# Copyright 2010 United States Government as represented by the # Administrator of the National Aeronautics and Space Administration. # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. """Session Handling for SQLAlchemy backend. Recommended ways to use sessions within this framework: * Don't use them explicitly; this is like running with ``AUTOCOMMIT=1``. `model_query()` will implicitly use a session when called without one supplied. This is the ideal situation because it will allow queries to be automatically retried if the database connection is interrupted. .. note:: Automatic retry will be enabled in a future patch. It is generally fine to issue several queries in a row like this. Even though they may be run in separate transactions and/or separate sessions, each one will see the data from the prior calls. If needed, undo- or rollback-like functionality should be handled at a logical level. For an example, look at the code around quotas and `reservation_rollback()`. Examples: .. code-block:: python def get_foo(context, foo): return (model_query(context, models.Foo). filter_by(foo=foo). first()) def update_foo(context, id, newfoo): (model_query(context, models.Foo). filter_by(id=id). update({'foo': newfoo})) def create_foo(context, values): foo_ref = models.Foo() foo_ref.update(values) foo_ref.save() return foo_ref * Within the scope of a single method, keep all the reads and writes within the context managed by a single session. In this way, the session's `__exit__` handler will take care of calling `flush()` and `commit()` for you. If using this approach, you should not explicitly call `flush()` or `commit()`. Any error within the context of the session will cause the session to emit a `ROLLBACK`. Database errors like `IntegrityError` will be raised in `session`'s `__exit__` handler, and any try/except within the context managed by `session` will not be triggered. And catching other non-database errors in the session will not trigger the ROLLBACK, so exception handlers should always be outside the session, unless the developer wants to do a partial commit on purpose. If the connection is dropped before this is possible, the database will implicitly roll back the transaction. .. note:: Statements in the session scope will not be automatically retried. If you create models within the session, they need to be added, but you do not need to call `model.save()`: .. code-block:: python def create_many_foo(context, foos): session = sessionmaker() with session.begin(): for foo in foos: foo_ref = models.Foo() foo_ref.update(foo) session.add(foo_ref) def update_bar(context, foo_id, newbar): session = sessionmaker() with session.begin(): foo_ref = (model_query(context, models.Foo, session). filter_by(id=foo_id). first()) (model_query(context, models.Bar, session). filter_by(id=foo_ref['bar_id']). update({'bar': newbar})) .. note:: `update_bar` is a trivially simple example of using ``with session.begin``. Whereas `create_many_foo` is a good example of when a transaction is needed, it is always best to use as few queries as possible. The two queries in `update_bar` can be better expressed using a single query which avoids the need for an explicit transaction. It can be expressed like so: .. code-block:: python def update_bar(context, foo_id, newbar): subq = (model_query(context, models.Foo.id). filter_by(id=foo_id). limit(1). subquery()) (model_query(context, models.Bar). filter_by(id=subq.as_scalar()). update({'bar': newbar})) For reference, this emits approximately the following SQL statement: .. code-block:: sql UPDATE bar SET bar = ${newbar} WHERE id=(SELECT bar_id FROM foo WHERE id = ${foo_id} LIMIT 1); .. note:: `create_duplicate_foo` is a trivially simple example of catching an exception while using ``with session.begin``. Here create two duplicate instances with same primary key, must catch the exception out of context managed by a single session: .. code-block:: python def create_duplicate_foo(context): foo1 = models.Foo() foo2 = models.Foo() foo1.id = foo2.id = 1 session = sessionmaker() try: with session.begin(): session.add(foo1) session.add(foo2) except exception.DBDuplicateEntry as e: handle_error(e) * Passing an active session between methods. Sessions should only be passed to private methods. The private method must use a subtransaction; otherwise SQLAlchemy will throw an error when you call `session.begin()` on an