Пример #1
0
class EmaneGlobalModel(EmaneModel):
    """
    Global EMANE configuration options.
    """

    _DEFAULT_DEV = "ctrl0"

    name = "emane"

    emulator_xml = "/usr/share/emane/manifest/nemmanager.xml"
    emulator_defaults = {
        "eventservicedevice": _DEFAULT_DEV,
        "eventservicegroup": "224.1.2.8:45703",
        "otamanagerdevice": _DEFAULT_DEV,
        "otamanagergroup": "224.1.2.8:45702"
    }
    emulator_config = emanemanifest.parse(emulator_xml, emulator_defaults)
    emulator_config.insert(
        0,
        Configuration(_id="platform_id_start",
                      _type=ConfigDataTypes.INT32,
                      default="1",
                      label="Starting Platform ID (core)"))

    nem_config = [
        Configuration(_id="nem_id_start",
                      _type=ConfigDataTypes.INT32,
                      default="1",
                      label="Starting NEM ID (core)")
    ]

    @classmethod
    def configurations(cls):
        return cls.emulator_config + cls.nem_config

    @classmethod
    def config_groups(cls):
        emulator_len = len(cls.emulator_config)
        config_len = len(cls.configurations())
        return [
            ConfigGroup("Platform Attributes", 1, emulator_len),
            ConfigGroup("NEM Parameters", emulator_len + 1, config_len)
        ]

    def __init__(self, session, object_id=None):
        super(EmaneGlobalModel, self).__init__(session, object_id)

    def build_xml_files(self, config, interface=None):
        raise NotImplementedError
Пример #2
0
class TestConfigurableOptions(ConfigurableOptions):
    name_one = "value1"
    name_two = "value2"
    options = [
        Configuration(
            _id=name_one,
            _type=ConfigDataTypes.STRING,
            label=name_one
        ),
        Configuration(
            _id=name_two,
            _type=ConfigDataTypes.STRING,
            label=name_two
        )
    ]
Пример #3
0
class EmaneBypassModel(emanemodel.EmaneModel):
    name = "emane_bypass"

    # values to ignore, when writing xml files
    config_ignore = {"none"}

    # mac definitions
    mac_library = "bypassmaclayer"
    mac_config = [
        Configuration(
            _id="none",
            _type=ConfigDataTypes.BOOL,
            default="0",
            options=["True", "False"],
            label="There are no parameters for the bypass model."
        )
    ]

    # phy definitions
    phy_library = "bypassphylayer"
    phy_config = []

    # override config groups
    @classmethod
    def config_groups(cls):
        return [
            ConfigGroup("Bypass Parameters", 1, 1),
        ]
Пример #4
0
def parse(manifest_path, defaults):
    """
    Parses a valid emane manifest file and converts the provided configuration values into ones used by core.

    :param str manifest_path: absolute manifest file path
    :param dict defaults: used to override default values for configurations
    :return: list of core configuration values
    :rtype: list
    """

    # no results when emane bindings are not present
    if not manifest:
        return []

    # load configuration file
    manifest_file = manifest.Manifest(manifest_path)
    manifest_configurations = manifest_file.getAllConfiguration()

    configurations = []
    for config_name in sorted(manifest_configurations):
        config_info = manifest_file.getConfigurationInfo(config_name)

        # map type to internal config data type value for core
        config_type = config_info.get("numeric")
        if not config_type:
            config_type = config_info.get("nonnumeric")
        config_type_name = config_type["type"]
        config_type_value = _type_value(config_type_name)

        # get default values, using provided defaults
        if config_name in defaults:
            config_default = defaults[config_name]
        else:
            config_value = config_info["values"]
            config_default = _get_default(config_type_name, config_value)

        # map to possible values used as options within the gui
        config_regex = config_info.get("regex")
        possible = _get_possible(config_type_name, config_regex)

