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#!/usr/bin/python
#
# Copyright 2014 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.
# pylint: disable=g-bad-todo
import errno
import os
import posix
import random
from socket import * # pylint: disable=wildcard-import
import struct
import sys
import threading
import time
import unittest
from scapy import all as scapy
import csocket
import multinetwork_base
import net_test
HAVE_PROC_NET_ICMP6 = os.path.isfile("/proc/net/icmp6")
ICMP_ECHO = 8
ICMP_ECHOREPLY = 0
ICMPV6_ECHO_REQUEST = 128
ICMPV6_ECHO_REPLY = 129
IPV6_MIN_MTU = 1280
ICMPV6_HEADER_LEN = 8
ICMPV6_PKT_TOOBIG = 2
class PingReplyThread(threading.Thread):
MIN_TTL = 10
INTERMEDIATE_IPV4 = "192.0.2.2"
INTERMEDIATE_IPV6 = "2001:db8:1:2::ace:d00d"
NEIGHBOURS = ["fe80::1"]
LINK_MTU = 1300
def __init__(self, tun, mymac, routermac, routeraddr):
super(PingReplyThread, self).__init__()
self._tun = tun
self._started = False
self._stopped = False
self._mymac = mymac
self._routermac = routermac
self._routeraddr = routeraddr
def IsStarted(self):
return self._started
def Stop(self):
self._stopped = True
def ChecksumValid(self, packet):
# Get and clear the checksums.
def GetAndClearChecksum(layer):
if not layer:
return
try:
checksum = layer.chksum
del layer.chksum
except AttributeError:
checksum = layer.cksum
del layer.cksum
return checksum
def GetChecksum(layer):
try:
return layer.chksum
except AttributeError:
return layer.cksum
layers = ["IP", "ICMP", scapy.ICMPv6EchoRequest]
sums = {}
for name in layers:
sums[name] = GetAndClearChecksum(packet.getlayer(name))
# Serialize the packet, so scapy recalculates the checksums, and compare
# them with the ones in the packet.
packet = packet.__class__(str(packet))
for name in layers:
layer = packet.getlayer(name)
if layer and GetChecksum(layer) != sums[name]:
return False
return True
def SendTimeExceeded(self, version, packet):
if version == 4:
src = packet.getlayer(scapy.IP).src
self.SendPacket(
scapy.IP(src=self.INTERMEDIATE_IPV4, dst=src) /
scapy.ICMP(type=11, code=0) /
packet)
elif version == 6:
src = packet.getlayer(scapy.IPv6).src
self.SendPacket(
scapy.IPv6(src=self.INTERMEDIATE_IPV6, dst=src) /
scapy.ICMPv6TimeExceeded(code=0) /
packet)
def SendPacketTooBig(self, packet):
src = packet.getlayer(scapy.IPv6).src
datalen = IPV6_MIN_MTU - ICMPV6_HEADER_LEN
self.SendPacket(
scapy.IPv6(src=self.INTERMEDIATE_IPV6, dst=src) /
scapy.ICMPv6PacketTooBig(mtu=self.LINK_MTU) /
str(packet)[:datalen])
def IPv4Packet(self, ip):
icmp = ip.getlayer(scapy.ICMP)
# We only support ping for now.
if (ip.proto != IPPROTO_ICMP or
icmp.type != ICMP_ECHO or
icmp.code != 0):
return
# Check the checksums.
if not self.ChecksumValid(ip):
return
if ip.ttl < self.MIN_TTL:
self.SendTimeExceeded(4, ip)
return
icmp.type = ICMP_ECHOREPLY
self.SwapAddresses(ip)
self.SendPacket(ip)
def IPv6Packet(self, ipv6):
icmpv6 = ipv6.getlayer(scapy.ICMPv6EchoRequest)
# We only support ping for now.
if (ipv6.nh != IPPROTO_ICMPV6 or
not icmpv6 or
icmpv6.type != ICMPV6_ECHO_REQUEST or
icmpv6.code != 0):