existing transaction. Public methods should not accept a session parameter and should not be involved in sessions within the caller's scope. Note that this incurs more overhead in SQLAlchemy than the above means due to nesting transactions, and it is not possible to implicitly retry failed database operations when using this approach. This also makes code somewhat more difficult to read and debug, because a single database transaction spans more than one method. Error handling becomes less clear in this situation. When this is needed for code clarity, it should be clearly documented. .. code-block:: python def myfunc(foo): session = sessionmaker() with session.begin(): # do some database things bar = _private_func(foo, session) return bar def _private_func(foo, session=None): if not session: session = sessionmaker() with session.begin(subtransaction=True): # do some other database things return bar There are some things which it is best to avoid: * Don't keep a transaction open any longer than necessary. This means that your ``with session.begin()`` block should be as short as possible, while still containing all the related calls for that transaction. * Avoid ``with_lockmode('UPDATE')`` when possible. In MySQL/InnoDB, when a ``SELECT ... FOR UPDATE`` query does not match any rows, it will take a gap-lock. This is a form of write-lock on the "gap" where no rows exist, and prevents any other writes to that space. This can effectively prevent any INSERT into a table by locking the gap at the end of the index. Similar problems will occur if the SELECT FOR UPDATE has an overly broad WHERE clause, or doesn't properly use an index. One idea proposed at ODS Fall '12 was to use a normal SELECT to test the number of rows matching a query, and if only one row is returned, then issue the SELECT FOR UPDATE. The better long-term solution is to use ``INSERT .. ON DUPLICATE KEY UPDATE``. However, this can not be done until the "deleted" columns are removed and proper UNIQUE constraints are added to the tables. Enabling soft deletes: * To use/enable soft-deletes, the `SoftDeleteMixin` must be added to your model class. For example: .. code-block:: python class NovaBase(models.SoftDeleteMixin, models.ModelBase): pass Efficient use of soft deletes: * There are two possible ways to mark a record as deleted: `model.soft_delete()` and `query.soft_delete()`. The `model.soft_delete()` method works with a single already-fetched entry. `query.soft_delete()` makes only one db request for all entries that correspond to the query. * In almost all cases you should use `query.soft_delete()`. Some examples: .. code-block:: python def soft_delete_bar(): count = model_query(BarModel).find(some_condition).soft_delete() if count == 0: raise Exception("0 entries were soft deleted") def complex_soft_delete_with_synchronization_bar(session=None): if session is None: session = sessionmaker() with session.begin(subtransactions=True): count = (model_query(BarModel). find(some_condition). soft_delete(synchronize_session=True)) # Here synchronize_session is required, because we # don't know what is going on in outer session. if count == 0: raise Exception("0 entries were soft deleted") * There is only one situation where `model.soft_delete()` is appropriate: when you fetch a single record, work with it, and mark it as deleted in the same transaction. .. code-block:: python def soft_delete_bar_model(): session = sessionmaker() with session.begin(): bar_ref = model_query(BarModel).find(some_condition).first() # Work with bar_ref bar_ref.soft_delete(session=session) However, if you need to work with all entries that correspond to query and then soft delete them you should use the `query.soft_delete()` method: .. code-block:: python def soft_delete_multi_models(): session = sessionmaker() with session.begin(): query = (model_query(BarModel, session=session). find(some_condition)) model_refs = query.all() # Work with model_refs query.soft_delete(synchronize_session=False) # synchronize_session=False should be set if there is no outer # session and these entries are not used after this. When working with many rows, it is very important to use query.soft_delete, which issues a single query. Using `model.soft_delete()`, as in the following example, is very inefficient. .. code-block:: python for bar_ref in bar_refs: bar_ref.soft_delete(session=session) # This will produce