| #!/usr/bin/python |
| |
| import errno |
| import fcntl |
| import os |
| import posix |
| import random |
| import re |
| from socket import * # pylint: disable=wildcard-import |
| import struct |
| import time # pylint: disable=unused-import |
| import unittest |
| |
| from scapy import all as scapy |
| |
| import iproute |
| import net_test |
| |
| IFF_TUN = 1 |
| IFF_TAP = 2 |
| IFF_NO_PI = 0x1000 |
| TUNSETIFF = 0x400454ca |
| |
| PING_IDENT = 0xff19 |
| PING_PAYLOAD = "foobarbaz" |
| PING_SEQ = 3 |
| PING_TOS = 0x83 |
| |
| SO_BINDTODEVICE = 25 |
| |
| IP_UNICAST_IF = 50 |
| IPV6_UNICAST_IF = 76 |
| |
| UDP_PAYLOAD = str(scapy.DNS(rd=1, |
| id=random.randint(0, 65535), |
| qd=scapy.DNSQR(qname="wWW.GoOGle.CoM", |
| qtype="AAAA"))) |
| |
| |
| # Check to see if the kernel supports UID routing. |
| def HaveUidRouting(): |
| # Create a rule with the UID range selector. If the kernel doesn't understand |
| # the selector, it will create a rule with no selectors. |
| iproute.IPRoute().UidRangeRule(6, True, 1000, 2000, 100) |
| |
| # Dump all the rules. If we find a rule using the UID range selector, then the |
| # kernel supports UID range routing. |
| rules = iproute.IPRoute().DumpRules(6) |
| result = any(iproute.EXPERIMENTAL_FRA_UID_START in attrs |
| for rule, attrs in rules) |
| |
| # Delete the rule. |
| iproute.IPRoute().UidRangeRule(6, False, 1000, 2000, 100) |
| return result |
| |
| |
| AUTOCONF_TABLE_SYSCTL = "/proc/sys/net/ipv6/conf/default/accept_ra_rt_table" |
| IPV4_MARK_REFLECT_SYSCTL = "/proc/sys/net/ipv4/fwmark_reflect" |
| IPV6_MARK_REFLECT_SYSCTL = "/proc/sys/net/ipv6/fwmark_reflect" |
| SYNCOOKIES_SYSCTL = "/proc/sys/net/ipv4/tcp_syncookies" |
| TCP_MARK_ACCEPT_SYSCTL = "/proc/sys/net/ipv4/tcp_fwmark_accept" |
| |
| HAVE_AUTOCONF_TABLE = os.path.isfile(AUTOCONF_TABLE_SYSCTL) |
| HAVE_MARK_REFLECT = os.path.isfile(IPV4_MARK_REFLECT_SYSCTL) |
| HAVE_TCP_MARK_ACCEPT = os.path.isfile(TCP_MARK_ACCEPT_SYSCTL) |
| |
| HAVE_EXPERIMENTAL_UID_ROUTING = HaveUidRouting() |
| |
| |
| class ConfigurationError(AssertionError): |
| pass |
| |
| |
| class UnexpectedPacketError(AssertionError): |
| pass |
| |
| |
| class Packets(object): |
| |
| TCP_FIN = 1 |
| TCP_SYN = 2 |
| TCP_RST = 4 |
| TCP_ACK = 16 |
| |
| TCP_SEQ = 1692871236 |
| TCP_WINDOW = 14400 |
| |
| @staticmethod |
| def RandomPort(): |
| return random.randint(1025, 65535) |
| |
| @staticmethod |
| def _GetIpLayer(version): |
| return {4: scapy.IP, 6: scapy.IPv6}[version] |
| |
| @staticmethod |
| def _SetPacketTos(packet, tos): |
| if isinstance(packet, scapy.IPv6): |
| packet.tc = tos |
| elif isinstance(packet, scapy.IP): |
| packet.tos = tos |
| else: |
| raise ValueError("Can't find ToS Field") |
| |
| @classmethod |
| def UDP(cls, version, srcaddr, dstaddr, sport=0): |
| ip = cls._GetIpLayer(version) |
| # Can't just use "if sport" because None has meaning (it means unspecified). |
| if sport == 0: |
| sport = cls.RandomPort() |
| return ("UDPv%d packet" % version, |
| ip(src=srcaddr, dst=dstaddr) / |
| scapy.UDP(sport=sport, dport=53) / UDP_PAYLOAD) |
| |
| @classmethod |
| def SYN(cls, dport, version, srcaddr, dstaddr, sport=0, seq=TCP_SEQ): |
| ip = cls._GetIpLayer(version) |
| if sport == 0: |
| sport = cls.RandomPort() |
| return ("TCP SYN", |
| ip(src=srcaddr, dst=dstaddr) / |
| scapy.TCP(sport=sport, dport=dport, |
| seq=seq, ack=0, |
| flags=cls.TCP_SYN, window=cls.TCP_WINDOW)) |
| |
| @classmethod |
| def RST(cls, version, srcaddr, dstaddr, packet): |
| ip = cls._GetIpLayer(version) |
| original = packet.getlayer("TCP") |
| return ("TCP RST", |
| ip(src=srcaddr, dst=dstaddr) / |
| scapy.TCP(sport=original.dport, dport=original.sport, |
| ack=original.seq + 1, seq=None, |
| flags=cls.TCP_RST | cls.TCP_ACK, window=cls.TCP_WINDOW)) |
| |
| @classmethod |
| def SYNACK(cls, version, srcaddr, dstaddr, packet): |
| ip = cls._GetIpLayer(version) |
| original = packet.getlayer("TCP") |
| return ("TCP SYN+ACK", |
| ip(src=srcaddr, dst=dstaddr) / |
| scapy.TCP(sport=original.dport, dport=original.sport, |
| ack=original.seq + 1, seq=None, |
| flags=cls.TCP_SYN | cls.TCP_ACK, window=None)) |
| |
| @classmethod |
| def ACK(cls, version, srcaddr, dstaddr, packet): |
| ip = cls._GetIpLayer(version) |
| original = packet.getlayer("TCP") |
| was_syn_or_fin = (original.flags & (cls.TCP_SYN | cls.TCP_FIN)) != 0 |
| return ("TCP ACK", |
| ip(src=srcaddr, dst=dstaddr) / |
| scapy.TCP(sport=original.dport, dport=original.sport, |
| ack=original.seq + was_syn_or_fin, seq=original.ack, |
| flags=cls.TCP_ACK, window=cls.TCP_WINDOW)) |
| |
| @classmethod |
| def FIN(cls, version, srcaddr, dstaddr, packet): |
| ip = cls._GetIpLayer(version) |
| original = packet.getlayer("TCP") |
| was_fin = (original.flags & cls.TCP_FIN) != 0 |
| return ("TCP FIN", |
| ip(src=srcaddr, dst=dstaddr) / |
| scapy.TCP(sport=original.dport, dport=original.sport, |
| ack=original.seq + was_fin, seq=original.ack, |
| flags=cls.TCP_ACK | cls.TCP_FIN, window=cls.TCP_WINDOW)) |
| |
| @classmethod |
| def GRE(cls, version, srcaddr, dstaddr, proto, packet): |
| if version == 4: |
| ip = scapy.IP(src=srcaddr, dst=dstaddr, proto=net_test.IPPROTO_GRE) |
| else: |
| ip = scapy.IPv6(src=srcaddr, dst=dstaddr, nh=net_test.IPPROTO_GRE) |
| packet = ip / scapy.GRE(proto=proto) / packet |
| return ("GRE packet", packet) |
| |
| @classmethod |
| def ICMPPortUnreachable(cls, version, srcaddr, dstaddr, packet): |
| if version == 4: |
| # Linux hardcodes the ToS on ICMP errors to 0xc0 or greater because of |
| # RFC 1812 4.3.2.5 (!). |
| return ("ICMPv4 port unreachable", |
| scapy.IP(src=srcaddr, dst=dstaddr, proto=1, tos=0xc0) / |
| scapy.ICMPerror(type=3, code=3) / packet) |
| else: |
| return ("ICMPv6 port unreachable", |
| scapy.IPv6(src=srcaddr, dst=dstaddr) / |
| scapy.ICMPv6DestUnreach(code=4) / packet) |
| |
| @classmethod |
| def ICMPPacketTooBig(cls, version, srcaddr, dstaddr, packet): |
| if version == 4: |
