Exemplo n.º 1
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    def test_link_delay(self, session, ip_prefixes):
        """
        Test ptp node network with modifying link packet delay.

        :param core.emulator.coreemu.EmuSession session: session for test
        :param ip_prefixes: generates ip addresses for nodes
        """

        # create link network
        node_one, node_two = create_ptp_network(session, ip_prefixes)

        # run ping for delay information
        stdout = ping_output(node_one, node_two, ip_prefixes)
        assert stdout
        rtt_line = stdout.split("\n")[-1]
        rtt_values = rtt_line.split("=")[1].split("ms")[0].strip()
        rtt_avg = float(rtt_values.split("/")[2])
        assert 0 <= rtt_avg <= 0.2

        # change delay in microseconds
        link_options = LinkOptions()
        link_options.delay = 1000000
        session.update_link(node_one.objid,
                            node_two.objid,
                            link_options=link_options)

        # run ping for delay information again
        stdout = ping_output(node_one, node_two, ip_prefixes)
        assert stdout
        rtt_line = stdout.split("\n")[-1]
        rtt_values = rtt_line.split("=")[1].split("ms")[0].strip()
        rtt_avg = float(rtt_values.split("/")[2])
        assert 1800 <= rtt_avg <= 2200
Exemplo n.º 2
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    def test_link_loss(self, session, ip_prefixes):
        """
        Test ptp node network with modifying link packet loss.

        :param core.emulator.coreemu.EmuSession session: session for test
        :param ip_prefixes: generates ip addresses for nodes
        """

        # create link network
        node_one, node_two = create_ptp_network(session, ip_prefixes)

        # output csv index
        loss_index = -2

        # run iperf, validate normal bandwidth
        stdout = iperf(node_one, node_two, ip_prefixes)
        assert stdout
        value = float(stdout.split(',')[loss_index])
        assert 0 <= value <= 0.5

        # change bandwidth in bits per second
        link_options = LinkOptions()
        link_options.per = 50
        session.update_link(node_one.objid,
                            node_two.objid,
                            link_options=link_options)

        # run iperf again
        stdout = iperf(node_one, node_two, ip_prefixes)
        assert stdout
        value = float(stdout.split(',')[loss_index])
        assert 40 <= value <= 60
Exemplo n.º 3
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    def test_link_jitter(self, session, ip_prefixes):
        """
        Test ptp node network with modifying link packet jitter.

        :param core.emulator.coreemu.EmuSession session: session for test
        :param ip_prefixes: generates ip addresses for nodes
        """

        # create link network
        node_one, node_two = create_ptp_network(session, ip_prefixes)

        # output csv index
        jitter_index = 9

        # run iperf
        stdout = iperf(node_one, node_two, ip_prefixes)
        assert stdout
        value = float(stdout.split(",")[jitter_index])
        assert -0.5 <= value <= 0.05

        # change jitter in microseconds
        link_options = LinkOptions()
        link_options.jitter = 1000000
        session.update_link(node_one.objid,
                            node_two.objid,
                            link_options=link_options)

        # run iperf again
        stdout = iperf(node_one, node_two, ip_prefixes)
        assert stdout
        value = float(stdout.split(",")[jitter_index])
        assert 200 <= value <= 500
Exemplo n.º 4
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    def test_link_bandwidth(self, session, ip_prefixes):
        """
        Test ptp node network with modifying link bandwidth.

        :param core.emulator.coreemu.EmuSession session: session for test
        :param ip_prefixes: generates ip addresses for nodes
        """

        # create link network
        node_one, node_two = create_ptp_network(session, ip_prefixes)

        # output csv index
        bandwidth_index = 8

        # run iperf, validate normal bandwidth
        stdout = iperf(node_one, node_two, ip_prefixes)
        assert stdout
        value = int(stdout.split(',')[bandwidth_index])
        assert 900000 <= value <= 1100000

        # change bandwidth in bits per second
        link_options = LinkOptions()
        link_options.bandwidth = 500000
        session.update_link(node_one.id, node_two.id, link_options=link_options)

        # run iperf again
        stdout = iperf(node_one, node_two, ip_prefixes)
        assert stdout
        value = int(stdout.split(',')[bandwidth_index])
        assert 400000 <= value <= 600000
Exemplo n.º 5
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    def test_link_jitter(self, session, ip_prefixes):
        """
        Test ptp node network with modifying link packet jitter.