        # define description and account for gui quirks
        config_descriptions = config_name
        if config_name.endswith("uri"):
            config_descriptions = "%s file" % config_descriptions

        configuration = Configuration(
            _id=config_name,
            _type=config_type_value,
            default=config_default,
            options=possible,
            label=config_descriptions
        )
        configurations.append(configuration)

    return configurations
Пример #5
0
class EmaneTdmaModel(emanemodel.EmaneModel):
    # model name
    name = "emane_tdma"

    # mac configuration
    mac_library = "tdmaeventschedulerradiomodel"
    mac_xml = "/usr/share/emane/manifest/tdmaeventschedulerradiomodel.xml"
    mac_defaults = {
        "pcrcurveuri":
        "/usr/share/emane/xml/models/mac/tdmaeventscheduler/tdmabasemodelpcr.xml",
    }
    mac_config = emanemanifest.parse(mac_xml, mac_defaults)

    # add custom schedule options and ignore it when writing emane xml
    schedule_name = "schedule"
    default_schedule = os.path.join(constants.CORE_DATA_DIR, "examples",
                                    "tdma", "schedule.xml")
    mac_config.insert(
        0,
        Configuration(_id=schedule_name,
                      _type=ConfigDataTypes.STRING,
                      default=default_schedule,
                      label="TDMA schedule file (core)"))
    config_ignore = {schedule_name}

    def post_startup(self):
        """
        Logic to execute after the emane manager is finished with startup.

        :return: nothing
        """
        # get configured schedule
        config = self.session.emane.get_configs(node_id=self.object_id,
                                                config_type=self.name)
        if not config:
            return
        schedule = config[self.schedule_name]

        # get the set event device
        event_device = self.session.emane.event_device

        # initiate tdma schedule
        logging.info("setting up tdma schedule: schedule(%s) device(%s)",
                     schedule, event_device)
        utils.check_cmd(
            ["emaneevent-tdmaschedule", "-i", event_device, schedule])
Пример #6
0
class Ns2ScriptedMobility(WayPointMobility):
    """
    Handles the ns-2 script format, generated by scengen/setdest or
    BonnMotion.
    """
    name = "ns2script"
    options = [
        Configuration(_id="file", _type=ConfigDataTypes.STRING, label="mobility script file"),
        Configuration(_id="refresh_ms", _type=ConfigDataTypes.UINT32, default="50", label="refresh time (ms)"),
        Configuration(_id="loop", _type=ConfigDataTypes.BOOL, default="1", options=["On", "Off"], label="loop"),
        Configuration(_id="autostart", _type=ConfigDataTypes.STRING, label="auto-start seconds (0.0 for runtime)"),
        Configuration(_id="map", _type=ConfigDataTypes.STRING, label="node mapping (optional, e.g. 0:1,1:2,2:3)"),
        Configuration(_id="script_start", _type=ConfigDataTypes.STRING, label="script file to run upon start"),
        Configuration(_id="script_pause", _type=ConfigDataTypes.STRING, label="script file to run upon pause"),
        Configuration(_id="script_stop", _type=ConfigDataTypes.STRING, label="script file to run upon stop")
    ]

    @classmethod
    def config_groups(cls):
        return [
            ConfigGroup("ns-2 Mobility Script Parameters", 1, len(cls.configurations()))
        ]

    def __init__(self, session, object_id):
        """
        Creates a Ns2ScriptedMobility instance.

        :param core.session.Session session: CORE session instance
        :param int object_id: object id
        :param config: values
        """
        super(Ns2ScriptedMobility, self).__init__(session=session, object_id=object_id)
        self._netifs = {}
        self._netifslock = threading.Lock()

        self.file = None
        self.refresh_ms = None
        self.loop = None
        self.autostart = None
        self.nodemap = {}
        self.script_start = None
        self.script_pause = None
        self.script_stop = None

    def update_config(self, config):
        self.file = config["file"]
        logging.info("ns-2 scripted mobility configured for WLAN %d using file: %s", self.object_id, self.file)
        self.refresh_ms = int(config["refresh_ms"])
        self.loop = config["loop"].lower() == "on"
        self.autostart = config["autostart"]
        self.parsemap(config["map"])
        self.script_start = config["script_start"]
        self.script_pause = config["script_pause"]
        self.script_stop = config["script_stop"]
        self.readscriptfile()
        self.copywaypoints()
        self.setendtime()

    def readscriptfile(self):
        """
        Read in mobility script from a file. This adds waypoints to a
        priority queue, sorted by waypoint time. Initial waypoints are
        stored in a separate dict.

