :meth:`.CreateEnginePlugin.engine_created` method corresponding to this URL. :param url: the :class:`.URL` object. The plugin should inspect what it needs here as well as remove its custom arguments from the :attr:`.URL.query` collection. The URL can be modified in-place in any other way as well. :param kwargs: The keyword arguments passed to :func:`.create_engine`. The plugin can read and modify this dictionary in-place, to affect the ultimate arguments used to create the engine. It should remove its custom arguments from the dictionary as well. """ self.url = url def handle_dialect_kwargs(self, dialect_cls, dialect_args): """parse and modify dialect kwargs""" def handle_pool_kwargs(self, pool_cls, pool_args): """parse and modify pool kwargs""" def engine_created(self, engine): """Receive the :class:`_engine.Engine` object when it is fully constructed. The plugin may make additional changes to the engine, such as registering engine or connection pool events. """ class ExecutionContext(object): """A messenger object for a Dialect that corresponds to a single execution. ExecutionContext should have these data members: connection Connection object which can be freely used by default value generators to execute SQL. This Connection should reference the same underlying connection/transactional resources of root_connection. root_connection Connection object which is the source of this ExecutionContext. This Connection may have close_with_result=True set, in which case it can only be used once. dialect dialect which created this ExecutionContext. cursor DB-API cursor procured from the connection, compiled if passed to constructor, sqlalchemy.engine.base.Compiled object being executed, statement string version of the statement to be executed. Is either passed to the constructor, or must be created from the sql.Compiled object by the time pre_exec() has completed. parameters bind parameters passed to the execute() method. For compiled statements, this is a dictionary or list of dictionaries. For textual statements, it should be in a format suitable for the dialect's paramstyle (i.e. dict or list of dicts for non positional, list or list of lists/tuples for positional). isinsert True if the statement is an INSERT. isupdate True if the statement is an UPDATE. should_autocommit True if the statement is a "committable" statement. prefetch_cols a list of Column objects for which a client-side default was fired off. Applies to inserts and updates. postfetch_cols a list of Column objects for which a server-side default or inline SQL expression value was fired off. Applies to inserts and updates. """ exception = None """A DBAPI-level exception that was caught when this ExecutionContext attempted to execute a statement. This attribute is meaningful only within the :meth:`_events.ConnectionEvents.dbapi_error` event. .. versionadded:: 0.9.7 .. seealso:: :attr:`.ExecutionContext.is_disconnect` :meth:`_events.ConnectionEvents.dbapi_error` """ is_disconnect = None """Boolean flag set to True or False when a DBAPI-level exception is caught when this ExecutionContext attempted to execute a statement. This attribute is meaningful only within the :meth:`_events.ConnectionEvents.dbapi_error` event. .. versionadded:: 0.9.7 .. seealso:: :attr:`.ExecutionContext.exception` :meth:`_events.ConnectionEvents.dbapi_error` """ def create_cursor(self): """Return a new cursor generated from this ExecutionContext's connection. Some dialects may wish to change the behavior of connection.cursor(), such as postgresql which may return a PG "server side" cursor. """ raise NotImplementedError() def pre_exec(self): """Called before an execution of a compiled statement. If a compiled statement was passed to this ExecutionContext, the `statement` and `parameters` datamembers must be initialized after this statement is complete. """ raise NotImplementedError() def post_exec(self): """Called after the execution of a compiled statement. If a compiled statement was passed to this ExecutionContext, the `last_insert_ids`, `last_inserted_params`, etc. datamembers should be available after this method completes. """ raise NotImplementedError() def result(self): """Return a result object corresponding to this ExecutionContext. Returns a ResultProxy. """ raise NotImplementedError() def handle_dbapi_exception(self, e): """Receive a DBAPI exception which occurred upon execute, result fetch, etc. """ raise NotImplementedError() def should_autocommit_text(self, statement): """Parse the given textual statement and return True if it refers to a "committable" statement """ raise NotImplementedError() def lastrow_has_defaults(self): """Return True if the last INSERT or UPDATE row contained inlined or database-side defaults. """ raise NotImplementedError() def get_rowcount(self): """Return the DBAPI ``cursor.rowcount`` value, or in some cases an interpreted value. See :attr:`_engine.ResultProxy.rowcount` for details on this. """ raise NotImplementedError() class Connectable(object): """Interface for an object which supports execution of SQL constructs. The two implementations of :class:`.Connectable` are :class:`_engine.Connection` and :class:`_engine.Engine`. Connectable must also implement the 'dialect' member which references a :class:`.Dialect` instance. """ def connect(self, **kwargs): """Return a :class:`_engine.Connection` object. Depending on context, this may be ``self`` if this object is already an instance of :class:`_engine.Connection`, or a newly procured :class:`_engine.Connection` if this object is an instance of :class:`_engine.Engine`. """ engine = None """The :class:`_engine.Engine` instance referred to by this :class:`.Connectable`. May be ``self`` if this is already an :class:`_engine.Engine`. """ @util.deprecated( "1.3", "The :meth:`_engine.Engine.contextual_connect` and " ":meth:`_engine.Connection.contextual_connect` methods are " "deprecated. This " "method is an artifact of the threadlocal engine strategy which is " "also to be deprecated. For