return
# Check the checksums.
if not self.ChecksumValid(ipv6):
return
if ipv6.dst.startswith("ff02::"):
ipv6.dst = ipv6.src
for src in [self._routeraddr]:
ipv6.src = src
icmpv6.type = ICMPV6_ECHO_REPLY
self.SendPacket(ipv6)
elif ipv6.hlim < self.MIN_TTL:
self.SendTimeExceeded(6, ipv6)
elif ipv6.plen > self.LINK_MTU:
self.SendPacketTooBig(ipv6)
else:
icmpv6.type = ICMPV6_ECHO_REPLY
if ipv6.dst.startswith("fe80:") and ipv6.dst != self._routeraddr:
return
self.SwapAddresses(ipv6)
self.SendPacket(ipv6)
def SwapAddresses(self, packet):
src = packet.src
packet.src = packet.dst
packet.dst = src
def SendPacket(self, packet):
packet = scapy.Ether(src=self._routermac, dst=self._mymac) / packet
try:
posix.write(self._tun.fileno(), str(packet))
except Exception as e:
if not self._stopped:
raise e
def run(self):
self._started = True
while not self._stopped:
try:
packet = posix.read(self._tun.fileno(), 4096)
except OSError as e:
if e.errno == errno.EAGAIN:
continue
else:
break
except ValueError as e:
if not self._stopped:
raise e
ether = scapy.Ether(packet)
if ether.type == net_test.ETH_P_IPV6:
self.IPv6Packet(ether.payload)
elif ether.type == net_test.ETH_P_IP:
self.IPv4Packet(ether.payload)
class Ping6Test(multinetwork_base.MultiNetworkBaseTest):
@classmethod
def WaitForReplyThreads(cls):
# Wait 2s for the reply threads to start. If they don't, don't blow up, as
# that would cause tearDownClass not to be called and thus not clean up
# routing configuration, breaking subsequent tests. Instead, just let these
# tests fail.
_INTERVAL = 0.1
_ATTEMPTS = 20
for i in range(0, _ATTEMPTS):
for netid in cls.NETIDS:
if all(thread.IsStarted() for thread in list(cls.reply_threads.values())):
return
time.sleep(_INTERVAL)
msg = "WARNING: reply threads not all started after %.1f seconds\n" % (
_ATTEMPTS * _INTERVAL)
sys.stderr.write(msg)
@classmethod
def StopReplyThreads(cls):
for thread in list(cls.reply_threads.values()):
thread.Stop()
@classmethod
def setUpClass(cls):
super(Ping6Test, cls).setUpClass()
cls.reply_threads = {}
for netid in cls.NETIDS:
cls.reply_threads[netid] = PingReplyThread(
cls.tuns[netid],
cls.MyMacAddress(netid),
cls.RouterMacAddress(netid),
cls._RouterAddress(netid, 6))
cls.reply_threads[netid].start()
cls.WaitForReplyThreads()
cls.netid = random.choice(cls.NETIDS)
cls.SetDefaultNetwork(cls.netid)
@classmethod
def tearDownClass(cls):
cls.StopReplyThreads()
cls.ClearDefaultNetwork()
super(Ping6Test, cls).tearDownClass()
def setUp(self):
self.ifname = self.GetInterfaceName(self.netid)
self.ifindex = self.ifindices[self.netid]
self.lladdr = net_test.GetLinkAddress(self.ifname, True)
self.globaladdr = net_test.GetLinkAddress(self.ifname, False)
def assertValidPingResponse(self, s, data):
family = s.family
# Receive the reply.
rcvd, src = s.recvfrom(32768)
self.assertNotEqual(0, len(rcvd), "No data received")
# If this is a dual-stack socket sending to a mapped IPv4 address, treat it
# as IPv4.
if src[0].startswith("::ffff:"):
family = AF_INET
src = (src[0].replace("::ffff:", ""), src[1:])
# Check the data being sent is valid.
self.assertGreater(len(data), 7, "Not enough data for ping packet")
if family == AF_INET:
self.assertTrue(data.startswith("\x08\x00"), "Not an IPv4 echo request")
elif family == AF_INET6:
self.assertTrue(data.startswith("\x80\x00"), "Not an IPv6 echo request")
else:
self.fail("Unknown socket address family %d" * s.family)
# Check address, ICMP type, and ICMP code.
if family == AF_INET:
addr, unused_port = src
self.assertGreaterEqual(len(addr), len("1.1.1.1"))
self.assertTrue(rcvd.startswith("\x00\x00"), "Not an IPv4 echo reply")
else:
addr, unused_port, flowlabel, scope_id = src # pylint: disable=unbalanced-tuple-unpacking
self.assertGreaterEqual(len(addr), len("::"))
self.assertTrue(rcvd.startswith("\x81\x00"), "Not an IPv6 echo reply")
# Check that the flow label is zero and that the scope ID is sane.
self.assertEqual(flowlabel, 0)
if addr.startswith("fe80::"):
self.assertTrue(scope_id in list(self.ifindices.values()))
else:
self.assertEqual(0, scope_id)