count(bar_refs) db requests. """ import functools import logging import re import time import six from sqlalchemy import exc as sqla_exc from sqlalchemy.interfaces import PoolListener import sqlalchemy.orm from sqlalchemy.pool import NullPool, StaticPool from sqlalchemy.sql.expression import literal_column from oslo.db import exception from oslo.db import options from oslo.db.openstack.common.gettextutils import _LE, _LW from oslo.db.openstack.common import timeutils LOG = logging.getLogger(__name__) class SqliteForeignKeysListener(PoolListener): """Ensures that the foreign key constraints are enforced in SQLite. The foreign key constraints are disabled by default in SQLite, so the foreign key constraints will be enabled here for every database connection """ def connect(self, dbapi_con, con_record): dbapi_con.execute('pragma foreign_keys=ON') # note(boris-42): In current versions of DB backends unique constraint # violation messages follow the structure: # # sqlite: # 1 column - (IntegrityError) column c1 is not unique # N columns - (IntegrityError) column c1, c2, ..., N are not unique # # sqlite since 3.7.16: # 1 column - (IntegrityError) UNIQUE constraint failed: tbl.k1 # # N columns - (IntegrityError) UNIQUE constraint failed: tbl.k1, tbl.k2 # # postgres: # 1 column - (IntegrityError) duplicate key value violates unique # constraint "users_c1_key" # N columns - (IntegrityError) duplicate key value violates unique # constraint "name_of_our_constraint" # # mysql: # 1 column - (IntegrityError) (1062, "Duplicate entry 'value_of_c1' for key # 'c1'") # N columns - (IntegrityError) (1062, "Duplicate entry 'values joined # with -' for key 'name_of_our_constraint'") # # ibm_db_sa: # N columns - (IntegrityError) SQL0803N One or more values in the INSERT # statement, UPDATE statement, or foreign key update caused by a # DELETE statement are not valid because the primary key, unique # constraint or unique index identified by "2" constrains table # "NOVA.KEY_PAIRS" from having duplicate values for the index # key. _DUP_KEY_RE_DB = { "sqlite": (re.compile(r"^.*columns?([^)]+)(is|are)\s+not\s+unique$"), re.compile(r"^.*UNIQUE\s+constraint\s+failed:\s+(.+)$")), "postgresql": (re.compile(r"^.*duplicate\s+key.*\"([^\"]+)\"\s*\n.*$"),), "mysql": (re.compile(r"^.*\(1062,.*'([^\']+)'\"\)$"),), "ibm_db_sa": (re.compile(r"^.*SQL0803N.*$"),), } def _raise_if_duplicate_entry_error(integrity_error, engine_name): """Raise exception if two entries are duplicated. In this function will be raised DBDuplicateEntry exception if integrity error wrap unique constraint violation. """ def get_columns_from_uniq_cons_or_name(columns): # note(vsergeyev): UniqueConstraint name convention: "uniq_t0c10c2" # where `t` it is table name and columns `c1`, `c2` # are in UniqueConstraint. uniqbase = "uniq_" if not columns.startswith(uniqbase): if engine_name == "postgresql": return [columns[columns.index("_") + 1:columns.rindex("_")]] return [columns] return columns[len(uniqbase):].split("0")[1:] if engine_name not in ("ibm_db_sa", "mysql", "sqlite", "postgresql"): return # FIXME(johannes): The usage of the .message attribute has been # deprecated since Python 2.6. However, the exceptions raised by # SQLAlchemy can differ when using unicode() and accessing .message. # An audit across all three supported engines will be necessary to # ensure there are no regressions. for pattern in _DUP_KEY_RE_DB[engine_name]: match = pattern.match(integrity_error.message) if match: break else: return # NOTE(mriedem): The ibm_db_sa integrity error message doesn't provide the # columns so we have to omit that from the DBDuplicateEntry error. columns = '' if engine_name != 'ibm_db_sa': columns = match.group(1) if engine_name == "sqlite": columns = [c.split('.')[-1] for c in columns.strip().split(", ")] else: columns = get_columns_from_uniq_cons_or_name(columns) raise exception.DBDuplicateEntry(columns, integrity_error) # NOTE(comstud): In current versions of DB backends, Deadlock violation # messages follow the structure: # # mysql: # (OperationalError) (1213, 'Deadlock found when trying to get lock; try ' # 'restarting transaction') _DEADLOCK_RE_DB = { "mysql": re.compile(r"^.*\(1213, 'Deadlock.