Exemplo n.º 1
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def test_launch_delete_vms(flavors):
    """
    Launch two 2vcpu-vms on each numa node, wait for pingable, then stop and delete. Repeat this action.
    Args:
        flavors: flavors with numa0 and numa1 specified

    Test Steps:
        (Each vm launch/delete is using a separate thread)
        - Launch two 2vcpu-vms on each numa node
        - Wait for vms pingable
        - Stop and delete vms
        - Repeat above operations

    """
    end_event = Event()
    run_time = 10 * 3600
    # run_time = 300
    start_time = time.time()
    end_time = start_time + run_time
    thread_timeout = run_time + 300
    threads = []
    for name, flv_id in flavors.items():
        for i in range(2):
            thread = MThread(launch_delete_vm, [name, flv_id], end_time, end_event=end_event)
            thread.start_thread(thread_timeout)
            threads.append(thread)

    for thr in threads:
        thr.wait_for_thread_end()
Exemplo n.º 2
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def test_live_migrate_while_launch_delete_vms(check_hypervisors, flavors):
    """
    Launch/delete vms while live migrating another vm
    Args:
        flavors:

    Test Steps:
        - Thread_1: Launch a 2vcpu vm with dedicated policy and keep live migrating it
        - Thread_2: Launch a 2vcpu-dedicated-vm on numa0, and another on numa1; stop and Delete them. Repeat.

    """
    end_event = Event()
    run_time = 10 * 3600
    # run_time = 300
    start_time = time.time()
    end_time = start_time + run_time
    thread_timeout = run_time + 300

    thread_1 = MThread(live_migrate_vm, end_time, end_event=end_event)
    thread_2 = MThread(launch_delete_vms, flavors, end_time, end_event=end_event)

    LOG.info("Starting threads")
    thread_1.start_thread(thread_timeout)
    thread_2.start_thread(thread_timeout)
    is_ended_1, error_1 = thread_1.wait_for_thread_end(fail_ok=True)
    is_ended_2, error_2 = thread_2.wait_for_thread_end(fail_ok=True)

    assert is_ended_1 and not error_1, "Threaded ended: {}. Error: {}".format(is_ended_1, error_1)
    assert is_ended_2 and not error_2, "Threaded ended: {}. Error: {}".format(is_ended_2, error_2)
Exemplo n.º 3
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def ping_all_vms_from_nat_box():
    """

    :return:
    """
    natbox_client = NATBoxClient.get_natbox_client()
    vms = get_all_vms()
    ips_list = network_helper.get_mgmt_ips_for_vms(vms=vms)
    timeout = 1000
    vm_threads = []
    for vm in ips_list:
        new_thread = MThread(network_helper.ping_server(vm, natbox_client))
        new_thread.start_thread(timeout=timeout + 30)
        vm_threads.append(new_thread)
        time.sleep(5)

    for vm_thr in vm_threads:
        vm_thr.wait_for_thread_end()

    # param = ','.join(map(str, ips_list))
    # cmd1 = "cd /home/cgcs/bin"
    # cmd2 =  "python monitor.py --addresses " + param
    # code1, output1 = natbox_client.send(cmd=cmd1)
    # code, output = natbox_client.send(cmd=cmd2)
    # output = natbox_client.cmd_output
    # pattern = str(len(ips_list))+ "/" + str(len(ips_list))
    # pattern_to_look = re.compile(pattern=pattern)
    # if not pattern_to_look.findall(output):
    #     return False

    return True
def check_port_forwarding_protocol(ext_gateway_ip, nat_ssh, vm_pfs, vm_ssh_pfs,
                                   protocol):
    vm_threads = []
    end_event = Events("Hello msg sent to ports")
    start_events = []
    received_events = []

    try:
        LOG.tc_step("Start listening on vms {} ports .... ".format(protocol))
        for vm_id_, v in vm_pfs.items():
            greeting = "Hello {}".format(v['public_port'])
            ssh_public_port = vm_ssh_pfs[vm_id_]['public_port']
            start_event = Events("VM {} started listening".format(vm_id_))
            start_events.append(start_event)
            received_event = Events(
                "Greeting received on vm {}".format(vm_id_))
            received_events.append(received_event)
            thread_vm = MThread(check_ssh_to_vm_and_wait_for_packets,
                                start_event, end_event, received_event, vm_id_,
                                ext_gateway_ip, ssh_public_port, greeting,
                                protocol)
            thread_vm.start_thread()
            vm_threads.append(thread_vm)