# TODO: check the checksum. We can't do this easily now for ICMPv6 because
# we don't have the IP addresses so we can't construct the pseudoheader.
# Check the sequence number and the data.
self.assertEqual(len(data), len(rcvd))
self.assertEqual(data[6:].encode("hex"), rcvd[6:].encode("hex"))
@staticmethod
def IsAlmostEqual(expected, actual, delta):
return abs(expected - actual) < delta
def CheckSockStatFile(self, name, srcaddr, srcport, dstaddr, dstport, state,
txmem=0, rxmem=0):
expected = ["%s:%04X" % (net_test.FormatSockStatAddress(srcaddr), srcport),
"%s:%04X" % (net_test.FormatSockStatAddress(dstaddr), dstport),
"%02X" % state,
"%08X:%08X" % (txmem, rxmem),
str(os.getuid()), "2", "0"]
for actual in self.ReadProcNetSocket(name):
# Check that rxmem and txmem don't differ too much from each other.
actual_txmem, actual_rxmem = expected[3].split(":")
if self.IsAlmostEqual(txmem, int(actual_txmem, 16), txmem / 4):
return
if self.IsAlmostEqual(rxmem, int(actual_rxmem, 16), rxmem / 4):
return
# Check all the parameters except rxmem and txmem.
expected[3] = actual[3]
if expected == actual:
return
self.fail("Cound not find socket matching %s" % expected)
def testIPv4SendWithNoConnection(self):
s = net_test.IPv4PingSocket()
self.assertRaisesErrno(errno.EDESTADDRREQ, s.send, net_test.IPV4_PING)
def testIPv6SendWithNoConnection(self):
s = net_test.IPv6PingSocket()
self.assertRaisesErrno(errno.EDESTADDRREQ, s.send, net_test.IPV6_PING)
def testIPv4LoopbackPingWithConnect(self):
s = net_test.IPv4PingSocket()
s.connect(("127.0.0.1", 55))
data = net_test.IPV4_PING + "foobarbaz"
s.send(data)
self.assertValidPingResponse(s, data)
def testIPv6LoopbackPingWithConnect(self):
s = net_test.IPv6PingSocket()
s.connect(("::1", 55))
s.send(net_test.IPV6_PING)
self.assertValidPingResponse(s, net_test.IPV6_PING)
def testIPv4PingUsingSendto(self):
s = net_test.IPv4PingSocket()
written = s.sendto(net_test.IPV4_PING, (net_test.IPV4_ADDR, 55))
self.assertEqual(len(net_test.IPV4_PING), written)
self.assertValidPingResponse(s, net_test.IPV4_PING)
def testIPv6PingUsingSendto(self):
s = net_test.IPv6PingSocket()
written = s.sendto(net_test.IPV6_PING, (net_test.IPV6_ADDR, 55))
self.assertEqual(len(net_test.IPV6_PING), written)
self.assertValidPingResponse(s, net_test.IPV6_PING)
def testIPv4NoCrash(self):
# Python 2.x does not provide either read() or recvmsg.
s = net_test.IPv4PingSocket()
written = s.sendto(net_test.IPV4_PING, ("127.0.0.1", 55))
self.assertEqual(len(net_test.IPV4_PING), written)
fd = s.fileno()
reply = posix.read(fd, 4096)
self.assertEqual(written, len(reply))
def testIPv6NoCrash(self):
# Python 2.x does not provide either read() or recvmsg.
s = net_test.IPv6PingSocket()
written = s.sendto(net_test.IPV6_PING, ("::1", 55))
self.assertEqual(len(net_test.IPV6_PING), written)
fd = s.fileno()
reply = posix.read(fd, 4096)
self.assertEqual(written, len(reply))
def testCrossProtocolCrash(self):
# Checks that an ICMP error containing a ping packet that matches the ID
# of a socket of the wrong protocol (which can happen when using 464xlat)
# doesn't crash the kernel.
# We can only test this using IPv6 unreachables and IPv4 ping sockets,
# because IPv4 packets sent by scapy.send() on loopback are not received by
# the kernel. So we don't actually use this function yet.
def GetIPv4Unreachable(port): # pylint: disable=unused-variable
return (scapy.IP(src="192.0.2.1", dst="127.0.0.1") /
scapy.ICMP(type=3, code=0) /
scapy.IP(src="127.0.0.1", dst="127.0.0.1") /
scapy.ICMP(type=8, id=port, seq=1))
def GetIPv6Unreachable(port):
return (scapy.IPv6(src="::1", dst="::1") /
scapy.ICMPv6DestUnreach() /
scapy.IPv6(src="::1", dst="::1") /
scapy.ICMPv6EchoRequest(id=port, seq=1, data="foobarbaz"))
# An unreachable matching the ID of a socket of the wrong protocol
# shouldn't crash.
s = net_test.IPv4PingSocket()
s.connect(("127.0.0.1", 12345))
_, port = s.getsockname()
scapy.send(GetIPv6Unreachable(port), verbose=False)
# No crash? Good.
def testCrossProtocolCalls(self):
"""Tests that passing in the wrong family returns EAFNOSUPPORT.