*") } def _raise_if_deadlock_error(operational_error, engine_name): """Raise exception on deadlock condition. Raise DBDeadlock exception if OperationalError contains a Deadlock condition. """ re = _DEADLOCK_RE_DB.get(engine_name) if re is None: return # FIXME(johannes): The usage of the .message attribute has been # deprecated since Python 2.6. However, the exceptions raised by # SQLAlchemy can differ when using unicode() and accessing .message. # An audit across all three supported engines will be necessary to # ensure there are no regressions. m = re.match(operational_error.message) if not m: return raise exception.DBDeadlock(operational_error) def _wrap_db_error(f): @functools.wraps(f) def _wrap(self, *args, **kwargs): try: assert issubclass( self.__class__, sqlalchemy.orm.session.Session ), ('_wrap_db_error() can only be applied to methods of ' 'subclasses of sqlalchemy.orm.session.Session.') return f(self, *args, **kwargs) except UnicodeEncodeError: raise exception.DBInvalidUnicodeParameter() except sqla_exc.OperationalError as e: _raise_if_db_connection_lost(e, self.bind) _raise_if_deadlock_error(e, self.bind.dialect.name) # NOTE(comstud): A lot of code is checking for OperationalError # so let's not wrap it for now. raise # note(boris-42): We should catch unique constraint violation and # wrap it by our own DBDuplicateEntry exception. Unique constraint # violation is wrapped by IntegrityError. except sqla_exc.IntegrityError as e: # note(boris-42): SqlAlchemy doesn't unify errors from different # DBs so we must do this. Also in some tables (for example # instance_types) there are more than one unique constraint. This # means we should get names of columns, which values violate # unique constraint, from error message. _raise_if_duplicate_entry_error(e, self.bind.dialect.name) raise exception.DBError(e) except Exception as e: LOG.exception(_LE('DB exception wrapped.')) raise exception.DBError(e) return _wrap def _synchronous_switch_listener(dbapi_conn, connection_rec): """Switch sqlite connections to non-synchronous mode.""" dbapi_conn.execute("PRAGMA synchronous = OFF") def _add_regexp_listener(dbapi_con, con_record): """Add REGEXP function to sqlite connections.""" def regexp(expr, item): reg = re.compile(expr) return reg.search(six.text_type(item)) is not None dbapi_con.create_function('regexp', 2, regexp) def _thread_yield(dbapi_con, con_record): """Ensure other greenthreads get a chance to be executed. If we use eventlet.monkey_patch(), eventlet.greenthread.sleep(0) will execute instead of time.sleep(0). Force a context switch. With common database backends (eg MySQLdb and sqlite), there is no implicit yield caused by network I/O since they are implemented by C libraries that eventlet cannot monkey patch. """ time.sleep(0) def _ping_listener(engine, dbapi_conn, connection_rec, connection_proxy): """Ensures that MySQL, PostgreSQL or DB2 connections are alive. Borrowed from: http://groups.google.com/group/sqlalchemy/msg/a4ce563d802c929f """ cursor = dbapi_conn.cursor() try: ping_sql = 'select 1' if engine.name == 'ibm_db_sa': # DB2 requires a table expression ping_sql = 'select 1 from (values (1)) AS t1' cursor.execute(ping_sql) except Exception as ex: if engine.dialect.is_disconnect(ex, dbapi_conn, cursor): msg = _LW('Database server has gone away: %s') % ex LOG.warning(msg) # if the database server has gone away, all connections in the pool # have become invalid and we can safely close all of them here, # rather than waste time on checking of every single connection engine.dispose() # this will be handled by SQLAlchemy and will force it to create # a new connection and retry the original action raise sqla_exc.DisconnectionError(msg) else: raise def _set_session_sql_mode(dbapi_con, connection_rec, sql_mode=None): """Set the sql_mode session variable. MySQL supports several server modes. The default is None, but sessions may choose to enable server modes like TRADITIONAL, ANSI, several STRICT_* modes and others. Note: passing in '' (empty string) for sql_mode clears the SQL mode for the session, overriding a potentially set server default. """ cursor = dbapi_con.cursor() cursor.execute("SET SESSION sql_mode = %s", [sql_mode]) def _mysql_get_effective_sql_mode(engine): """Returns the effective SQL mode for connections from the engine pool. Returns ``None`` if the mode isn't available, otherwise returns the mode. """ # Get the real effective SQL mode. Even when unset by # our own config, the server may still be operating in a specific # SQL mode as set by the server configuration. # Also note that the checkout listener will be