| #!/usr/bin/env python |
| # |
| # Copyright 2016 the original author or authors. |
| # |
| # 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. |
| # |
| |
| """ |
| Run this test inside a docker container using the following syntax: |
| |
| docker run -ti --rm -v $(pwd):/voltha --privileged cord/voltha-base \ |
| env PYTHONPATH=/voltha python \ |
| /voltha/tests/itests/run_as_root/test_frameio.py |
| |
| """ |
| |
| import os |
| import random |
| from time import sleep |
| |
| from scapy.layers.inet import IP |
| from scapy.layers.l2 import Ether, Dot1Q |
| from twisted.internet import reactor |
| from twisted.internet.defer import Deferred, inlineCallbacks, DeferredQueue |
| from twisted.internet.error import AlreadyCalled |
| from twisted.trial.unittest import TestCase |
| |
| from common.frameio.frameio import FrameIOManager, BpfProgramFilter, \ |
| FrameIOPortProxy, FrameIOPort |
| from common.utils.asleep import asleep |
| from common.utils.deferred_utils import DeferredWithTimeout, TimeOutError |
| |
| ident = lambda frame: frame |
| none = lambda *args, **kw: None |
| |
| |
| class TestFrameIO(TestCase): |
| @inlineCallbacks |
| def make_veth_pairs_if_needed(self): |
| |
| def has_iface(iface): |
| return os.system('ip link show {}'.format(iface)) == 0 |
| |
| def make_veth(iface): |
| os.system('ip link add type veth') |
| os.system('ip link set {} up'.format(iface)) |
| peer = iface[:len('veth')] + str(int(iface[len('veth'):]) + 1) |
| os.system('ip link set {} up'.format(peer)) |
| assert has_iface(iface) |
| |
| for iface_number in (0, 2): |
| iface = 'veth{}'.format(iface_number) |
| if not has_iface(iface): |
| make_veth(iface) |
| yield asleep(2) |
| |
| @inlineCallbacks |
| def setUp(self): |
| yield self.make_veth_pairs_if_needed() |
| self.mgr = FrameIOManager().start() |
| |
| def tearDown(self): |
| self.mgr.stop() |
| |
| @inlineCallbacks |
| def test_packet_send_receive(self): |
| rcvd = DeferredWithTimeout() |
| p0 = self.mgr.open_port('veth0', none).up() |
| p1 = self.mgr.open_port('veth1', |
| lambda p, f: rcvd.callback((p, f))).up() |
| |
| # sending to veth0 should result in receiving on veth1 and vice versa |
| bogus_frame = 'bogus packet' |
| bogus_frame_padded = bogus_frame + '\x00' * ( |
| FrameIOPort.MIN_PKT_SIZE - len(bogus_frame)) |
| p0.send(bogus_frame_padded) |
| |
| # check that we receved packet |
| port, frame = yield rcvd |
| self.assertEqual(port, p1) |
| self.assertEqual(frame, bogus_frame_padded) |
| |
| @inlineCallbacks |
| def test_packet_send_receive_with_filter(self): |
| rcvd = DeferredWithTimeout() |
| |
| filter = BpfProgramFilter('ip dst host 123.123.123.123') |
| p0 = self.mgr.open_port('veth0', none).up() |
| p1 = self.mgr.open_port('veth1', |
| lambda p, f: rcvd.callback((p, f)), |
| filter=filter).up() |
| |
| # sending bogus packet would not be received |
| ip_packet = str(Ether() / IP(dst='123.123.123.123')) |
| p0.send(ip_packet) |
| |
| # check that we receved packet |
| port, frame = yield rcvd |
| self.assertEqual(port, p1) |
| self.assertEqual(frame, ip_packet) |
| |
| @inlineCallbacks |
| def test_packet_send_drop_with_filter(self): |
| rcvd = DeferredWithTimeout() |
| |
| filter = BpfProgramFilter('ip dst host 123.123.123.123') |
| p0 = self.mgr.open_port('veth0', none).up() |
| self.mgr.open_port('veth1', lambda p, f: rcvd.callback((p, f)), |
| filter=filter).up() |
| |
| # sending bogus packet would not be received |
| p0.send('bogus packet') |
| |
| try: |
| _ = yield rcvd |
| except TimeOutError: |
| pass |
| else: |
| self.fail('not timed out') |
| |
| @inlineCallbacks |
| def test_concurrent_packet_send_receive(self): |
| |
| done = Deferred() |
| queue1 = [] |
| queue2 = [] |
| |
| n = 100 |
| |
| def append(queue): |
| def _append(_, frame): |
| queue.append(frame) |
| if len(queue1) == n and len(queue2) == n: |
| done.callback(None) |
| |
| return _append |
| |
| p1in = self.mgr.open_port('veth0', none).up() |
