Ejemplo n.º 1
0
 def test_iperf_upper_limit(self, requires_tc):
     # Upper limit is not an accurate measure. This is because it converges
     # over time and depends on current machine hardware (CPU).
     # Hence, it is hard to make hard assertions on it. The test should run
     # at least 60 seconds (the longer the better) and the user should
     # inspect the computed average rate and optionally the additional
     # traffic data that was collected in client.out in order to be
     # convinced QOS is working properly.
     limit_kbps = 1000  # 1 Mbps (in kbps)
     server_ip = '192.0.2.1'
     client_ip = '192.0.2.10'
     qos_out = {'ul': {'m2': limit_kbps}, 'ls': {'m2': limit_kbps}}
     # using a network namespace is essential since otherwise the kernel
     # short-circuits the traffic and bypasses the veth devices and the
     # classfull qdisc.
     with network_namespace(
             'server_ns') as ns, bridge_device() as bridge, veth_pair() as (
                 server_peer,
                 server_dev,
             ), veth_pair() as (
                 client_dev,
                 client_peer,
             ):
         # iperf server and its veth peer lie in a separate network
         # namespace
         link_set_netns(server_dev, ns)
         bridge.add_port(server_peer)
         bridge.add_port(client_peer)
         netns_exec(ns, ['ip', 'link', 'set', 'dev', server_dev, 'up'])
         Interface.from_existing_dev_name(client_dev).add_ip(
             client_ip, 24, IpFamily.IPv4)
         netns_exec(
             ns,
             [
                 'ip',
                 '-4',
                 'addr',
                 'add',
                 'dev',
                 server_dev,
                 '%s/24' % server_ip,
             ],
         )
         qos.configure_outbound(qos_out, client_peer, None)
         with running(IperfServer(server_ip, network_ns=ns)):
             client = IperfClient(server_ip, client_ip, test_time=60)
             client.start()
             max_rate = max([
                 float(interval['streams'][0]['bits_per_second']) // (2**10)
                 for interval in client.out['intervals']
             ])
             assert 0 < max_rate < limit_kbps * 1.5
Ejemplo n.º 2
0
def _bridge_device():
    with nettestlib.bridge_device() as bridge:
        yield bridge.devName
Ejemplo n.º 3
0
def _bridge_device():
    with nettestlib.bridge_device() as bridge:
        yield bridge.devName
Ejemplo n.º 4
0
def bridge0():
    with bridge_device() as br:
        yield br
Ejemplo n.º 5
0
def _bridge_device():
    with bridge_device() as bridge:
        yield bridge
Ejemplo n.º 6
0
def bridge_dev():
    with bridge_device() as dev:
        yield dev
Ejemplo n.º 7
0
 def test_detect_device_driver(self):
     with bridge_device() as br:
         self.assertEqual('bridge', ethtool.driver_name(br.devName))