Exemplo n.º 1
0
 def is_own_mac(self, mac):
     """
     Check the MAC belongs to object
     :param mac:
     :return:
     """
     if self.own_macs is None:
         r = DiscoveryID.macs_for_object(self.object)
         if not r:
             self.own_macs = []
             return False
     if self.own_macs:
         mr = self.own_mac_cache.get(mac)
         if mr is None:
             mr = False
             for f, t in self.own_macs:
                 if f <= mac <= t:
                     mr = True
                     break
             self.own_mac_cache[mac] = mr
         return mr
     else:
         return False
Exemplo n.º 2
0
    def get_data(self):
        def get_container_path(self):
            # Get container path
            if not self.object:
                return None
            cp = []
            if self.object.container:
                c = self.object.container.id
                while c:
                    try:
                        o = Object.objects.get(id=c)
                        # @todo: Address data
                        if o.container:
                            cp.insert(0, {"id": o.id, "name": o.name})
                        c = o.container.id if o.container else None
                    except DoesNotExist:
                        metrics["error", ("type", "no_such_object")] += 1
                        break
            return cp

        if not self.object:
            return None
        # @todo: Stage
        # @todo: Service range
        # @todo: Open TT
        now = datetime.datetime.now()
        # Get object status and uptime

        alarms = list(
            ActiveAlarm.objects.filter(managed_object=self.object.id))

        current_start = None
        duration = None
        if self.object.is_managed:
            if self.object.get_status():
                if alarms:
                    current_state = "alarm"
                else:
                    current_state = "up"
                uptime = Uptime.objects.filter(object=self.object.id,
                                               stop=None).first()
                if uptime:
                    current_start = uptime.start
            else:
                current_state = "down"
                outage = Outage.objects.filter(object=self.object.id,
                                               stop=None).first()
                if outage is not None:
                    current_start = outage.start
        else:
            current_state = "unmanaged"
        if current_start:
            duration = now - current_start

        cp = get_container_path(self)

        # MAC addresses
        macs = []
        o_macs = DiscoveryID.macs_for_object(self.object)
        if o_macs:
            for f, l in o_macs:
                if f == l:
                    macs += [f]
                else:
                    macs += ["%s - %s" % (f, l)]

        # Links
        uplinks = set(self.object.data.uplinks)
        if len(uplinks) > 1:
            if self.object.segment.lost_redundancy:
                redundancy = "L"
            else:
                redundancy = "R"
        else:
            redundancy = "N"
        links = []
        for l in Link.object_links(self.object):
            local_interfaces = []
            remote_interfaces = []
            remote_objects = set()
            for i in l.interfaces:
                if i.managed_object.id == self.object.id:
                    local_interfaces += [i]
                else:
                    remote_interfaces += [i]
                    remote_objects.add(i.managed_object)
            if len(remote_objects) == 1:
                ro = remote_objects.pop()
                if ro.id in uplinks:
                    role = "uplink"
                else:
                    role = "downlink"
                links += [{
                    "id":
                    l.id,
                    "role":
                    role,
                    "local_interface":
                    sorted(local_interfaces,
                           key=lambda x: split_alnum(x.name)),
                    "remote_object":
                    ro,
                    "remote_interface":
                    sorted(remote_interfaces,
                           key=lambda x: split_alnum(x.name)),
                    "remote_status":
                    "up" if ro.get_status() else "down",
                }]
            links = sorted(
                links,
                key=lambda x: (x["role"] != "uplink",
                               split_alnum(x["local_interface"][0].name)),
            )
        # Build global services summary
        service_summary = ServiceSummary.get_object_summary(self.object)

        # Interfaces
        interfaces = []
        metrics_map = [
            "Interface | Load | In",
            "Interface | Load | Out",
            "Interface | Errors | In",
            "Interface | Errors | Out",
        ]

        mo = ManagedObject.objects.filter(id=self.object.id)

        ifaces_metrics, last_ts = get_interface_metrics(mo[0])
        ifaces_metrics = ifaces_metrics[mo[0]]

        objects_metrics, last_time = get_objects_metrics(mo[0])
        objects_metrics = objects_metrics.get(mo[0])

        meta = {}
        metric_type_name = dict(MetricType.objects.filter().scalar(
            "name", "measure"))
        metric_type_field = dict(MetricType.objects.filter().scalar(
            "field_name", "measure"))
        if objects_metrics:
            for path, mres in six.iteritems(objects_metrics):
                for key in mres:
                    metric_name = "%s | %s" % (key, path) if any(
                        path.split("|")) else key
                    meta[metric_name] = {
                        "type": metric_type_name[key],
                        "value": mres[key]
                    }

