qpid/delegates.py - qpid-python - Git at Google

 #
 # Licensed to the Apache Software Foundation (ASF) under one
 # or more contributor license agreements.  See the NOTICE file
 # distributed with this work for additional information
 # regarding copyright ownership.  The ASF licenses this file
 # to you 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.
 #

 import os, connection, session
 from util import notify, get_client_properties_with_defaults
 from datatypes import RangedSet
 from exceptions import VersionError, Closed
 from logging import getLogger
 from ops import Control
 import sys
 from qpid import sasl

 log = getLogger("qpid.io.ctl")

 class Delegate:

   def __init__(self, connection, delegate=session.client):
     self.connection = connection
     self.delegate = delegate

   def received(self, op):
     ssn = self.connection.attached.get(op.channel)
     if ssn is None:
       ch = connection.Channel(self.connection, op.channel)
     else:
       ch = ssn.channel

     if isinstance(op, Control):
       log.debug("RECV %s", op)
       getattr(self, op.NAME)(ch, op)
     elif ssn is None:
       ch.session_detached()
     else:
       ssn.received(op)

   def connection_close(self, ch, close):
     self.connection.close_code = (close.reply_code, close.reply_text)
     ch.connection_close_ok()
     raise Closed(close.reply_text)

   def connection_close_ok(self, ch, close_ok):
     self.connection.opened = False
     self.connection.closed = True
     notify(self.connection.condition)

   def connection_heartbeat(self, ch, hrt):
     pass

   def session_attach(self, ch, a):
     try:
       self.connection.attach(a.name, ch, self.delegate, a.force)
       ch.session_attached(a.name)
     except connection.ChannelBusy:
       ch.session_detached(a.name)
     except connection.SessionBusy:
       ch.session_detached(a.name)

   def session_attached(self, ch, a):
     notify(ch.session.condition)

   def session_detach(self, ch, d):
     #send back the confirmation of detachment before removing the
     #channel from the attached set; this avoids needing to hold the
     #connection lock during the sending of this control and ensures
     #that if the channel is immediately reused for a new session the
     #attach request will follow the detached notification.
     ch.session_detached(d.name)
     ssn = self.connection.detach(d.name, ch)

   def session_detached(self, ch, d):
     self.connection.detach(d.name, ch)

   def session_request_timeout(self, ch, rt):
     ch.session_timeout(rt.timeout);

   def session_command_point(self, ch, cp):
     ssn = ch.session
     ssn.receiver.next_id = cp.command_id
     ssn.receiver.next_offset = cp.command_offset

   def session_completed(self, ch, cmp):
     ch.session.sender.completed(cmp.commands)
     if cmp.timely_reply:
       ch.session_known_completed(cmp.commands)
     notify(ch.session.condition)

   def session_known_completed(self, ch, kn_cmp):
     ch.session.receiver.known_completed(kn_cmp.commands)

   def session_flush(self, ch, f):
     rcv = ch.session.receiver
     if f.expected:
       if rcv.next_id == None:
         exp = None
       else:
         exp = RangedSet(rcv.next_id)
       ch.session_expected(exp)
     if f.confirmed:
       ch.session_confirmed(rcv._completed)
     if f.completed:
       ch.session_completed(rcv._completed)

 class Server(Delegate):

   def start(self):
     self.connection.read_header()
     # XXX
     self.connection.write_header(0, 10)
     connection.Channel(self.connection, 0).connection_start(mechanisms=["ANONYMOUS"])

   def connection_start_ok(self, ch, start_ok):
     ch.connection_tune(channel_max=65535)

   def connection_tune_ok(self, ch, tune_ok):
     pass

   def connection_open(self, ch, open):
     self.connection.opened = True
     ch.connection_open_ok()
     notify(self.connection.condition)

 class Client(Delegate):

   def __init__(self, connection, username=None, password=None,
                mechanism=None, heartbeat=None, **kwargs):
     Delegate.__init__(self, connection)
     provided_client_properties = kwargs.get("client_properties")
     self.client_properties=get_client_properties_with_defaults(provided_client_properties)