| return ("ICMPv4 fragmentation needed", |
| scapy.IP(src=srcaddr, dst=dstaddr, proto=1) / |
| scapy.ICMPerror(type=3, code=4, unused=1280) / str(packet)[:64]) |
| else: |
| udp = packet.getlayer("UDP") |
| udp.payload = str(udp.payload)[:1280-40-8] |
| return ("ICMPv6 Packet Too Big", |
| scapy.IPv6(src=srcaddr, dst=dstaddr) / |
| scapy.ICMPv6PacketTooBig() / str(packet)[:1232]) |
| |
| @classmethod |
| def ICMPEcho(cls, version, srcaddr, dstaddr): |
| ip = cls._GetIpLayer(version) |
| icmp = {4: scapy.ICMP, 6: scapy.ICMPv6EchoRequest}[version] |
| packet = (ip(src=srcaddr, dst=dstaddr) / |
| icmp(id=PING_IDENT, seq=PING_SEQ) / PING_PAYLOAD) |
| cls._SetPacketTos(packet, PING_TOS) |
| return ("ICMPv%d echo" % version, packet) |
| |
| @classmethod |
| def ICMPReply(cls, version, srcaddr, dstaddr, packet): |
| ip = cls._GetIpLayer(version) |
| # Scapy doesn't provide an ICMP echo reply constructor. |
| icmpv4_reply = lambda **kwargs: scapy.ICMP(type=0, **kwargs) |
| icmp = {4: icmpv4_reply, 6: scapy.ICMPv6EchoReply}[version] |
| packet = (ip(src=srcaddr, dst=dstaddr) / |
| icmp(id=PING_IDENT, seq=PING_SEQ) / PING_PAYLOAD) |
| cls._SetPacketTos(packet, PING_TOS) |
| return ("ICMPv%d echo reply" % version, packet) |
| |
| @classmethod |
| def NS(cls, srcaddr, tgtaddr, srcmac): |
| solicited = inet_pton(AF_INET6, tgtaddr) |
| last3bytes = tuple([ord(b) for b in solicited[-3:]]) |
| solicited = "ff02::1:ff%02x:%02x%02x" % last3bytes |
| packet = (scapy.IPv6(src=srcaddr, dst=solicited) / |
| scapy.ICMPv6ND_NS(tgt=tgtaddr) / |
| scapy.ICMPv6NDOptSrcLLAddr(lladdr=srcmac)) |
| return ("ICMPv6 NS", packet) |
| |
| @classmethod |
| def NA(cls, srcaddr, dstaddr, srcmac): |
| packet = (scapy.IPv6(src=srcaddr, dst=dstaddr) / |
| scapy.ICMPv6ND_NA(tgt=srcaddr, R=0, S=1, O=1) / |
| scapy.ICMPv6NDOptDstLLAddr(lladdr=srcmac)) |
| return ("ICMPv6 NA", packet) |
| |
| |
| class RunAsUid(object): |
| |
| """Context guard to run a code block as a given UID.""" |
| |
| def __init__(self, uid): |
| self.uid = uid |
| |
| def __enter__(self): |
| if self.uid: |
| self.saved_uid = os.geteuid() |
| if self.uid: |
| os.seteuid(self.uid) |
| |
| def __exit__(self, unused_type, unused_value, unused_traceback): |
| if self.uid: |
| os.seteuid(self.saved_uid) |
| |
| |
| class MultiNetworkTest(net_test.NetworkTest): |
| |
| # Must be between 1 and 256, since we put them in MAC addresses and IIDs. |
| NETIDS = [100, 150, 200, 250] |
| |
| # Stores sysctl values to write back when the test completes. |
| saved_sysctls = {} |
| |
| # Wether to output setup commands. |
| DEBUG = False |
| |
| # The size of our UID ranges. |
| UID_RANGE_SIZE = 1000 |
| |
| @classmethod |
| def UidRangeForNetid(cls, netid): |
| return ( |
| cls.UID_RANGE_SIZE * netid, |
| cls.UID_RANGE_SIZE * (netid + 1) - 1 |
| ) |
| |
| @classmethod |
| def UidForNetid(cls, netid): |
| return random.randint(*cls.UidRangeForNetid(netid)) |
| |
| @classmethod |
| def _TableForNetid(cls, netid): |
| if cls.AUTOCONF_TABLE_OFFSET and netid in cls.ifindices: |
| return cls.ifindices[netid] + (-cls.AUTOCONF_TABLE_OFFSET) |
| else: |
| return netid |
| |
| @staticmethod |
| def GetInterfaceName(netid): |
| return "nettest%d" % netid |
| |
| @staticmethod |
| def RouterMacAddress(netid): |
| return "02:00:00:00:%02x:00" % netid |
| |
| @staticmethod |
| def MyMacAddress(netid): |
| return "02:00:00:00:%02x:01" % netid |
| |
| @staticmethod |
| def _RouterAddress(netid, version): |
| if version == 6: |
| return "fe80::%02x00" % netid |
| elif version == 4: |
| return "10.0.%d.1" % netid |
| else: |
| raise ValueError("Don't support IPv%s" % version) |
| |
| @classmethod |
| def _MyIPv4Address(cls, netid): |
| return "10.0.%d.2" % netid |
| |
| @classmethod |
| def _MyIPv6Address(cls, netid): |
| return net_test.GetLinkAddress(cls.GetInterfaceName(netid), False) |
| |
| @classmethod |
| def MyAddress(cls, version, netid): |
| return {4: cls._MyIPv4Address(netid), |
| 6: cls._MyIPv6Address(netid)}[version] |
| |
| @staticmethod |
| def IPv6Prefix(netid): |
| return "2001:db8:%02x::" % netid |
| |
| @staticmethod |
| def GetRandomDestination(prefix): |
| if "." in prefix: |
| return prefix + "%d.%d" % (random.randint(0, 31), random.randint(0, 255)) |
| else: |
| return prefix + "%x:%x" % (random.randint(0, 65535), |
| random.randint(0, 65535)) |
| |
| def GetProtocolFamily(self, version): |
| return {4: AF_INET, 6: AF_INET6}[version] |
| |
| @classmethod |
| def CreateTunInterface(cls, netid): |
| iface = cls.GetInterfaceName(netid) |
| f = open("/dev/net/tun", "r+b") |
| ifr = struct.pack("16sH", iface, IFF_TAP | IFF_NO_PI) |
| ifr += "\x00" * (40 - len(ifr)) |
| fcntl.ioctl(f, TUNSETIFF, ifr) |
| # Give ourselves a predictable MAC address. |
| net_test.SetInterfaceHWAddr(iface, cls.MyMacAddress(netid)) |
| # Disable DAD so we don't have to wait for it. |
| cls.SetSysctl("/proc/sys/net/ipv6/conf/%s/accept_dad" % iface, 0) |
| net_test.SetInterfaceUp(iface) |
| net_test.SetNonBlocking(f) |
| return f |
| |
| @classmethod |
| def SendRA(cls, netid): |
| validity = 300 # seconds |
| validity_ms = validity * 1000 # milliseconds |
| macaddr = cls.RouterMacAddress(netid) |
| lladdr = cls._RouterAddress(netid, 6) |
| |
| # We don't want any routes in the main table. If the kernel doesn't support |
| # putting RA routes into per-interface tables, configure routing manually. |
| routerlifetime = validity if HAVE_AUTOCONF_TABLE else 0 |
| |
| ra = (scapy.Ether(src=macaddr, dst="33:33:00:00:00:01") / |
| scapy.IPv6(src=lladdr, hlim=255) / |
| scapy.ICMPv6ND_RA(retranstimer=validity_ms, |
| routerlifetime=routerlifetime) / |
| scapy.ICMPv6NDOptSrcLLAddr(lladdr=macaddr) / |
| scapy.ICMPv6NDOptPrefixInfo(prefix=cls.IPv6Prefix(netid), |
| prefixlen=64, |
| L=1, A=1, |
| validlifetime=validity, |
| preferredlifetime=validity)) |
| posix.write(cls.tuns[netid].fileno(), str(ra)) |
| |
| @classmethod |
| def _RunSetupCommands(cls, netid, is_add): |