        for i in Interface.objects.filter(managed_object=self.object.id,
                                          type="physical"):
            load_in = "-"
            load_out = "-"
            errors_in = "-"
            errors_out = "-"
            iface_metrics = ifaces_metrics.get(str(i.name))
            if iface_metrics:
                for key, value in six.iteritems(iface_metrics):
                    if key not in metrics_map:
                        continue
                    metric_type = metric_type_name.get(
                        key) or metric_type_field.get(key)
                    if key == "Interface | Load | In":
                        load_in = ("%s%s" %
                                   (self.humanize_speed(value, metric_type),
                                    metric_type) if value else "-")
                    if key == "Interface | Load | Out":
                        load_out = ("%s%s" %
                                    (self.humanize_speed(value, metric_type),
                                     metric_type) if value else "-")
                    if key == "Interface | Errors | In":
                        errors_in = value if value else "-"
                    if key == "Interface | Errors | Out":
                        errors_out = value if value else "-"
            interfaces += [{
                "id":
                i.id,
                "name":
                i.name,
                "admin_status":
                i.admin_status,
                "oper_status":
                i.oper_status,
                "mac":
                i.mac or "",
                "full_duplex":
                i.full_duplex,
                "load_in":
                load_in,
                "load_out":
                load_out,
                "errors_in":
                errors_in,
                "errors_out":
                errors_out,
                "speed":
                max([i.in_speed or 0, i.out_speed or 0]) / 1000,
                "untagged_vlan":
                None,
                "tagged_vlan":
                None,
                "profile":
                i.profile,
                "service":
                i.service,
                "service_summary":
                service_summary.get("interface").get(i.id, {}),
                "description":
                i.description,
            }]

            si = list(i.subinterface_set.filter(enabled_afi="BRIDGE"))
            if len(si) == 1:
                si = si[0]
                interfaces[-1]["untagged_vlan"] = si.untagged_vlan
                interfaces[-1]["tagged_vlans"] = list_to_ranges(
                    si.tagged_vlans).replace(",", ", ")
        interfaces = sorted(interfaces, key=lambda x: split_alnum(x["name"]))
        # Resource groups
        # Service groups (i.e. server)
        static_services = set(self.object.static_service_groups)
        service_groups = []
        for rg_id in self.object.effective_service_groups:
            rg = ResourceGroup.get_by_id(rg_id)
            service_groups += [{
                "id": rg_id,
                "name": rg.name,
                "technology": rg.technology,
                "is_static": rg_id in static_services,
            }]
        # Client groups (i.e. client)
        static_clients = set(self.object.static_client_groups)
        client_groups = []
        for rg_id in self.object.effective_client_groups:
            rg = ResourceGroup.get_by_id(rg_id)
            client_groups += [{
                "id": rg_id,
                "name": rg.name,
                "technology": rg.technology,
                "is_static": rg_id in static_clients,
            }]
        # @todo: Administrative domain path
        # Alarms
        alarm_list = []
        for a in alarms:
            alarm_list += [{
                "id": a.id,
                "root_id": self.get_root(alarms),
                "timestamp": a.timestamp,
                "duration": now - a.timestamp,
                "subject": a.subject,
                "managed_object": a.managed_object,
                "service_summary": {
                    "service": SummaryItem.items_to_dict(a.total_services),
                    "subscriber":
                    SummaryItem.items_to_dict(a.total_subscribers),
                },
                "alarm_class": a.alarm_class,
            }]
        alarm_list = sorted(alarm_list, key=operator.itemgetter("timestamp"))

        # Maintenance
        maintenance = []
        for m in Maintenance.objects.filter(
                affected_objects__object=self.object.id,
                is_completed=False,
                start__lte=now + datetime.timedelta(hours=1),
        ):
            maintenance += [{
                "maintenance": m,
                "id": m.id,
                "subject": m.subject,
                "start": m.start,
                "stop": m.stop,
                "in_progress": m.start <= now,
            }]
        # Get Inventory
        inv = []
        for p in self.object.get_inventory():
            c = self.get_nested_inventory(p)
            c["name"] = p.name or self.object.name
            inv += [c]
        # Build result

        if self.object.platform is not None:
            platform = self.object.platform.name
        else:
            platform = "Unknown"
        if self.object.version is not None:
            version = self.object.version.version
        else:
            version = ""