        :return: nothing
        """
        filename = self.findfile(self.file)
        try:
            f = open(filename, "r")
        except IOError:
            logging.exception("ns-2 scripted mobility failed to load file: %s", self.file)
            return
        logging.info("reading ns-2 script file: %s" % filename)
        ln = 0
        ix = iy = iz = None
        inodenum = None
        for line in f:
            ln += 1
            if line[:2] != '$n':
                continue
            try:
                if line[:8] == "$ns_ at ":
                    if ix is not None and iy is not None:
                        self.addinitial(self.map(inodenum), ix, iy, iz)
                        ix = iy = iz = None
                    # waypoints:
                    #    $ns_ at 1.00 "$node_(6) setdest 500.0 178.0 25.0"
                    parts = line.split()
                    time = float(parts[2])
                    nodenum = parts[3][1 + parts[3].index('('):parts[3].index(')')]
                    x = float(parts[5])
                    y = float(parts[6])
                    z = None
                    speed = float(parts[7].strip('"'))
                    self.addwaypoint(time, self.map(nodenum), x, y, z, speed)
                elif line[:7] == "$node_(":
                    # initial position (time=0, speed=0):
                    #    $node_(6) set X_ 780.0
                    parts = line.split()
                    time = 0.0
                    nodenum = parts[0][1 + parts[0].index('('):parts[0].index(')')]
                    if parts[2] == 'X_':
                        if ix is not None and iy is not None:
                            self.addinitial(self.map(inodenum), ix, iy, iz)
                            ix = iy = iz = None
                        ix = float(parts[3])
                    elif parts[2] == 'Y_':
                        iy = float(parts[3])
                    elif parts[2] == 'Z_':
                        iz = float(parts[3])
                        self.addinitial(self.map(nodenum), ix, iy, iz)
                        ix = iy = iz = None
                    inodenum = nodenum
                else:
                    raise ValueError
            except ValueError:
                logging.exception("skipping line %d of file %s '%s'", ln, self.file, line)
                continue
        if ix is not None and iy is not None:
            self.addinitial(self.map(inodenum), ix, iy, iz)

    def findfile(self, file_name):
        """
        Locate a script file. If the specified file doesn't exist, look in the
        same directory as the scenario file, or in the default
        configs directory (~/.core/configs). This allows for sample files without
        absolute path names.

        :param str file_name: file name to find
        :return: absolute path to the file
        :rtype: str
        """
        if os.path.exists(file_name):
            return file_name

        if self.session.file_name is not None:
            d = os.path.dirname(self.session.file_name)
            sessfn = os.path.join(d, file_name)
            if os.path.exists(sessfn):
                return sessfn

        if self.session.user is not None:
            userfn = os.path.join('/home', self.session.user, '.core', 'configs', file_name)
            if os.path.exists(userfn):
                return userfn

        return file_name

    def parsemap(self, mapstr):
        """
        Parse a node mapping string, given as a configuration parameter.

        :param str mapstr: mapping string to parse
        :return: nothing
        """
        self.nodemap = {}
        if mapstr.strip() == "":
            return

        for pair in mapstr.split(","):
            parts = pair.split(":")
            try:
                if len(parts) != 2:
                    raise ValueError
                self.nodemap[int(parts[0])] = int(parts[1])
            except ValueError:
                logging.exception("ns-2 mobility node map error")

    def map(self, nodenum):
        """
        Map one node number (from a script file) to another.