        for event_ in start_events:
            event_.wait_for_event(timeout=180, fail_ok=False)

        diff_protocol = 'udp' if protocol == 'tcp' else 'tcp'
        LOG.tc_step(
            "Send Hello msg to vms from NATBox via {} ports, and check they are not received via {} ports"
            .format(diff_protocol, protocol))
        for vm_id_, v in vm_pfs.items():
            greeting = "Hello {}".format(v['public_port'])
            send_packets_to_vm_from_nat_box(nat_ssh, ext_gateway_ip,
                                            v['public_port'], greeting,
                                            diff_protocol)

        time.sleep(10)
        for event in received_events:
            assert not event.is_set(), "Event {} is set".format(event)

        LOG.tc_step(
            "Send Hello msg to vms from NATBox via {} ports, and check they are received"
            .format(protocol, protocol))
        for vm_id_, v in vm_pfs.items():
            greeting = "Hello {}".format(v['public_port'])
            send_packets_to_vm_from_nat_box(nat_ssh, ext_gateway_ip,
                                            v['public_port'], greeting,
                                            protocol)

        time.sleep(10)
        for event in received_events:
            assert event.wait_for_event(
                timeout=40, fail_ok=False), "Event {} is not set".format(event)

    finally:
        end_event.set()
        for thread in vm_threads:
            thread.wait_for_thread_end(timeout=40, fail_ok=True)
Exemplo n.º 5
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def check_server_group_messaging_enabled(vms, action):
    vms = list(set(vms))
    vm_sender = random.choice(vms)
    vms.remove(vm_sender)

    if action == 'message':
        msg = MSG
        timeout = 180
    elif action == 'pause':
        msg = '{}.*paused'.format(vm_sender)
        timeout = 240
    else:
        raise ValueError("Unknown action - '{}' provided".format(action))

    res_events = []
    sent_event = Events("srv msg/event triggered")
    listener_event = Events("VM started listening to server group messages")
    vm_threads = []
    sender_thread = None

    try:
        for vm in vms:
            listener_event.clear()
            new_thread = MThread(_wait_for_srv_grp_msg,
                                 vm,
                                 msg,
                                 timeout=timeout,
                                 res_events=res_events,
                                 listener_event=listener_event,
                                 sent_event=sent_event)
            new_thread.start_thread(timeout=timeout + 30)
            vm_threads.append(new_thread)
            listener_event.wait_for_event()

        time.sleep(5)
        # this 60 seconds timeout is hardcoded for action == 'message' scenario to send
        # the message out
        sender_thread = MThread(trigger_srv_grp_msg,
                                vm_sender,
                                action,
                                timeout=60,
                                sent_event=sent_event,
                                rcv_event=res_events)
        sender_thread.start_thread(timeout=timeout)

        sent_event.wait_for_event()
        for res_event in res_events:
            res_event.wait_for_event()

    finally:
        # wait for server group msg to be received
        for vm_thr in vm_threads:
            vm_thr.wait_for_thread_end(timeout=30)

        if sender_thread:
            sender_thread.wait_for_thread_end(timeout=30)
            if action == 'pause':
                vm_helper.unpause_vm(vm_sender)
Exemplo n.º 6
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def sys_evacuate_from_hosts(number_of_hosts_to_evac):
    """
        This is to test the evacuation of vms due to compute lock/unlock
    :return:
    """
    # identify a host with atleast 5 vms
    vms_by_compute_dic = vm_helper.get_vms_per_host()
    computes_to_reboot = []
    vms_to_check = []
    hosts_threads = []
    timeout = 1000

    for k, v in vms_by_compute_dic.items():
        if len(v) >= 5:
            computes_to_reboot.append(k)
            vms_to_check.append(v)

    if computes_to_reboot is None:
        skip("There are no compute with 5 or more vms")

    if len(computes_to_reboot) > number_of_hosts_to_evac:
        computes_to_reboot = computes_to_reboot[0:number_of_hosts_to_evac]
        vms_to_check = vms_to_check[0:number_of_hosts_to_evac]
    else:
        LOG.warning(
            "There are only {} computes available with more than 5 vms ".
            format(len(computes_to_reboot)))

    for host, vms in zip(computes_to_reboot, vms_to_check):
        new_thread = MThread(vm_helper.evacuate_vms, host, vms, vlm=False)
        new_thread.start_thread(timeout=timeout + 30)
        hosts_threads.append(new_thread)

    for host_thr in hosts_threads:
        host_thr.wait_for_thread_end()