     ##
     ## self.acceptableMechanisms is the list of SASL mechanisms that the client is willing to
     ## use.  If it's None, then any mechanism is acceptable.
     ##
     self.acceptableMechanisms = None
     if mechanism:
       self.acceptableMechanisms = mechanism.split(" ")
     self.heartbeat = heartbeat
     self.username  = username
     self.password  = password

     self.sasl = sasl.Client()
     if username and len(username) > 0:
       self.sasl.setAttr("username", str(username))
     if password and len(password) > 0:
       self.sasl.setAttr("password", str(password))
     self.sasl.setAttr("service", str(kwargs.get("service", "qpidd")))
     if "host" in kwargs:
       self.sasl.setAttr("host", str(kwargs["host"]))
     if "min_ssf" in kwargs:
       self.sasl.setAttr("minssf", kwargs["min_ssf"])
     if "max_ssf" in kwargs:
       self.sasl.setAttr("maxssf", kwargs["max_ssf"])
     self.sasl.init()

   def start(self):
     # XXX
     cli_major = 0
     cli_minor = 10
     self.connection.write_header(cli_major, cli_minor)
     magic, _, _, major, minor = self.connection.read_header()
     if not (magic == "AMQP" and major == cli_major and minor == cli_minor):
       raise VersionError("client: %s-%s, server: %s-%s" %
                          (cli_major, cli_minor, major, minor))

   def connection_start(self, ch, start):
     mech_list = ""
     for mech in start.mechanisms:
       if (not self.acceptableMechanisms) or mech in self.acceptableMechanisms:
         mech_list += str(mech) + " "
     mech = None
     initial = None
     try:
       mech, initial = self.sasl.start(mech_list)
     except Exception, e:
       raise Closed(str(e))
     ch.connection_start_ok(client_properties=self.client_properties,
                            mechanism=mech, response=initial)

   def connection_secure(self, ch, secure):
     resp = None
     try:
       resp = self.sasl.step(secure.challenge)
     except Exception, e:
       raise Closed(str(e))
     ch.connection_secure_ok(response=resp)

   def connection_tune(self, ch, tune):
     ch.connection_tune_ok(heartbeat=self.heartbeat)
     ch.connection_open()
     self.connection.user_id = self.sasl.auth_username()
     self.connection.security_layer_tx = self.sasl

   def connection_open_ok(self, ch, open_ok):
     self.connection.security_layer_rx = self.sasl
     self.connection.opened = True
     notify(self.connection.condition)

   def connection_heartbeat(self, ch, hrt):
     ch.connection_heartbeat()
	#
	# Licensed to the Apache Software Foundation (ASF) under one
	# or more contributor license agreements. See the NOTICE file
	# distributed with this work for additional information
	# regarding copyright ownership. The ASF licenses this file
	# to you 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.
	#

	import os, connection, session
	from util import notify, get_client_properties_with_defaults
	from datatypes import RangedSet
	from exceptions import VersionError, Closed
	from logging import getLogger
	from ops import Control
	import sys
	from qpid import sasl

	log = getLogger("qpid.io.ctl")

	class Delegate:

	def __init__(self, connection, delegate=session.client):
	self.connection = connection
	self.delegate = delegate

	def received(self, op):
	ssn = self.connection.attached.get(op.channel)
	if ssn is None:
	ch = connection.Channel(self.connection, op.channel)
	else:
	ch = ssn.channel

	if isinstance(op, Control):
	log.debug("RECV %s", op)
	getattr(self, op.NAME)(ch, op)
	elif ssn is None:
	ch.session_detached()
	else:
	ssn.received(op)

	def connection_close(self, ch, close):
	self.connection.close_code = (close.reply_code, close.reply_text)
	ch.connection_close_ok()
	raise Closed(close.reply_text)

	def connection_close_ok(self, ch, close_ok):
	self.connection.opened = False
	self.connection.closed = True
	notify(self.connection.condition)

	def connection_heartbeat(self, ch, hrt):
	pass

	def session_attach(self, ch, a):
	try:
	self.connection.attach(a.name, ch, self.delegate, a.force)
	ch.session_attached(a.name)
	except connection.ChannelBusy:
	ch.session_detached(a.name)
	except connection.SessionBusy:
	ch.session_detached(a.name)

	def session_attached(self, ch, a):
	notify(ch.session.condition)

	def session_detach(self, ch, d):
	#send back the confirmation of detachment before removing the
	#channel from the attached set; this avoids needing to hold the
	#connection lock during the sending of this control and ensures
	#that if the channel is immediately reused for a new session the
	#attach request will follow the detached notification.
	ch.session_detached(d.name)
	ssn = self.connection.detach(d.name, ch)