| for version in [4, 6]: |
| # Find out how to configure things. |
| iface = cls.GetInterfaceName(netid) |
| ifindex = cls.ifindices[netid] |
| macaddr = cls.RouterMacAddress(netid) |
| router = cls._RouterAddress(netid, version) |
| table = cls._TableForNetid(netid) |
| |
| # Run iptables to set up incoming packet marking. |
| add_del = "-A" if is_add else "-D" |
| iptables = {4: "iptables", 6: "ip6tables"}[version] |
| args = "%s %s INPUT -t mangle -i %s -j MARK --set-mark %d" % ( |
| iptables, add_del, iface, netid) |
| iptables = "/sbin/" + iptables |
| ret = os.spawnvp(os.P_WAIT, iptables, args.split(" ")) |
| if ret: |
| raise ConfigurationError("Setup command failed: %s" % args) |
| |
| # Set up routing rules. |
| if HAVE_EXPERIMENTAL_UID_ROUTING: |
| start, end = cls.UidRangeForNetid(netid) |
| cls.iproute.UidRangeRule(version, is_add, start, end, table, |
| priority=100) |
| cls.iproute.OifRule(version, is_add, iface, table, priority=200) |
| cls.iproute.FwmarkRule(version, is_add, netid, table, priority=300) |
| |
| # Configure routing and addressing. |
| # |
| # IPv6 uses autoconf for everything, except if per-device autoconf routing |
| # tables are not supported, in which case the default route (only) is |
| # configured manually. For IPv4 we have to manualy configure addresses, |
| # routes, and neighbour cache entries (since we don't reply to ARP or ND). |
| # |
| # Since deleting addresses also causes routes to be deleted, we need to |
| # be careful with ordering or the delete commands will fail with ENOENT. |
| do_routing = (version == 4 or cls.AUTOCONF_TABLE_OFFSET is None) |
| if is_add: |
| if version == 4: |
| cls.iproute.AddAddress(cls._MyIPv4Address(netid), 24, ifindex) |
| cls.iproute.AddNeighbour(version, router, macaddr, ifindex) |
| if do_routing: |
| cls.iproute.AddRoute(version, table, "default", 0, router, ifindex) |
| else: |
| if do_routing: |
| cls.iproute.DelRoute(version, table, "default", 0, router, ifindex) |
| if version == 4: |
| cls.iproute.DelNeighbour(version, router, macaddr, ifindex) |
| cls.iproute.DelAddress(cls._MyIPv4Address(netid), 24, ifindex) |
| |
| @classmethod |
| def GetSysctl(cls, sysctl): |
| return open(sysctl, "r").read() |
| |
| @classmethod |
| def SetSysctl(cls, sysctl, value): |
| # Only save each sysctl value the first time we set it. This is so we can |
| # set it to arbitrary values multiple times and still write it back |
| # correctly at the end. |
| if sysctl not in cls.saved_sysctls: |
| cls.saved_sysctls[sysctl] = cls.GetSysctl(sysctl) |
| open(sysctl, "w").write(str(value) + "\n") |
| |
| @classmethod |
| def _RestoreSysctls(cls): |
| for sysctl, value in cls.saved_sysctls.iteritems(): |
| try: |
| open(sysctl, "w").write(value) |
| except IOError: |
| pass |
| |
| @classmethod |
| def _ICMPRatelimitFilename(cls, version): |
| return "/proc/sys/net/" + {4: "ipv4/icmp_ratelimit", |
| 6: "ipv6/icmp/ratelimit"}[version] |
| |
| @classmethod |
| def _SetICMPRatelimit(cls, version, limit): |
| cls.SetSysctl(cls._ICMPRatelimitFilename(version), limit) |
| |
| @classmethod |
| def setUpClass(cls): |
| # This is per-class setup instead of per-testcase setup because shelling out |
| # to ip and iptables is slow, and because routing configuration doesn't |
| # change during the test. |
| cls.iproute = iproute.IPRoute() |
| cls.tuns = {} |
| cls.ifindices = {} |
| if HAVE_AUTOCONF_TABLE: |
| cls.SetSysctl(AUTOCONF_TABLE_SYSCTL, -1000) |
| cls.AUTOCONF_TABLE_OFFSET = -1000 |
| else: |
| cls.AUTOCONF_TABLE_OFFSET = None |
| |
| # Disable ICMP rate limits. These will be restored by _RestoreSysctls. |
| for version in [4, 6]: |
| cls._SetICMPRatelimit(version, 0) |
| |
| for netid in cls.NETIDS: |
| cls.tuns[netid] = cls.CreateTunInterface(netid) |
| iface = cls.GetInterfaceName(netid) |
| cls.ifindices[netid] = net_test.GetInterfaceIndex(iface) |
| |
| cls.SendRA(netid) |
| cls._RunSetupCommands(netid, True) |
| |
| for version in [4, 6]: |
| cls.iproute.UnreachableRule(version, True, 1000) |
| |
| # Uncomment to look around at interface and rule configuration while |
| # running in the background. (Once the test finishes running, all the |
| # interfaces and rules are gone.) |
| # time.sleep(30) |
| |
| @classmethod |
| def tearDownClass(cls): |
| for version in [4, 6]: |
| try: |
| cls.iproute.UnreachableRule(version, False, 1000) |
| except IOError: |
| pass |
| |
| for netid in cls.tuns: |
| cls._RunSetupCommands(netid, False) |
| cls.tuns[netid].close() |
| cls._RestoreSysctls() |
| |
| def SetSocketMark(self, s, netid): |
| if netid is None: |
| netid = 0 |
| s.setsockopt(SOL_SOCKET, net_test.SO_MARK, netid) |
| |
| def GetSocketMark(self, s): |
| return s.getsockopt(SOL_SOCKET, net_test.SO_MARK) |
| |
| def ClearSocketMark(self, s): |
| self.SetSocketMark(s, 0) |
| |
| def BindToDevice(self, s, iface): |
| if not iface: |
| iface = "" |
| s.setsockopt(SOL_SOCKET, SO_BINDTODEVICE, iface) |
| |
| def SetUnicastInterface(self, s, ifindex): |
| # Otherwise, Python thinks it's a 1-byte option. |
| ifindex = struct.pack("!I", ifindex) |
| |
| # Always set the IPv4 interface, because it will be used even on IPv6 |
| # sockets if the destination address is a mapped address. |
| s.setsockopt(net_test.SOL_IP, IP_UNICAST_IF, ifindex) |
| if s.family == AF_INET6: |
| s.setsockopt(net_test.SOL_IPV6, IPV6_UNICAST_IF, ifindex) |
| |
| def ReceiveEtherPacketOn(self, netid, packet): |
| posix.write(self.tuns[netid].fileno(), str(packet)) |
| |
| def ReceivePacketOn(self, netid, ip_packet): |
| routermac = self.RouterMacAddress(netid) |
| mymac = self.MyMacAddress(netid) |
| packet = scapy.Ether(src=routermac, dst=mymac) / ip_packet |
| self.ReceiveEtherPacketOn(netid, packet) |
| |
| def ReadAllPacketsOn(self, netid, include_multicast=False): |
| packets = [] |
| while True: |
| try: |
| packet = posix.read(self.tuns[netid].fileno(), 4096) |
| ether = scapy.Ether(packet) |