        :param core.emulator.coreemu.EmuSession session: session for test
        :param ip_prefixes: generates ip addresses for nodes
        """

        # create link network
        node_one, node_two = create_ptp_network(session, ip_prefixes)

        # output csv index
        jitter_index = 9

        # run iperf
        stdout = iperf(node_one, node_two, ip_prefixes)
        assert stdout
        value = float(stdout.split(",")[jitter_index])
        assert -0.5 <= value <= 0.05

        # change jitter in microseconds
        link_options = LinkOptions()
        link_options.jitter = 1000000
        session.update_link(node_one.objid, node_two.objid, link_options=link_options)

        # run iperf again
        stdout = iperf(node_one, node_two, ip_prefixes)
        assert stdout
        value = float(stdout.split(",")[jitter_index])
        assert 200 <= value <= 500
Exemplo n.º 6
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    def test_link_update(self, session, ip_prefixes):
        # given
        node_one = session.add_node()
        node_two = session.add_node(_type=NodeTypes.SWITCH)
        interface_one = ip_prefixes.create_interface(node_one)
        session.add_link(node_one.objid, node_two.objid, interface_one)
        interface = node_one.netif(interface_one.id)
        output = utils.check_cmd(["tc", "qdisc", "show", "dev", interface.localname])
        assert "delay" not in output
        assert "rate" not in output
        assert "loss" not in output
        assert "duplicate" not in output

        # when
        link_options = LinkOptions()
        link_options.delay = 50
        link_options.bandwidth = 5000000
        link_options.per = 25
        link_options.dup = 25
        session.update_link(node_one.objid, node_two.objid,
                            interface_one_id=interface_one.id, link_options=link_options)

        # then
        output = utils.check_cmd(["tc", "qdisc", "show", "dev", interface.localname])
        assert "delay" in output
        assert "rate" in output
        assert "loss" in output
        assert "duplicate" in output
Exemplo n.º 7
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    def test_link_delay(self, session, ip_prefixes):
        """
        Test ptp node network with modifying link packet delay.

        :param core.emulator.coreemu.EmuSession session: session for test
        :param ip_prefixes: generates ip addresses for nodes
        """

        # create link network
        node_one, node_two = create_ptp_network(session, ip_prefixes)

        # run ping for delay information
        stdout = ping_output(node_one, node_two, ip_prefixes)
        assert stdout
        rtt_line = stdout.split("\n")[-1]
        rtt_values = rtt_line.split("=")[1].split("ms")[0].strip()
        rtt_avg = float(rtt_values.split("/")[2])
        assert 0 <= rtt_avg <= 0.2

        # change delay in microseconds
        link_options = LinkOptions()
        link_options.delay = 1000000
        session.update_link(node_one.objid, node_two.objid, link_options=link_options)

        # run ping for delay information again
        stdout = ping_output(node_one, node_two, ip_prefixes)
        assert stdout
        rtt_line = stdout.split("\n")[-1]
        rtt_values = rtt_line.split("=")[1].split("ms")[0].strip()
        rtt_avg = float(rtt_values.split("/")[2])
        assert 1800 <= rtt_avg <= 2200
Exemplo n.º 8
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    def test_link_loss(self, session, ip_prefixes):
        """
        Test ptp node network with modifying link packet loss.

        :param core.emulator.coreemu.EmuSession session: session for test
        :param ip_prefixes: generates ip addresses for nodes
        """

        # create link network
        node_one, node_two = create_ptp_network(session, ip_prefixes)

        # output csv index
        loss_index = -2

        # run iperf, validate normal bandwidth
        stdout = iperf(node_one, node_two, ip_prefixes)
        assert stdout
        value = float(stdout.split(',')[loss_index])
        assert 0 <= value <= 0.5

        # change bandwidth in bits per second
        link_options = LinkOptions()
        link_options.per = 50
        session.update_link(node_one.objid, node_two.objid, link_options=link_options)

        # run iperf again
        stdout = iperf(node_one, node_two, ip_prefixes)
        assert stdout
        value = float(stdout.split(',')[loss_index])
        assert 40 <= value <= 60
Exemplo n.º 9
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def get_LinkOptions(link_params):
    '''This class is used derive new LinkOptions() from the LinkEvent object.
    LinkOptions are used by CORE to specify delays, bandwidth etc for a specific link.

