#!/usr/bin/python # # Copyright 2015 The Android Open Source Project # # Licensed 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 itertools import random import unittest from socket import * import iproute import multinetwork_base import net_test import packets class ForwardingTest(multinetwork_base.MultiNetworkBaseTest): TCP_TIME_WAIT = 6 def ForwardBetweenInterfaces(self, enabled, iface1, iface2): for iif, oif in itertools.permutations([iface1, iface2]): self.iproute.IifRule(6, enabled, self.GetInterfaceName(iif), self._TableForNetid(oif), self.PRIORITY_IIF) def setUp(self): self.SetSysctl("/proc/sys/net/ipv6/conf/all/forwarding", 1) def tearDown(self): self.SetSysctl("/proc/sys/net/ipv6/conf/all/forwarding", 0) def CheckForwardingCrash(self, netid, iface1, iface2): listenport = packets.RandomPort() listensocket = net_test.IPv6TCPSocket() listensocket.setsockopt(SOL_SOCKET, SO_REUSEADDR, 1) listensocket.bind(("::", listenport)) listensocket.listen(100) self.SetSocketMark(listensocket, netid) version = 6 remoteaddr = self.GetRemoteAddress(version) myaddr = self.MyAddress(version, netid) desc, syn = packets.SYN(listenport, version, remoteaddr, myaddr) synack_desc, synack = packets.SYNACK(version, myaddr, remoteaddr, syn) msg = "Sent %s, expected %s" % (desc, synack_desc) reply = self._ReceiveAndExpectResponse(netid, syn, synack, msg) establishing_ack = packets.ACK(version, remoteaddr, myaddr, reply)[1] self.ReceivePacketOn(netid, establishing_ack) accepted, peer = listensocket.accept() remoteport = accepted.getpeername()[1] accepted.close() desc, fin = packets.FIN(version, myaddr, remoteaddr, establishing_ack) self.ExpectPacketOn(netid, msg + ": expecting %s after close" % desc, fin) desc, finack = packets.FIN(version, remoteaddr, myaddr, fin) self.ReceivePacketOn(netid, finack) # Check our socket is now in TIME_WAIT. sockets = self.ReadProcNetSocket("tcp6") mysrc = "%s:%04X" % (net_test.FormatSockStatAddress(myaddr), listenport) mydst = "%s:%04X" % (net_test.FormatSockStatAddress(remoteaddr), remoteport) state = None sockets = [s for s in sockets if s[0] == mysrc and s[1] == mydst] self.assertEquals(1, len(sockets)) self.assertEquals("%02X" % self.TCP_TIME_WAIT, sockets[0][2]) # Remove our IP address. try: self.iproute.DelAddress(myaddr, 64, self.ifindices[netid]) self.ReceivePacketOn(iface1, finack) self.ReceivePacketOn(iface1, establishing_ack) self.ReceivePacketOn(iface1, establishing_ack) # No crashes? Good. finally: # Put back our IP address. self.SendRA(netid) listensocket.close() def testCrash(self): # Run the test a few times as it doesn't crash/hang the first time. for netids in itertools.permutations(self.tuns): # Pick an interface to send traffic on and two to forward traffic between. netid, iface1, iface2 = random.sample(netids, 3) self.ForwardBetweenInterfaces(True, iface1, iface2) try: self.CheckForwardingCrash(netid, iface1, iface2) finally: self.ForwardBetweenInterfaces(False, iface1, iface2) if __name__ == "__main__": unittest.main()