| # Multicast frames are frames where the first byte of the destination |
| # MAC address has 1 in the least-significant bit. |
| if include_multicast or not int(ether.dst.split(":")[0], 16) & 0x1: |
| packets.append(ether.payload) |
| except OSError, e: |
| # EAGAIN means there are no more packets waiting. |
| if re.match(e.message, os.strerror(errno.EAGAIN)): |
| break |
| # Anything else is unexpected. |
| else: |
| raise e |
| return packets |
| |
| def ClearTunQueues(self): |
| # Keep reading packets on all netids until we get no packets on any of them. |
| waiting = None |
| while waiting != 0: |
| waiting = sum(len(self.ReadAllPacketsOn(netid)) for netid in self.NETIDS) |
| |
| def assertPacketMatches(self, expected, actual): |
| # The expected packet is just a rough sketch of the packet we expect to |
| # receive. For example, it doesn't contain fields we can't predict, such as |
| # initial TCP sequence numbers, or that depend on the host implementation |
| # and settings, such as TCP options. To check whether the packet matches |
| # what we expect, instead of just checking all the known fields one by one, |
| # we blank out fields in the actual packet and then compare the whole |
| # packets to each other as strings. Because we modify the actual packet, |
| # make a copy here. |
| actual = actual.copy() |
| |
| # Blank out IPv4 fields that we can't predict, like ID and the DF bit. |
| actualip = actual.getlayer("IP") |
| expectedip = expected.getlayer("IP") |
| if actualip and expectedip: |
| actualip.id = expectedip.id |
| actualip.flags &= 5 |
| actualip.chksum = None # Change the header, recalculate the checksum. |
| |
| # Blank out UDP fields that we can't predict (e.g., the source port for |
| # kernel-originated packets). |
| actualudp = actual.getlayer("UDP") |
| expectedudp = expected.getlayer("UDP") |
| if actualudp and expectedudp: |
| if expectedudp.sport is None: |
| actualudp.sport = None |
| actualudp.chksum = None |
| |
| # Since the TCP code below messes with options, recalculate the length. |
| if actualip: |
| actualip.len = None |
| actualipv6 = actual.getlayer("IPv6") |
| if actualipv6: |
| actualipv6.plen = None |
| |
| # Blank out TCP fields that we can't predict. |
| actualtcp = actual.getlayer("TCP") |
| expectedtcp = expected.getlayer("TCP") |
| if actualtcp and expectedtcp: |
| actualtcp.dataofs = expectedtcp.dataofs |
| actualtcp.options = expectedtcp.options |
| actualtcp.window = expectedtcp.window |
| if expectedtcp.sport is None: |
| actualtcp.sport = None |
| if expectedtcp.seq is None: |
| actualtcp.seq = None |
| if expectedtcp.ack is None: |
| actualtcp.ack = None |
| actualtcp.chksum = None |
| |
| # Serialize the packet so that expected packet fields that are only set when |
| # a packet is serialized e.g., the checksum) are filled in. |
| expected_real = expected.__class__(str(expected)) |
| actual_real = actual.__class__(str(actual)) |
| # repr() can be expensive. Call it only if the test is going to fail and we |
| # want to see the error. |
| if expected_real != actual_real: |
| self.assertEquals(repr(expected_real), repr(actual_real)) |
| |
| def PacketMatches(self, expected, actual): |
| try: |
| self.assertPacketMatches(expected, actual) |
| return True |
| except AssertionError: |
| return False |
| |
| def ExpectNoPacketsOn(self, netid, msg): |
| packets = self.ReadAllPacketsOn(netid) |
| if packets: |
| firstpacket = repr(packets[0]) |
| else: |
| firstpacket = "" |
| self.assertFalse(packets, msg + ": unexpected packet: " + firstpacket) |
| |
| def ExpectPacketOn(self, netid, msg, expected): |
| # To avoid confusion due to lots of ICMPv6 ND going on all the time, drop |
| # multicast packets unless the packet we expect to see is a multicast |
| # packet. For now the only tests that use this are IPv6. |
| ipv6 = expected.getlayer("IPv6") |
| if ipv6 and ipv6.dst.startswith("ff"): |
| include_multicast = True |
| else: |
| include_multicast = False |
| |
| packets = self.ReadAllPacketsOn(netid, include_multicast=include_multicast) |
| self.assertTrue(packets, msg + ": received no packets") |
| |
| # If we receive a packet that matches what we expected, return it. |
| for packet in packets: |
| if self.PacketMatches(expected, packet): |
| return packet |
| |
| # None of the packets matched. Call assertPacketMatches to output a diff |
| # between the expected packet and the last packet we received. In theory, |
| # we'd output a diff to the packet that's the best match for what we |
| # expected, but this is good enough for now. |
| try: |
| self.assertPacketMatches(expected, packets[-1]) |
| except Exception, e: |
| raise UnexpectedPacketError( |
| "%s: diff with last packet:\n%s" % (msg, e.message)) |
| |
| |
| class MarkTest(MultiNetworkTest): |
| |
| # How many times to run packet reflection tests. |
| ITERATIONS = 5 |
| |
| # For convenience. |
| IPV4_ADDR = net_test.IPV4_ADDR |
| IPV6_ADDR = net_test.IPV6_ADDR |
| IPV4_PING = net_test.IPV4_PING |
| IPV6_PING = net_test.IPV6_PING |
| |
| @classmethod |
| def setUpClass(cls): |
| super(MarkTest, cls).setUpClass() |
| |
| # Open a port so we can observe SYN+ACKs. Since it's a dual-stack socket it |
| # will accept both IPv4 and IPv6 connections. We do this here instead of in |
| # each test so we can use the same socket every time. That way, if a kernel |
| # bug causes incoming packets to mark the listening socket instead of the |
| # accepted socket, the test will fail as soon as the next address/interface |
| # combination is tried. |
| cls.listenport = 1234 |
| cls.listensocket = net_test.IPv6TCPSocket() |
| cls.listensocket.setsockopt(SOL_SOCKET, SO_REUSEADDR, 1) |
| cls.listensocket.bind(("::", cls.listenport)) |
| cls.listensocket.listen(100) |
| |
| @classmethod |
| def _SetMarkReflectSysctls(cls, value): |
| cls.SetSysctl(IPV4_MARK_REFLECT_SYSCTL, value) |
| try: |
| cls.SetSysctl(IPV6_MARK_REFLECT_SYSCTL, value) |
| except IOError: |