        r = {
            "id":
            self.object.id,
            "object":
            self.object,
            "name":
            self.object.name,
            "address":
            self.object.address,
            "platform":
            platform,
            # self.object.platform.name if self.object.platform else "Unknown",
            "version":
            version,
            # self.object.version.version if self.object.version else "",
            "description":
            self.object.description,
            "object_profile":
            self.object.object_profile.id,
            "object_profile_name":
            self.object.object_profile.name,
            "macs":
            ", ".join(sorted(macs)),
            "segment":
            self.object.segment,
            "firmware_status":
            FirmwarePolicy.get_status(self.object.platform,
                                      self.object.version),
            "firmware_recommended":
            FirmwarePolicy.get_recommended_version(self.object.platform),
            "service_summary":
            service_summary,
            "container_path":
            cp,
            "current_state":
            current_state,
            # Start of uptime/downtime
            "current_start":
            current_start,
            # Current uptime/downtime
            "current_duration":
            duration,
            "service_groups":
            service_groups,
            "client_groups":
            client_groups,
            "tt": [],
            "links":
            links,
            "alarms":
            alarm_list,
            "interfaces":
            interfaces,
            "metrics":
            meta,
            "maintenance":
            maintenance,
            "redundancy":
            redundancy,
            "inventory":
            self.flatten_inventory(inv),
            "serial_number":
            self.object.get_attr("Serial Number"),
            "attributes":
            list(
                ManagedObjectAttribute.objects.filter(
                    managed_object=self.object.id)),
            "confdb":
            self.object.get_confdb(),
        }
        return r
Exemplo n.º 3
0
    def get_data(self):

        intervals = (
            ("y", 31557617),  # 60 * 60 * 24 * 7 * 52
            ("w", 604800),  # 60 * 60 * 24 * 7
            ("d", 86400),  # 60 * 60 * 24
            ("h", 3600),  # 60 * 60
            ("m", 60),
            ("s", 1),
        )

        def display_time(seconds):
            result = []

            for name, count in intervals:
                value = seconds // count
                if value:
                    seconds -= value * count
                    if value == 1:
                        name = name.rstrip("s")
                    result.append("{}{}".format(value, name))
            return ", ".join(result[:-1])

        def sortdict(dct):
            kys = sorted(dct.keys())
            res = OrderedDict()
            for x in kys:
                for k, v in dct.items():
                    if k == x:
                        res[k] = v
            return res

        def get_container_path(self):
            # Get container path
            if not self.object:
                return None
            cp = []
            if self.object.container:
                c = self.object.container.id
                while c:
                    try:
                        o = Object.objects.get(id=c)
                        # @todo: Address data
                        if o.container:
                            cp.insert(0, {"id": o.id, "name": o.name})
                        c = o.container.id if o.container else None
                    except DoesNotExist:
                        metrics["error", ("type", "no_such_object")] += 1
                        break
            return cp

        if not self.object:
            return None
        # @todo: Stage
        # @todo: Service range
        # @todo: Open TT
        now = datetime.datetime.now()
        # Get object status and uptime

        alarms = list(ActiveAlarm.objects.filter(managed_object=self.object.id))

        current_start = None
        duration = None
        if self.object.is_managed:
            if self.object.get_status():
                if alarms:
                    current_state = "alarm"
                else:
                    current_state = "up"
                uptime = Uptime.objects.filter(object=self.object.id, stop=None).first()
                if uptime:
                    current_start = uptime.start
            else:
                current_state = "down"
                outage = Outage.objects.filter(object=self.object.id, stop=None).first()
                if outage is not None:
                    current_start = outage.start
        else:
            current_state = "unmanaged"
        if current_start:
            duration = now - current_start

        cp = get_container_path(self)