    :returns: linkOptions, a convenience object used by core to specify link values (delay, bandwidth, jitter etc.)
    :rtype: LinkOptions
    '''

    linkOptions = LinkOptions()
    for param, value in link_params.items():
        parameter = param.lower()

        if (value):
            newValue = float(value)
        else:
            newValue = value

        if (parameter == "session"):
            linkOptions.session = newValue
        elif (parameter == "delay"):
            linkOptions.delay = newValue
        elif (parameter == "bandwidth"):
            linkOptions.bandwidth = newValue
        # Packet Loss Rate
        elif (parameter == "loss"):
            linkOptions.per = newValue
        # Packet duplication rate
        elif (parameter == "duplication" or parameter == "dup"):
            linkOptions.dup = newValue
        elif (parameter == "jitter"):
            linkOptions.jitter = newValue

    return linkOptions
Exemplo n.º 10
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    def test_link_update(self, session, ip_prefixes):
        # given
        node_one = session.add_node()
        node_two = session.add_node(_type=NodeTypes.SWITCH)
        interface_one = ip_prefixes.create_interface(node_one)
        session.add_link(node_one.objid, node_two.objid, interface_one)
        interface = node_one.netif(interface_one.id)
        output = utils.check_cmd(
            ["tc", "qdisc", "show", "dev", interface.localname])
        assert "delay" not in output
        assert "rate" not in output
        assert "loss" not in output
        assert "duplicate" not in output

        # when
        link_options = LinkOptions()
        link_options.delay = 50
        link_options.bandwidth = 5000000
        link_options.per = 25
        link_options.dup = 25
        session.update_link(node_one.objid,
                            node_two.objid,
                            interface_one_id=interface_one.id,
                            link_options=link_options)

        # then
        output = utils.check_cmd(
            ["tc", "qdisc", "show", "dev", interface.localname])
        assert "delay" in output
        assert "rate" in output
        assert "loss" in output
        assert "duplicate" in output
    def __init__(self, first_node, second_node):
        # first node and second are from InterNode type
        self.first_node = first_node
        self.first_interface = None
        self.second_node = second_node
        self.second_interface = None
        self.link_options = LinkOptions()
        self.is_in_CORE = False  ## Flag gets set to true when the link is added to the actual underlying CORE session
        # This is useful later when adding new links from the API and having to update all of the physical connections.
        # Is used in the _set_up_physical_link method.

        # If either of the nodes is a physical node then set phyiscal flag of the node
        if (self.first_node.is_physical == True
                or self.second_node.is_physical == True):
            self.has_physical = True
        else:
            self.has_physical = False

        # Add each of the nodes to the others "neighbours" list
        first_node.neighbours.append(second_node)
        second_node.neighbours.append(first_node)

        ## create interface for FIRST node
        if (first_node.type == NodeTypes.RJ45):
            interface_data = InterfaceData(*[None] * 7)
            self.first_interface = interface_data
        elif (first_node.type == NodeTypes.SWITCH):
            self.first_interface = None
            second_node.has_switch_connection = True
        else:
            interface = Topology.prefixes.create_interface(
                first_node.CORE_node)
            self.first_interface = interface

        # Add interface to the nodes "interface" dictionary - This helps track which interface was used for which link
        first_node.interfaces[second_node] = self.first_interface

        # Repeat for SECOND node
        if (second_node.type == NodeTypes.RJ45):
            interface_data = InterfaceData(*[None] * 7)
            self.second_interface = interface_data
        elif (second_node.type == NodeTypes.SWITCH):
            first_node.has_switch_connection = True
            self.second_interface = None
        else:
            interface = Topology.prefixes.create_interface(
                second_node.CORE_node)
            self.second_interface = interface

        second_node.interfaces[first_node] = self.second_interface
Exemplo n.º 12
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 def setlinkparams(self) -> None:
     """
     Apply link parameters to all interfaces. This is invoked from
     WlanNode.setmodel() after the position callback has been set.
     """
     with self._netifslock:
         for netif in self._netifs:
             options = LinkOptions(
                 bandwidth=self.bw,
                 delay=self.delay,
                 per=self.loss,
                 jitter=self.jitter,
             )
             self.wlan.linkconfig(netif, options)
Exemplo n.º 13
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    def get_LinkOptions(self):
        '''This method is used derive new LinkOptions() from the LinkEvent object.
        LinkOptions are used by CORE to specify delays, bandwidth etc for a specific link.

        :returns: linkOptions, a convenience object used by core to specify link values (delay, bandwidth, jitter etc.)
        :rtype: core.emulator.emudata.LinkOptions
        '''