Relevant kernel commits:
upstream net:
91a0b60 net/ping: handle protocol mismatching scenario
9145736d net: ping: Return EAFNOSUPPORT when appropriate.
android-3.10:
78a6809 net/ping: handle protocol mismatching scenario
428e6d6 net: ping: Return EAFNOSUPPORT when appropriate.
"""
def CheckEAFNoSupport(function, *args):
self.assertRaisesErrno(errno.EAFNOSUPPORT, function, *args)
ipv6sockaddr = csocket.Sockaddr((net_test.IPV6_ADDR, 53))
# In order to check that IPv6 socket calls return EAFNOSUPPORT when passed
# IPv4 socket address structures, we need to pass down a socket address
# length argument that's at least sizeof(sockaddr_in6). Otherwise, the calls
# will fail immediately with EINVAL because the passed-in socket length is
# too short. So create a sockaddr_in that's as long as a sockaddr_in6.
ipv4sockaddr = csocket.Sockaddr((net_test.IPV4_ADDR, 53))
ipv4sockaddr = csocket.SockaddrIn6(
ipv4sockaddr.Pack() +
"\x00" * (len(csocket.SockaddrIn6) - len(csocket.SockaddrIn)))
s4 = net_test.IPv4PingSocket()
s6 = net_test.IPv6PingSocket()
# We can't just call s.connect(), s.bind() etc. with a tuple of the wrong
# address family, because the Python implementation will just pass garbage
# down to the kernel. So call the C functions directly.
CheckEAFNoSupport(csocket.Bind, s4, ipv6sockaddr)
CheckEAFNoSupport(csocket.Bind, s6, ipv4sockaddr)
CheckEAFNoSupport(csocket.Connect, s4, ipv6sockaddr)
CheckEAFNoSupport(csocket.Connect, s6, ipv4sockaddr)
CheckEAFNoSupport(csocket.Sendmsg,
s4, ipv6sockaddr, net_test.IPV4_PING, None, 0)
CheckEAFNoSupport(csocket.Sendmsg,
s6, ipv4sockaddr, net_test.IPV6_PING, None, 0)
def testIPv4Bind(self):
# Bind to unspecified address.
s = net_test.IPv4PingSocket()
s.bind(("0.0.0.0", 544))
self.assertEqual(("0.0.0.0", 544), s.getsockname())
# Bind to loopback.
s = net_test.IPv4PingSocket()
s.bind(("127.0.0.1", 99))
self.assertEqual(("127.0.0.1", 99), s.getsockname())
# Binding twice is not allowed.
self.assertRaisesErrno(errno.EINVAL, s.bind, ("127.0.0.1", 22))
# But binding two different sockets to the same ID is allowed.
s2 = net_test.IPv4PingSocket()
s2.bind(("127.0.0.1", 99))
self.assertEqual(("127.0.0.1", 99), s2.getsockname())
s3 = net_test.IPv4PingSocket()
s3.bind(("127.0.0.1", 99))
self.assertEqual(("127.0.0.1", 99), s3.getsockname())
# If two sockets bind to the same port, the first one to call read() gets
# the response.
s4 = net_test.IPv4PingSocket()
s5 = net_test.IPv4PingSocket()
s4.bind(("0.0.0.0", 167))
s5.bind(("0.0.0.0", 167))
s4.sendto(net_test.IPV4_PING, (net_test.IPV4_ADDR, 44))
self.assertValidPingResponse(s5, net_test.IPV4_PING)
csocket.SetSocketTimeout(s4, 100)
self.assertRaisesErrno(errno.EAGAIN, s4.recv, 32768)
# If SO_REUSEADDR is turned off, then we get EADDRINUSE.
s6 = net_test.IPv4PingSocket()
s4.setsockopt(SOL_SOCKET, SO_REUSEADDR, 0)
self.assertRaisesErrno(errno.EADDRINUSE, s6.bind, ("0.0.0.0", 167))
# Can't bind after sendto.
s = net_test.IPv4PingSocket()
s.sendto(net_test.IPV4_PING, (net_test.IPV4_ADDR, 9132))
self.assertRaisesErrno(errno.EINVAL, s.bind, ("0.0.0.0", 5429))
def testIPv6Bind(self):
# Bind to unspecified address.
s = net_test.IPv6PingSocket()
s.bind(("::", 769))
self.assertEqual(("::", 769, 0, 0), s.getsockname())
# Bind to loopback.
s = net_test.IPv6PingSocket()
s.bind(("::1", 99))
self.assertEqual(("::1", 99, 0, 0), s.getsockname())
# Binding twice is not allowed.
self.assertRaisesErrno(errno.EINVAL, s.bind, ("::1", 22))