    LOG.tc_step("Verify reboot succeeded and vms still in good state")
    for vm_list in vms_to_check:
        vm_helper.wait_for_vms_values(vms=vm_list, fail_ok=False)

    for host, vms in zip(computes_to_reboot, vms_to_check):
        for vm in vms:
            vm_host = vm_helper.get_vm_host(vm_id=vm)
            assert vm_host != host, "VM is still on {} after lock".format(host)
            vm_helper.wait_for_vm_pingable_from_natbox(
                vm_id=vm, timeout=VMTimeout.DHCP_RETRY)
Exemplo n.º 7
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def test_timing():
    threads = []
    flav_id = nova_helper.create_flavor('thread_testing')[1]
    ResourceCleanup.add(resource_type='flavor', resource_id=flav_id)
    start_1 = time()
    for i in range(0, 6):
        thread = MThread(vm_helper.boot_vm, 'threading_vm', flavor=flav_id)
        thread.start_thread(240)
        threads.append(thread)

    for thread in threads:
        thread.wait_for_thread_end()
    for thread in threads:
        ResourceCleanup.add(resource_type='vm',
                            resource_id=thread.get_output()[1])
    end_1 = time()

    start_2 = time()
    for i in range(0, 2):
        vm_id = vm_helper.boot_vm('loop_vm', flav_id)[1]
        ResourceCleanup.add(resource_type='vm', resource_id=vm_id)
    end_2 = time()

    LOG.info("Time results:\n"
             "Multithreading: {}\n"
             "Single loop: {}".format(end_1 - start_1, end_2 - start_2))
Exemplo n.º 8
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def test_copies_of_threads():
    LOG.tc_step("Make multiple threads with same params")
    threads = []
    for i in range(1, 5):
        threads.append(MThread(func, i, 10, extra_arg="number: {}".format(i)))

    for thread in threads:
        thread.start_thread()

    for thread in threads:
        thread.wait_for_thread_end()
def check_port_forwarding_ports(ext_gateway_ip, nat_ssh, vm_id, ssh_port,
                                old_port, new_port, protocol):

    end_event = Events("Hello msg sent to ports")
    start_event = Events("VM {} started listening".format(vm_id))
    received_event = Events("Greeting received on vm {}".format(vm_id))

    LOG.tc_step("Starting VM ssh session threads .... ")
    new_greeting = "Hello {}".format(new_port)
    vm_thread = MThread(check_ssh_to_vm_and_wait_for_packets, start_event,
                        end_event, received_event, vm_id, ext_gateway_ip,
                        ssh_port, new_greeting, protocol)
    vm_thread.start_thread()
    try:
        start_event.wait_for_event(timeout=180, fail_ok=False)
        LOG.tc_step(
            "Send Hello msg to vm from NATBox via old {} port {}, and check it's not received"
            .format(protocol, old_port))

        greeting = "Hello {}".format(old_port)
        send_packets_to_vm_from_nat_box(nat_ssh, ext_gateway_ip, old_port,
                                        greeting, protocol)

        time.sleep(10)
        assert not received_event.is_set(), "Event {} is set".format(
            received_event)

        LOG.tc_step(
            "Check greeting is received on vm via new {} port {}".format(
                protocol, new_port))
        send_packets_to_vm_from_nat_box(nat_ssh, ext_gateway_ip, new_port,
                                        new_greeting, protocol)

        assert received_event.wait_for_event(
            timeout=30), "Event {} is not set".format(received_event)

    finally:
        end_event.set()
        vm_thread.wait_for_thread_end(timeout=40, fail_ok=False)
Exemplo n.º 10
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def test_events():
    e = Events("functions should wait here")
    LOG.tc_step("Create multiple threads")
    thread_1 = MThread(events_func, 1, 10, e)
    thread_2 = MThread(events_func, 2, 15, e)

    thread_1.start_thread(60)
    thread_2.start_thread(60)
    sleep(20)

    LOG.tc_step("Setting event")
    e.set()
    thread_1.wait_for_thread_end()
    thread_2.wait_for_thread_end()
    LOG.tc_step("Threads have finished")

    e.clear()
    e.wait_for_event(20, fail_ok=True)
Exemplo n.º 11
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def test_multi_thread():
    LOG.tc_step("Create MThreads")
    thread_1 = MThread(func, 1, 10, extra_arg="Hello")
    thread_2 = MThread(func, 2, 6, extra_arg="Second")
    # runs after test steps complete
    thread_3 = MThread(func, 3, 20, extra_arg="run for a long time")
    thread_4 = MThread(nova_helper.create_flavor,
                       'threading',
                       'auto',
                       vcpus=2,
                       ram=1024)

