psycopg2/psycopg2da/adapter.py
James Henstridge f64cbeda46 * tests/test_transaction.py (DeadlockSerializationTestCase): port
over some tests for serialisation and deadlock errors,
	demonstrating that TransactionRollbackError is generated.
	(QueryCancelationTests): add a test to show that
	QueryCanceledError is raised on statement timeouts.

	* psycopg2da/adapter.py (_handle_psycopg_exception): rather than
	checking exception messages, check for TransactionRollbackError.

	* psycopg/pqpath.c (exception_from_sqlstate): return
	TransactionRollbackError for 40xxx errors, and QueryCanceledError
	for 57014 errors.
	(pq_raise): If we are using an old server, use
	TransactionRollbackError if the error message contains "could not
	serialize" or "deadlock detected".

	* psycopg/psycopgmodule.c (_psyco_connect_fill_exc): remove
	function, since we no longer need to store pointers to the
	exceptions in the connection.  This also fixes a reference leak.
	(psyco_connect): remove _psyco_connect_fill_exc() function call.

	* psycopg/connection.h (connectionObject): remove exception
	members from struct.

	* psycopg/connection_type.c (connectionObject_getsets): modify the
	exception attributes on the connection object from members to
	getsets.  This reduces the size of the struct.

	* lib/extensions.py: import the two new extensions.

	* psycopg/psycopgmodule.c (exctable): add new QueryCanceledError
	and TransactionRollbackError exceptions.
2008-01-16 05:14:24 +00:00