| # This does not exist if we use the version of the patch that uses a |
| # common sysctl for IPv4 and IPv6. |
| pass |
| |
| @classmethod |
| def _SetTCPMarkAcceptSysctl(cls, value): |
| cls.SetSysctl(TCP_MARK_ACCEPT_SYSCTL, value) |
| |
| def setUp(self): |
| self.ClearTunQueues() |
| |
| def tearDown(self): |
| # In case there was an exception in one of the tests and we didn't clean up. |
| self.BindToDevice(self.listensocket, None) |
| |
| def _GetRemoteAddress(self, version): |
| return {4: self.IPV4_ADDR, 6: self.IPV6_ADDR}[version] |
| |
| def SelectInterface(self, s, netid, mode): |
| if mode == "uid": |
| raise ValueError("Can't change UID on an existing socket") |
| elif mode == "mark": |
| self.SetSocketMark(s, netid) |
| elif mode == "oif": |
| iface = self.GetInterfaceName(netid) if netid else "" |
| self.BindToDevice(s, iface) |
| elif mode == "ucast_oif": |
| self.SetUnicastInterface(s, self.ifindices.get(netid, 0)) |
| else: |
| raise ValueError("Unkown interface selection mode %s" % mode) |
| |
| def BuildSocket(self, version, constructor, netid, routing_mode): |
| uid = self.UidForNetid(netid) if routing_mode == "uid" else None |
| with RunAsUid(uid): |
| family = self.GetProtocolFamily(version) |
| s = constructor(family) |
| |
| if routing_mode not in [None, "uid"]: |
| self.SelectInterface(s, netid, routing_mode) |
| |
| return s |
| |
| def CheckPingPacket(self, version, netid, routing_mode, dstaddr, packet): |
| s = self.BuildSocket(version, net_test.PingSocket, netid, routing_mode) |
| |
| myaddr = self.MyAddress(version, netid) |
| s.setsockopt(SOL_SOCKET, SO_REUSEADDR, 1) |
| s.bind((myaddr, PING_IDENT)) |
| net_test.SetSocketTos(s, PING_TOS) |
| |
| desc, expected = Packets.ICMPEcho(version, myaddr, dstaddr) |
| msg = "IPv%d ping: expected %s on %s" % ( |
| version, desc, self.GetInterfaceName(netid)) |
| s.sendto(packet + PING_PAYLOAD, (dstaddr, 19321)) |
| self.ExpectPacketOn(netid, msg, expected) |
| |
| def CheckTCPSYNPacket(self, version, netid, routing_mode, dstaddr): |
| s = self.BuildSocket(version, net_test.TCPSocket, netid, routing_mode) |
| |
| if version == 6 and dstaddr.startswith("::ffff"): |
| version = 4 |
| myaddr = self.MyAddress(version, netid) |
| desc, expected = Packets.SYN(53, version, myaddr, dstaddr, |
| sport=None, seq=None) |
| |
| # Non-blocking TCP connects always return EINPROGRESS. |
| self.assertRaisesErrno(errno.EINPROGRESS, s.connect, (dstaddr, 53)) |
| msg = "IPv%s TCP connect: expected %s on %s" % ( |
| version, desc, self.GetInterfaceName(netid)) |
| self.ExpectPacketOn(netid, msg, expected) |
| s.close() |
| |
| def CheckUDPPacket(self, version, netid, routing_mode, dstaddr): |
| s = self.BuildSocket(version, net_test.UDPSocket, netid, routing_mode) |
| |
| if version == 6 and dstaddr.startswith("::ffff"): |
| version = 4 |
| myaddr = self.MyAddress(version, netid) |
| desc, expected = Packets.UDP(version, myaddr, dstaddr, sport=None) |
| msg = "IPv%s UDP %%s: expected %s on %s" % ( |
| version, desc, self.GetInterfaceName(netid)) |
| |
| s.sendto(UDP_PAYLOAD, (dstaddr, 53)) |
| self.ExpectPacketOn(netid, msg % "sendto", expected) |
| |
| # IP_UNICAST_IF doesn't seem to work on connected sockets, so no TCP. |
| if routing_mode != "ucast_oif": |
| s.connect((dstaddr, 53)) |
| s.send(UDP_PAYLOAD) |
| self.ExpectPacketOn(netid, msg % "connect/send", expected) |
| s.close() |
| |
| def CheckRawGrePacket(self, version, netid, routing_mode, dstaddr): |
| s = self.BuildSocket(version, net_test.RawGRESocket, netid, routing_mode) |
| |
| inner_version = {4: 6, 6: 4}[version] |
| inner_src = self.MyAddress(inner_version, netid) |
| inner_dst = self._GetRemoteAddress(inner_version) |
| inner = str(Packets.UDP(inner_version, inner_src, inner_dst, sport=None)[1]) |
| |
| ethertype = {4: net_test.ETH_P_IP, 6: net_test.ETH_P_IPV6}[inner_version] |
| # A GRE header can be as simple as two zero bytes and the ethertype. |
| packet = struct.pack("!i", ethertype) + inner |
| myaddr = self.MyAddress(version, netid) |
| |
| s.sendto(packet, (dstaddr, IPPROTO_GRE)) |
| desc, expected = Packets.GRE(version, myaddr, dstaddr, ethertype, inner) |
| msg = "Raw IPv%d GRE with inner IPv%d UDP: expected %s on %s" % ( |
| version, inner_version, desc, self.GetInterfaceName(netid)) |
| self.ExpectPacketOn(netid, msg, expected) |
| |
| def CheckOutgoingPackets(self, routing_mode): |
| v4addr = self.IPV4_ADDR |
| v6addr = self.IPV6_ADDR |
| v4mapped = "::ffff:" + v4addr |
| |
| for _ in xrange(self.ITERATIONS): |
| for netid in self.tuns: |
| |
| self.CheckPingPacket(4, netid, routing_mode, v4addr, self.IPV4_PING) |
| self.CheckPingPacket(6, netid, routing_mode, v6addr, self.IPV6_PING) |
| |
| # IP_UNICAST_IF doesn't seem to work on connected sockets, so no TCP. |
| if routing_mode != "ucast_oif": |
| self.CheckTCPSYNPacket(4, netid, routing_mode, v4addr) |
| self.CheckTCPSYNPacket(6, netid, routing_mode, v6addr) |
| self.CheckTCPSYNPacket(6, netid, routing_mode, v4mapped) |
| |
| self.CheckUDPPacket(4, netid, routing_mode, v4addr) |
| self.CheckUDPPacket(6, netid, routing_mode, v6addr) |
| self.CheckUDPPacket(6, netid, routing_mode, v4mapped) |
| |
| # Creating raw sockets on non-root UIDs requires properly setting |
| # capabilities, which is hard to do from Python. |
| # IP_UNICAST_IF is not supported on raw sockets. |
| if routing_mode not in ["uid", "ucast_oif"]: |
| self.CheckRawGrePacket(4, netid, routing_mode, v4addr) |
| self.CheckRawGrePacket(6, netid, routing_mode, v6addr) |
| |
| def testMarkRouting(self): |
| """Checks that socket marking selects the right outgoing interface.""" |
| self.CheckOutgoingPackets("mark") |
| |
| @unittest.skipUnless(HAVE_EXPERIMENTAL_UID_ROUTING, "no UID routing") |
| def testUidRouting(self): |
| """Checks that UID routing selects the right outgoing interface.""" |
| self.CheckOutgoingPackets("uid") |
| |
| def testOifRouting(self): |
| """Checks that oif routing selects the right outgoing interface.""" |