called on execute to # set the mode if it's registered. row = engine.execute("SHOW VARIABLES LIKE 'sql_mode'").fetchone() if row is None: return return row[1] def _mysql_check_effective_sql_mode(engine): """Logs a message based on the effective SQL mode for MySQL connections.""" realmode = _mysql_get_effective_sql_mode(engine) if realmode is None: LOG.warning(_LW('Unable to detect effective SQL mode')) return LOG.debug('MySQL server mode set to %s', realmode) # 'TRADITIONAL' mode enables several other modes, so # we need a substring match here if not ('TRADITIONAL' in realmode.upper() or 'STRICT_ALL_TABLES' in realmode.upper()): LOG.warning(_LW("MySQL SQL mode is '%s', " "consider enabling TRADITIONAL or STRICT_ALL_TABLES"), realmode) def _mysql_set_mode_callback(engine, sql_mode): if sql_mode is not None: mode_callback = functools.partial(_set_session_sql_mode, sql_mode=sql_mode) sqlalchemy.event.listen(engine, 'connect', mode_callback) _mysql_check_effective_sql_mode(engine) def _is_db_connection_error(args): """Return True if error in connecting to db.""" # NOTE(adam_g): This is currently MySQL specific and needs to be extended # to support Postgres and others. # For the db2, the error code is -30081 since the db2 is still not ready conn_err_codes = ('2002', '2003', '2006', '2013', '-30081') for err_code in conn_err_codes: if args.find(err_code) != -1: return True return False def _raise_if_db_connection_lost(error, engine): # NOTE(vsergeyev): Function is_disconnect(e, connection, cursor) # requires connection and cursor in incoming parameters, # but we have no possibility to create connection if DB # is not available, so in such case reconnect fails. # But is_disconnect() ignores these parameters, so it # makes sense to pass to function None as placeholder # instead of connection and cursor. if engine.dialect.is_disconnect(error, None, None): raise exception.DBConnectionError(error) def create_engine(sql_connection, sqlite_fk=False, mysql_sql_mode=None, idle_timeout=3600, connection_debug=0, max_pool_size=None, max_overflow=None, pool_timeout=None, sqlite_synchronous=True, connection_trace=False, max_retries=10, retry_interval=10, thread_checkin=True): """Return a new SQLAlchemy engine.""" connection_dict = sqlalchemy.engine.url.make_url(sql_connection) engine_args = { "pool_recycle": idle_timeout, 'convert_unicode': True, } if connection_debug >= 0: # Map SQL debug level to Python log level logger = logging.getLogger('sqlalchemy.engine') if connection_debug >= 100: logger.setLevel(logging.DEBUG) elif connection_debug >= 50: logger.setLevel(logging.INFO) else: logger.setLevel(logging.WARNING) if "sqlite" in connection_dict.drivername: if sqlite_fk: engine_args["listeners"] = [SqliteForeignKeysListener()] engine_args["poolclass"] = NullPool if sql_connection == "sqlite://": engine_args["poolclass"] = StaticPool engine_args["connect_args"] = {'check_same_thread': False} else: if max_pool_size is not None: engine_args['pool_size'] = max_pool_size if max_overflow is not None: engine_args['max_overflow'] = max_overflow if pool_timeout is not None: engine_args['pool_timeout'] = pool_timeout engine = sqlalchemy.create_engine(sql_connection, **engine_args) if thread_checkin: sqlalchemy.event.listen(engine, 'checkin', _thread_yield) if engine.name in ('ibm_db_sa', 'mysql', 'postgresql'): ping_callback = functools.partial(_ping_listener, engine) sqlalchemy.event.listen(engine, 'checkout', ping_callback) if engine.name == 'mysql': if mysql_sql_mode: _mysql_set_mode_callback(engine, mysql_sql_mode) elif 'sqlite' in connection_dict.drivername: if not sqlite_synchronous: sqlalchemy.event.listen(engine, 'connect', _synchronous_switch_listener) sqlalchemy.event.listen(engine, 'connect', _add_regexp_listener) if connection_trace and engine.dialect.dbapi.