本文整理汇总了Python中mdts.tests.utils.asserts.async_assert_that函数的典型用法代码示例。如果您正苦于以下问题:Python async_assert_that函数的具体用法?Python async_assert_that怎么用?Python async_assert_that使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了async_assert_that函数的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: test_filter_ipv6
def test_filter_ipv6():
"""
Title: Filter IPv6 packets out on Bridge
Scenario 1:
When: there is no filter settings
Then: IPv6 packets go through the bridge
Scenario 2:
When: the bridge has a chain in which there is a drop rule for IPv6
Then: IPv6 packets should not go through the bridge
Scenario 3:
When: the chain is removed from the bridge
Then: IPv6 packets should go through again.
"""
iface1 = BM.get_iface_for_port('bridge-000-001', 1)
iface2 = BM.get_iface_for_port('bridge-000-001', 2)
iface1_hw_addr = iface1.interface['hw_addr']
iface2_hw_addr = iface2.interface['hw_addr']
ipv6_proto = "86:dd"
ipv6_icmp = ("60:00:00:00:00:20:3a:ff:fe:80:00:00:00:00:00:00:1a:03:73:ff:"
"fe:29:a9:b1:ff:02:00:00:00:00:00:00:00:00:00:01:ff:29:a9:b2:"
"87:00:32:26:00:00:00:00:fe:80:00:00:00:00:00:00:1a:03:73:ff:"
"fe:29:a9:b2:01:01:18:03:73:29:a9:b1")
packet = '%s-%s-%s-%s' % (iface2_hw_addr, iface1_hw_addr, ipv6_proto,
ipv6_icmp)
rcv_filter = 'ether dst %s' % iface2_hw_addr
# Sceneario 1:
f1 = async_assert_that(iface2, receives(rcv_filter, within_sec(10)))
# async_assert_that expects only 1 packet. Send only one, because the next
# tcpdump might capture it (and fail the test) in case it takes some time
# to arrive.
# FIXME: make the tcpdump listener configurable
f2 = iface1.send_ether(packet, count=1)
wait_on_futures([f1, f2])
# Scenario 2:
# setting chain and make sure it's dropped
chain = VTM.get_chain('drop_ipv6')
VTM.get_bridge('bridge-000-001').set_inbound_filter(chain)
f1 = async_assert_that(iface2,
should_NOT_receive(
rcv_filter, within_sec(10)))
f2 = iface1.send_ether(packet, count=1)
wait_on_futures([f1, f2])
# Remove the filter and verify that packets go through again.
VTM.get_bridge('bridge-000-001').set_inbound_filter(None)
time.sleep(1)
f1 = async_assert_that(iface2, receives(rcv_filter, within_sec(10)))
f2 = iface1.send_ether(packet, count=1)
wait_on_futures([f1, f2])示例2: test_connection_tracking_with_drop_by_dl
def test_connection_tracking_with_drop_by_dl():
"""
Title: Tests dl-based connection tracking.
Scenario:
When: A VM inside a FW sends UDP packets to a VM outside.
And: The outside receives the UDP packets.
Then: A connection-tracking-based peep hole is established.
And: The outside now can send UDP packets to the inside.
"""
outside = BM.get_iface_for_port("bridge-000-001", 2)
inside = BM.get_iface_for_port("bridge-000-001", 3)
# Set a filtering rule based on mac addresses
set_bridge_port_filters("bridge-000-001", 3, "connection_tracking_dl_in", "connection_tracking_dl_out")
# Send forward packets to set up a connection-tracking based peep hole in
# the filter.
port_num = get_random_port_num()
f1 = async_assert_that(
outside,
receives("dst host 172.16.1.1 and udp", within_sec(5)),
"The outside host receives forward packets " "from the inside.",
)
f2 = inside.send_udp("aa:bb:cc:00:01:01", "172.16.1.1", 41, src_port=port_num, dst_port=port_num)
wait_on_futures([f1, f2])
# Verify the peep hole.
f1 = async_assert_that(
inside,
receives("dst host 172.16.1.2 and udp", within_sec(5)),
"The outside host can now send packets to the inside" "via a peep hole.",
)
f2 = outside.send_udp("aa:bb:cc:00:01:02", "172.16.1.2", 41, src_port=port_num, dst_port=port_num)
wait_on_futures([f1, f2])示例3: test_snat
def test_snat():
"""
Title: Tests SNAT on ping messages.
Scenario:
When: a VM sends ICMP echo request with ping command to a different subnet,
Then: the router performs SNAT on the message according to the rule chain
set to the router,
And: the receiver VM should receive the ICMP echo packet, with src address
NATted,
And: the ping command succeeds.