        :param str nodenum: node id to map
        :return: mapped value or the node id itself
        :rtype: int
        """
        nodenum = int(nodenum)
        return self.nodemap.get(nodenum, nodenum)

    def startup(self):
        """
        Start running the script if autostart is enabled.
        Move node to initial positions when any autostart time is specified.
        Ignore the script if autostart is an empty string (can still be
        started via GUI controls).

        :return: nothing
        """
        if self.autostart == '':
            logging.info("not auto-starting ns-2 script for %s" % self.wlan.name)
            return
        try:
            t = float(self.autostart)
        except ValueError:
            logging.exception("Invalid auto-start seconds specified '%s' for %s", self.autostart, self.wlan.name)
            return
        self.movenodesinitial()
        logging.info("scheduling ns-2 script for %s autostart at %s" % (self.wlan.name, t))
        self.state = self.STATE_RUNNING
        self.session.event_loop.add_event(t, self.run)

    def start(self):
        """
        Handle the case when un-paused.

        :return: nothing
        """
        logging.info("starting script")
        laststate = self.state
        super(Ns2ScriptedMobility, self).start()
        if laststate == self.STATE_PAUSED:
            self.statescript("unpause")

    def run(self):
        """
        Start is pressed or autostart is triggered.

        :return: nothing
        """
        super(Ns2ScriptedMobility, self).run()
        self.statescript("run")

    def pause(self):
        """
        Pause the mobility script.

        :return: nothing
        """
        super(Ns2ScriptedMobility, self).pause()
        self.statescript("pause")

    def stop(self, move_initial=True):
        """
        Stop the mobility script.

        :param bool move_initial: flag to check if we should move node to initial position
        :return: nothing
        """
        super(Ns2ScriptedMobility, self).stop(move_initial=move_initial)
        self.statescript("stop")

    def statescript(self, typestr):
        """
        State of the mobility script.

        :param str typestr: state type string
        :return: nothing
        """
        filename = None
        if typestr == "run" or typestr == "unpause":
            filename = self.script_start
        elif typestr == "pause":
            filename = self.script_pause
        elif typestr == "stop":
            filename = self.script_stop
        if filename is None or filename == '':
            return
        filename = self.findfile(filename)
        args = ["/bin/sh", filename, typestr]
        utils.check_cmd(args, cwd=self.session.session_dir, env=self.session.get_environment())
Пример #7
0
class BasicRangeModel(WirelessModel):
    """
    Basic Range wireless model, calculates range between nodes and links
    and unlinks nodes based on this distance. This was formerly done from
    the GUI.
    """
    name = "basic_range"
    options = [
        Configuration(_id="range", _type=ConfigDataTypes.UINT32, default="275", label="wireless range (pixels)"),
        Configuration(_id="bandwidth", _type=ConfigDataTypes.UINT32, default="54000000", label="bandwidth (bps)"),
        Configuration(_id="jitter", _type=ConfigDataTypes.FLOAT, default="0.0", label="transmission jitter (usec)"),
        Configuration(_id="delay", _type=ConfigDataTypes.FLOAT, default="5000.0",
                      label="transmission delay (usec)"),
        Configuration(_id="error", _type=ConfigDataTypes.FLOAT, default="0.0", label="error rate (%)")
    ]

    @classmethod
    def config_groups(cls):
        return [
            ConfigGroup("Basic Range Parameters", 1, len(cls.configurations()))
        ]

    def __init__(self, session, object_id):
        """
        Create a BasicRangeModel instance.

        :param core.session.Session session: related core session
        :param int object_id: object id
        :param dict config: values
        """
        super(BasicRangeModel, self).__init__(session=session, object_id=object_id)
        self.session = session
        self.wlan = session.get_object(object_id)
        self._netifs = {}
        self._netifslock = threading.Lock()

        self.range = None
        self.bw = None
        self.delay = None
        self.loss = None
        self.jitter = None

    def values_from_config(self, config):
        """
        Values to convert to link parameters.