# But binding two different sockets to the same ID is allowed.
s2 = net_test.IPv6PingSocket()
s2.bind(("::1", 99))
self.assertEqual(("::1", 99, 0, 0), s2.getsockname())
s3 = net_test.IPv6PingSocket()
s3.bind(("::1", 99))
self.assertEqual(("::1", 99, 0, 0), s3.getsockname())
# Binding both IPv4 and IPv6 to the same socket works.
s4 = net_test.IPv4PingSocket()
s6 = net_test.IPv6PingSocket()
s4.bind(("0.0.0.0", 444))
s6.bind(("::", 666, 0, 0))
# Can't bind after sendto.
s = net_test.IPv6PingSocket()
s.sendto(net_test.IPV6_PING, (net_test.IPV6_ADDR, 9132))
self.assertRaisesErrno(errno.EINVAL, s.bind, ("::", 5429))
def testIPv4InvalidBind(self):
s = net_test.IPv4PingSocket()
self.assertRaisesErrno(errno.EADDRNOTAVAIL,
s.bind, ("255.255.255.255", 1026))
self.assertRaisesErrno(errno.EADDRNOTAVAIL,
s.bind, ("224.0.0.1", 651))
# Binding to an address we don't have only works with IP_TRANSPARENT.
self.assertRaisesErrno(errno.EADDRNOTAVAIL,
s.bind, (net_test.IPV4_ADDR, 651))
try:
s.setsockopt(SOL_IP, net_test.IP_TRANSPARENT, 1)
s.bind((net_test.IPV4_ADDR, 651))
except IOError as e:
if e.errno == errno.EACCES:
pass # We're not root. let it go for now.
def testIPv6InvalidBind(self):
s = net_test.IPv6PingSocket()
self.assertRaisesErrno(errno.EINVAL,
s.bind, ("ff02::2", 1026))
# Binding to an address we don't have only works with IPV6_TRANSPARENT.
self.assertRaisesErrno(errno.EADDRNOTAVAIL,
s.bind, (net_test.IPV6_ADDR, 651))
try:
s.setsockopt(net_test.SOL_IPV6, net_test.IPV6_TRANSPARENT, 1)
s.bind((net_test.IPV6_ADDR, 651))
except IOError as e:
if e.errno == errno.EACCES:
pass # We're not root. let it go for now.
def testAfUnspecBind(self):
# Binding to AF_UNSPEC is treated as IPv4 if the address is 0.0.0.0.
s4 = net_test.IPv4PingSocket()
sockaddr = csocket.Sockaddr(("0.0.0.0", 12996))
sockaddr.family = AF_UNSPEC
csocket.Bind(s4, sockaddr)
self.assertEqual(("0.0.0.0", 12996), s4.getsockname())
# But not if the address is anything else.
sockaddr = csocket.Sockaddr(("127.0.0.1", 58234))
sockaddr.family = AF_UNSPEC
self.assertRaisesErrno(errno.EAFNOSUPPORT, csocket.Bind, s4, sockaddr)
# This doesn't work for IPv6.
s6 = net_test.IPv6PingSocket()
sockaddr = csocket.Sockaddr(("::1", 58997))
sockaddr.family = AF_UNSPEC
self.assertRaisesErrno(errno.EAFNOSUPPORT, csocket.Bind, s6, sockaddr)
def testIPv6ScopedBind(self):
# Can't bind to a link-local address without a scope ID.
s = net_test.IPv6PingSocket()
self.assertRaisesErrno(errno.EINVAL,
s.bind, (self.lladdr, 1026, 0, 0))
# Binding to a link-local address with a scope ID works, and the scope ID is
# returned by a subsequent getsockname. Interestingly, Python's getsockname
# returns "fe80:1%foo", even though it does not understand it.
expected = self.lladdr + "%" + self.ifname
s.bind((self.lladdr, 4646, 0, self.ifindex))
self.assertEqual((expected, 4646, 0, self.ifindex), s.getsockname())
# Of course, for the above to work the address actually has to be configured
# on the machine.
self.assertRaisesErrno(errno.EADDRNOTAVAIL,
s.bind, ("fe80::f00", 1026, 0, 1))
# Scope IDs on non-link-local addresses are silently ignored.
s = net_test.IPv6PingSocket()
s.bind(("::1", 1234, 0, 1))
self.assertEqual(("::1", 1234, 0, 0), s.getsockname())
def testBindAffectsIdentifier(self):
s = net_test.IPv6PingSocket()
s.bind((self.globaladdr, 0xf976))
s.sendto(net_test.IPV6_PING, (net_test.IPV6_ADDR, 55))
self.assertEqual("\xf9\x76", s.recv(32768)[4:6])
s = net_test.IPv6PingSocket()
s.bind((self.globaladdr, 0xace))
s.sendto(net_test.IPV6_PING, (net_test.IPV6_ADDR, 55))
self.assertEqual("\x0a\xce", s.recv(32768)[4:6])
def testLinkLocalAddress(self):
s = net_test.IPv6PingSocket()