        linkOptions = LinkOptions()
        for param, value in self.link_params.items():
            #print ("param = {} -- Value = {}".format(param, value))
            parameter = param.lower()
            newValue = value
            if (parameter == "session"):
                linkOptions.session = newValue
            elif (parameter == "delay"):
                linkOptions.delay = newValue
            elif (parameter == "bandwidth"):
                linkOptions.bandwidth = float(newValue)
            # Packet Loss Rate
            elif (parameter == "loss"):
                linkOptions.per = newValue
            # Packet duplication rate
            elif (parameter == "duplication"):
                linkOptions.dup = newValue
            elif (parameter == "jitter"):
                linkOptions.jitter = newValue
            # elif (parameter == "mer"):
            #     linkOptions.mer = newValue
            # elif (parameter == "burst"):
            #     linkOptions.burst = newValue
            # elif (parameter == "mburst"):
            #     linkOptions.mburst = newValue
            # elif (parameter == "gui_attributes"):
            #     linkOptions.gui_attributes = newValue
            # elif (parameter == "unidirectional"):
            #     linkOptions.unidirectional = newValue
            # elif (parameter == "emulation_id"):
            #     linkOptions.emulation_id = newValue
            # elif (parameter == "network_id"):
            #     linkOptions.network_id = newValue
            # elif (parameter == "key"):
            #     linkOptions.key = newValue
            # elif (parameter == "opaque"):
            #     linkOptions.opaque = newValue

        return linkOptions
Exemplo n.º 14
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    def test_link_update(self, session: Session, ip_prefixes: IpPrefixes):
        # given
        delay = 50
        bandwidth = 5000000
        per = 25
        dup = 25
        jitter = 10
        node_one = session.add_node(CoreNode)
        node_two = session.add_node(SwitchNode)
        interface_one_data = ip_prefixes.create_interface(node_one)
        session.add_link(node_one.id, node_two.id, interface_one_data)
        interface_one = node_one.netif(interface_one_data.id)
        assert interface_one.getparam("delay") != delay
        assert interface_one.getparam("bw") != bandwidth
        assert interface_one.getparam("loss") != per
        assert interface_one.getparam("duplicate") != dup
        assert interface_one.getparam("jitter") != jitter

        # when
        link_options = LinkOptions()
        link_options.delay = delay
        link_options.bandwidth = bandwidth
        link_options.per = per
        link_options.dup = dup
        link_options.jitter = jitter
        session.update_link(
            node_one.id,
            node_two.id,
            interface_one_id=interface_one_data.id,
            options=link_options,
        )

        # then
        assert interface_one.getparam("delay") == delay
        assert interface_one.getparam("bw") == bandwidth
        assert interface_one.getparam("loss") == per
        assert interface_one.getparam("duplicate") == dup
        assert interface_one.getparam("jitter") == jitter
Exemplo n.º 15
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    def read_links(self):
        link_elements = self.scenario.find("links")
        if link_elements is None:
            return

        node_sets = set()
        for link_element in link_elements.iterchildren():
            node_one = get_int(link_element, "node_one")
            node_two = get_int(link_element, "node_two")
            node_set = frozenset((node_one, node_two))

            interface_one_element = link_element.find("interface_one")
            interface_one = None
            if interface_one_element is not None:
                interface_one = create_interface_data(interface_one_element)

            interface_two_element = link_element.find("interface_two")
            interface_two = None
            if interface_two_element is not None:
                interface_two = create_interface_data(interface_two_element)

            options_element = link_element.find("options")
            link_options = LinkOptions()
            if options_element is not None:
                link_options.bandwidth = get_int(options_element, "bandwidth")
                link_options.burst = get_int(options_element, "burst")
                link_options.delay = get_int(options_element, "delay")
                link_options.dup = get_int(options_element, "dup")
                link_options.mer = get_int(options_element, "mer")
                link_options.mburst = get_int(options_element, "mburst")
                link_options.jitter = get_int(options_element, "jitter")
                link_options.key = get_int(options_element, "key")
                link_options.per = get_int(options_element, "per")
                link_options.unidirectional = get_int(options_element,
                                                      "unidirectional")
                link_options.session = options_element.get("session")
                link_options.emulation_id = get_int(options_element,
                                                    "emulation_id")
                link_options.network_id = get_int(options_element,
                                                  "network_id")
                link_options.opaque = options_element.get("opaque")
                link_options.gui_attributes = options_element.get(
                    "gui_attributes")

            if link_options.unidirectional == 1 and node_set in node_sets:
                logging.info("updating link node_one(%s) node_two(%s): %s",
                             node_one, node_two, link_options)
                self.session.update_link(node_one, node_two, interface_one.id,
                                         interface_two.id, link_options)
            else:
                logging.info("adding link node_one(%s) node_two(%s): %s",
                             node_one, node_two, link_options)
                self.session.add_link(node_one, node_two, interface_one,
                                      interface_two, link_options)