415 lines
13 KiB
Python

# psycopg2da
# Copyright (C) 2006 Fabio Tranchitella <fabio@tranchitella.it>
#
# Based on psycopgda:
#
# Copyright (c) 2002-2006 Zope Corporation and Contributors.
# All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 2.1 (ZPL). A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE.
#
# 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 of the License, 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
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# If you prefer you can use this package using the ZPL license as
# published on the Zope web site, http://www.zope.org/Resources/ZPL.
#
"""PostgreSQL Database Adapter for Zope 3"""
from zope.interface import implements
from zope.rdb import ZopeDatabaseAdapter, parseDSN, ZopeConnection, ZopeCursor
from zope.rdb.interfaces import DatabaseException, IZopeConnection
from zope.publisher.interfaces import Retry
from datetime import date, time, datetime, timedelta
import psycopg2
import psycopg2.extensions
import re
import sys
# OIDs from psycopg/pgtypes.h
DATE_OID = 1082
TIME_OID = 1083
TIMETZ_OID = 1266
TIMESTAMP_OID = 1114
TIMESTAMPTZ_OID = 1184
INTERVAL_OID = 1186
CHAR_OID = 18
TEXT_OID = 25
BPCHAR_OID = 1042
VARCHAR_OID = 1043
# date/time parsing functions
_dateFmt = re.compile(r"^(\d\d\d\d)-?([01]\d)-?([0-3]\d)$")
def parse_date(s):
"""Parses ISO-8601 compliant dates and returns a tuple (year, month,
day).
The following formats are accepted:
YYYY-MM-DD (extended format)
YYYYMMDD (basic format)
"""
m = _dateFmt.match(s)
if m is None:
raise ValueError, 'invalid date string: %s' % s
year, month, day = m.groups()
return int(year), int(month), int(day)
_timeFmt = re.compile(
r"^([0-2]\d)(?::?([0-5]\d)(?::?([0-5]\d)(?:[.,](\d+))?)?)?$")
def parse_time(s):
"""Parses ISO-8601 compliant times and returns a tuple (hour, minute,
second).
The following formats are accepted:
HH:MM:SS.ssss or HHMMSS.ssss
HH:MM:SS,ssss or HHMMSS,ssss
HH:MM:SS or HHMMSS
HH:MM or HHMM
HH
"""
m = _timeFmt.match(s)
if m is None:
raise ValueError, 'invalid time string: %s' % s
hr, mn, sc, msc = m.groups(0)
if msc != 0:
sc = float("%s.%s" % (sc, msc))
else:
sc = int(sc)
return int(hr), int(mn), sc
_tzFmt = re.compile(r"^([+-])([0-2]\d)(?::?([0-5]\d))?$")
def parse_tz(s):
"""Parses ISO-8601 timezones and returns the offset east of UTC in
minutes.
The following formats are accepted:
+/-HH:MM
+/-HHMM
+/-HH
Z (equivalent to +0000)
"""
if s == 'Z':
return 0
m = _tzFmt.match(s)
if m is None:
raise ValueError, 'invalid time zone: %s' % s
d, hoff, moff = m.groups(0)
if d == "-":
return - int(hoff) * 60 - int(moff)
return int(hoff) * 60 + int(moff)
_tzPos = re.compile(r"[Z+-]")
def parse_timetz(s):
"""Parses ISO-8601 compliant times that may include timezone information
and returns a tuple (hour, minute, second, tzoffset).
tzoffset is the offset east of UTC in minutes. It will be None if s does
not include time zone information.
Formats accepted are those listed in the descriptions of parse_time() and
parse_tz(). Time zone should immediatelly follow time without intervening
spaces.
"""
m = _tzPos.search(s)
if m is None:
return parse_time(s) + (None,)
pos = m.start()
return parse_time(s[:pos]) + (parse_tz(s[pos:]),)
_datetimeFmt = re.compile(r"[T ]")
def _split_datetime(s):
"""Split date and time parts of ISO-8601 compliant timestamp and
return a tuple (date, time).
' ' or 'T' used to separate date and time parts.
"""
m = _datetimeFmt.search(s)
if m is None:
raise ValueError, 'time part of datetime missing: %s' % s
pos = m.start()
return s[:pos], s[pos + 1:]
def parse_datetime(s):
"""Parses ISO-8601 compliant timestamp and returns a tuple (year, month,
day, hour, minute, second).
Formats accepted are those listed in the descriptions of parse_date() and
parse_time() with ' ' or 'T' used to separate date and time parts.
"""
dt, tm = _split_datetime(s)
return parse_date(dt) + parse_time(tm)
def parse_datetimetz(s):
"""Parses ISO-8601 compliant timestamp that may include timezone
information and returns a tuple (year, month, day, hour, minute, second,
tzoffset).
tzoffset is the offset east of UTC in minutes. It will be None if s does
not include time zone information.
Formats accepted are those listed in the descriptions of parse_date() and
parse_timetz() with ' ' or 'T' used to separate date and time parts.
"""
dt, tm = _split_datetime(s)
return parse_date(dt) + parse_timetz(tm)
def parse_interval(s):
"""Parses PostgreSQL interval notation and returns a tuple (years, months,
days, hours, minutes, seconds).
Values accepted:
interval ::= date
| time
| date time
date ::= date_comp
| date date_comp
date_comp ::= 1 'day'
| number 'days'
| 1 'month'
| 1 'mon'
| number 'months'
| number 'mons'
| 1 'year'
| number 'years'
time ::= number ':' number
| number ':' number ':' number
| number ':' number ':' number '.' fraction
"""
years = months = days = 0
hours = minutes = seconds = 0
elements = s.split()
# Tests with 7.4.6 on Ubuntu 5.4 interval output returns 'mon' and 'mons'
# and not 'month' or 'months' as expected. I've fixed this and left
# the original matches there too in case this is dependant on
# OS or PostgreSQL release.
for i in range(0, len(elements) - 1, 2):
count, unit = elements[i:i+2]
if unit == 'day' and count == '1':
days += 1
elif unit == 'days':
days += int(count)
elif unit == 'month' and count == '1':