        :param dict config: values to convert
        :return: nothing
        """
        self.range = float(config["range"])
        logging.info("basic range model configured for WLAN %d using range %d", self.wlan.objid, self.range)
        self.bw = int(config["bandwidth"])
        if self.bw == 0.0:
            self.bw = None
        self.delay = float(config["delay"])
        if self.delay == 0.0:
            self.delay = None
        self.loss = float(config["error"])
        if self.loss == 0.0:
            self.loss = None
        self.jitter = float(config["jitter"])
        if self.jitter == 0.0:
            self.jitter = None

    def setlinkparams(self):
        """
        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:
                self.wlan.linkconfig(netif, bw=self.bw, delay=self.delay, loss=self.loss, duplicate=None,
                                     jitter=self.jitter)

    def get_position(self, netif):
        """
        Retrieve network interface position.

        :param netif: network interface position to retrieve
        :return: network interface position
        """
        with self._netifslock:
            return self._netifs[netif]

    def set_position(self, netif, x=None, y=None, z=None):
        """
        A node has moved; given an interface, a new (x,y,z) position has
        been set; calculate the new distance between other nodes and link or
        unlink node pairs based on the configured range.

        :param netif: network interface to set position for
        :param x: x position
        :param y: y position
        :param z: z position
        :return: nothing
        """
        self._netifslock.acquire()
        self._netifs[netif] = (x, y, z)
        if x is None or y is None:
            self._netifslock.release()
            return
        for netif2 in self._netifs:
            self.calclink(netif, netif2)
        self._netifslock.release()

    position_callback = set_position

    def update(self, moved, moved_netifs):
        """
        Node positions have changed without recalc. Update positions from
        node.position, then re-calculate links for those that have moved.
        Assumes bidirectional links, with one calculation per node pair, where
        one of the nodes has moved.

        :param bool moved: flag is it was moved
        :param list moved_netifs: moved network interfaces
        :return: nothing
        """
        with self._netifslock:
            while len(moved_netifs):
                netif = moved_netifs.pop()
                nx, ny, nz = netif.node.getposition()
                if netif in self._netifs:
                    self._netifs[netif] = (nx, ny, nz)
                for netif2 in self._netifs:
                    if netif2 in moved_netifs:
                        continue
                    self.calclink(netif, netif2)

    def calclink(self, netif, netif2):
        """
        Helper used by set_position() and update() to
        calculate distance between two interfaces and perform
        linking/unlinking. Sends link/unlink messages and updates the
        WlanNode's linked dict.

        :param netif: interface one
        :param netif2: interface two
        :return: nothing
        """
        if netif == netif2:
            return

        try:
            x, y, z = self._netifs[netif]
            x2, y2, z2 = self._netifs[netif2]

            if x2 is None or y2 is None:
                return

            d = self.calcdistance((x, y, z), (x2, y2, z2))

            # ordering is important, to keep the wlan._linked dict organized
            a = min(netif, netif2)
            b = max(netif, netif2)

            with self.wlan._linked_lock:
                linked = self.wlan.linked(a, b)

            logging.debug("checking range netif1(%s) netif2(%s): linked(%s) actual(%s) > config(%s)",
                         a.name, b.name, linked, d, self.range)
            if d > self.range:
                if linked:
                    logging.debug("was linked, unlinking")
                    self.wlan.unlink(a, b)
                    self.sendlinkmsg(a, b, unlink=True)
            else:
                if not linked:
                    logging.debug("was not linked, linking")
                    self.wlan.link(a, b)
                    self.sendlinkmsg(a, b)
        except KeyError:
            logging.exception("error getting interfaces during calclinkS")

    @staticmethod
    def calcdistance(p1, p2):
        """
        Calculate the distance between two three-dimensional points.

        :param tuple p1: point one
        :param tuple p2: point two
        :return: distance petween the points
        :rtype: float
        """
        a = p1[0] - p2[0]
        b = p1[1] - p2[1]
        c = 0
        if p1[2] is not None and p2[2] is not None:
            c = p1[2] - p2[2]
        return math.hypot(math.hypot(a, b), c)

    def update_config(self, config):
        """
        Configuration has changed during runtime.

