net/test/tun_twister.py - kernel/tests - Git at Google

 # Copyright 2017 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.
 """A utility for "twisting" packets on a tun/tap interface.

 TunTwister and TapTwister echo packets on a tun/tap while swapping the source
 and destination at the ethernet and IP layers. This allows sockets to
 effectively loop back packets through the full networking stack, avoiding any
 shortcuts the kernel may take for actual IP loopback. Additionally, users can
 inspect each packet to assert testing invariants.
 """

 import os
 import select
 import threading
 from scapy import all as scapy


 class TunTwister(object):
   """TunTwister transports traffic travelling twixt two terminals.

   TunTwister is a context manager that will read packets from a tun file
   descriptor, swap the source and dest of the IP header, and write them back.
   To use this class, tests also need to set up routing so that packets will be
   routed to the tun interface.

   Two sockets can communicate with each other through a TunTwister as if they
   were each connecting to a remote endpoint. Both sockets will have the
   perspective that the address of the other is a remote address.

   Packet inspection can be done with a validator function. This can be any
   function that takes a scapy packet object as its only argument. Exceptions
   raised by your validator function will be re-raised on the main thread to fail
   your tests.

   NOTE: Exceptions raised by a validator function will supercede exceptions
   raised in the context.

   EXAMPLE:
     def testFeatureFoo(self):
       my_tun = MakeTunInterface()
       # Set up routing so packets go to my_tun.

       def ValidatePortNumber(packet):
         self.assertEquals(8080, packet.getlayer(scapy.UDP).sport)
         self.assertEquals(8080, packet.getlayer(scapy.UDP).dport)

       with TunTwister(tun_fd=my_tun, validator=ValidatePortNumber):
         sock = socket(AF_INET, SOCK_DGRAM, 0)
         sock.bind(("0.0.0.0", 8080))
         sock.settimeout(1.0)
         sock.sendto("hello", ("1.2.3.4", 8080))
         data, addr = sock.recvfrom(1024)
         self.assertEquals("hello", data)
         self.assertEquals(("1.2.3.4", 8080), addr)
   """

   # Hopefully larger than any packet.
   _READ_BUF_SIZE = 2048
   _POLL_TIMEOUT_SEC = 2.0
   _POLL_FAST_TIMEOUT_MS = 100

   def __init__(self, fd=None, validator=None):
     """Construct a TunTwister.

     The TunTwister will listen on the given TUN fd.
     The validator is called for each packet *before* twisting. The packet is
     passed in as a scapy packet object, and is the only argument passed to the
     validator.

     Args:
       fd: File descriptor of a TUN interface.
       validator: Function taking one scapy packet object argument.
     """
     self._fd = fd
     # Use a pipe to signal the thread to exit.
     self._signal_read, self._signal_write = os.pipe()
     self._thread = threading.Thread(target=self._RunLoop, name="TunTwister")
     self._validator = validator
     self._error = None

   def __enter__(self):
     self._thread.start()

   def __exit__(self, *args):
     # Signal thread exit.
     os.write(self._signal_write, "bye")
     os.close(self._signal_write)
     self._thread.join(TunTwister._POLL_TIMEOUT_SEC)
     os.close(self._signal_read)
     if self._thread.isAlive():
       raise RuntimeError("Timed out waiting for thread exit")
     # Re-raise any error thrown from our thread.
     if isinstance(self._error, Exception):
       raise self._error  # pylint: disable=raising-bad-type

   def _RunLoop(self):
     """Twist packets until exit signal."""
     try:
       while True:
         read_fds, _, _ = select.select([self._fd, self._signal_read], [], [],
                                        TunTwister._POLL_TIMEOUT_SEC)
         if self._signal_read in read_fds:
           self._Flush()
           return
         if self._fd in read_fds:
           self._ProcessPacket()
     except Exception as e:  # pylint: disable=broad-except
       self._error = e

   def _Flush(self):
     """Ensure no packets are left in the buffer."""
     p = select.poll()
     p.register(self._fd, select.POLLIN)
     while p.poll(TunTwister._POLL_FAST_TIMEOUT_MS):
       self._ProcessPacket()

   def _ProcessPacket(self):
     """Read, twist, and write one packet on the tun/tap."""
     # TODO: Handle EAGAIN "errors".
     bytes_in = os.read(self._fd, TunTwister._READ_BUF_SIZE)
     packet = self.DecodePacket(bytes_in)
     # the user may wish to filter certain packets, such as
     # Ethernet multicast packets
     if self._DropPacket(packet):
       return

     if self._validator:
       self._validator(packet)
     packet = self.TwistPacket(packet)
     os.write(self._fd, packet.build())

   def _DropPacket(self, packet):
     """Determine whether to drop the provided packet by inspection"""
     return False