"""
sender = BM.get_iface_for_port('bridge-000-001', 2)
receiver = BM.get_iface_for_port('bridge-000-002', 2)
# Reset in-/out-bound filters.
unset_filters('router-000-001')
feed_receiver_mac(receiver)
# No SNAT configured. Should not receive SNATed messages.
f2 = async_assert_that(receiver, should_NOT_receive('src host 172.16.1.100 and icmp',
within_sec(5)))
f1 = sender.ping4(receiver)
wait_on_futures([f1, f2])
# Set SNAT rule chains to the router
set_filters('router-000-001', 'pre_filter_002', 'post_filter_002')
# The receiver should receive SNATed messages.
f2 = async_assert_that(receiver, receives('src host 172.16.1.100 and icmp',
within_sec(5)))
f3 = async_assert_that(sender, receives('dst host 172.16.1.1 and icmp',
within_sec(5)))
f1 = sender.ping4(receiver)
wait_on_futures([f1, f2, f3])示例4: test_filtering_by_dl
def test_filtering_by_dl():
"""
Title: Tests dl-based packet filtering.
Scenario:
When: A VM sends UDP packets to another host on the same bridge.
Then: The UDP packets reach the receiver without filtering rule chains.
Then: A filtering rule chain based on mac address is set on the bridge.
And: UDP packets from the same host do NOT reach the same destination host.
"""
outside = BM.get_iface_for_port("bridge-000-001", 2)
inside = BM.get_iface_for_port("bridge-000-001", 3)
# Reset an in-bound filter.
unset_bridge_port_filters("bridge-000-001", 3)
port_num = get_random_port_num()
f1 = async_assert_that(
inside,
receives("dst host 172.16.1.2 and udp", within_sec(5)),
"No filtering: inside receives UDP packets from outside.",
)
f2 = outside.send_udp("aa:bb:cc:00:01:02", "172.16.1.2", 41, src_port=port_num, dst_port=port_num)
wait_on_futures([f1, f2])
# Set a filtering rule based on mac addresses
set_bridge_port_filters("bridge-000-001", 3, "connection_tracking_dl_in", "connection_tracking_dl_out")
f1 = async_assert_that(
inside,
should_NOT_receive("dst host 172.16.1.2 and udp", within_sec(5)),
"Packets are filtered based on mac address.",
)
f2 = outside.send_udp("aa:bb:cc:00:01:02", "172.16.1.2", 41, src_port=port_num, dst_port=port_num)
wait_on_futures([f1, f2])示例5: test_floating_ip
def test_floating_ip():
"""
Title: Tests a floating IP.
Scenario 1:
When: a VM sends an ICMP echo request to a floating IP address
(100.100.100.100).
Then: the router performs DNAT on the message according to the rule chain
set to the router,
And: the receiver VM should receive the ICMP echo packet,
And: the receiver sends back an ICMP reply with its original IP address
as a source address.
And: the router applies SNAT to the reply packet.
And: the sender receives the reply with src address NATed to the floating IP
address.
"""
sender = BM.get_iface_for_port("bridge-000-001", 2)
receiver = BM.get_iface_for_port("bridge-000-002", 2)
# Reset in-/out-bound filters.
unset_filters("router-000-001")
feed_receiver_mac(receiver)
f1 = async_assert_that(receiver, should_NOT_receive("dst host 172.16.2.1 and icmp", within_sec(10)))
sender.ping_ipv4_addr("100.100.100.100")
wait_on_futures([f1])
# Configure floating IP address with the router
set_filters("router-000-001", "pre_filter_floating_ip", "post_filter_floating_ip")
f1 = async_assert_that(receiver, receives("dst host 172.16.2.1 and icmp", within_sec(10)))
f2 = async_assert_that(sender, receives("src host 100.100.100.100 and icmp", within_sec(10)))
sender.ping_ipv4_addr("100.100.100.100")
wait_on_futures([f1, f2])示例6: test_tracing_with_limit
def test_tracing_with_limit():
"""
Title: Tracing with a limit
Scenario 1:
When: a VM sends 20 ICMP echo requests over a trace request with limit 10
Then: Trace data appears for the ingress and the egress host,
but only for the first 10.
