"""Miscellaneous goodies for psycopg2 This module is a generic place used to hold little helper functions and classes untill a better place in the distribution is found. """ # psycopg/extras.py - miscellaneous extra goodies 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 os import time import re as regex try: import logging except: logging = None from psycopg2 import DATETIME, DataError from psycopg2 import extensions as _ext from psycopg2.extensions import cursor as _cursor from psycopg2.extensions import connection as _connection from psycopg2.extensions import adapt as _A class DictCursorBase(_cursor): """Base class for all dict-like cursors.""" def __init__(self, *args, **kwargs): if kwargs.has_key('row_factory'): row_factory = kwargs['row_factory'] del kwargs['row_factory'] else: raise NotImplementedError( "DictCursorBase can't be instantiated without a row factory.") _cursor.__init__(self, *args, **kwargs) self._query_executed = 0 self._prefetch = 0 self.row_factory = row_factory def fetchone(self): if self._prefetch: res = _cursor.fetchone(self) if self._query_executed: self._build_index() if not self._prefetch: res = _cursor.fetchone(self) return res def fetchmany(self, size=None): if self._prefetch: res = _cursor.fetchmany(self, size) if self._query_executed: self._build_index() if not self._prefetch: res = _cursor.fetchmany(self, size) return res def fetchall(self): if self._prefetch: res = _cursor.fetchall(self) if self._query_executed: self._build_index() if not self._prefetch: res = _cursor.fetchall(self) return res def next(self): if self._prefetch: res = _cursor.fetchone(self) if res is None: raise StopIteration() if self._query_executed: self._build_index() if not self._prefetch: res = _cursor.fetchone(self) if res is None: raise StopIteration() return res class DictConnection(_connection): """A connection that uses DictCursor automatically.""" def cursor(self, name=None): if name is None: return _connection.cursor(self, cursor_factory=DictCursor) else: return _connection.cursor(self, name, cursor_factory=DictCursor) class DictCursor(DictCursorBase): """A cursor that keeps a list of column name -> index mappings.""" def __init__(self, *args, **kwargs): kwargs['row_factory'] = DictRow DictCursorBase.__init__(self, *args, **kwargs) self._prefetch = 1 def execute(self, query, vars=None, async=0): self.index = {} self._query_executed = 1 return _cursor.execute(self, query, vars, async) def callproc(self, procname, vars=None): self.index = {} self._query_executed = 1 return _cursor.callproc(self, procname, vars) def _build_index(self): if self._query_executed == 1 and self.description: for i in range(len(self.description)): self.index[self.description[i][0]] = i self._query_executed = 0 class DictRow(list): """A row object that allow by-colun-name access to data.""" __slots__ = ('_index',) def __init__(self, cursor): self._index = cursor.index self[:] = [None] * len(cursor.description) def __getitem__(self, x): if type(x) != int: x = self._index[x] return list.__getitem__(self, x) def items(self): res = [] for n, v in self._index.items(): res.append((n, list.__getitem__(self, v))) return res def keys(self): return self._index.keys() def values(self): return tuple(self[:]) def has_key(self, x): return self._index.has_key(x) def get(self, x, default=None): try: return self[x] except: return default def iteritems(self): for n, v in self._index.items(): yield n, list.__getitem__(self, v) def iterkeys(self): return self._index.iterkeys() def itervalues(self): return list.__iter__(self) def copy(self): return dict(self.items()) def __contains__(self, x): return self._index.__contains__(x) class RealDictConnection(_connection): """A connection that uses RealDictCursor automatically.""" def cursor(self, name=None): if name is None: return _connection.cursor(self, cursor_factory=RealDictCursor) else: return _connection.cursor(self, name, cursor_factory=RealDictCursor) class RealDictCursor(DictCursorBase): """A cursor that uses a real dict as the base type for rows. Note that this cursor is extremely specialized and does not allow the normal access (using integer indices) to fetched data. If you need to access database rows both as a dictionary and a list, then use the generic DictCursor instead of RealDictCursor. """ def __init__(self, *args, **kwargs): kwargs['row_factory'] = RealDictRow DictCursorBase.__init__(self, *args, **kwargs) self._prefetch = 0 def execute(self, query, vars=None, async=0): self.column_mapping = [] self._query_executed = 1 return _cursor.execute(self, query, vars, async) def callproc(self, procname, vars=None): self.column_mapping = [] self._query_executed = 1 return _cursor.callproc(self, procname, vars) def _build_index(self): if self._query_executed == 1 and self.description: for i in range(len(self.description)): self.column_mapping.append(self.description[i][0]) self._query_executed = 0 class RealDictRow(dict): __slots__ = ('_column_mapping') def __init__(self, cursor): dict.__init__(self) self._column_mapping = cursor.column_mapping def __setitem__(self, name, value): if type(name) == int: name = self._column_mapping[name] return dict.