| self.CheckOutgoingPackets("oif") |
| |
| def testUcastOifRouting(self): |
| """Checks that ucast oif routing selects the right outgoing interface.""" |
| self.CheckOutgoingPackets("ucast_oif") |
| |
| def CheckRemarking(self, version, use_connect): |
| # Remarking or resetting UNICAST_IF on connected sockets does not work. |
| if use_connect: |
| modes = ["oif"] |
| else: |
| modes = ["mark", "oif", "ucast_oif"] |
| |
| for mode in modes: |
| s = net_test.UDPSocket(self.GetProtocolFamily(version)) |
| |
| # Figure out what packets to expect. |
| unspec = {4: "0.0.0.0", 6: "::"}[version] |
| sport = Packets.RandomPort() |
| s.bind((unspec, sport)) |
| dstaddr = {4: self.IPV4_ADDR, 6: self.IPV6_ADDR}[version] |
| desc, expected = Packets.UDP(version, unspec, dstaddr, sport) |
| |
| # If we're testing connected sockets, connect the socket on the first |
| # netid now. |
| if use_connect: |
| netid = self.tuns.keys()[0] |
| self.SelectInterface(s, netid, mode) |
| s.connect((dstaddr, 53)) |
| expected.src = self.MyAddress(version, netid) |
| |
| # For each netid, select that network without closing the socket, and |
| # check that the packets sent on that socket go out on the right network. |
| for netid in self.tuns: |
| self.SelectInterface(s, netid, mode) |
| if not use_connect: |
| expected.src = self.MyAddress(version, netid) |
| s.sendto(UDP_PAYLOAD, (dstaddr, 53)) |
| connected_str = "Connected" if use_connect else "Unconnected" |
| msg = "%s UDPv%d socket remarked using %s: expecting %s on %s" % ( |
| connected_str, version, mode, desc, self.GetInterfaceName(netid)) |
| self.ExpectPacketOn(netid, msg, expected) |
| self.SelectInterface(s, None, mode) |
| |
| def testIPv4Remarking(self): |
| """Checks that updating the mark on an IPv4 socket changes routing.""" |
| self.CheckRemarking(4, False) |
| self.CheckRemarking(4, True) |
| |
| def testIPv6Remarking(self): |
| """Checks that updating the mark on an IPv6 socket changes routing.""" |
| self.CheckRemarking(6, False) |
| self.CheckRemarking(6, True) |
| |
| def Combinations(self, version): |
| """Produces a list of combinations to test.""" |
| combinations = [] |
| |
| # Check packets addressed to the IP addresses of all our interfaces... |
| for dest_ip_netid in self.tuns: |
| ip_iface = self.GetInterfaceName(dest_ip_netid) |
| myaddr = self.MyAddress(version, dest_ip_netid) |
| remote_addr = self._GetRemoteAddress(version) |
| |
| # ... coming in on all our interfaces. |
| for netid in self.tuns: |
| iif = self.GetInterfaceName(netid) |
| combinations.append((netid, iif, ip_iface, myaddr, remote_addr)) |
| |
| return combinations |
| |
| def _FormatMessage(self, iif, ip_iface, extra, desc, reply_desc): |
| msg = "Receiving %s on %s to %s IP, %s" % (desc, iif, ip_iface, extra) |
| if reply_desc: |
| msg += ": Expecting %s on %s" % (reply_desc, iif) |
| else: |
| msg += ": Expecting no packets on %s" % iif |
| return msg |
| |
| def _ReceiveAndExpectResponse(self, netid, packet, reply, msg): |
| self.ReceivePacketOn(netid, packet) |
| if reply: |
| return self.ExpectPacketOn(netid, msg, reply) |
| else: |
| self.ExpectNoPacketsOn(netid, msg) |
| return None |
| |
| def CheckReflection(self, version, gen_packet, gen_reply): |
| """Checks that replies go out on the same interface as the original. |
| |
| For each combination: |
| - Calls gen_packet to generate a packet to that IP address. |
| - Writes the packet generated by gen_packet on the given tun |
| interface, causing the kernel to receive it. |
| - Checks that the kernel's reply matches the packet generated by |
| gen_reply. |
| |
| Args: |
| version: An integer, 4 or 6. |
| gen_packet: A function taking an IP version (an integer), a source |
| address and a destination address (strings), and returning a scapy |
| packet. |
| gen_reply: A function taking the same arguments as gen_packet, |
| plus a scapy packet, and returning a scapy packet. |
| """ |
| for netid, iif, ip_iface, myaddr, remote_addr in self.Combinations(version): |
| # Generate a test packet. |
| desc, packet = gen_packet(version, remote_addr, myaddr) |
| |
| # Test with mark reflection enabled and disabled. |
| for reflect in [0, 1]: |
| self._SetMarkReflectSysctls(reflect) |
| # HACK: IPv6 ping replies always do a routing lookup with the |
| # interface the ping came in on. So even if mark reflection is not |
| # working, IPv6 ping replies will be properly reflected. Don't |
| # fail when that happens. |
| if reflect or desc == "ICMPv6 echo": |
| reply_desc, reply = gen_reply(version, myaddr, remote_addr, packet) |
| else: |
| reply_desc, reply = None, None |
| |
| msg = self._FormatMessage(iif, ip_iface, "reflect=%d" % reflect, |
| desc, reply_desc) |
| self._ReceiveAndExpectResponse(netid, packet, reply, msg) |
| |
| def SYNToClosedPort(self, *args): |
| return Packets.SYN(999, *args) |
| |
| def SYNToOpenPort(self, *args): |
| return Packets.SYN(self.listenport, *args) |
| |
| @unittest.skipUnless(HAVE_MARK_REFLECT, "no mark reflection") |
| def testIPv4ICMPErrorsReflectMark(self): |
| self.CheckReflection(4, Packets.UDP, Packets.ICMPPortUnreachable) |
| |
| @unittest.skipUnless(HAVE_MARK_REFLECT, "no mark reflection") |
| def testIPv6ICMPErrorsReflectMark(self): |
| self.CheckReflection(6, Packets.UDP, Packets.ICMPPortUnreachable) |
| |
| @unittest.skipUnless(HAVE_MARK_REFLECT, "no mark reflection") |
| def testIPv4PingRepliesReflectMarkAndTos(self): |
| self.CheckReflection(4, Packets.ICMPEcho, Packets.ICMPReply) |
| |
| @unittest.skipUnless(HAVE_MARK_REFLECT, "no mark reflection") |
| def testIPv6PingRepliesReflectMarkAndTos(self): |
| self.CheckReflection(6, Packets.ICMPEcho, Packets.ICMPReply) |
| |
| @unittest.skipUnless(HAVE_MARK_REFLECT, "no mark reflection") |
| def testIPv4RSTsReflectMark(self): |
| self.CheckReflection(4, self.SYNToClosedPort, Packets.RST) |
| |
| @unittest.skipUnless(HAVE_MARK_REFLECT, "no mark reflection") |