            node_sets.add(node_set)
Exemplo n.º 16
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 def EditLink(self, request, context):
     logging.debug("edit link: %s", request)
     session = self.get_session(request.session_id, context)
     node_one_id = request.node_one_id
     node_two_id = request.node_two_id
     interface_one_id = request.interface_one_id
     interface_two_id = request.interface_two_id
     options_data = request.options
     link_options = LinkOptions()
     link_options.delay = options_data.delay
     link_options.bandwidth = options_data.bandwidth
     link_options.per = options_data.per
     link_options.dup = options_data.dup
     link_options.jitter = options_data.jitter
     link_options.mer = options_data.mer
     link_options.burst = options_data.burst
     link_options.mburst = options_data.mburst
     link_options.unidirectional = options_data.unidirectional
     link_options.key = options_data.key
     link_options.opaque = options_data.opaque
     session.update_link(node_one_id, node_two_id, interface_one_id,
                         interface_two_id, link_options)
     return core_pb2.EditLinkResponse(result=True)
Exemplo n.º 17
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    def AddLink(self, request, context):
        logging.debug("add link: %s", request)
        session = self.get_session(request.session_id, context)

        # validate node exist
        self.get_node(session, request.link.node_one_id, context)
        self.get_node(session, request.link.node_two_id, context)
        node_one_id = request.link.node_one_id
        node_two_id = request.link.node_two_id

        interface_one = None
        interface_one_data = request.link.interface_one
        if interface_one_data:
            name = interface_one_data.name
            if name == "":
                name = None
            mac = interface_one_data.mac
            if mac == "":
                mac = None
            else:
                mac = MacAddress.from_string(mac)
            interface_one = InterfaceData(
                _id=interface_one_data.id,
                name=name,
                mac=mac,
                ip4=interface_one_data.ip4,
                ip4_mask=interface_one_data.ip4mask,
                ip6=interface_one_data.ip6,
                ip6_mask=interface_one_data.ip6mask,
            )

        interface_two = None
        interface_two_data = request.link.interface_two
        if interface_two_data:
            name = interface_two_data.name
            if name == "":
                name = None
            mac = interface_two_data.mac
            if mac == "":
                mac = None
            else:
                mac = MacAddress.from_string(mac)
            interface_two = InterfaceData(
                _id=interface_two_data.id,
                name=name,
                mac=mac,
                ip4=interface_two_data.ip4,
                ip4_mask=interface_two_data.ip4mask,
                ip6=interface_two_data.ip6,
                ip6_mask=interface_two_data.ip6mask,
            )

        link_type = None
        link_type_value = request.link.type
        if link_type_value is not None:
            link_type = LinkTypes(link_type_value)

        options_data = request.link.options
        link_options = LinkOptions(_type=link_type)
        if options_data:
            link_options.delay = options_data.delay
            link_options.bandwidth = options_data.bandwidth
            link_options.per = options_data.per
            link_options.dup = options_data.dup
            link_options.jitter = options_data.jitter
            link_options.mer = options_data.mer
            link_options.burst = options_data.burst
            link_options.mburst = options_data.mburst
            link_options.unidirectional = options_data.unidirectional
            link_options.key = options_data.key
            link_options.opaque = options_data.opaque

        session.add_link(node_one_id,
                         node_two_id,
                         interface_one,
                         interface_two,
                         link_options=link_options)
        return core_pb2.AddLinkResponse(result=True)
Exemplo n.º 18
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    def test_link_options_bidirectional(self, session, tmpdir, ip_prefixes):
        """
        Test xml client methods for a ptp network.

        :param session: session for test
        :param tmpdir: tmpdir to create data in
        :param ip_prefixes: generates ip addresses for nodes
        """
        # create nodes
        node_one = session.add_node()
        interface_one = ip_prefixes.create_interface(node_one)
        node_two = session.add_node()
        interface_two = ip_prefixes.create_interface(node_two)

        # create link
        link_options_one = LinkOptions()
        link_options_one.unidirectional = 1
        link_options_one.bandwidth = 5000
        link_options_one.delay = 10
        link_options_one.per = 10.5
        link_options_one.dup = 5
        link_options_one.jitter = 5
        session.add_link(node_one.id, node_two.id, interface_one,
                         interface_two, link_options_one)
        link_options_two = LinkOptions()
        link_options_two.unidirectional = 1
        link_options_two.bandwidth = 10000
        link_options_two.delay = 20
        link_options_two.per = 10
        link_options_two.dup = 10
        link_options_two.jitter = 10
        session.update_link(
            node_two.id,
            node_one.id,
            interface_two.id,
            interface_one.id,
            link_options_two,
        )

        # instantiate session
        session.instantiate()

        # get ids for nodes
        n1_id = node_one.id
        n2_id = node_two.id

        # save xml
        xml_file = tmpdir.join("session.xml")
        file_path = xml_file.strpath
        session.save_xml(file_path)