__name__ == 'MySQLdb': _patch_mysqldb_with_stacktrace_comments() try: engine.connect() except sqla_exc.OperationalError as e: if not _is_db_connection_error(e.args[0]): raise remaining = max_retries if remaining == -1: remaining = 'infinite' while True: msg = _LW('SQL connection failed. %s attempts left.') LOG.warning(msg, remaining) if remaining != 'infinite': remaining -= 1 time.sleep(retry_interval) try: engine.connect() break except sqla_exc.OperationalError as e: if (remaining != 'infinite' and remaining == 0) or \ not _is_db_connection_error(e.args[0]): raise return engine class Query(sqlalchemy.orm.query.Query): """Subclass of sqlalchemy.query with soft_delete() method.""" def soft_delete(self, synchronize_session='evaluate'): return self.update({'deleted': literal_column('id'), 'updated_at': literal_column('updated_at'), 'deleted_at': timeutils.utcnow()}, synchronize_session=synchronize_session) class Session(sqlalchemy.orm.session.Session): """Custom Session class to avoid SqlAlchemy Session monkey patching.""" @_wrap_db_error def query(self, *args, **kwargs): return super(Session, self).query(*args, **kwargs) @_wrap_db_error def flush(self, *args, **kwargs): return super(Session, self).flush(*args, **kwargs) @_wrap_db_error def execute(self, *args, **kwargs): return super(Session, self).execute(*args, **kwargs) def get_maker(engine, autocommit=True, expire_on_commit=False): """Return a SQLAlchemy sessionmaker using the given engine.""" return sqlalchemy.orm.sessionmaker(bind=engine, class_=Session, autocommit=autocommit, expire_on_commit=expire_on_commit, query_cls=Query) def _patch_mysqldb_with_stacktrace_comments(): """Adds current stack trace as a comment in queries. Patches MySQLdb.cursors.BaseCursor._do_query. """ import MySQLdb.cursors import traceback old_mysql_do_query = MySQLdb.cursors.BaseCursor._do_query def _do_query(self, q): stack = '' for filename, line, method, function in traceback.extract_stack(): # exclude various common things from trace if filename.endswith('session.py') and method == '_do_query': continue if filename.endswith('api.py') and method == 'wrapper': continue if filename.endswith('utils.py') and method == '_inner': continue if filename.endswith('exception.py') and method == '_wrap': continue # db/api is just a wrapper around db/sqlalchemy/api if filename.endswith('db/api.py'): continue # only trace inside oslo index = filename.rfind('oslo') if index == -1: continue stack += "File:%s:%s Method:%s() Line:%s | " \ % (filename[index:], line, method, function) # strip trailing " | " from stack if stack: stack = stack[:-3] qq = "%s /* %s */" % (q, stack) else: qq = q old_mysql_do_query(self, qq) setattr(MySQLdb.cursors.BaseCursor, '_do_query', _do_query) class EngineFacade(object): """A helper class for removing of global engine instances from oslo.db. As a library, oslo.db can't decide where to store/when to create engine and sessionmaker instances, so this must be left for a target application. On the other hand, in order to simplify the adoption of oslo.db changes, we'll provide a helper class, which creates engine and sessionmaker on its instantiation and provides get_engine()/get_session() methods that are compatible with corresponding utility functions that currently exist in target projects, e.g. in Nova. engine/sessionmaker instances will still be global (and they are meant to be global), but they will be stored in the app context, rather that in the oslo.db context. Note: using of this helper is completely optional and you are encouraged to integrate engine/sessionmaker instances into your apps any way you like (e.g. one might want to bind a session to a request context). Two important things to remember: 1. An Engine instance is effectively a pool of DB connections, so it's meant to be shared (and it's thread-safe). 2. A Session instance is not meant to be shared and represents a DB transactional context (i.e. it's not thread-safe). sessionmaker is a factory of sessions. """ def __init__(self, sql_connection, slave_connection=None, sqlite_fk=False, autocommit=True, expire_on_commit=False, **kwargs): """Initialize engine and sessionmaker instances. :param sql_connection: the connection string for the database to use :type sql_connection: string :param slave_connection: the connection string for the 'slave' database to use. If not provided, the master database will be used for all operations. Note: this is meant to be used for offloading of read operations to asynchronously replicated slaves to reduce the load on the master database. :type slave_connection: string :param sqlite_fk: enable foreign keys in SQLite :type sqlite_fk: bool :param autocommit: use autocommit mode for created Session instances :type autocommit: bool :param expire_on_commit: expire session objects on commit :type expire_on_commit: bool Keyword arguments: :keyword mysql_sql_mode: the SQL mode to be used for MySQL sessions. (defaults to TRADITIONAL) :keyword idle_timeout: timeout before idle sql connections