# Sending to a link-local address with no scope fails with EINVAL.
self.assertRaisesErrno(errno.EINVAL,
s.sendto, net_test.IPV6_PING, ("fe80::1", 55))
# Sending to link-local address with a scope succeeds. Note that Python
# doesn't understand the "fe80::1%lo" format, even though it returns it.
s.sendto(net_test.IPV6_PING, ("fe80::1", 55, 0, self.ifindex))
# No exceptions? Good.
def testLinkLocalOif(self):
"""Checks that ping to link-local addresses works correctly.
Relevant kernel commits:
upstream net:
5e45789 net: ipv6: Fix ping to link-local addresses.
"""
for mode in ["oif", "ucast_oif", None]:
s = net_test.IPv6PingSocket()
for netid in self.NETIDS:
s2 = net_test.IPv6PingSocket()
dst = self._RouterAddress(netid, 6)
self.assertTrue(dst.startswith("fe80:"))
if mode:
self.SelectInterface(s, netid, mode)
self.SelectInterface(s2, netid, mode)
scopeid = 0
else:
scopeid = self.ifindices[netid]
if mode == "oif":
# If SO_BINDTODEVICE has been set, any attempt to send on another
# interface returns EINVAL.
othernetid = self.NETIDS[(self.NETIDS.index(netid) + 1)
% len(self.NETIDS)]
otherscopeid = self.ifindices[othernetid]
self.assertRaisesErrno(
errno.EINVAL,
s.sendto, net_test.IPV6_PING, (dst, 55, 0, otherscopeid))
self.assertRaisesErrno(
errno.EINVAL,
s.connect, (dst, 55, 0, otherscopeid))
# Try using both sendto and connect/send.
# If we get a reply, we sent the packet out on the right interface.
s.sendto(net_test.IPV6_PING, (dst, 123, 0, scopeid))
self.assertValidPingResponse(s, net_test.IPV6_PING)
# IPV6_UNICAST_IF doesn't work on connected sockets.
if mode != "ucast_oif":
s2.connect((dst, 123, 0, scopeid))
s2.send(net_test.IPV6_PING)
self.assertValidPingResponse(s2, net_test.IPV6_PING)
def testMappedAddressFails(self):
s = net_test.IPv6PingSocket()
s.sendto(net_test.IPV6_PING, (net_test.IPV6_ADDR, 55))
self.assertValidPingResponse(s, net_test.IPV6_PING)
s.sendto(net_test.IPV6_PING, ("2001:4860:4860::8844", 55))
self.assertValidPingResponse(s, net_test.IPV6_PING)
self.assertRaisesErrno(errno.EINVAL, s.sendto, net_test.IPV6_PING,
("::ffff:192.0.2.1", 55))
@unittest.skipUnless(False, "skipping: does not work yet")
def testFlowLabel(self):
s = net_test.IPv6PingSocket()
# Specifying a flowlabel without having set IPV6_FLOWINFO_SEND succeeds but
# the flow label in the packet is not set.
s.sendto(net_test.IPV6_PING, (net_test.IPV6_ADDR, 93, 0xdead, 0))
self.assertValidPingResponse(s, net_test.IPV6_PING) # Checks flow label==0.
# If IPV6_FLOWINFO_SEND is set on the socket, attempting to set a flow label
# that is not registered with the flow manager should return EINVAL...
s.setsockopt(net_test.SOL_IPV6, net_test.IPV6_FLOWINFO_SEND, 1)
# ... but this doesn't work yet.
if False:
self.assertRaisesErrno(errno.EINVAL, s.sendto, net_test.IPV6_PING,
(net_test.IPV6_ADDR, 93, 0xdead, 0))
# After registering the flow label, it gets sent properly, appears in the
# output packet, and is returned in the response.
net_test.SetFlowLabel(s, net_test.IPV6_ADDR, 0xdead)
self.assertEqual(1, s.getsockopt(net_test.SOL_IPV6,
net_test.IPV6_FLOWINFO_SEND))
s.sendto(net_test.IPV6_PING, (net_test.IPV6_ADDR, 93, 0xdead, 0))
_, src = s.recvfrom(32768)
_, _, flowlabel, _ = src
self.assertEqual(0xdead, flowlabel & 0xfffff)
def testIPv4Error(self):
s = net_test.IPv4PingSocket()
s.setsockopt(SOL_IP, IP_TTL, 2)
s.setsockopt(SOL_IP, net_test.IP_RECVERR, 1)
s.sendto(net_test.IPV4_PING, (net_test.IPV4_ADDR, 55))
# We can't check the actual error because Python 2.7 doesn't implement
# recvmsg, but we can at least check that the socket returns an error.
self.assertRaisesErrno(errno.EHOSTUNREACH, s.recv, 32768) # No response.
