"""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) 2003-2010 Federico Di Gregorio # # psycopg2 is free software: you can redistribute it and/or modify it # under the terms of the GNU Lesser General Public License as published # by the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # In addition, as a special exception, the copyright holders give # permission to link this program with the OpenSSL library (or with # modified versions of OpenSSL that use the same license as OpenSSL), # and distribute linked combinations including the two. # # You must obey the GNU Lesser General Public License in all respects for # all of the code used other than OpenSSL. # # psycopg2 is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or # FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public # License for more details. import os import sys import time import codecs import warnings import re as regex try: import logging except: logging = None import psycopg2 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 from psycopg2.extensions import b class DictCursorBase(_cursor): """Base class for all dict-like cursors.""" def __init__(self, *args, **kwargs): if 'row_factory' in kwargs: 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): self.index = {} self._query_executed = 1 return _cursor.execute(self, query, vars) 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-colmun-name access to data.""" __slots__ = ('_index',) def __init__(self, cursor): self._index = cursor.index self[:] = [None] * len(cursor.description) def __getitem__(self, x): if not isinstance(x, (int, slice)): x = self._index[x] return list.__getitem__(self, x) def __setitem__(self, x, v): if not isinstance(x, (int, slice)): x = self._index[x] list.__setitem__(self, x, v) def items(self): return list(self.iteritems()) def keys(self): return self._index.keys() def values(self): return tuple(self[:]) def has_key(self, x): return x in self._index def get(self, x, default=None): try: return self[x] except: return default def iteritems(self): for n, v in self._index.iteritems(): 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.iteritems()) def __contains__(self, x): return x in self._index # grop the crusty Py2 methods if sys.version_info[0] > 2: items = iteritems; del iteritems keys = iterkeys; del iterkeys values = itervalues; del itervalues del has_key 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): self.column_mapping = [] self._query_executed = 1 return _cursor.execute(self, query, vars) 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): """A ``dict`` subclass representing a data record.""" __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 NamedTupleConnection(_connection): """A connection that uses `NamedTupleCursor` automatically.""" def cursor(self, *args, **kwargs): kwargs['cursor_factory'] = NamedTupleCursor return _connection.cursor(self, *args, **kwargs) class NamedTupleCursor(_cursor): """A cursor that generates results as |namedtuple|__. `!fetch*()` methods will return named tuples instead of regular tuples, so their elements can be accessed both as regular numeric items as well as attributes. >>> nt_cur = conn.cursor(cursor_factory=psycopg2.extras.NamedTupleCursor) >>> rec = nt_cur.fetchone() >>> rec Record(id=1, num=100, data="abc'def") >>> rec[1] 100 >>> rec.data "abc'def" .. |namedtuple| replace:: `!namedtuple` .. __: http://docs.python.org/release/2.6/library/collections.html#collections.namedtuple """ Record = None def execute(self, query, vars=None): self.Record = None return _cursor.execute(self, query, vars) def executemany(self, query, vars): self.Record = None return _cursor.executemany(self, vars) def callproc(self, procname, vars=None): self.Record = None return _cursor.callproc(self, procname, vars) def fetchone(self): t = _cursor.fetchone(self) if t is not None: nt = self.Record if nt is None: nt = self.Record = self._make_nt() return nt(*t) def fetchmany(self, size=None): nt = self.Record if nt is None: nt = self.Record = self._make_nt() ts = _cursor.fetchmany(self, size) return [nt(*t) for t in ts] def fetchall(self): nt = self.Record if nt is None: nt = self.Record = self._make_nt() ts = _cursor.fetchall(self) return [nt(*t) for t in ts] def __iter__(self): return iter(self.fetchall()) try: from collections import namedtuple except ImportError, _exc: def _make_nt(self): raise self._exc else: def _make_nt(self, namedtuple=namedtuple): return namedtuple("Record", [d[0] for d in self.description or ()]) class LoggingConnection(_connection): """A connection that logs all queries to a file or logger__ object. .. __: http://docs.python.org/library/logging.html """ 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): try: return _cursor.execute(self, query, vars) 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): self.timestamp = time.time() return LoggingCursor.execute(self, query, vars) 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__. .. __: http://docs.python.org/library/uuid.html .. __: http://www.postgresql.org/docs/8.4/static/datatype-uuid.html """ 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 = addr def __repr__(self): return "%s(%r)" % (self.