Then: when disabled and reenabled, new trace data shows up
"""
tracerequest = VTM.get_tracerequest('ping-trace-request-limited')
try:
set_filters('router-000-001', 'pre_filter_001', 'post_filter_001')
tracerequest.set_enabled(True)
time.sleep(5)
flowtraces = get_flow_traces(tracerequest.get_id())
assert (len(flowtraces) == 0)
sender = BM.get_iface_for_port('bridge-000-001', 2)
receiver = BM.get_iface_for_port('bridge-000-002', 2)
feed_receiver_mac(receiver)
for i in range(0, 20):
f2 = async_assert_that(receiver, receives('dst host 172.16.2.1 and icmp',
within_sec(10)))
f3 = async_assert_that(sender, receives('src host 172.16.2.1 and icmp',
within_sec(10)))
f1 = sender.ping_ipv4_addr('172.16.2.1')
wait_on_futures([f1, f2, f3])
time.sleep(5)
flowtraces = get_flow_traces(tracerequest.get_id())
assert (len(flowtraces) == 10)
# ensure both packets were traced on both hosts
for i in range(0, 10):
assert(len(get_hosts(tracerequest.get_id(), flowtraces[i])) == 2)
tracerequest.set_enabled(False)
tracerequest.set_enabled(True)
time.sleep(5)
f2 = async_assert_that(receiver, receives('dst host 172.16.2.1 and icmp',
within_sec(10)))
f3 = async_assert_that(sender, receives('src host 172.16.2.1 and icmp',
within_sec(10)))
f1 = sender.ping_ipv4_addr('172.16.2.1')
wait_on_futures([f1, f2, f3])
time.sleep(5)
flowtraces = get_flow_traces(tracerequest.get_id())
assert (len(flowtraces) == 11)
finally:
unset_filters('router-000-001')
tracerequest.set_enabled(False)示例7: test_dnat
def test_dnat():
"""
Title: Tests DNAT on ping messages.
Scenario 1:
When: a VM sends ICMP echo request with ping command to an unassigned IP
address.
Then: the router performs DNAT on the message according to the rule chain
set to the router,
And: the receiver VM should receive the ICMP echo packet,
And: the ping command succeeds
"""
sender = BM.get_iface_for_port('bridge-000-001', 2)
receiver = BM.get_iface_for_port('bridge-000-002', 2)
# Reset in-/out-bound filters.
unset_filters('router-000-001')
feed_receiver_mac(receiver)
f2 = async_assert_that(receiver, should_NOT_receive('dst host 172.16.2.1 and icmp',
within_sec(5)))
f1 = sender.ping_ipv4_addr('100.100.100.100')
wait_on_futures([f1, f2])
# Set DNAT rule chains to the router
set_filters('router-000-001', 'pre_filter_001', 'post_filter_001')
f2 = async_assert_that(receiver, receives('dst host 172.16.2.1 and icmp',
within_sec(5)))
f3 = async_assert_that(sender, receives('src host 100.100.100.100 and icmp',
within_sec(5)))
f1 = sender.ping_ipv4_addr('100.100.100.100')
wait_on_futures([f1, f2, f3])示例8: test_dst_mac_masking
def test_dst_mac_masking():
"""
Title: Test destination MAC masking in chain rules
Scenario 1:
When: There's a rule dropping any traffic with the multicast bit on
Then: Multicast traffic is blocked and unicast traffic goes through
Scenario 2:
When: There's a rule dropping any traffic with the multicast bit off
Then: Multicast traffic goes through and unicast traffic is blocked
"""
bridge = VTM.get_bridge('bridge-000-001')
if1 = BM.get_iface_for_port('bridge-000-001', 1)
if2 = BM.get_iface_for_port('bridge-000-001', 2)
if1_hw_addr = if1.get_mac_addr() # interface['hw_addr']
if2_hw_addr = if2.get_mac_addr() # interface['hw_addr']
if2_ip_addr = if2.get_ip()
rcv_filter = 'udp and ether src %s' % if1_hw_addr
bridge.set_inbound_filter(VTM.get_chain('drop_multicast'))
# Send a frame to an arbitrary multicast address. Bridge doesn't
# recognize it and will try to flood it to the other port, but the
# masked MAC rule should drop it since it has the multicast bit set.
f1 = async_assert_that(if2, should_NOT_receive(rcv_filter, within_sec(10)))
f2 = if1.send_udp("01:23:45:67:89:ab", if2_ip_addr)
wait_on_futures([f1, f2])
# If2's actual MAC address should work, since it doesn't have the bit set.
f1 = async_assert_that(if2, receives(rcv_filter, within_sec(10)))
f2 = if1.send_udp(if2_hw_addr, if2_ip_addr)
wait_on_futures([f1, f2])
# Change to the chain that allows only multicast addresses.
bridge.set_inbound_filter(VTM.get_chain('allow_only_multicast'))