def testIPv6Error(self):
s = net_test.IPv6PingSocket()
s.setsockopt(net_test.SOL_IPV6, IPV6_UNICAST_HOPS, 2)
s.setsockopt(net_test.SOL_IPV6, net_test.IPV6_RECVERR, 1)
s.sendto(net_test.IPV6_PING, (net_test.IPV6_ADDR, 55))
# We can't check the actual error because Python 2.7 doesn't implement
# recvmsg, but we can at least check that the socket returns an error.
self.assertRaisesErrno(errno.EHOSTUNREACH, s.recv, 32768) # No response.
def testIPv6MulticastPing(self):
s = net_test.IPv6PingSocket()
# Send a multicast ping and check we get at least one duplicate.
# The setsockopt should not be necessary, but ping_v6_sendmsg has a bug.
s.setsockopt(net_test.SOL_IPV6, net_test.IPV6_MULTICAST_IF, self.ifindex)
s.sendto(net_test.IPV6_PING, ("ff02::1", 55, 0, self.ifindex))
self.assertValidPingResponse(s, net_test.IPV6_PING)
self.assertValidPingResponse(s, net_test.IPV6_PING)
def testIPv4LargePacket(self):
s = net_test.IPv4PingSocket()
data = net_test.IPV4_PING + 20000 * "a"
s.sendto(data, ("127.0.0.1", 987))
self.assertValidPingResponse(s, data)
def testIPv6LargePacket(self):
s = net_test.IPv6PingSocket()
s.bind(("::", 0xace))
data = net_test.IPV6_PING + "\x01" + 19994 * "\x00" + "aaaaa"
s.sendto(data, ("::1", 953))
@unittest.skipUnless(HAVE_PROC_NET_ICMP6, "skipping: no /proc/net/icmp6")
def testIcmpSocketsNotInIcmp6(self):
numrows = len(self.ReadProcNetSocket("icmp"))
numrows6 = len(self.ReadProcNetSocket("icmp6"))
s = net_test.Socket(AF_INET, SOCK_DGRAM, IPPROTO_ICMP)
s.bind(("127.0.0.1", 0xace))
s.connect(("127.0.0.1", 0xbeef))
self.assertEqual(numrows + 1, len(self.ReadProcNetSocket("icmp")))
self.assertEqual(numrows6, len(self.ReadProcNetSocket("icmp6")))
@unittest.skipUnless(HAVE_PROC_NET_ICMP6, "skipping: no /proc/net/icmp6")
def testIcmp6SocketsNotInIcmp(self):
numrows = len(self.ReadProcNetSocket("icmp"))
numrows6 = len(self.ReadProcNetSocket("icmp6"))
s = net_test.IPv6PingSocket()
s.bind(("::1", 0xace))
s.connect(("::1", 0xbeef))
self.assertEqual(numrows, len(self.ReadProcNetSocket("icmp")))
self.assertEqual(numrows6 + 1, len(self.ReadProcNetSocket("icmp6")))
def testProcNetIcmp(self):
s = net_test.Socket(AF_INET, SOCK_DGRAM, IPPROTO_ICMP)
s.bind(("127.0.0.1", 0xace))
s.connect(("127.0.0.1", 0xbeef))
self.CheckSockStatFile("icmp", "127.0.0.1", 0xace, "127.0.0.1", 0xbeef, 1)
@unittest.skipUnless(HAVE_PROC_NET_ICMP6, "skipping: no /proc/net/icmp6")
def testProcNetIcmp6(self):
numrows6 = len(self.ReadProcNetSocket("icmp6"))
s = net_test.IPv6PingSocket()
s.bind(("::1", 0xace))
s.connect(("::1", 0xbeef))
self.CheckSockStatFile("icmp6", "::1", 0xace, "::1", 0xbeef, 1)
# Check the row goes away when the socket is closed.
s.close()
self.assertEqual(numrows6, len(self.ReadProcNetSocket("icmp6")))
# Try send, bind and connect to check the addresses and the state.
s = net_test.IPv6PingSocket()
self.assertEqual(0, len(self.ReadProcNetSocket("icmp6")))
s.sendto(net_test.IPV6_PING, (net_test.IPV6_ADDR, 12345))
self.assertEqual(1, len(self.ReadProcNetSocket("icmp6")))
# Can't bind after sendto, apparently.
s = net_test.IPv6PingSocket()
self.assertEqual(0, len(self.ReadProcNetSocket("icmp6")))
s.bind((self.lladdr, 0xd00d, 0, self.ifindex))
self.CheckSockStatFile("icmp6", self.lladdr, 0xd00d, "::", 0, 7)
# Check receive bytes.
s.setsockopt(net_test.SOL_IPV6, net_test.IPV6_MULTICAST_IF, self.ifindex)
s.connect(("ff02::1", 0xdead))
self.CheckSockStatFile("icmp6", self.lladdr, 0xd00d, "ff02::1", 0xdead, 1)
s.send(net_test.IPV6_PING)
s.recvfrom(32768, MSG_PEEK) # Wait until the receive thread replies.