__class__.__name__, self.addr) def prepare(self, conn): self._conn = conn def getquoted(self): obj = _A(self.addr) if hasattr(obj, 'prepare'): obj.prepare(self._conn) return obj.getquoted() + b("::inet") def __conform__(self, foo): if foo is _ext.ISQLQuote: return self 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 def register_tstz_w_secs(oids=None, conn_or_curs=None): """The function used to register an alternate type caster for :sql:`TIMESTAMP WITH TIME ZONE` to deal with historical time zones with seconds in the UTC offset. These are now correctly handled by the default type caster, so currently the function doesn't do anything. """ warnings.warn("deprecated", DeprecationWarning) import select from psycopg2.extensions import POLL_OK, POLL_READ, POLL_WRITE from psycopg2 import OperationalError def wait_select(conn): """Wait until a connection or cursor has data available. The function is an example of a wait callback to be registered with `~psycopg2.extensions.set_wait_callback()`. This function uses `!select()` to wait for data available. """ while 1: state = conn.poll() if state == POLL_OK: break elif state == POLL_READ: select.select([conn.fileno()], [], []) elif state == POLL_WRITE: select.select([], [conn.fileno()], []) else: raise OperationalError("bad state from poll: %s" % state) class HstoreAdapter(object): """Adapt a Python dict to the hstore syntax.""" def __init__(self, wrapped): self.wrapped = wrapped def prepare(self, conn): self.conn = conn # use an old-style getquoted implementation if required if conn.server_version < 90000: self.getquoted = self._getquoted_8 def _getquoted_8(self): """Use the operators available in PG pre-9.0.""" if not self.wrapped: return b("''::hstore") adapt = _ext.adapt rv = [] for k, v in self.wrapped.iteritems(): k = adapt(k) k.prepare(self.conn) k = k.getquoted() if v is not None: v = adapt(v) v.prepare(self.conn) v = v.getquoted() else: v = b('NULL') # XXX this b'ing is painfully inefficient! rv.append(b("(") + k + b(" => ") + v + b(")")) return b("(") + b('||').join(rv) + b(")") def _getquoted_9(self): """Use the hstore(text[], text[]) function.""" if not self.wrapped: return b("''::hstore") k = _ext.adapt(self.wrapped.keys()) k.prepare(self.conn) v = _ext.adapt(self.wrapped.values()) v.prepare(self.conn) return b("hstore(") + k.getquoted() + b(", ") + v.getquoted() + b(")") getquoted = _getquoted_9 _re_hstore = regex.compile(r""" # hstore key: # a string of normal or escaped chars "((?: [^"\\] | \\. )*)" \s*=>\s* # hstore value (?: NULL # the value can be null - not catched # or a quoted string like the key | "((?: [^"\\] | \\. )*)" ) (?:\s*,\s*|$) # pairs separated by comma or end of string. """, regex.VERBOSE) @classmethod def parse(self, s, cur, _bsdec=regex.compile(r"\\(.)")): """Parse an hstore representation in a Python string. The hstore is represented as something like:: "a"=>"1", "b"=>"2" with backslash-escaped strings. """ if s is None: return None rv = {} start = 0 for m in self._re_hstore.finditer(s): if m is None or m.start() != start: raise psycopg2.InterfaceError( "error parsing hstore pair at char %d" % start) k = _bsdec.sub(r'\1', m.group(1)) v = m.group(2) if v is not None: v = _bsdec.sub(r'\1', v) rv[k] = v start = m.end() if start < len(s): raise psycopg2.InterfaceError( "error parsing hstore: unparsed data after char %d" % start) return rv @classmethod def parse_unicode(self, s, cur): """Parse an hstore returning unicode keys and values.""" if s is None: return None s = s.decode(_ext.encodings[cur.connection.encoding]) return self.parse(s, cur) @classmethod def get_oids(self, conn_or_curs): """Return the oid of the hstore and hstore[] types. Return None if hstore is not available. """ if hasattr(conn_or_curs, 'execute'): conn = conn_or_curs.connection curs = conn_or_curs else: conn = conn_or_curs curs = conn_or_curs.cursor() # Store the transaction status of the connection to revert it after use conn_status = conn.status # column typarray not available before PG 8.3 typarray = conn.server_version >= 80300 and "typarray" or "NULL" # get the oid for the hstore curs.execute("""\ SELECT t.oid, %s FROM pg_type t JOIN pg_namespace ns ON typnamespace = ns.oid WHERE typname = 'hstore' and nspname = 'public'; """ % typarray) oids = curs.fetchone() # revert the status of the connection as before the command if (conn_status != _ext.STATUS_IN_TRANSACTION and conn.isolation_level != _ext.ISOLATION_LEVEL_AUTOCOMMIT): conn.rollback() return oids def register_hstore(conn_or_curs, globally=False, unicode=False): """Register adapter and typecaster for `dict`\-\ |hstore| conversions. The function must receive a connection or cursor as the |hstore| oid is different in each database. The typecaster will normally be registered only on the connection or cursor passed as argument. If your application uses a single database you can pass *globally*\=True to have the typecaster registered on all the connections. On Python 2, by