        # MAC addresses
        macs = []
        o_macs = DiscoveryID.macs_for_object(self.object)
        if o_macs:
            for f, l in o_macs:
                if f == l:
                    macs += [f]
                else:
                    macs += ["%s - %s" % (f, l)]
        # Hostname
        hostname = ""
        did = DiscoveryID.objects.filter(object=self.object.id).first()
        if did and did.hostname:
            hostname = did.hostname
        # Links
        uplinks = set(self.object.data.uplinks)
        if len(uplinks) > 1:
            if self.object.segment.lost_redundancy:
                redundancy = "L"
            else:
                redundancy = "R"
        else:
            redundancy = "N"
        links = []
        for _link in Link.object_links(self.object):
            local_interfaces = []
            remote_interfaces = []
            remote_objects = set()
            for iface in _link.interfaces:
                if iface.managed_object.id == self.object.id:
                    local_interfaces += [iface]
                else:
                    remote_interfaces += [iface]
                    remote_objects.add(iface.managed_object)
            if len(remote_objects) == 1:
                ro = remote_objects.pop()
                if ro.id in uplinks:
                    role = "uplink"
                else:
                    role = "downlink"
                links += [
                    {
                        "id": _link.id,
                        "role": role,
                        "local_interface": sorted(
                            local_interfaces, key=lambda x: alnum_key(x.name)
                        ),
                        "remote_object": ro,
                        "remote_interface": sorted(
                            remote_interfaces, key=lambda x: alnum_key(x.name)
                        ),
                        "remote_status": "up" if ro.get_status() else "down",
                    }
                ]
            links = sorted(
                links,
                key=lambda x: (x["role"] != "uplink", alnum_key(x["local_interface"][0].name)),
            )
        # Build global services summary
        service_summary = ServiceSummary.get_object_summary(self.object)

        # Interfaces
        interfaces = []

        mo = ManagedObject.objects.filter(id=self.object.id)
        mo = mo[0]

        ifaces_metrics, last_ts = get_interface_metrics(mo)
        ifaces_metrics = ifaces_metrics[mo]

        objects_metrics, last_time = get_objects_metrics(mo)
        objects_metrics = objects_metrics.get(mo)

        # Sensors
        sensors_metrics = None
        s_metrics = None
        sensors = {}
        s_meta = []
        STATUS = {0: "OK", 1: "Alarm"}
        meric_map = {}
        if mo.get_caps().get("Sensor | Controller"):
            for mc in MetricType.objects.filter(scope=MetricScope.objects.get(name="Environment")):
                if meric_map:
                    meric_map["map"].update({mc.field_name: mc.name})
                else:
                    meric_map = {"table_name": mc.scope.table_name, "map": {mc.field_name: mc.name}}
            sensors_metrics, last_ts = get_interface_metrics(mo, meric_map)
            sensors_metrics = sensors_metrics[mo]

        m_tp = {}
        if mo.object_profile.metrics:
            for mt in mo.object_profile.metrics:
                if mt.get("threshold_profile"):
                    threshold_profile = ThresholdProfile.get_by_id(mt.get("threshold_profile"))
                    m_tp[MetricType.get_by_id(mt.get("metric_type")).name] = threshold_profile
        data = {}
        meta = []
        metric_type_name = dict(MetricType.objects.filter().scalar("name", "measure"))
        metric_type_field = dict(MetricType.objects.filter().scalar("field_name", "measure"))
        if objects_metrics:
            for path, mres in objects_metrics.items():
                t_v = False
                for key in mres:
                    m_path = path if any(path.split("|")) else key
                    m_path = " | ".join(kk.strip() for kk in m_path.split("|"))
                    if m_tp.get(key):
                        t_v = self.get_threshold_config(m_tp.get(key), int(mres[key]))
                    val = {
                        "name": m_path,
                        "type": "" if m_path == "Object | SysUptime" else metric_type_name[key],
                        "value": display_time(int(mres[key]))
                        if m_path == "Object | SysUptime"
                        else mres[key],
                        "threshold": t_v,
                    }
                    if data.get(key):
                        data[key] += [val]
                    else:
                        data[key] = [val]

        data = sortdict(data)
        for k, d in data.items():
            collapsed = False
            if len(d) == 1:
                collapsed = True
            for dd in d:
                isdanger = False
                if dd["threshold"]:
                    isdanger = True
                    collapsed = True
            meta.append({"name": k, "value": d, "collapsed": collapsed, "isdanger": isdanger})

        for i in Interface.objects.filter(managed_object=self.object.id, type="physical"):
            load_in = "-"
            load_out = "-"
            errors_in = "-"
            errors_out = "-"
            iface_metrics = ifaces_metrics.get(str(i.name))