   @classmethod
   def DecodePacket(cls, bytes_in):
     """Decode a byte array into a scapy object."""
     return cls._DecodeIpPacket(bytes_in)

   @classmethod
   def TwistPacket(cls, packet):
     """Swap the src and dst in the IP header."""
     ip_type = type(packet)
     if ip_type not in (scapy.IP, scapy.IPv6):
       raise TypeError("Expected an IPv4 or IPv6 packet.")
     packet.src, packet.dst = packet.dst, packet.src
     packet = ip_type(packet.build())  # Fix the IP checksum.
     return packet

   @staticmethod
   def _DecodeIpPacket(packet_bytes):
     """Decode 'packet_bytes' as an IPv4 or IPv6 scapy object."""
     ip_ver = (ord(packet_bytes[0]) & 0xF0) >> 4
     if ip_ver == 4:
       return scapy.IP(packet_bytes)
     elif ip_ver == 6:
       return scapy.IPv6(packet_bytes)
     else:
       raise ValueError("packet_bytes is not a valid IPv4 or IPv6 packet")


 class TapTwister(TunTwister):
   """Test util for tap interfaces.

   TapTwister works just like TunTwister, except it operates on tap interfaces
   instead of tuns. Ethernet headers will have their sources and destinations
   swapped in addition to IP headers.
   """

   @staticmethod
   def _IsMulticastPacket(eth_pkt):
     return int(eth_pkt.dst.split(":")[0], 16) & 0x1

   def __init__(self, fd=None, validator=None, drop_multicast=True):
     """Construct a TapTwister.

     TapTwister works just like TunTwister, but handles both ethernet and IP
     headers.

     Args:
       fd: File descriptor of a TAP interface.
       validator: Function taking one scapy packet object argument.
       drop_multicast: Drop Ethernet multicast packets
     """
     super(TapTwister, self).__init__(fd=fd, validator=validator)
     self._drop_multicast = drop_multicast

   def _DropPacket(self, packet):
     return self._drop_multicast and self._IsMulticastPacket(packet)

   @classmethod
   def DecodePacket(cls, bytes_in):
     return scapy.Ether(bytes_in)

   @classmethod
   def TwistPacket(cls, packet):
     """Swap the src and dst in the ethernet and IP headers."""
     packet.src, packet.dst = packet.dst, packet.src
     ip_layer = packet.payload
     twisted_ip_layer = super(TapTwister, cls).TwistPacket(ip_layer)
     packet.payload = twisted_ip_layer
     return packet
	# Copyright 2017 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.
	"""A utility for "twisting" packets on a tun/tap interface.

	TunTwister and TapTwister echo packets on a tun/tap while swapping the source
	and destination at the ethernet and IP layers. This allows sockets to
	effectively loop back packets through the full networking stack, avoiding any
	shortcuts the kernel may take for actual IP loopback. Additionally, users can
	inspect each packet to assert testing invariants.
	"""

	import os
	import select
	import threading
	from scapy import all as scapy


	class TunTwister(object):
	"""TunTwister transports traffic travelling twixt two terminals.

	TunTwister is a context manager that will read packets from a tun file
	descriptor, swap the source and dest of the IP header, and write them back.
	To use this class, tests also need to set up routing so that packets will be
	routed to the tun interface.

	Two sockets can communicate with each other through a TunTwister as if they
	were each connecting to a remote endpoint. Both sockets will have the
	perspective that the address of the other is a remote address.

	Packet inspection can be done with a validator function. This can be any
	function that takes a scapy packet object as its only argument. Exceptions
	raised by your validator function will be re-raised on the main thread to fail
	your tests.

	NOTE: Exceptions raised by a validator function will supercede exceptions
	raised in the context.

	EXAMPLE:
	def testFeatureFoo(self):
	my_tun = MakeTunInterface()
	# Set up routing so packets go to my_tun.

	def ValidatePortNumber(packet):
	self.assertEquals(8080, packet.getlayer(scapy.UDP).sport)
	self.assertEquals(8080, packet.getlayer(scapy.UDP).dport)

	with TunTwister(tun_fd=my_tun, validator=ValidatePortNumber):
	sock = socket(AF_INET, SOCK_DGRAM, 0)
	sock.bind(("0.0.0.0", 8080))
	sock.settimeout(1.0)
	sock.sendto("hello", ("1.2.3.4", 8080))
	data, addr = sock.recvfrom(1024)
	self.assertEquals("hello", data)
	self.assertEquals(("1.2.3.4", 8080), addr)
	"""

	# Hopefully larger than any packet.
	_READ_BUF_SIZE = 2048
	_POLL_TIMEOUT_SEC = 2.0
	_POLL_FAST_TIMEOUT_MS = 100

	def __init__(self, fd=None, validator=None):
	"""Construct a TunTwister.