default the returned dicts will have `str` objects as keys and values: use *unicode*\=True to return `unicode` objects instead. When adapting a dictionary both `str` and `unicode` keys and values are handled (the `unicode` values will be converted according to the current `~connection.encoding`). The option is not available on Python 3. The |hstore| contrib module must be already installed in the database (executing the ``hstore.sql`` script in your ``contrib`` directory). Raise `~psycopg2.ProgrammingError` if the type is not found. """ oids = HstoreAdapter.get_oids(conn_or_curs) if oids is None: raise psycopg2.ProgrammingError( "hstore type not found in the database. " "please install it from your 'contrib/hstore.sql' file") # create and register the typecaster if sys.version_info[0] < 3 and unicode: cast = HstoreAdapter.parse_unicode else: cast = HstoreAdapter.parse HSTORE = _ext.new_type((oids[0],), "HSTORE", cast) _ext.register_type(HSTORE, not globally and conn_or_curs or None) _ext.register_adapter(dict, HstoreAdapter) class CompositeCaster(object): """Helps conversion of a PostgreSQL composite type into a Python object. The class is usually created by the `register_composite()` function. .. attribute:: name The name of the PostgreSQL type. .. attribute:: oid The oid of the PostgreSQL type. .. attribute:: type The type of the Python objects returned. If `!collections.namedtuple()` is available, it is a named tuple with attributes equal to the type components. Otherwise it is just the `tuple` object. .. attribute:: attnames List of component names of the type to be casted. .. attribute:: atttypes List of component type oids of the type to be casted. """ def __init__(self, name, oid, attrs): self.name = name self.oid = oid self.attnames = [ a[0] for a in attrs ] self.atttypes = [ a[1] for a in attrs ] self._create_type(name, self.attnames) self.typecaster = _ext.new_type((oid,), name, self.parse) def parse(self, s, curs): if s is None: return None tokens = self.tokenize(s) if len(tokens) != len(self.atttypes): raise psycopg2.DataError( "expecting %d components for the type %s, %d found instead", (len(self.atttypes), self.name, len(self.tokens))) attrs = [ curs.cast(oid, token) for oid, token in zip(self.atttypes, tokens) ] return self._ctor(*attrs) _re_tokenize = regex.compile(r""" \(? ([,\)]) # an empty token, representing NULL | \(? " ((?: [^"] | "")*) " [,)] # or a quoted string | \(? ([^",\)]+) [,\)] # or an unquoted string """, regex.VERBOSE) _re_undouble = regex.compile(r'(["\\])\1') @classmethod def tokenize(self, s): rv = [] for m in self._re_tokenize.finditer(s): if m is None: raise psycopg2.InterfaceError("can't parse type: %r", s) if m.group(1): rv.append(None) elif m.group(2): rv.append(self._re_undouble.sub(r"\1", m.group(2))) else: rv.append(m.group(3)) return rv def _create_type(self, name, attnames): try: from collections import namedtuple except ImportError: self.type = tuple self._ctor = lambda *args: tuple(args) else: self.type = namedtuple(name, attnames) self._ctor = self.type @classmethod def _from_db(self, name, conn_or_curs): """Return a `CompositeCaster` instance for the type *name*. Raise `ProgrammingError` if the type is not found. """ if hasattr(conn_or_curs, 'execute'): conn = conn_or_curs.connection curs = conn_or_curs else: conn = conn_or_curs curs = conn_or_curs.cursor() # Store the transaction status of the connection to revert it after use conn_status = conn.status # Use the correct schema if '.' in name: schema, tname = name.split('.', 1) else: tname = name schema = 'public' # get the type oid and attributes curs.execute("""\ SELECT t.oid, attname, atttypid FROM pg_type t JOIN pg_namespace ns ON typnamespace = ns.oid JOIN pg_attribute a ON attrelid = typrelid WHERE typname = %s and nspname = %s ORDER BY attnum; """, (tname, schema)) recs = curs.fetchall() # revert the status of the connection as before the command if (conn_status != _ext.STATUS_IN_TRANSACTION and conn.isolation_level != _ext.ISOLATION_LEVEL_AUTOCOMMIT): conn.rollback() if not recs: raise psycopg2.ProgrammingError( "PostgreSQL type '%s' not found" % name) type_oid = recs[0][0] type_attrs = [ (r[1], r[2]) for r in recs ] return CompositeCaster(tname, type_oid, type_attrs) def register_composite(name, conn_or_curs, globally=False): """Register a typecaster to convert a composite type into a tuple. :param name: the name of a PostgreSQL composite type, e.g. created using the |CREATE TYPE|_ command :param conn_or_curs: a connection or cursor used to find the type oid and components; the typecaster is registered in a scope limited to this object, unless *globally* is set to `True` :param globally: if `False` (default) register the typecaster only on *conn_or_curs*, otherwise register it globally :return: the registered `CompositeCaster` instance responsible for the conversion """ caster = CompositeCaster._from_db(name, conn_or_curs) _ext.register_type(caster.typecaster, not globally and conn_or_curs or None) return caster __all__ = filter(lambda k: not k.startswith('_'), locals().keys())