self.CheckSockStatFile("icmp6", self.lladdr, 0xd00d, "ff02::1", 0xdead, 1,
txmem=0, rxmem=0x300)
self.assertValidPingResponse(s, net_test.IPV6_PING)
self.CheckSockStatFile("icmp6", self.lladdr, 0xd00d, "ff02::1", 0xdead, 1,
txmem=0, rxmem=0)
def testProcNetUdp6(self):
s = net_test.Socket(AF_INET6, SOCK_DGRAM, IPPROTO_UDP)
s.bind(("::1", 0xace))
s.connect(("::1", 0xbeef))
self.CheckSockStatFile("udp6", "::1", 0xace, "::1", 0xbeef, 1)
def testProcNetRaw6(self):
s = net_test.Socket(AF_INET6, SOCK_RAW, IPPROTO_RAW)
s.bind(("::1", 0xace))
s.connect(("::1", 0xbeef))
self.CheckSockStatFile("raw6", "::1", 0xff, "::1", 0, 1)
def testIPv6MTU(self):
"""Tests IPV6_RECVERR and path MTU discovery on ping sockets.
Relevant kernel commits:
upstream net-next:
dcb94b8 ipv6: fix endianness error in icmpv6_err
"""
s = net_test.IPv6PingSocket()
s.setsockopt(net_test.SOL_IPV6, csocket.IPV6_DONTFRAG, 1)
s.setsockopt(net_test.SOL_IPV6, csocket.IPV6_MTU_DISCOVER, 2)
s.setsockopt(net_test.SOL_IPV6, net_test.IPV6_RECVERR, 1)
s.connect((net_test.IPV6_ADDR, 55))
pkt = net_test.IPV6_PING + (PingReplyThread.LINK_MTU + 100) * "a"
s.send(pkt)
self.assertRaisesErrno(errno.EMSGSIZE, s.recv, 32768)
data, addr, cmsg = csocket.Recvmsg(s, 4096, 1024, csocket.MSG_ERRQUEUE)
# Compare the offending packet with the one we sent. To do this we need to
# calculate the ident of the packet we sent and blank out the checksum of
# the one we received.
ident = struct.pack("!H", s.getsockname()[1])
pkt = pkt[:4] + ident + pkt[6:]
data = data[:2] + "\x00\x00" + pkt[4:]
self.assertEqual(pkt, data)
# Check the address that the packet was sent to.
# ... except in 4.1, where it just returns an AF_UNSPEC, like this:
# recvmsg(9, {msg_name(0)={sa_family=AF_UNSPEC,
# sa_data="\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"},
# msg_iov(1)=[{"\x80\x00\x04\x6b\x00\xc4\x00\x03\x61\x61\x61\x61\x61\x61"..., 4096}],
# msg_controllen=64, {cmsg_len=60, cmsg_level=SOL_IPV6, cmsg_type=, ...},
# msg_flags=MSG_ERRQUEUE}, MSG_ERRQUEUE) = 1232
if net_test.LINUX_VERSION != (4, 1, 0):
self.assertEqual(csocket.Sockaddr(("2001:4860:4860::8888", 0)), addr)
# Check the cmsg data, including the link MTU.
mtu = PingReplyThread.LINK_MTU
src = self.reply_threads[self.netid].INTERMEDIATE_IPV6
msglist = [
(net_test.SOL_IPV6, net_test.IPV6_RECVERR,
(csocket.SockExtendedErr((errno.EMSGSIZE, csocket.SO_ORIGIN_ICMP6,
ICMPV6_PKT_TOOBIG, 0, mtu, 0)),
csocket.Sockaddr((src, 0))))
]
# IP[V6]_RECVERR in 3.10 appears to return incorrect data for the port.
# The fix might have been in 676d236, but we don't have that in 3.10 and it
# touches code all over the tree. Instead, just don't check the port.
if net_test.LINUX_VERSION <= (3, 14, 0):
msglist[0][2][1].port = cmsg[0][2][1].port
self.assertEqual(msglist, cmsg)
if __name__ == "__main__":
unittest.main()