    LOG.tc_step("Starting threads")
    thread_1.start_thread()
    thread_2.start_thread()
    thread_3.start_thread()
    thread_4.start_thread()
    LOG.tc_step("Finished starting threads")

    LOG.tc_step("Waiting for threads to finish")
    thread_1.wait_for_thread_end()
    thread_2.wait_for_thread_end()
    thread_4.wait_for_thread_end()
    LOG.tc_step("Threads have finished")

    id_ = thread_4.get_output()[1]
    LOG.info("flav_id = {}".format(id_))
    ResourceCleanup.add(resource_type='flavor', resource_id=id_)
Exemplo n.º 12
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def test_lock():
    LOG.tc_step("Positive lock example")
    lock = TiSLock(True)
    thread_1 = MThread(get_lock, lock, 1)
    thread_2 = MThread(get_lock, lock, 2)
    thread_1.start_thread(30)
    sleep(1)
    thread_2.start_thread(30)
    thread_1.wait_for_thread_end(0)
    thread_2.wait_for_thread_end(30)

    LOG.tc_step("Negative lock example")
    lock = TiSLock(True, 2)
    thread_1 = MThread(get_lock, lock, 1)
    thread_2 = MThread(get_lock, lock, 2)
    thread_1.start_thread(30)
    sleep(1)
    thread_2.start_thread(30)
    thread_1.wait_for_thread_end(0, fail_ok=True)
    thread_2.wait_for_thread_end(30, fail_ok=True)
Exemplo n.º 13
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def test_barriers():
    LOG.tc_step("Negative barrier example (not enough threads waiting)")
    barrier = TiSBarrier(2, timeout=20)
    thread_1 = MThread(barr_func, 1, 4, barrier)
    thread_1.start_thread(timeout=30)
    thread_1.wait_for_thread_end(fail_ok=True)

    LOG.tc_step("Positive barrier example")
    barrier = TiSBarrier(2, timeout=20)
    thread_1 = MThread(barr_func, 2, 4, barrier)
    thread_2 = MThread(barr_func, 3, 4, barrier)

    thread_1.start_thread(timeout=30)
    thread_2.start_thread(timeout=30)
    thread_1.wait_for_thread_end()
    thread_2.wait_for_thread_end()
Exemplo n.º 14
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def _verify_port_from_natbox(con_ssh, port, port_expected_open):
    """
    :param con_ssh: Controller ssh client
    :param port: (number) Port to test
    :param port_expected_open: (boolean)
    """
    if ProjVar.get_var('IS_DC'):
        subcloud = ProjVar.get_var('PRIMARY_SUBCLOUD')
        lab_ip = ProjVar.get_var('LAB')[subcloud]['floating ip']
    else:
        lab_ip = ProjVar.get_var('LAB')['floating ip']

    cli.system('show', source_openrc=True, force_source=True)

    LOG.info("Check if port {} is listed in iptables".format(port))
    cmd = 'iptables -nvL | grep --color=never -w {}'.format(port)
    end_time = time.time() + 90
    while time.time() < end_time:
        output = con_ssh.exec_sudo_cmd(cmd, get_exit_code=False)[1]
        if (port_expected_open and output) or (not port_expected_open
                                               and not output):
            LOG.info("Port {} is {}listed in iptables as expected".format(
                port, '' if port_expected_open else 'not '))
            break
        time.sleep(5)
    else:
        assert 0, "Port {} is {}listed in iptables. ".format(
            port, 'not ' if port_expected_open else '')

    end_event = Events('Packet received')
    LOG.info("Open listener on port {}".format(port))
    listener_thread = MThread(_listen_on_port,
                              port,
                              end_event=end_event,
                              ssh_name=ProjVar.get_var('PRIMARY_SUBCLOUD'))
    listener_thread.start_thread(timeout=300)