        # verify xml file was created and can be parsed
        assert xml_file.isfile()
        assert ElementTree.parse(file_path)

        # stop current session, clearing data
        session.shutdown()

        # verify nodes have been removed from session
        with pytest.raises(CoreError):
            assert not session.get_node(n1_id)
        with pytest.raises(CoreError):
            assert not session.get_node(n2_id)

        # load saved xml
        session.open_xml(file_path, start=True)

        # verify nodes have been recreated
        assert session.get_node(n1_id)
        assert session.get_node(n2_id)
        links = []
        for node_id in session.nodes:
            node = session.nodes[node_id]
            links += node.all_link_data(0)
        assert len(links) == 2
        link_one = links[0]
        link_two = links[1]
        assert link_options_one.bandwidth == link_one.bandwidth
        assert link_options_one.delay == link_one.delay
        assert link_options_one.per == link_one.per
        assert link_options_one.dup == link_one.dup
        assert link_options_one.jitter == link_one.jitter
        assert link_options_two.bandwidth == link_two.bandwidth
        assert link_options_two.delay == link_two.delay
        assert link_options_two.per == link_two.per
        assert link_options_two.dup == link_two.dup
        assert link_options_two.jitter == link_two.jitter
Exemplo n.º 19
0
    def test_link_options(self, session, tmpdir, ip_prefixes):
        """
        Test xml client methods for a ptp network.

        :param session: session for test
        :param tmpdir: tmpdir to create data in
        :param ip_prefixes: generates ip addresses for nodes
        """
        # create nodes
        node_one = session.add_node()
        interface_one = ip_prefixes.create_interface(node_one)
        switch = session.add_node(_type=NodeTypes.SWITCH)

        # create link
        link_options = LinkOptions()
        link_options.per = 10.5
        link_options.bandwidth = 50000
        link_options.jitter = 10
        link_options.delay = 30
        link_options.dup = 5
        session.add_link(node_one.id,
                         switch.id,
                         interface_one,
                         link_options=link_options)

        # instantiate session
        session.instantiate()

        # get ids for nodes
        n1_id = node_one.id
        n2_id = switch.id

        # save xml
        xml_file = tmpdir.join("session.xml")
        file_path = xml_file.strpath
        session.save_xml(file_path)

        # verify xml file was created and can be parsed
        assert xml_file.isfile()
        assert ElementTree.parse(file_path)

        # stop current session, clearing data
        session.shutdown()

        # verify nodes have been removed from session
        with pytest.raises(CoreError):
            assert not session.get_node(n1_id)
        with pytest.raises(CoreError):
            assert not session.get_node(n2_id)

        # load saved xml
        session.open_xml(file_path, start=True)

        # verify nodes have been recreated
        assert session.get_node(n1_id)
        assert session.get_node(n2_id)
        links = []
        for node_id in session.nodes:
            node = session.nodes[node_id]
            links += node.all_link_data(0)
        link = links[0]
        assert link_options.per == link.per
        assert link_options.bandwidth == link.bandwidth
        assert link_options.jitter == link.jitter
        assert link_options.delay == link.delay
        assert link_options.dup == link.dup
Exemplo n.º 20
0
    def update_link(self,
                    node_one_id,
                    node_two_id,
                    interface_one_id=None,
                    interface_two_id=None,
                    link_options=LinkOptions()):
        """
        Update link information between nodes.

        :param int node_one_id: node one id
        :param int node_two_id: node two id
        :param int interface_one_id: interface id for node one
        :param int interface_two_id: interface id for node two
        :param core.emulator.emudata.LinkOptions link_options: data to update link with
        :return: nothing
        """
        # get node objects identified by link data
        node_one, node_two, net_one, net_two, tunnel = self._link_nodes(
            node_one_id, node_two_id)

        if node_one:
            node_one.lock.acquire()
        if node_two:
            node_two.lock.acquire()

        try:
            # wireless link
            if link_options.type == LinkTypes.WIRELESS.value:
                raise ValueError("cannot update wireless link")
            else:
                if not node_one and not node_two:
                    if net_one and net_two:
                        # modify link between nets
                        interface = net_one.getlinknetif(net_two)
                        upstream = False

                        if not interface:
                            upstream = True
                            interface = net_two.getlinknetif(net_one)

                        if not interface:
                            raise ValueError(
                                "modify unknown link between nets")

                        if upstream:
                            interface.swapparams("_params_up")
                            link_config(net_one,
                                        interface,
                                        link_options,
                                        devname=interface.name)
                            interface.swapparams("_params_up")
                        else:
                            link_config(net_one, interface, link_options)