        :param dict config: values to update configuration
        :return: nothing
        """
        self.values_from_config(config)
        self.setlinkparams()
        return True

    def create_link_data(self, interface1, interface2, message_type):
        """
        Create a wireless link/unlink data message.

        :param core.coreobj.PyCoreNetIf interface1: interface one
        :param core.coreobj.PyCoreNetIf interface2: interface two
        :param message_type: link message type
        :return: link data
        :rtype: LinkData
        """
        return LinkData(
            message_type=message_type,
            node1_id=interface1.node.objid,
            node2_id=interface2.node.objid,
            network_id=self.wlan.objid,
            link_type=LinkTypes.WIRELESS.value
        )

    def sendlinkmsg(self, netif, netif2, unlink=False):
        """
        Send a wireless link/unlink API message to the GUI.

        :param core.coreobj.PyCoreNetIf netif: interface one
        :param core.coreobj.PyCoreNetIf netif2: interface two
        :param bool unlink: unlink or not
        :return: nothing
        """
        if unlink:
            message_type = MessageFlags.DELETE.value
        else:
            message_type = MessageFlags.ADD.value

        link_data = self.create_link_data(netif, netif2, message_type)
        self.session.broadcast_link(link_data)

    def all_link_data(self, flags):
        """
        Return a list of wireless link messages for when the GUI reconnects.

        :param flags: link flags
        :return: all link data
        :rtype: list
        """
        all_links = []
        with self.wlan._linked_lock:
            for a in self.wlan._linked:
                for b in self.wlan._linked[a]:
                    if self.wlan._linked[a][b]:
                        all_links.append(self.create_link_data(a, b, flags))
        return all_links
Пример #8
0
class EmaneModel(WirelessModel):
    """
    EMANE models inherit from this parent class, which takes care of
    handling configuration messages based on the list of
    configurable parameters. Helper functions also live here.
    """
    # default mac configuration settings
    mac_library = None
    mac_xml = None
    mac_defaults = {}
    mac_config = []

    # default phy configuration settings, using the universal model
    phy_library = None
    phy_xml = "/usr/share/emane/manifest/emanephy.xml"
    phy_defaults = {
        "subid": "1",
        "propagationmodel": "2ray",
        "noisemode": "none"
    }
    phy_config = emanemanifest.parse(phy_xml, phy_defaults)

    # support for external configurations
    external_config = [
        Configuration("external", ConfigDataTypes.BOOL, default="0"),
        Configuration("platformendpoint",
                      ConfigDataTypes.STRING,
                      default="127.0.0.1:40001"),
        Configuration("transportendpoint",
                      ConfigDataTypes.STRING,
                      default="127.0.0.1:50002")
    ]

    config_ignore = set()

    @classmethod
    def configurations(cls):
        return cls.mac_config + cls.phy_config + cls.external_config

    @classmethod
    def config_groups(cls):
        mac_len = len(cls.mac_config)
        phy_len = len(cls.phy_config) + mac_len
        config_len = len(cls.configurations())
        return [
            ConfigGroup("MAC Parameters", 1, mac_len),
            ConfigGroup("PHY Parameters", mac_len + 1, phy_len),
            ConfigGroup("External Parameters", phy_len + 1, config_len)
        ]

    def build_xml_files(self, config, interface=None):
        """
        Builds xml files for this emane model. Creates a nem.xml file that points to both mac.xml and phy.xml
        definitions.

        :param dict config: emane model configuration for the node and interface
        :param interface: interface for the emane node
        :return: nothing
        """
        nem_name = emanexml.nem_file_name(self, interface)
        mac_name = emanexml.mac_file_name(self, interface)
        phy_name = emanexml.phy_file_name(self, interface)

        # check if this is external
        transport_type = "virtual"
        if interface and interface.transport_type == "raw":
            transport_type = "raw"
        transport_name = emanexml.transport_file_name(self.object_id,
                                                      transport_type)

        # create nem xml file
        nem_file = os.path.join(self.session.session_dir, nem_name)
        emanexml.create_nem_xml(self, config, nem_file, transport_name,
                                mac_name, phy_name)

        # create mac xml file
        mac_file = os.path.join(self.session.session_dir, mac_name)
        emanexml.create_mac_xml(self, config, mac_file)

        # create phy xml file
        phy_file = os.path.join(self.session.session_dir, phy_name)
        emanexml.create_phy_xml(self, config, phy_file)

    def post_startup(self):
        """
        Logic to execute after the emane manager is finished with startup.