    extra_str = 'succeeded' if port_expected_open else 'rejected'
    LOG.info("Verify access to port {} from natbox is {}".format(
        port, extra_str))
    try:
        wait_for_port_to_listen(con_ssh, port)
        natbox_ssh = NATBoxClient.get_natbox_client()
        end_time = time.time() + 60
        while time.time() < end_time:
            output = natbox_ssh.exec_cmd("nc -v -w 2 {} {}".format(
                lab_ip, port),
                                         get_exit_code=False)[1]
            if (port_expected_open and 'succeeded' in output) or (
                    not port_expected_open and 'succeeded' not in output):
                LOG.info("Access via port {} {} as expected".format(
                    port, extra_str))
                return
        else:
            assert False, "Access via port {} is not {}".format(
                port, extra_str)
    finally:
        end_event.set()
        listener_thread.wait_for_thread_end(timeout=10)
        con_ssh.send_control('c')
        con_ssh.expect(con_ssh.get_prompt())
def _check_packets_forwarded_in_sfc_vm(source_vm_id,
                                       dest_vm_id,
                                       sfc_vm_ids,
                                       dest_vm_internal_net_ip,
                                       protocol,
                                       nsh_aware,
                                       symmetric,
                                       load_balancing=False):
    end_event = Events("Hello or ping sent to vm")
    start_event = Events("VM {} started listening".format(dest_vm_id))
    received_event = Events("Greeting received on vm {}".format(dest_vm_id))
    vms_events = {}
    for sfc_vm in sfc_vm_ids:
        start_event_sfc = Events("SFC vm {} started listening".format(sfc_vm))
        received_event_sfc = Events(
            "Packets received on SFC vm {}".format(sfc_vm))
        vms_events[sfc_vm] = (start_event_sfc, received_event_sfc)

    greeting = "hello"
    port = 20010
    vm_thread = None
    if protocol != 'icmp':
        func_args = (start_event, end_event, received_event, dest_vm_id,
                     dest_vm_internal_net_ip, greeting, port, protocol,
                     load_balancing)
        vm_thread = MThread(_ssh_to_dest_vm_and_wait_for_greetings, *func_args)

    sfc_vm_threads = []
    for sfc_vm in sfc_vm_ids:
        start_event_sfc, received_event_sfc = vms_events[sfc_vm]
        func_args = (start_event_sfc, end_event, received_event_sfc, sfc_vm,
                     protocol, nsh_aware, symmetric)
        sfc_vm_thread = MThread(_ssh_to_sfc_vm_and_wait_for_packets,
                                *func_args)
        sfc_vm_threads.append(sfc_vm_thread)

    LOG.tc_step(
        "Starting VM ssh session threads to ping (icmp) or send hello (tcp, udp)"
    )
    if protocol != 'icmp':
        vm_thread.start_thread()

    for sfc_vm_thread in sfc_vm_threads:
        LOG.tc_step("Starting each SFC VM threads")
        sfc_vm_thread.start_thread()

    try:
        if protocol != 'icmp':
            start_event.wait_for_event(timeout=180, fail_ok=False)
        for sfc_vm in sfc_vm_ids:
            start_event_sfc, received_event_sfc = vms_events[sfc_vm]
            start_event_sfc.wait_for_event(timeout=120, fail_ok=False)
        if protocol == 'icmp':
            LOG.tc_step(
                "Ping from from vm {} to vm {}, and check it's received".
                format(source_vm_id, dest_vm_id))
            _ping_from_source_to_dest_vm(source_vm_id, end_event,
                                         dest_vm_internal_net_ip)
        else:
            if load_balancing:
                LOG.tc_step(
                    "Send Hello msg from vm using tcp_client.py {} to vm {}, and check it's received"
                    .format(source_vm_id, dest_vm_id))
                _send_hello_message_from_vm_using_tcp_client(
                    source_vm_id, end_event, dest_vm_internal_net_ip)
            else:
                LOG.tc_step(
                    "Send Hello msg from vm {} to vm {}, and check it's received"
                    .format(source_vm_id, dest_vm_id))
                _send_hello_message_from_vm(source_vm_id, greeting, end_event,
                                            dest_vm_internal_net_ip, port,
                                            protocol)
        if protocol != 'icmp':
            assert received_event.wait_for_event(
                timeout=30), "Received Event {} is not set".format(
                    received_event)
        for sfc_vm in sfc_vm_ids:
            start_event_sfc, received_event_sfc = vms_events[sfc_vm]
            assert received_event_sfc.wait_for_event(
                timeout=10), "Received Event is not set in SFC function"

    finally:
        end_event.set()
        if protocol != 'icmp':
            vm_thread.wait_for_thread_end(timeout=40, fail_ok=False)
        for sfc_vm_thread in sfc_vm_threads:
            sfc_vm_thread.wait_for_thread_end(timeout=40, fail_ok=False)