# Send another frame to the multicast address. Bridge doesn't
# recognize it and will try to flood it to the other port. This
# time the rule should allow it through.
f1 = async_assert_that(if2, receives(rcv_filter, within_sec(10)))
f2 = if1.send_udp("01:23:45:67:89:ab", if2_ip_addr)
wait_on_futures([f1, f2])
# If2's actual MAC address should be blocked, since it doesn't
# have the multicast bit set.
f1 = async_assert_that(if2, should_NOT_receive(rcv_filter, within_sec(10)))
f2 = if1.send_udp(if2_hw_addr, if2_ip_addr)
wait_on_futures([f1, f2])示例9: send_udp
def send_udp(sender, receiver, hw_dst, dst_p, src_p, mirror=None):
sender.get_mac_addr()
sender.get_ip()
ip_dst = receiver.get_ip()
udp_filter = "dst host %s and dst port %d" % (ip_dst, dst_p)
futures = []
futures.append(async_assert_that(receiver, receives(udp_filter, within_sec(15))))
if mirror is not None:
futures.append(async_assert_that(mirror, receives(udp_filter, within_sec(15))))
sender.send_udp(hw_dst, ip_dst, src_port=src_p, dst_port=dst_p)
wait_on_futures(futures)示例10: test_mac_learning
def test_mac_learning():
"""
Title: Bridge mac learning
Scenario 1:
When: the destination ethernet address has never been seen before.
Then: the bridge should flood the ethernet unicast
Scenario 2:
When: the destination ethernet address has been seen before.
Then: the bridge should not flood the ethernet frame, instaed it should
forward to only the port that is connected to the interface with
the mac address.
"""
sender = BM.get_iface_for_port('bridge-000-001', 1)
iface_with_the_hw_addr = BM.get_iface_for_port('bridge-000-001', 2)
iface_x = BM.get_iface_for_port('bridge-000-001', 3)
hw_addr = iface_with_the_hw_addr.get_mac_addr()
match_on_the_hw_addr = 'ether dst ' + hw_addr
ethernet_unicast_to_the_hw_addr = '%s-7e:1f:ff:ff:ff:ff-aa:bb' % (hw_addr)
# Scenario 1:
# Both interfaces should get the frname as the bridge should flood it.
f1 = async_assert_that(iface_with_the_hw_addr,
receives(match_on_the_hw_addr, within_sec(5)))
f2 = async_assert_that(iface_x,
receives(match_on_the_hw_addr, within_sec(5)))
time.sleep(1)
sender.send_ether(ethernet_unicast_to_the_hw_addr, count=3)
wait_on_futures([f1, f2])
# Scenario 2:
# Get the bridge to learn the mac address
iface_with_the_hw_addr.ping4(sender, sync=True)
time.sleep(1)
# only iface_with_the_hw_addr should receives the ehternet unicast
f1 = async_assert_that(iface_with_the_hw_addr,
receives(match_on_the_hw_addr, within_sec(5)))
f2 = async_assert_that(iface_x,
should_NOT_receive(match_on_the_hw_addr,
within_sec(5)))
sender.send_ether(ethernet_unicast_to_the_hw_addr, count=1)
wait_on_futures([f1, f2])示例11: test_src_mac_masking
def test_src_mac_masking():
"""
Title: Test source MAC masking in chain rules
Scenario 1:
When: There's a rule dropping any traffic with an even source MAC
Then: Traffic from if2 to if1 is blocked because if2's MAC ends with 2
And: Traffic from if1 to if2 goes through because if1's MAC ends with 1
FIXME: moving to the new bindings mechanisms should allow removing
this restriction.
Only running this with the one-host binding, because:
1. The multi-host binding breaks the assumptions that if1 will have
an odd MAC address and if2 an even one.
2. This is basically just a sanity test to make sure dl_src_mask is
wired up. Unit tests and test_dst_mac_masking provide enough
coverage of the other aspects.
3. These tests are slow enough as it is.
"""
bridge = VTM.get_bridge('bridge-000-001')
if1 = BM.get_iface_for_port('bridge-000-001', 1)
if2 = BM.get_iface_for_port('bridge-000-001', 2)
if1_hw_addr = if1.interface['hw_addr']
if2_hw_addr = if2.interface['hw_addr']
if1_ip_addr = if1.get_ip()
if2_ip_addr = if2.get_ip()
if1_rcv_filter = 'udp and ether dst %s' % if1_hw_addr
if2_rcv_filter = 'udp and ether dst %s' % if2_hw_addr
bridge.set_inbound_filter(VTM.get_chain('drop_even_src_mac'))