                        if not link_options.unidirectional:
                            if upstream:
                                link_config(net_two, interface, link_options)
                            else:
                                interface.swapparams("_params_up")
                                link_config(net_two,
                                            interface,
                                            link_options,
                                            devname=interface.name)
                                interface.swapparams("_params_up")
                    else:
                        raise ValueError("modify link for unknown nodes")
                elif not node_one:
                    # node1 = layer 2node, node2 = layer3 node
                    interface = node_two.netif(interface_two_id, net_one)
                    link_config(net_one, interface, link_options)
                elif not node_two:
                    # node2 = layer 2node, node1 = layer3 node
                    interface = node_one.netif(interface_one_id, net_one)
                    link_config(net_one, interface, link_options)
                else:
                    common_networks = node_one.commonnets(node_two)
                    if not common_networks:
                        raise ValueError("no common network found")

                    for net_one, interface_one, interface_two in common_networks:
                        if interface_one_id is not None and interface_one_id != node_one.getifindex(
                                interface_one):
                            continue

                        link_config(net_one,
                                    interface_one,
                                    link_options,
                                    interface_two=interface_two)
                        if not link_options.unidirectional:
                            link_config(net_one,
                                        interface_two,
                                        link_options,
                                        interface_two=interface_one)

        finally:
            if node_one:
                node_one.lock.release()
            if node_two:
                node_two.lock.release()
Exemplo n.º 21
0
    def add_link(self,
                 node_one_id,
                 node_two_id,
                 interface_one=None,
                 interface_two=None,
                 link_options=LinkOptions()):
        """
        Add a link between nodes.

        :param int node_one_id: node one id
        :param int node_two_id: node two id
        :param core.emulator.emudata.InterfaceData interface_one: node one interface data, defaults to none
        :param core.emulator.emudata.InterfaceData interface_two: node two interface data, defaults to none
        :param core.emulator.emudata.LinkOptions link_options: data for creating link, defaults to no options
        :return:
        """
        # get node objects identified by link data
        node_one, node_two, net_one, net_two, tunnel = self._link_nodes(
            node_one_id, node_two_id)

        if node_one:
            node_one.lock.acquire()
        if node_two:
            node_two.lock.acquire()

        try:
            # wireless link
            if link_options.type == LinkTypes.WIRELESS:
                objects = [node_one, node_two, net_one, net_two]
                self._link_wireless(objects, connect=True)
            # wired link
            else:
                # 2 nodes being linked, ptp network
                if all([node_one, node_two]) and not net_one:
                    logger.info("adding link for peer to peer nodes: %s - %s",
                                node_one.name, node_two.name)
                    ptp_class = nodeutils.get_node_class(
                        NodeTypes.PEER_TO_PEER)
                    start = self.state > EventTypes.DEFINITION_STATE.value
                    net_one = self.add_object(cls=ptp_class, start=start)

                # node to network
                if node_one and net_one:
                    logger.info("adding link from node to network: %s - %s",
                                node_one.name, net_one.name)
                    interface = create_interface(node_one, net_one,
                                                 interface_one)
                    link_config(net_one, interface, link_options)

                # network to node
                if node_two and net_one:
                    logger.info("adding link from network to node: %s - %s",
                                node_two.name, net_one.name)
                    interface = create_interface(node_two, net_one,
                                                 interface_two)
                    if not link_options.unidirectional:
                        link_config(net_one, interface, link_options)

                # network to network
                if net_one and net_two:
                    logger.info("adding link from network to network: %s",
                                net_one.name, net_two.name)
                    if nodeutils.is_node(net_two, NodeTypes.RJ45):
                        interface = net_two.linknet(net_one)
                    else:
                        interface = net_one.linknet(net_two)

                    link_config(net_one, interface, link_options)

                    if not link_options.unidirectional:
                        interface.swapparams("_params_up")
                        link_config(net_two,
                                    interface,
                                    link_options,
                                    devname=interface.name)
                        interface.swapparams("_params_up")

                # a tunnel node was found for the nodes
                addresses = []
                if not node_one and all([net_one, interface_one]):
                    addresses.extend(interface_one.get_addresses())

                if not node_two and all([net_two, interface_two]):
                    addresses.extend(interface_two.get_addresses())

                # tunnel node logic
                key = link_options.key
                if key and nodeutils.is_node(net_one, NodeTypes.TUNNEL):
                    logger.info("setting tunnel key for: %s", net_one.name)
                    net_one.setkey(key)
                    if addresses:
                        net_one.addrconfig(addresses)
                if key and nodeutils.is_node(net_two, NodeTypes.TUNNEL):
                    logger.info("setting tunnel key for: %s", net_two.name)
                    net_two.setkey(key)
                    if addresses:
                        net_two.addrconfig(addresses)