are reaped (defaults to 3600) :keyword connection_debug: verbosity of SQL debugging information. -1=Off, 0=None, 100=Everything (defaults to 0) :keyword max_pool_size: maximum number of SQL connections to keep open in a pool (defaults to SQLAlchemy settings) :keyword max_overflow: if set, use this value for max_overflow with sqlalchemy (defaults to SQLAlchemy settings) :keyword pool_timeout: if set, use this value for pool_timeout with sqlalchemy (defaults to SQLAlchemy settings) :keyword sqlite_synchronous: if True, SQLite uses synchronous mode (defaults to True) :keyword connection_trace: add python stack traces to SQL as comment strings (defaults to False) :keyword max_retries: maximum db connection retries during startup. (setting -1 implies an infinite retry count) (defaults to 10) :keyword retry_interval: interval between retries of opening a sql connection (defaults to 10) :keyword thread_checkin: boolean that indicates that between each engine checkin event a sleep(0) will occur to allow other greenthreads to run (defaults to True) """ super(EngineFacade, self).__init__() engine_kwargs = { 'sqlite_fk': sqlite_fk, 'mysql_sql_mode': kwargs.get('mysql_sql_mode', 'TRADITIONAL'), 'idle_timeout': kwargs.get('idle_timeout', 3600), 'connection_debug': kwargs.get('connection_debug', 0), 'max_pool_size': kwargs.get('max_pool_size'), 'max_overflow': kwargs.get('max_overflow'), 'pool_timeout': kwargs.get('pool_timeout'), 'sqlite_synchronous': kwargs.get('sqlite_synchronous', True), 'connection_trace': kwargs.get('connection_trace', False), 'max_retries': kwargs.get('max_retries', 10), 'retry_interval': kwargs.get('retry_interval', 10), 'thread_checkin': kwargs.get('thread_checkin', True) } maker_kwargs = { 'autocommit': autocommit, 'expire_on_commit': expire_on_commit } self._engine = create_engine(sql_connection=sql_connection, **engine_kwargs) self._session_maker = get_maker(engine=self._engine, **maker_kwargs) if slave_connection: self._slave_engine = create_engine(sql_connection=slave_connection, **engine_kwargs) self._slave_session_maker = get_maker(engine=self._slave_engine, **maker_kwargs) else: self._slave_engine = None self._slave_session_maker = None def get_engine(self, use_slave=False): """Get the engine instance (note, that it's shared). :param use_slave: if possible, use 'slave' database for this engine. If the connection string for the slave database wasn't provided, 'master' engine will be returned. (defaults to False) :type use_slave: bool """ if use_slave and self._slave_engine: return self._slave_engine return self._engine def get_session(self, use_slave=False, **kwargs): """Get a Session instance. :param use_slave: if possible, use 'slave' database connection for this session. If the connection string for the slave database wasn't provided, a session bound to the 'master' engine will be returned. (defaults to False) :type use_slave: bool Keyword arugments will be passed to a sessionmaker instance as is (if passed, they will override the ones used when the sessionmaker instance was created). See SQLAlchemy Session docs for details. """ if use_slave and self._slave_session_maker: return self._slave_session_maker(**kwargs) return self._session_maker(**kwargs) @classmethod def from_config(cls, conf, sqlite_fk=False, autocommit=True, expire_on_commit=False): """Initialize EngineFacade using oslo.config config instance options. :param conf: oslo.config config instance :type conf: oslo.config.cfg.ConfigOpts :param sqlite_fk: enable foreign keys in SQLite :type sqlite_fk: bool :param autocommit: use autocommit mode for created Session instances :type autocommit: bool :param expire_on_commit: expire session objects on commit :type expire_on_commit: bool """ conf.register_opts(options.database_opts, 'database') return cls(sql_connection=conf.database.connection, slave_connection=conf.database.slave_connection, sqlite_fk=sqlite_fk, autocommit=autocommit, expire_on_commit=expire_on_commit, mysql_sql_mode=conf.database.mysql_sql_mode, idle_timeout=conf.database.idle_timeout, connection_debug=conf.database.connection_debug, max_pool_size=conf.database.max_pool_size, max_overflow=conf.database.max_overflow, pool_timeout=conf.database.pool_timeout, sqlite_synchronous=conf.database.sqlite_synchronous, connection_trace=conf.database.connection_trace, max_retries=conf.database.max_retries, retry_interval=conf.database.retry_interval)