# If2 has an even MAC (ends with 2), so traffic from if2 to if1
# should be dropped.
f1 = async_assert_that(if1, should_NOT_receive(if1_rcv_filter, within_sec(5)))
time.sleep(1)
f2 = if2.send_udp(if1_hw_addr, if1_ip_addr, 41)
wait_on_futures([f1, f2])
# If1 has an odd MAC (ends with 1), so traffic from if1 to if2
# should go through.
f1 = async_assert_that(if2, receives(if2_rcv_filter, within_sec(5)))
time.sleep(1)
f2 = if1.send_udp(if2_hw_addr, if2_ip_addr, 41)
wait_on_futures([f1, f2])示例12: test_fragmented_packets
def test_fragmented_packets():
"""
Title: L3 connectivity over bridge and router
(MN-L3-ICMP-2) with large packets that will be fragmented
Scenario 1:
When: a VM sends a ICMP echo request with size >MTU uwing ping command
to a different subnet
Then: the receiver VM should receive the ICMP echo packet.
And: the ping command succeeds
"""
sender = BM.get_iface_for_port('bridge-000-001', 2)
receiver = BM.get_iface_for_port('bridge-000-002', 2)
# The receiver VM needs to send some frames so the MN Router learns
# the VM's mac address. Otherwise this test would fail with binding2
# because the MidoNet Router forwards the ICMP with the previous mac
# found in bindings1 in ethernet headers.
# Issue: https://midobugs.atlassian.net/browse/MN-79
receiver.ping4(sender, 0.5, 3, True, 2000, do_arp=True)
f1 = async_assert_that(receiver,
receives('dst host 172.16.2.1 and icmp', within_sec(5)))
f2 = sender.ping4(receiver, 0.5, 3, False, 2000)
wait_on_futures([f1, f2])示例13: test_snat_for_udp
def test_snat_for_udp():
"""
Title: Tests SNAT on UDP packets.
Scenario:
When: a VM sends UDP packets to an unassigned IP address.
Then: the router performs SNAT on the message according to the rule chain
set to the router,
And: the UDP packets reach the receiver VM, with src address NATted,
And: because the UDP port is not open, the receiver VM returns ICMP error
responses.
"""
sender = BM.get_iface_for_port('bridge-000-001', 2)
receiver = BM.get_iface_for_port('bridge-000-002', 2)
# Reset in-/out-bound filters.
unset_filters('router-000-001')
feed_receiver_mac(receiver)
# Target hardware is a router's incoming port.
router_port = VTM.get_router('router-000-001').get_port(1)
router_mac = router_port.get_mn_resource().get_port_mac()
# No SNAT configured. Should not receive SNATed messages.
f2 = async_assert_that(receiver, should_NOT_receive('src host 172.16.1.100 and udp',
within_sec(5)))
f1 = sender.send_udp(router_mac, '172.16.2.1', 29,
src_port=9, dst_port=65000)
wait_on_futures([f1, f2])
# Set SNAT rule chains to the router
set_filters('router-000-001', 'pre_filter_002', 'post_filter_002')
# The receiver should receive SNATed messages.
f2 = async_assert_that(receiver, receives('src host 172.16.1.100 and udp',
within_sec(5)))
# Sender should receive ICMP unreachable as the receiver port is not open.
f3 = async_assert_that(sender, receives_icmp_unreachable_for_udp(
'172.16.1.1', '172.16.2.1',
udp_src_port=9, udp_dst_port=65000,
timeout=within_sec(5)))
f1 = sender.send_udp(router_mac, '172.16.2.1', 29,
src_port=9, dst_port=65000)
wait_on_futures([f1, f2, f3])示例14: check_return_flow
def check_return_flow(src_vm, dst_vm, snat_ip, snat_port, dst_port, src_port):
# And expect: Both vms receive return traffic
recv_filter = 'udp and port %d and ip dst %s' % (dst_port,
dst_vm.get_ip())
f = async_assert_that(dst_vm,
receives(recv_filter, within_sec(10)))
# When: sending return flows
src_vm.execute('hping3 -c 1 -q -2 -s %s -p %s %s' %
(src_port, snat_port, snat_ip))
wait_on_futures([f])示例15: test_icmp_autobind_vm_in_binding
def test_icmp_autobind_vm_in_binding():
vm1 = BM2.get_interface_on_vport('port1')
vm2 = BM2.get_interface_on_vport('port2')
# Test ping works
f1 = async_assert_that(vm2,
receives('dst host %s and icmp' % vm2.get_ip(),
within_sec(10)))
f2 = vm1.ping4(vm2)
wait_on_futures([f1, f2])