        :return: nothing
        """
        logging.info("emane model(%s) has no post setup tasks", self.name)

    def update(self, moved, moved_netifs):
        """
        Invoked from MobilityModel when nodes are moved; this causes
        emane location events to be generated for the nodes in the moved
        list, making EmaneModels compatible with Ns2ScriptedMobility.

        :param bool moved: were nodes moved
        :param list moved_netifs: interfaces that were moved
        :return:
        """
        try:
            wlan = self.session.get_object(self.object_id)
            wlan.setnempositions(moved_netifs)
        except KeyError:
            logging.exception("error during update")

    def linkconfig(self,
                   netif,
                   bw=None,
                   delay=None,
                   loss=None,
                   duplicate=None,
                   jitter=None,
                   netif2=None):
        """
        Invoked when a Link Message is received. Default is unimplemented.

        :param core.netns.vif.Veth netif: interface one
        :param bw: bandwidth to set to
        :param delay: packet delay to set to
        :param loss: packet loss to set to
        :param duplicate: duplicate percentage to set to
        :param jitter: jitter to set to
        :param core.netns.vif.Veth netif2: interface two
        :return: nothing
        """
        logging.warn("emane model(%s) does not support link configuration",
                     self.name)
Пример #9
0
class SessionConfig(ConfigurableManager, ConfigurableOptions):
    """
    Session configuration object.
    """
    name = "session"
    options = [
        Configuration(_id="controlnet",
                      _type=ConfigDataTypes.STRING,
                      label="Control Network"),
        Configuration(_id="controlnet0",
                      _type=ConfigDataTypes.STRING,
                      label="Control Network 0"),
        Configuration(_id="controlnet1",
                      _type=ConfigDataTypes.STRING,
                      label="Control Network 1"),
        Configuration(_id="controlnet2",
                      _type=ConfigDataTypes.STRING,
                      label="Control Network 2"),
        Configuration(_id="controlnet3",
                      _type=ConfigDataTypes.STRING,
                      label="Control Network 3"),
        Configuration(_id="controlnet_updown_script",
                      _type=ConfigDataTypes.STRING,
                      label="Control Network Script"),
        Configuration(_id="enablerj45",
                      _type=ConfigDataTypes.BOOL,
                      default="1",
                      options=["On", "Off"],
                      label="Enable RJ45s"),
        Configuration(_id="preservedir",
                      _type=ConfigDataTypes.BOOL,
                      default="0",
                      options=["On", "Off"],
                      label="Preserve session dir"),
        Configuration(_id="enablesdt",
                      _type=ConfigDataTypes.BOOL,
                      default="0",
                      options=["On", "Off"],
                      label="Enable SDT3D output"),
        Configuration(_id="sdturl",
                      _type=ConfigDataTypes.STRING,
                      default=Sdt.DEFAULT_SDT_URL,
                      label="SDT3D URL")
    ]
    config_type = RegisterTlvs.UTILITY.value

    def __init__(self):
        super(SessionConfig, self).__init__()
        self.set_configs(self.default_values())

    def get_config(self,
                   _id,
                   node_id=ConfigurableManager._default_node,
                   config_type=ConfigurableManager._default_type,
                   default=None):
        value = super(SessionConfig, self).get_config(_id, node_id,
                                                      config_type, default)
        if value == "":
            value = default
        return value

    def get_config_bool(self, name, default=None):
        value = self.get_config(name)
        if value is None:
            return default
        return value.lower() == "true"

    def get_config_int(self, name, default=None):
        value = self.get_config(name, default=default)
        if value is not None:
            value = int(value)
        return value