| def testIPv6RSTsReflectMark(self): |
| self.CheckReflection(6, self.SYNToClosedPort, Packets.RST) |
| |
| def CheckTCPConnection(self, sysctl_value, netid, version, |
| myaddr, remote_addr, packet, reply, msg): |
| establishing_ack = Packets.ACK(version, remote_addr, myaddr, reply)[1] |
| self.ReceivePacketOn(netid, establishing_ack) |
| s, _ = self.listensocket.accept() |
| try: |
| mark = self.GetSocketMark(s) |
| finally: |
| s.close() |
| if sysctl_value: |
| self.assertEquals(netid, mark, |
| msg + ": Accepted socket: Expected mark %d, got %d" % ( |
| netid, mark)) |
| |
| # Check the FIN was sent on the right interface, and ack it. We don't expect |
| # this to fail because by the time the connection is established things are |
| # likely working, but a) extra tests are always good and b) extra packets |
| # like the FIN (and retransmitted FINs) could cause later tests that expect |
| # no packets to fail. |
| desc, fin = Packets.FIN(version, myaddr, remote_addr, establishing_ack) |
| self.ExpectPacketOn(netid, msg + ": expecting %s after close" % desc, fin) |
| |
| desc, finack = Packets.FIN(version, remote_addr, myaddr, fin) |
| self.ReceivePacketOn(netid, finack) |
| |
| desc, finackack = Packets.ACK(version, myaddr, remote_addr, finack) |
| self.ExpectPacketOn(netid, msg + ": expecting final ack", finackack) |
| |
| def CheckTCP(self, version, gen_packet, gen_reply): |
| """Checks that incoming TCP connections work. |
| |
| Args: |
| version: An integer, 4 or 6. |
| gen_packet: A function taking an IP version (an integer), a source |
| address and a destination address (strings), and returning a scapy |
| packet. |
| gen_reply: A function taking the same arguments as gen_packet, |
| plus a scapy packet, and returning a scapy packet. |
| packet, kernel reply, and a message. |
| """ |
| for netid, iif, ip_iface, myaddr, remote_addr in self.Combinations(version): |
| desc, packet = gen_packet(version, remote_addr, myaddr) |
| |
| for sysctl_value in [0, 1]: |
| self._SetTCPMarkAcceptSysctl(sysctl_value) |
| |
| # If we're testing accepting TCP connections, also check that |
| # SO_BINDTODEVICE correctly sets the interface the SYN+ACK is sent on. |
| # Since SO_BINDTODEVICE and the sysctl do the same thing, it doesn't |
| # really make sense to test with sysctl_value=1 and SO_BINDTODEVICE |
| # turned on at the same time. |
| if not sysctl_value: |
| bind_devices = [None, iif] |
| else: |
| bind_devices = [None] |
| |
| for bound_dev in bind_devices: |
| # The socket is unbound in tearDown. |
| self.BindToDevice(self.listensocket, bound_dev) |
| |
| # Generate the packet here instead of in the outer loop, so |
| # subsequent TCP connections use different source ports and |
| # retransmissions from old connections don't confuse subsequent |
| # tests. |
| desc, packet = gen_packet(version, remote_addr, myaddr) |
| |
| if bound_dev or sysctl_value: |
| reply_desc, reply = gen_reply(version, myaddr, remote_addr, packet) |
| else: |
| reply_desc, reply = None, None |
| |
| extra = "accept=%d, bound_dev=%s" % (sysctl_value, bound_dev) |
| msg = self._FormatMessage(iif, ip_iface, extra, desc, reply_desc) |
| reply = self._ReceiveAndExpectResponse(netid, packet, reply, msg) |
| |
| if reply: |
| self.CheckTCPConnection(sysctl_value, netid, version, |
| myaddr, remote_addr, |
| packet, reply, msg) |
| |
| @unittest.skipUnless(HAVE_TCP_MARK_ACCEPT, "fwmark writeback not supported") |
| def testIPv4TCPConnections(self): |
| self.CheckTCP(4, self.SYNToOpenPort, Packets.SYNACK) |
| |
| @unittest.skipUnless(HAVE_TCP_MARK_ACCEPT, "fwmark writeback not supported") |
| def testIPv6TCPConnections(self): |
| self.CheckTCP(6, self.SYNToOpenPort, Packets.SYNACK) |
| |
| @unittest.skipUnless(HAVE_TCP_MARK_ACCEPT, "fwmark writeback not supported") |
| def testTCPConnectionsWithSynCookies(self): |
| # Force SYN cookies on all connections. |
| self.SetSysctl(SYNCOOKIES_SYSCTL, 2) |
| try: |
| self.CheckTCP(4, self.SYNToOpenPort, Packets.SYNACK) |
| self.CheckTCP(6, self.SYNToOpenPort, Packets.SYNACK) |
| finally: |
| # Stop forcing SYN cookies on all connections. |
| self.SetSysctl(SYNCOOKIES_SYSCTL, 1) |
| |
| |
| class RATest(MultiNetworkTest): |
| |
| def testDoesNotHaveObsoleteSysctl(self): |
| self.assertFalse(os.path.isfile( |
| "/proc/sys/net/ipv6/route/autoconf_table_offset")) |
| |
| @unittest.skipUnless(HAVE_AUTOCONF_TABLE, "no support for per-table autoconf") |
| def testPurgeDefaultRouters(self): |
| |
| def CheckIPv6Connectivity(expect_connectivity): |
| for netid in self.NETIDS: |
| s = net_test.UDPSocket(AF_INET6) |
| self.SetSocketMark(s, netid) |
| if expect_connectivity: |
| self.assertTrue(s.sendto(UDP_PAYLOAD, (net_test.IPV6_ADDR, 1234))) |
| else: |
| self.assertRaisesErrno(errno.ENETUNREACH, s.sendto, UDP_PAYLOAD, |
| (net_test.IPV6_ADDR, 1234)) |
| |
| try: |
| CheckIPv6Connectivity(True) |
| self.SetSysctl("/proc/sys/net/ipv6/conf/all/forwarding", 1) |
| CheckIPv6Connectivity(False) |
| finally: |
| self.SetSysctl("/proc/sys/net/ipv6/conf/all/forwarding", 0) |
| for netid in self.NETIDS: |
| self.SendRA(netid) |
| CheckIPv6Connectivity(True) |
| |
| @unittest.skipUnless(HAVE_AUTOCONF_TABLE, "our manual routing doesn't do PIO") |
| def testOnlinkCommunication(self): |
| """Checks that on-link communication goes direct and not through routers.""" |
| for netid in self.tuns: |
| # Send a UDP packet to a random on-link destination. |
| s = net_test.UDPSocket(AF_INET6) |
| iface = self.GetInterfaceName(netid) |
| self.BindToDevice(s, iface) |
| # dstaddr can never be our address because GetRandomDestination only fills |
| # in the lower 32 bits, but our address has 0xff in the byte before that |
| # (since it's constructed from the EUI-64 and so has ff:fe in the middle). |
| dstaddr = self.GetRandomDestination(self.IPv6Prefix(netid)) |
| s.sendto(UDP_PAYLOAD, (dstaddr, 53)) |
| |
| # Expect an NS for that destination on the interface. |