months += 1
elif unit == 'mon' and count == '1':
months += 1
elif unit == 'months':
months += int(count)
elif unit == 'mons':
months += int(count)
elif unit == 'year' and count == '1':
years += 1
elif unit == 'years':
years += int(count)
else:
raise ValueError, 'unknown time interval %s %s' % (count, unit)
if len(elements) % 2 == 1:
hours, minutes, seconds = parse_time(elements[-1])
return (years, months, days, hours, minutes, seconds)
# Type conversions
def _conv_date(s, cursor):
if s:
return date(*parse_date(s))
def _conv_time(s, cursor):
if s:
hr, mn, sc = parse_time(s)
sc, micro = divmod(sc, 1.0)
micro = round(micro * 1000000)
return time(hr, mn, int(sc), int(micro))
def _conv_timetz(s, cursor):
if s:
from zope.datetime import tzinfo
hr, mn, sc, tz = parse_timetz(s)
sc, micro = divmod(sc, 1.0)
micro = round(micro * 1000000)
if tz: tz = tzinfo(tz)
return time(hr, mn, int(sc), int(micro), tz)
def _conv_timestamp(s, cursor):
if s:
y, m, d, hr, mn, sc = parse_datetime(s)
sc, micro = divmod(sc, 1.0)
micro = round(micro * 1000000)
return datetime(y, m, d, hr, mn, int(sc), int(micro))
def _conv_timestamptz(s, cursor):
if s:
from zope.datetime import tzinfo
y, m, d, hr, mn, sc, tz = parse_datetimetz(s)
sc, micro = divmod(sc, 1.0)
micro = round(micro * 1000000)
if tz: tz = tzinfo(tz)
return datetime(y, m, d, hr, mn, int(sc), int(micro), tz)
def _conv_interval(s, cursor):
if s:
y, m, d, hr, mn, sc = parse_interval(s)
if (y, m) != (0, 0):
# XXX: Currently there's no way to represent years and months as
# timedeltas
return s
else:
return timedelta(days=d, hours=hr, minutes=mn, seconds=sc)
def _get_string_conv(encoding):
def _conv_string(s, cursor):
if s is not None:
s = s.decode(encoding)
return s
return _conv_string
# User-defined types
DATE = psycopg2.extensions.new_type((DATE_OID,), "ZDATE", _conv_date)
TIME = psycopg2.extensions.new_type((TIME_OID,), "ZTIME", _conv_time)
TIMETZ = psycopg2.extensions.new_type((TIMETZ_OID,), "ZTIMETZ", _conv_timetz)
TIMESTAMP = psycopg2.extensions.new_type((TIMESTAMP_OID,), "ZTIMESTAMP", _conv_timestamp)
TIMESTAMPTZ = psycopg2.extensions.new_type((TIMESTAMPTZ_OID,), "ZTIMESTAMPTZ", _conv_timestamptz)
INTERVAL = psycopg2.extensions.new_type((INTERVAL_OID,), "ZINTERVAL", _conv_interval)
def registerTypes(encoding):
"""Register type conversions for psycopg"""
psycopg2.extensions.register_type(DATE)
psycopg2.extensions.register_type(TIME)
psycopg2.extensions.register_type(TIMETZ)
psycopg2.extensions.register_type(TIMESTAMP)
psycopg2.extensions.register_type(TIMESTAMPTZ)
psycopg2.extensions.register_type(INTERVAL)
STRING = psycopg2.extensions.new_type((CHAR_OID, TEXT_OID, BPCHAR_OID, VARCHAR_OID), "ZSTRING", _get_string_conv(encoding))
psycopg2.extensions.register_type(STRING)
dsn2option_mapping = {'host': 'host',
'port': 'port',
'dbname': 'dbname',
'username': 'user',
'password': 'password'}
class Psycopg2Adapter(ZopeDatabaseAdapter):
"""A psycopg2 adapter for Zope3.
The following type conversions are performed:
DATE -> datetime.date
TIME -> datetime.time
TIMETZ -> datetime.time
TIMESTAMP -> datetime.datetime
TIMESTAMPTZ -> datetime.datetime
XXX: INTERVAL cannot be represented exactly as datetime.timedelta since
it might be something like '1 month', which is a variable number of days.
"""
def connect(self):
if not self.isConnected():
try:
self._v_connection = Psycopg2Connection(
self._connection_factory(), self
)
except psycopg2.Error, error:
raise DatabaseException, str(error)
def registerTypes(self):
registerTypes(self.getEncoding())
def _connection_factory(self):
"""Create a psycopg2 DBI connection based on the DSN"""
self.registerTypes()
conn_info = parseDSN(self.dsn)
conn_list = []
for dsnname, optname in dsn2option_mapping.iteritems():
if conn_info[dsnname]:
conn_list.append('%s=%s' % (optname, conn_info[dsnname]))
conn_str = ' '.join(conn_list)
connection = psycopg2.connect(conn_str)
connection.set_isolation_level(psycopg2.extensions.ISOLATION_LEVEL_SERIALIZABLE)
return connection
def disconnect(self):
if self.isConnected():
try:
self._v_connection.close()
except psycopg2.InterfaceError:
pass
self._v_connection = None
def _handle_psycopg_exception(error):
"""Called from a exception handler for psycopg2.Error.
If we have a serialization exception or a deadlock, we should retry the
transaction by raising a Retry exception. Otherwise, we reraise.
"""
if isinstance(error, psycopg2.extensions.TransactionRollbackError):
raise Retry(sys.exc_info())
raise
class IPsycopg2ZopeConnection(IZopeConnection):
"""A marker interface stating that this connection uses PostgreSQL."""
class Psycopg2Connection(ZopeConnection):
implements(IPsycopg2ZopeConnection)
def cursor(self):
"""See IZopeConnection"""
return Psycopg2Cursor(self.conn.cursor(), self)
def commit(self):
try:
ZopeConnection.commit(self)
except psycopg2.Error, error:
_handle_psycopg_exception(error)
class Psycopg2Cursor(ZopeCursor):
def execute(self, operation, parameters=None):
"""See IZopeCursor"""
try:
return ZopeCursor.execute(self, operation, parameters)
except psycopg2.Error, error:
_handle_psycopg_exception(error)
def executemany(operation, seq_of_parameters=None):
"""See IZopeCursor"""
raise RuntimeError, 'Oos'
try:
return ZopeCursor.execute(self, operation, seq_of_parameters)
except psycopg2.Error, error:
_handle_psycopg_exception(error)