	The TunTwister will listen on the given TUN fd.
	The validator is called for each packet before twisting. The packet is
	passed in as a scapy packet object, and is the only argument passed to the
	validator.

	Args:
	fd: File descriptor of a TUN interface.
	validator: Function taking one scapy packet object argument.
	"""
	self._fd = fd
	# Use a pipe to signal the thread to exit.
	self._signal_read, self._signal_write = os.pipe()
	self._thread = threading.Thread(target=self._RunLoop, name="TunTwister")
	self._validator = validator
	self._error = None

	def __enter__(self):
	self._thread.start()

	def __exit__(self, *args):
	# Signal thread exit.
	os.write(self._signal_write, "bye")
	os.close(self._signal_write)
	self._thread.join(TunTwister._POLL_TIMEOUT_SEC)
	os.close(self._signal_read)
	if self._thread.isAlive():
	raise RuntimeError("Timed out waiting for thread exit")
	# Re-raise any error thrown from our thread.
	if isinstance(self._error, Exception):
	raise self._error # pylint: disable=raising-bad-type

	def _RunLoop(self):
	"""Twist packets until exit signal."""
	try:
	while True:
	read_fds, _, _ = select.select([self._fd, self._signal_read], [], [],
	TunTwister._POLL_TIMEOUT_SEC)
	if self._signal_read in read_fds:
	self._Flush()
	return
	if self._fd in read_fds:
	self._ProcessPacket()
	except Exception as e: # pylint: disable=broad-except
	self._error = e

	def _Flush(self):
	"""Ensure no packets are left in the buffer."""
	p = select.poll()
	p.register(self._fd, select.POLLIN)
	while p.poll(TunTwister._POLL_FAST_TIMEOUT_MS):
	self._ProcessPacket()

	def _ProcessPacket(self):
	"""Read, twist, and write one packet on the tun/tap."""
	# TODO: Handle EAGAIN "errors".
	bytes_in = os.read(self._fd, TunTwister._READ_BUF_SIZE)
	packet = self.DecodePacket(bytes_in)
	# the user may wish to filter certain packets, such as
	# Ethernet multicast packets
	if self._DropPacket(packet):
	return

	if self._validator:
	self._validator(packet)
	packet = self.TwistPacket(packet)
	os.write(self._fd, packet.build())

	def _DropPacket(self, packet):
	"""Determine whether to drop the provided packet by inspection"""
	return False

	@classmethod
	def DecodePacket(cls, bytes_in):
	"""Decode a byte array into a scapy object."""
	return cls._DecodeIpPacket(bytes_in)

	@classmethod
	def TwistPacket(cls, packet):
	"""Swap the src and dst in the IP header."""
	ip_type = type(packet)
	if ip_type not in (scapy.IP, scapy.IPv6):
	raise TypeError("Expected an IPv4 or IPv6 packet.")
	packet.src, packet.dst = packet.dst, packet.src
	packet = ip_type(packet.build()) # Fix the IP checksum.
	return packet

	@staticmethod
	def _DecodeIpPacket(packet_bytes):
	"""Decode 'packet_bytes' as an IPv4 or IPv6 scapy object."""
	ip_ver = (ord(packet_bytes[0]) & 0xF0) >> 4
	if ip_ver == 4:
	return scapy.IP(packet_bytes)
	elif ip_ver == 6:
	return scapy.IPv6(packet_bytes)
	else:
	raise ValueError("packet_bytes is not a valid IPv4 or IPv6 packet")


	class TapTwister(TunTwister):
	"""Test util for tap interfaces.

	TapTwister works just like TunTwister, except it operates on tap interfaces
	instead of tuns. Ethernet headers will have their sources and destinations
	swapped in addition to IP headers.
	"""

	@staticmethod
	def _IsMulticastPacket(eth_pkt):
	return int(eth_pkt.dst.split(":")[0], 16) & 0x1

	def __init__(self, fd=None, validator=None, drop_multicast=True):
	"""Construct a TapTwister.

	TapTwister works just like TunTwister, but handles both ethernet and IP
	headers.

	Args:
	fd: File descriptor of a TAP interface.
	validator: Function taking one scapy packet object argument.
	drop_multicast: Drop Ethernet multicast packets
	"""
	super(TapTwister, self).__init__(fd=fd, validator=validator)
	self._drop_multicast = drop_multicast

	def _DropPacket(self, packet):
	return self._drop_multicast and self._IsMulticastPacket(packet)

	@classmethod
	def DecodePacket(cls, bytes_in):
	return scapy.Ether(bytes_in)

	@classmethod
	def TwistPacket(cls, packet):
	"""Swap the src and dst in the ethernet and IP headers."""
	packet.src, packet.dst = packet.dst, packet.src
	ip_layer = packet.payload
	twisted_ip_layer = super(TapTwister, cls).TwistPacket(ip_layer)
	packet.payload = twisted_ip_layer
	return packet