| myaddr = self.MyAddress(6, netid) |
| mymac = self.MyMacAddress(netid) |
| desc, expected = Packets.NS(myaddr, dstaddr, mymac) |
| msg = "Sending UDP packet to on-link destination: expecting %s" % desc |
| self.ExpectPacketOn(netid, msg, expected) |
| |
| # Send an NA. |
| tgtmac = "02:00:00:00:%02x:99" % netid |
| _, reply = Packets.NA(dstaddr, myaddr, tgtmac) |
| # Don't use ReceivePacketOn, since that uses the router's MAC address as |
| # the source. Instead, construct our own Ethernet header with source |
| # MAC of tgtmac. |
| reply = scapy.Ether(src=tgtmac, dst=mymac) / reply |
| self.ReceiveEtherPacketOn(netid, reply) |
| |
| # Expect the kernel to send the original UDP packet now that the ND cache |
| # entry has been populated. |
| sport = s.getsockname()[1] |
| desc, expected = Packets.UDP(6, myaddr, dstaddr, sport=sport) |
| msg = "After NA response, expecting %s" % desc |
| self.ExpectPacketOn(netid, msg, expected) |
| |
| @unittest.skipUnless(False, "Known bug: routing tables are never deleted") |
| def testNoLeftoverRoutes(self): |
| def GetNumRoutes(): |
| return len(open("/proc/net/ipv6_route").readlines()) |
| |
| num_routes = GetNumRoutes() |
| for i in xrange(10, 20): |
| try: |
| self.tuns[i] = self.CreateTunInterface(i) |
| self.SendRA(i) |
| self.tuns[i].close() |
| finally: |
| del self.tuns[i] |
| self.assertEquals(num_routes, GetNumRoutes()) |
| |
| |
| class PMTUTest(MultiNetworkTest): |
| |
| PAYLOAD_SIZE = 1400 |
| IP_MTU_DISCOVER = 10 |
| IP_MTU = 14 |
| IP_PMTUDISC_DO = 1 |
| IPV6_PATHMTU = 61 |
| IPV6_DONTFRAG = 62 |
| |
| def GetSocketMTU(self, version, s): |
| if version == 6: |
| ip6_mtuinfo = s.getsockopt(net_test.SOL_IPV6, self.IPV6_PATHMTU, 32) |
| mtu = struct.unpack("=28sI", ip6_mtuinfo) |
| return mtu[1] |
| else: |
| return s.getsockopt(net_test.SOL_IP, self.IP_MTU) |
| |
| def CheckPMTU(self, version): |
| for netid in self.tuns: |
| s = net_test.UDPSocket(self.GetProtocolFamily(version)) |
| |
| srcaddr = self.MyAddress(version, netid) |
| dst_prefix, intermediate = { |
| 4: ("172.19.", "172.16.9.12"), |
| 6: ("2001:db8::", "2001:db8::1") |
| }[version] |
| dstaddr = self.GetRandomDestination(dst_prefix) |
| |
| # So the packet has somewhere to go. |
| self.SetSocketMark(s, netid) |
| s.connect((dstaddr, 1234)) |
| self.assertEquals(1500, self.GetSocketMTU(version, s)) |
| |
| s.send(self.PAYLOAD_SIZE * "a") |
| packets = self.ReadAllPacketsOn(netid) |
| self.assertEquals(1, len(packets)) |
| _, toobig = Packets.ICMPPacketTooBig(version, intermediate, srcaddr, |
| packets[0]) |
| self.ReceivePacketOn(netid, toobig) |
| self.assertEquals(1280, self.GetSocketMTU(version, s)) |
| s.close() |
| |
| # Open another socket to ensure the path MTU is cached. |
| s2 = net_test.UDPSocket(self.GetProtocolFamily(version)) |
| self.BindToDevice(s2, self.GetInterfaceName(netid)) |
| s2.connect((dstaddr, 1234)) |
| self.assertEquals(1280, self.GetSocketMTU(version, s2)) |
| |
| def testIPv4PMTU(self): |
| self.CheckPMTU(4) |
| |
| def testIPv6PMTU(self): |
| self.CheckPMTU(6) |
| |
| |
| @unittest.skipUnless(HAVE_EXPERIMENTAL_UID_ROUTING, "no UID routing") |
| class UidRoutingTest(MultiNetworkTest): |
| |
| def setUp(self): |
| self.iproute = iproute.IPRoute() |
| |
| def GetRulesAtPriority(self, version, priority): |
| rules = self.iproute.DumpRules(version) |
| out = [(rule, attributes) for rule, attributes in rules |
| if attributes.get(iproute.FRA_PRIORITY, 0) == priority] |
| return out |
| |
| def CheckInitialTablesHaveNoUIDs(self, version): |
| rules = [] |
| for priority in [0, 32766, 32767]: |
| rules.extend(self.GetRulesAtPriority(version, priority)) |
| for _, attributes in rules: |
| self.assertNotIn(iproute.EXPERIMENTAL_FRA_UID_START, attributes) |
| self.assertNotIn(iproute.EXPERIMENTAL_FRA_UID_END, attributes) |
| |
| def testIPv4InitialTablesHaveNoUIDs(self): |
| self.CheckInitialTablesHaveNoUIDs(4) |
| |
| def testIPv6InitialTablesHaveNoUIDs(self): |
| self.CheckInitialTablesHaveNoUIDs(6) |
| |
| def CheckGetAndSetRules(self, version): |
| def Random(): |
| return random.randint(1000000, 2000000) |
| |
| start, end = tuple(sorted([Random(), Random()])) |
| table = Random() |
| priority = Random() |
| |
| try: |
| self.iproute.UidRangeRule(version, True, start, end, table, |
| priority=priority) |
| |
| rules = self.GetRulesAtPriority(version, priority) |
| self.assertTrue(rules) |
| _, attributes = rules[-1] |
| self.assertEquals(priority, attributes[iproute.FRA_PRIORITY]) |
| self.assertEquals(start, attributes[iproute.EXPERIMENTAL_FRA_UID_START]) |
| self.assertEquals(end, attributes[iproute.EXPERIMENTAL_FRA_UID_END]) |
| self.assertEquals(table, attributes[iproute.FRA_TABLE]) |
| finally: |
| self.iproute.UidRangeRule(version, False, start, end, table, |
| priority=priority) |
| |
| def testIPv4GetAndSetRules(self): |
| self.CheckGetAndSetRules(4) |
| |
| def testIPv6GetAndSetRules(self): |
| self.CheckGetAndSetRules(6) |
| |
| def ExpectNoRoute(self, addr, oif, mark, uid): |
| # The lack of a route may be either an error, or an unreachable route. |
| try: |
| routes = self.iproute.GetRoutes(addr, oif, mark, uid) |
| rtmsg, _ = routes[0] |
| self.assertEquals(iproute.RTN_UNREACHABLE, rtmsg.type) |
| except IOError, e: |
| if int(e.errno) != -int(errno.ENETUNREACH): |
| raise e |
| |
| def ExpectRoute(self, addr, oif, mark, uid): |
| routes = self.iproute.GetRoutes(addr, oif, mark, uid) |
| rtmsg, _ = routes[0] |
| self.assertEquals(iproute.RTN_UNICAST, rtmsg.type) |
| |
| def CheckGetRoute(self, version, addr): |
| self.ExpectNoRoute(addr, 0, 0, 0) |
| for netid in self.NETIDS: |
| uid = self.UidForNetid(netid) |
| self.ExpectRoute(addr, 0, 0, uid) |
| self.ExpectNoRoute(addr, 0, 0, 0) |
| |
| def testIPv4RouteGet(self): |
| self.CheckGetRoute(4, net_test.IPV4_ADDR) |
| |
| def testIPv6RouteGet(self): |
| self.CheckGetRoute(6, net_test.IPV6_ADDR) |
| |
| |
| if __name__ == "__main__": |
| unittest.main() |