	def session_detached(self, ch, d):
	self.connection.detach(d.name, ch)

	def session_request_timeout(self, ch, rt):
	ch.session_timeout(rt.timeout);

	def session_command_point(self, ch, cp):
	ssn = ch.session
	ssn.receiver.next_id = cp.command_id
	ssn.receiver.next_offset = cp.command_offset

	def session_completed(self, ch, cmp):
	ch.session.sender.completed(cmp.commands)
	if cmp.timely_reply:
	ch.session_known_completed(cmp.commands)
	notify(ch.session.condition)

	def session_known_completed(self, ch, kn_cmp):
	ch.session.receiver.known_completed(kn_cmp.commands)

	def session_flush(self, ch, f):
	rcv = ch.session.receiver
	if f.expected:
	if rcv.next_id == None:
	exp = None
	else:
	exp = RangedSet(rcv.next_id)
	ch.session_expected(exp)
	if f.confirmed:
	ch.session_confirmed(rcv._completed)
	if f.completed:
	ch.session_completed(rcv._completed)

	class Server(Delegate):

	def start(self):
	self.connection.read_header()
	# XXX
	self.connection.write_header(0, 10)
	connection.Channel(self.connection, 0).connection_start(mechanisms=["ANONYMOUS"])

	def connection_start_ok(self, ch, start_ok):
	ch.connection_tune(channel_max=65535)

	def connection_tune_ok(self, ch, tune_ok):
	pass

	def connection_open(self, ch, open):
	self.connection.opened = True
	ch.connection_open_ok()
	notify(self.connection.condition)

	class Client(Delegate):

	def __init__(self, connection, username=None, password=None,
	mechanism=None, heartbeat=None, **kwargs):
	Delegate.__init__(self, connection)
	provided_client_properties = kwargs.get("client_properties")
	self.client_properties=get_client_properties_with_defaults(provided_client_properties)

	##
	## self.acceptableMechanisms is the list of SASL mechanisms that the client is willing to
	## use. If it's None, then any mechanism is acceptable.
	##
	self.acceptableMechanisms = None
	if mechanism:
	self.acceptableMechanisms = mechanism.split(" ")
	self.heartbeat = heartbeat
	self.username = username
	self.password = password

	self.sasl = sasl.Client()
	if username and len(username) > 0:
	self.sasl.setAttr("username", str(username))
	if password and len(password) > 0:
	self.sasl.setAttr("password", str(password))
	self.sasl.setAttr("service", str(kwargs.get("service", "qpidd")))
	if "host" in kwargs:
	self.sasl.setAttr("host", str(kwargs["host"]))
	if "min_ssf" in kwargs:
	self.sasl.setAttr("minssf", kwargs["min_ssf"])
	if "max_ssf" in kwargs:
	self.sasl.setAttr("maxssf", kwargs["max_ssf"])
	self.sasl.init()

	def start(self):
	# XXX
	cli_major = 0
	cli_minor = 10
	self.connection.write_header(cli_major, cli_minor)
	magic, _, _, major, minor = self.connection.read_header()
	if not (magic == "AMQP" and major == cli_major and minor == cli_minor):
	raise VersionError("client: %s-%s, server: %s-%s" %
	(cli_major, cli_minor, major, minor))

	def connection_start(self, ch, start):
	mech_list = ""
	for mech in start.mechanisms:
	if (not self.acceptableMechanisms) or mech in self.acceptableMechanisms:
	mech_list += str(mech) + " "
	mech = None
	initial = None
	try:
	mech, initial = self.sasl.start(mech_list)
	except Exception, e:
	raise Closed(str(e))
	ch.connection_start_ok(client_properties=self.client_properties,
	mechanism=mech, response=initial)

	def connection_secure(self, ch, secure):
	resp = None
	try:
	resp = self.sasl.step(secure.challenge)
	except Exception, e:
	raise Closed(str(e))
	ch.connection_secure_ok(response=resp)

	def connection_tune(self, ch, tune):
	ch.connection_tune_ok(heartbeat=self.heartbeat)
	ch.connection_open()
	self.connection.user_id = self.sasl.auth_username()
	self.connection.security_layer_tx = self.sasl

	def connection_open_ok(self, ch, open_ok):
	self.connection.security_layer_rx = self.sasl
	self.connection.opened = True
	notify(self.connection.condition)

	def connection_heartbeat(self, ch, hrt):
	ch.connection_heartbeat()