                # physical node connected with tunnel
                if not net_one and not net_two and (node_one or node_two):
                    if node_one and nodeutils.is_node(node_one,
                                                      NodeTypes.PHYSICAL):
                        logger.info("adding link for physical node: %s",
                                    node_one.name)
                        addresses = interface_one.get_addresses()
                        node_one.adoptnetif(tunnel, interface_one.id,
                                            interface_one.mac, addresses)
                        link_config(node_one, tunnel, link_options)
                    elif node_two and nodeutils.is_node(
                            node_two, NodeTypes.PHYSICAL):
                        logger.info("adding link for physical node: %s",
                                    node_two.name)
                        addresses = interface_two.get_addresses()
                        node_two.adoptnetif(tunnel, interface_two.id,
                                            interface_two.mac, addresses)
                        link_config(node_two, tunnel, link_options)
        finally:
            if node_one:
                node_one.lock.release()
            if node_two:
                node_two.lock.release()
Exemplo n.º 22
0
def add_link_data(
    link_proto: core_pb2.Link
) -> Tuple[InterfaceData, InterfaceData, LinkOptions]:
    """
    Convert link proto to link interfaces and options data.

    :param link_proto: link  proto
    :return: link interfaces and options
    """
    interface_one = link_interface(link_proto.interface_one)
    interface_two = link_interface(link_proto.interface_two)

    link_type = None
    link_type_value = link_proto.type
    if link_type_value is not None:
        link_type = LinkTypes(link_type_value)

    options = LinkOptions(_type=link_type)
    options_data = link_proto.options
    if options_data:
        options.delay = options_data.delay
        options.bandwidth = options_data.bandwidth
        options.per = options_data.per
        options.dup = options_data.dup
        options.jitter = options_data.jitter
        options.mer = options_data.mer
        options.burst = options_data.burst
        options.mburst = options_data.mburst
        options.unidirectional = options_data.unidirectional
        options.key = options_data.key
        options.opaque = options_data.opaque

    return interface_one, interface_two, options
Exemplo n.º 23
0
    coreemu = CoreEmu()
    session = coreemu.create_session()

    # must be in configuration state for nodes to start, when using "node_add" below
    session.set_state(EventTypes.CONFIGURATION_STATE)

    # create switch network node
    switch = session.add_node(_type=NodeTypes.SWITCH)

    print "Everything is set up now."

    # create nodes
    for _ in xrange(2):
        node = session.add_node()
        interface = prefixes.create_interface(node)
        link_opts = LinkOptions()
        link_opts.delay = {{delay}}
        link_opts.bandwidth = {{mean_bw}}
        session.add_link(node.objid,
                         switch.objid,
                         interface_one=interface,
                         link_options=link_opts)

    print "Links are set up."

    # instantiate session
    session.instantiate()

    # get nodes to run example
    first_node = session.get_object(2)
    last_node = session.get_object(3)
Exemplo n.º 24
0
    def read_links(self):
        link_elements = self.scenario.find("links")
        if link_elements is None:
            return

        for link_element in link_elements.iterchildren():
            node_one = get_int(link_element, "node_one")
            node_two = get_int(link_element, "node_two")

            interface_one_element = link_element.find("interface_one")
            interface_one = None
            if interface_one_element is not None:
                interface_one = create_interface_data(interface_one_element)

            interface_two_element = link_element.find("interface_two")
            interface_two = None
            if interface_two_element is not None:
                interface_two = create_interface_data(interface_two_element)

            options_element = link_element.find("options")
            link_options = LinkOptions()
            if options_element is not None:
                link_options.bandwidth = get_float(options_element, "bandwidth")
                link_options.burst = get_float(options_element, "burst")
                link_options.delay = get_float(options_element, "delay")
                link_options.dup = get_float(options_element, "dup")
                link_options.mer = get_float(options_element, "mer")
                link_options.mburst = get_float(options_element, "mburst")
                link_options.jitter = get_float(options_element, "jitter")
                link_options.key = get_float(options_element, "key")
                link_options.per = get_float(options_element, "per")
                link_options.unidirectional = get_int(options_element, "unidirectional")
                link_options.session = options_element.get("session")
                link_options.emulation_id = get_int(options_element, "emulation_id")
                link_options.network_id = get_int(options_element, "network_id")
                link_options.opaque = options_element.get("opaque")
                link_options.gui_attributes = options_element.get("gui_attributes")

            logger.info("reading link node_one(%s) node_two(%s)", node_one, node_two)
            self.session.add_link(node_one, node_two, interface_one, interface_two, link_options)