explicit connections from an " ":class:`_engine.Engine`, use the :meth:`_engine.Engine.connect` " "method.", ) def contextual_connect(self, *arg, **kw): """Return a :class:`_engine.Connection` object which may be part of an ongoing context. Depending on context, this may be ``self`` if this object is already an instance of :class:`_engine.Connection`, or a newly procured :class:`_engine.Connection` if this object is an instance of :class:`_engine.Engine`. """ return self._contextual_connect(*arg, **kw) def _contextual_connect(self): raise NotImplementedError() @util.deprecated( "0.7", "The :meth:`.Connectable.create` method is deprecated and will be " "removed in a future release. Please use the ``.create()`` method " "on specific schema objects to emit DDL sequences, including " ":meth:`_schema.Table.create`, :meth:`.Index.create`, and " ":meth:`_schema.MetaData.create_all`.", ) def create(self, entity, **kwargs): """Emit CREATE statements for the given schema entity.""" raise NotImplementedError() @util.deprecated( "0.7", "The :meth:`.Connectable.drop` method is deprecated and will be " "removed in a future release. Please use the ``.drop()`` method " "on specific schema objects to emit DDL sequences, including " ":meth:`_schema.Table.drop`, :meth:`.Index.drop`, and " ":meth:`_schema.MetaData.drop_all`.", ) def drop(self, entity, **kwargs): """Emit DROP statements for the given schema entity.""" raise NotImplementedError() def execute(self, object_, *multiparams, **params): """Executes the given construct and returns a """ """:class:`_engine.ResultProxy`.""" raise NotImplementedError() def scalar(self, object_, *multiparams, **params): """Executes and returns the first column of the first row. The underlying cursor is closed after execution. """ raise NotImplementedError() def _run_visitor(self, visitorcallable, element, **kwargs): raise NotImplementedError() def _execute_clauseelement(self, elem, multiparams=None, params=None): raise NotImplementedError() class ExceptionContext(object): """Encapsulate information about an error condition in progress. This object exists solely to be passed to the :meth:`_events.ConnectionEvents.handle_error` event, supporting an interface that can be extended without backwards-incompatibility. .. versionadded:: 0.9.7 """ connection = None """The :class:`_engine.Connection` in use during the exception. This member is present, except in the case of a failure when first connecting. .. seealso:: :attr:`.ExceptionContext.engine` """ engine = None """The :class:`_engine.Engine` in use during the exception. This member should always be present, even in the case of a failure when first connecting. .. versionadded:: 1.0.0 """ cursor = None """The DBAPI cursor object. May be None. """ statement = None """String SQL statement that was emitted directly to the DBAPI. May be None. """ parameters = None """Parameter collection that was emitted directly to the DBAPI. May be None. """ original_exception = None """The exception object which was caught. This member is always present. """ sqlalchemy_exception = None """The :class:`sqlalchemy.exc.StatementError` which wraps the original, and will be raised if exception handling is not circumvented by the event. May be None, as not all exception types are wrapped by SQLAlchemy. For DBAPI-level exceptions that subclass the dbapi's Error class, this field will always be present. """ chained_exception = None """The exception that was returned by the previous handler in the exception chain, if any. If present, this exception will be the one ultimately raised by SQLAlchemy unless a subsequent handler replaces it. May be None. """ execution_context = None """The :class:`.ExecutionContext` corresponding to the execution operation in progress. This is present for statement execution operations, but not for operations such as transaction begin/end. It also is not present when the exception was raised before the :class:`.ExecutionContext` could be constructed. Note that the :attr:`.ExceptionContext.statement` and :attr:`.ExceptionContext.parameters` members may represent a different value than that of the :class:`.ExecutionContext`, potentially in the case where a :meth:`_events.ConnectionEvents.before_cursor_execute` event or similar modified the statement/parameters to be sent. May be None. """ is_disconnect = None """Represent whether the exception as occurred represents a "disconnect" condition. This flag will always be True or False within the scope of the :meth:`_events.ConnectionEvents.handle_error` handler. SQLAlchemy will defer to this flag in order to determine whether or not the connection should be invalidated subsequently. That is, by assigning to this flag, a "disconnect" event which then results in a connection and pool invalidation can be invoked or prevented by changing this flag. .. note:: The pool "pre_ping" handler enabled using the :paramref:`_sa.create_engine.pool_pre_ping` parameter does **not** consult this event before deciding if the "ping" returned false, as opposed to receiving an unhandled error. For this use case, the :ref:`legacy recipe based on engine_connect() may be used <pool_disconnects_pessimistic_custom>`. A future API allow more comprehensive customization of the "disconnect" detection mechanism across all functions. """ invalidate_pool_on_disconnect = True """Represent whether all connections in the pool should be invalidated when a "disconnect" condition is in effect. Setting this flag to False within the scope of the :meth:`_events.ConnectionEvents.handle_error` event will have the effect such that the full collection of connections in the pool will not be invalidated during a disconnect; only the current connection that is the subject of the error will actually be invalidated. The purpose of this flag is for custom disconnect-handling schemes where the invalidation of other connections in the pool is to be performed based on other conditions, or even on a per-connection basis. .. versionadded:: 1.0.3 """