"""Connection pooling for psycopg2 This module implements thread-safe (and not) connection pools. """ # psycopg/pool.py - pooling code for psycopg # # Copyright (C) 2003-2004 Federico Di Gregorio # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by the # Free Software Foundation; either version 2, or (at your option) any later # version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY # or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License # for more details. import psycopg2 try: import logging # do basic initialization if the module is not already initialized logging.basicConfig(level=logging.INFO, format='%(asctime)s %(levelname)s %(message)s') # create logger object for psycopg2 module and sub-modules _logger = logging.getLogger("psycopg2") def dbg(*args): _logger.debug("psycopg2", ' '.join([str(x) for x in args])) try: import App # does this make sure that we're running in Zope? _logger.info("installed. Logging using Python logging module") except: _logger.debug("installed. Logging using Python logging module") except ImportError: from zLOG import LOG, DEBUG, INFO def dbg(*args): LOG('ZPsycopgDA', DEBUG, "", ' '.join([str(x) for x in args])+'\n') LOG('ZPsycopgDA', INFO, "Installed", "Logging using Zope's zLOG\n") except: import sys def dbg(*args): sys.stderr.write(' '.join(args)+'\n') class PoolError(psycopg2.Error): pass class AbstractConnectionPool(object): """Generic key-based pooling code.""" def __init__(self, minconn, maxconn, *args, **kwargs): """Initialize the connection pool. New 'minconn' connections are created immediately calling 'connfunc' with given parameters. The connection pool will support a maximum of about 'maxconn' connections. """ self.minconn = minconn self.maxconn = maxconn self.closed = False self._args = args self._kwargs = kwargs self._pool = [] self._used = {} self._rused = {} # id(conn) -> key map self._keys = 0 for i in range(self.minconn): self._connect() def _connect(self, key=None): """Create a new connection and assign it to 'key' if not None.""" conn = psycopg2.connect(*self._args, **self._kwargs) if key is not None: self._used[key] = conn self._rused[id(conn)] = key else: self._pool.append(conn) return conn def _getkey(self): """Return a new unique key.""" self._keys += 1 return self._keys def _getconn(self, key=None): """Get a free connection and assign it to 'key' if not None.""" if self.closed: raise PoolError("connection pool is closed") if key is None: key = self._getkey() if self._used.has_key(key): return self._used[key] if self._pool: self._used[key] = conn = self._pool.pop() self._rused[id(conn)] = key return conn else: if len(self._used) == self.maxconn: raise PoolError("connection pool exausted") return self._connect(key) def _putconn(self, conn, key=None, close=False): """Put away a connection.""" if self.closed: raise PoolError("connection pool is closed") if key is None: key = self._rused[id(conn)] if not key: raise PoolError("trying to put unkeyed connection") if len(self._pool) < self.minconn and not close: self._pool.append(conn) else: conn.close() # here we check for the presence of key because it can happen that a # thread tries to put back a connection after a call to close if not self.closed or key in self._used: del self._used[key] del self._rused[id(conn)] def _closeall(self): """Close all connections. Note that this can lead to some code fail badly when trying to use an already closed connection. If you call .closeall() make sure your code can deal with it. """ if self.closed: raise PoolError("connection pool is closed") for conn in self._pool + list(self._used.values()): try: conn.close() except: pass self.closed = True class SimpleConnectionPool(AbstractConnectionPool): """A connection pool that can't be shared across different threads.""" getconn = AbstractConnectionPool._getconn putconn = AbstractConnectionPool._putconn closeall = AbstractConnectionPool._closeall class ThreadedConnectionPool(AbstractConnectionPool): """A connection pool that works with the threading module.""" def __init__(self, minconn, maxconn, *args, **kwargs): """Initialize the threading lock.""" import threading AbstractConnectionPool.__init__( self, minconn, maxconn, *args, **kwargs) self._lock = threading.Lock() def getconn(self, key=None): """Get a free connection and assign it to 'key' if not None.""" self._lock.acquire() try: return self._getconn(key) finally: self._lock.release() def putconn(self, conn=None, key=None, close=False): """Put away an unused connection.""" self._lock.acquire() try: self._putconn(conn, key, close) finally: self._lock.release() def closeall(self): """Close all connections (even the one currently in use.)""" self._lock.acquire() try: self._closeall() finally: self._lock.release() class PersistentConnectionPool(AbstractConnectionPool): """A pool that assigns persistent connections to different threads. Note that this connection pool generates by itself the required keys using the current thread id. This means that untill a thread put away a connection it will always get the same connection object by successive .getconn() calls. This also means that a thread can't use more than one single connection from the pool. """ def __init__(self, minconn, maxconn, *args, **kwargs): """Initialize the threading lock.""" import threading AbstractConnectionPool.__init__( self, minconn, maxconn, *args, **kwargs) self._lock = threading.Lock() # we we'll need the thread module, to determine thread ids, so we # import it here and copy it in an instance variable import thread self.__thread = thread def getconn(self): """Generate thread id and return a connection.""" key = self.__thread.get_ident() self._lock.acquire() try: return self._getconn(key) finally: self._lock.release() def putconn(self, conn=None, close=False): """Put away an unused connection.""" key = self.__thread.get_ident() self._lock.acquire() try: if not conn: conn = self._used[key] self._putconn(conn, key, close) finally: self._lock.release() def closeall(self): """Close all connections (even the one currently in use.)""" self._lock.acquire() try: self._closeall() finally: self._lock.release()