| self.mgr.open_port('veth1', append(queue1)).up() |
| p2in = self.mgr.open_port('veth2', none).up() |
| self.mgr.open_port('veth3', append(queue2)).up() |
| |
| @inlineCallbacks |
| def send_packets(port, n): |
| for i in xrange(n): |
| port.send(str(i)) |
| yield asleep(0.00001 * random.random()) # to interleave |
| |
| # sending two concurrent streams |
| send_packets(p1in, n) |
| send_packets(p2in, n) |
| |
| # verify that both queue got all packets |
| yield done |
| |
| @inlineCallbacks |
| def test_concurrent_packet_send_receive_with_filter(self): |
| |
| done = Deferred() |
| queue1 = [] |
| queue2 = [] |
| |
| n = 100 |
| |
| def append(queue): |
| def _append(_, frame): |
| queue.append(frame) |
| if len(queue1) == n / 2 and len(queue2) == n / 2: |
| done.callback(None) |
| |
| return _append |
| |
| filter = BpfProgramFilter('vlan 100') |
| p1in = self.mgr.open_port('veth0', none).up() |
| self.mgr.open_port('veth1', append(queue1), filter).up() |
| p2in = self.mgr.open_port('veth2', none).up() |
| self.mgr.open_port('veth3', append(queue2), filter).up() |
| |
| @inlineCallbacks |
| def send_packets(port, n): |
| for i in xrange(n): |
| # packets have alternating VLAN ids 100 and 101 |
| pkt = Ether() / Dot1Q(vlan=100 + i % 2) |
| port.send(str(pkt)) |
| yield asleep(0.00001 * random.random()) # to interleave |
| |
| # sending two concurrent streams |
| send_packets(p1in, n) |
| send_packets(p2in, n) |
| |
| # verify that both queue got all packets |
| yield done |
| |
| @inlineCallbacks |
| def test_shared_interface(self): |
| |
| queue1 = DeferredQueue() |
| queue2 = DeferredQueue() |
| |
| # two senders hooked up to the same interface (sharing it) |
| # here we test if they can both send |
| pin1 = self.mgr.open_port('veth0', none).up() |
| pin2 = self.mgr.open_port('veth0', none).up() |
| |
| pout1 = self.mgr.open_port( |
| 'veth1', lambda p, f: queue1.put((p, f))).up() |
| filter = BpfProgramFilter('ip dst host 123.123.123.123') |
| pout2 = self.mgr.open_port( |
| 'veth1', lambda p, f: queue2.put((p, f)), filter=filter).up() |
| |
| # sending from pin1, should be received by pout1 |
| bogus_frame = 'bogus packet' |
| bogus_frame_padded = bogus_frame + '\x00' * ( |
| FrameIOPort.MIN_PKT_SIZE - len(bogus_frame)) |
| pin1.send(bogus_frame_padded) |
| port, frame = yield queue1.get() |
| self.assertEqual(port, pout1) |
| self.assertEqual(frame, bogus_frame_padded) |
| self.assertEqual(len(queue1.pending), 0) |
| self.assertEqual(len(queue2.pending), 0) |
| |
| # sending from pin2, should be received by pout1 |
| pin2.send(bogus_frame_padded) |
| port, frame = yield queue1.get() |
| self.assertEqual(port, pout1) |
| self.assertEqual(frame, bogus_frame_padded) |
| self.assertEqual(len(queue1.pending), 0) |
| self.assertEqual(len(queue2.pending), 0) |
| |
| # sending from pin1, should be received by both pouts |
| ip_packet = str(Ether() / IP(dst='123.123.123.123')) |
| pin1.send(ip_packet) |
| port, frame = yield queue1.get() |
| self.assertEqual(port, pout1) |
| self.assertEqual(frame, ip_packet) |
| self.assertEqual(len(queue1.pending), 0) |
| port, frame = yield queue2.get() |
| self.assertEqual(port, pout2) |
| self.assertEqual(frame, ip_packet) |
| self.assertEqual(len(queue2.pending), 0) |
| |
| # sending from pin2, should be received by pout1 |
| ip_packet = str(Ether() / IP(dst='123.123.123.123')) |
| pin2.send(ip_packet) |
| port, frame = yield queue1.get() |
| self.assertEqual(port, pout1) |
| self.assertEqual(frame, ip_packet) |
| self.assertEqual(len(queue1.pending), 0) |
| port, frame = yield queue2.get() |
| self.assertEqual(port, pout2) |
| self.assertEqual(frame, ip_packet) |
| self.assertEqual(len(queue2.pending), 0) |
| |
| self.mgr.close_port(pin1) |
| self.mgr.close_port(pin2) |
| self.mgr.close_port(pout1) |
| self.mgr.close_port(pout2) |
| |
| |
| if __name__ == '__main__': |
| import unittest |
| |
| unittest.main() |