__setitem__(self, name, value) class LoggingConnection(_connection): """A connection that logs all queries to a file or logger object.""" def initialize(self, logobj): """Initialize the connection to log to `logobj`. The `logobj` parameter can be an open file object or a Logger instance from the standard logging module. """ self._logobj = logobj if logging and isinstance(logobj, logging.Logger): self.log = self._logtologger else: self.log = self._logtofile def filter(self, msg, curs): """Filter the query before logging it. This is the method to overwrite to filter unwanted queries out of the log or to add some extra data to the output. The default implementation just does nothing. """ return msg def _logtofile(self, msg, curs): msg = self.filter(msg, curs) if msg: self._logobj.write(msg + os.linesep) def _logtologger(self, msg, curs): msg = self.filter(msg, curs) if msg: self._logobj.debug(msg) def _check(self): if not hasattr(self, '_logobj'): raise self.ProgrammingError( "LoggingConnection object has not been initialize()d") def cursor(self, name=None): self._check() if name is None: return _connection.cursor(self, cursor_factory=LoggingCursor) else: return _connection.cursor(self, name, cursor_factory=LoggingCursor) class LoggingCursor(_cursor): """A cursor that logs queries using its connection logging facilities.""" def execute(self, query, vars=None, async=0): try: return _cursor.execute(self, query, vars, async) finally: self.connection.log(self.query, self) def callproc(self, procname, vars=None): try: return _cursor.callproc(self, procname, vars) finally: self.connection.log(self.query, self) class MinTimeLoggingConnection(LoggingConnection): """A connection that logs queries based on execution time. This is just an example of how to sub-class LoggingConnection to provide some extra filtering for the logged queries. Both the `.inizialize()` and `.filter()` methods are overwritten to make sure that only queries executing for more than `mintime` ms are logged. Note that this connection uses the specialized cursor MinTimeLoggingCursor. """ def initialize(self, logobj, mintime=0): LoggingConnection.initialize(self, logobj) self._mintime = mintime def filter(self, msg, curs): t = (time.time() - curs.timestamp) * 1000 if t > self._mintime: return msg + os.linesep + " (execution time: %d ms)" % t def cursor(self, name=None): self._check() if name is None: return _connection.cursor(self, cursor_factory=MinTimeLoggingCursor) else: return _connection.cursor(self, name, cursor_factory=MinTimeLoggingCursor) class MinTimeLoggingCursor(LoggingCursor): """The cursor sub-class companion to MinTimeLoggingConnection.""" def execute(self, query, vars=None, async=0): self.timestamp = time.time() return LoggingCursor.execute(self, query, vars, async) def callproc(self, procname, vars=None): self.timestamp = time.time() return LoggingCursor.execute(self, procname, vars) # a dbtype and adapter for Python UUID type try: import uuid class UUID_adapter(object): """Adapt Python's uuid.UUID type to PostgreSQL's uuid.""" def __init__(self, uuid): self._uuid = uuid def prepare(self, conn): pass def getquoted(self): return "'"+str(self._uuid)+"'::uuid" __str__ = getquoted def register_uuid(oids=None, conn_or_curs=None): """Create the UUID type and an uuid.UUID adapter.""" if not oids: oid1 = 2950 oid2 = 2951 elif type(oids) == list: oid1, oid2 = oids else: oid1 = oids oid2 = 2951 def parseUUIDARRAY(data, cursor): if data is None: return None elif data == '{}': return [] else: return [((len(x) > 0 and x != 'NULL') and uuid.UUID(x) or None) for x in data[1:-1].split(',')] _ext.UUID = _ext.new_type((oid1, ), "UUID", lambda data, cursor: data and uuid.UUID(data) or None) _ext.UUIDARRAY = _ext.new_type((oid2,), "UUID[]", parseUUIDARRAY) _ext.register_type(_ext.UUID, conn_or_curs) _ext.register_type(_ext.UUIDARRAY, conn_or_curs) _ext.register_adapter(uuid.UUID, UUID_adapter) return _ext.UUID except ImportError, e: def register_uuid(oid=None): """Create the UUID type and an uuid.UUID adapter. This is a fake function that will always raise an error because the import of the uuid module failed. """ raise e # a type, dbtype and adapter for PostgreSQL inet type class Inet(object): """Wrap a string to allow for correct SQL-quoting of inet values. Note that this adapter does NOT check the passed value to make sure it really is an inet-compatible address but DOES call adapt() on it to make sure it is impossible to execute an SQL-injection by passing an evil value to the initializer. """ def __init__(self, addr): self.addr def prepare(self, conn): self._conn = conn def getquoted(self): obj = adapt(self.addr) if hasattr(obj, 'prepare'): obj.prepare(self._conn) return obj.getquoted()+"::inet" def __str__(self): return str(self.addr) def register_inet(oid=None, conn_or_curs=None): """Create the INET type and an Inet adapter.""" if not oid: oid = 869 _ext.INET = _ext.new_type((oid, ), "INET", lambda data, cursor: data and Inet(data) or None) _ext.register_type(_ext.INET, conn_or_curs) return _ext.INET # safe management of times with a non-standard time zone def _convert_tstz_w_secs(s, cursor): try: return DATETIME(s, cursor) except (DataError,), exc: if exc.message != "unable to parse time": raise if regex.match('(\+|-)\d\d:\d\d:\d\d', s[-9:]) is None: raise # parsing doesn't succeed even if seconds are ":00" so truncate in # any case return DATETIME(s[:-3], cursor) def register_tstz_w_secs(oids=None, conn_or_curs=None): """Register alternate type caster for TIMESTAMP WITH TIME ZONE. The Python datetime module cannot handle time zones with seconds in the UTC offset. There are, however, historical "time zones" which contain such offsets, eg. "Asia/Calcutta". In many cases those offsets represent true local time. If you encounter "unable to parse time" on a perfectly valid timestamp you likely want to try this type caster. It truncates the seconds from the time zone data and retries casting the timestamp. Note that this will generate timestamps which are INACCURATE by the number of seconds truncated (unless the seconds were 00). which OIDs to use this type caster for, defaults to TIMESTAMP WITH TIME ZONE a cursor or connection if you want to attach this type caster to that only, defaults to None meaning all connections and cursors """ if oids is None: oids = (1184,) # hardcoded from PostgreSQL headers _ext.TSTZ_W_SECS = _ext.new_type(oids, 'TSTZ_W_SECS', _convert_tstz_w_secs) _ext.register_type(TSTZ_W_SECS, conn_or_curs) return _ext.TSTZ_W_SECS __all__ = [ k for k in locals().keys() if not k.startswith('_') ]