            if iface_metrics:
                for key, value in iface_metrics.items():
                    metric_type = metric_type_name.get(key) or metric_type_field.get(key)
                    if key == "Interface | Load | In":
                        load_in = (
                            "%s%s" % (self.humanize_speed(value, metric_type), metric_type)
                            if value
                            else "-"
                        )
                    if key == "Interface | Load | Out":
                        load_out = (
                            "%s%s" % (self.humanize_speed(value, metric_type), metric_type)
                            if value
                            else "-"
                        )
                    if key == "Interface | Errors | In":
                        errors_in = value if value else "-"
                    if key == "Interface | Errors | Out":
                        errors_out = value if value else "-"
            interfaces += [
                {
                    "id": i.id,
                    "name": i.name,
                    "admin_status": i.admin_status,
                    "oper_status": i.oper_status,
                    "mac": i.mac or "",
                    "full_duplex": i.full_duplex,
                    "load_in": load_in,
                    "load_out": load_out,
                    "errors_in": errors_in,
                    "errors_out": errors_out,
                    "speed": max([i.in_speed or 0, i.out_speed or 0]) / 1000,
                    "untagged_vlan": None,
                    "tagged_vlan": None,
                    "profile": i.profile,
                    "service": i.service,
                    "service_summary": service_summary.get("interface").get(i.id, {}),
                    "description": i.description,
                }
            ]
            if sensors_metrics:
                s_metrics = sensors_metrics.get(str(i.name))
            if s_metrics:
                sens_metrics = []
                for i_metrics in i.profile.metrics:
                    sens_metrics.append(i_metrics.metric_type.name)
                for key, value in s_metrics.items():
                    if key not in sens_metrics:
                        continue
                    val = {
                        "name": key,
                        "type": metric_type_name[key],
                        "value": STATUS.get(value) if metric_type_name[key] == " " else value,
                        "threshold": None,
                    }
                    if sensors.get(i.name):
                        sensors[i.name] += [val]
                    else:
                        sensors[i.name] = [val]

            si = list(i.subinterface_set.filter(enabled_afi="BRIDGE"))
            if len(si) == 1:
                si = si[0]
                interfaces[-1]["untagged_vlan"] = si.untagged_vlan
                interfaces[-1]["tagged_vlans"] = list_to_ranges(si.tagged_vlans).replace(",", ", ")

        if sensors:
            sensors = sortdict(sensors)
            for k, d in sensors.items():
                for dd in d:
                    isdanger = False
                    if dd["threshold"]:
                        isdanger = True
                s_meta.append({"name": k, "value": d, "isdanger": isdanger})

        interfaces = sorted(interfaces, key=lambda x: alnum_key(x["name"]))
        # Resource groups
        # Service groups (i.e. server)
        static_services = set(self.object.static_service_groups)
        service_groups = []
        for rg_id in self.object.effective_service_groups:
            rg = ResourceGroup.get_by_id(rg_id)
            service_groups += [
                {
                    "id": rg_id,
                    "name": rg.name,
                    "technology": rg.technology,
                    "is_static": rg_id in static_services,
                }
            ]
        # Client groups (i.e. client)
        static_clients = set(self.object.static_client_groups)
        client_groups = []
        for rg_id in self.object.effective_client_groups:
            rg = ResourceGroup.get_by_id(rg_id)
            client_groups += [
                {
                    "id": rg_id,
                    "name": rg.name,
                    "technology": rg.technology,
                    "is_static": rg_id in static_clients,
                }
            ]
        # @todo: Administrative domain path
        # Alarms
        alarm_list = []
        for a in alarms:
            alarm_list += [
                {
                    "id": a.id,
                    "root_id": self.get_root(alarms),
                    "timestamp": a.timestamp,
                    "duration": now - a.timestamp,
                    "subject": a.subject,
                    "managed_object": a.managed_object,
                    "service_summary": {
                        "service": SummaryItem.items_to_dict(a.total_services),
                        "subscriber": SummaryItem.items_to_dict(a.total_subscribers),
                    },
                    "alarm_class": a.alarm_class,
                }
            ]
        alarm_list = sorted(alarm_list, key=operator.itemgetter("timestamp"))

        # Maintenance
        maintenance = []
        for m in Maintenance.objects.filter(
            affected_objects__object=self.object.id,
            is_completed=False,
            start__lte=now + datetime.timedelta(hours=1),
        ):
            maintenance += [
                {
                    "maintenance": m,
                    "id": m.id,
                    "subject": m.subject,
                    "start": m.start,
                    "stop": m.stop,
                    "in_progress": m.start <= now,
                }
            ]
        # Get Inventory
        inv = []
        for p in self.object.get_inventory():
            c = self.get_nested_inventory(p)
            c["name"] = p.name or self.object.name
            inv += [c]
        # Build result

        if self.object.platform is not None:
            platform = self.object.platform.name
        else:
            platform = "Unknown"
        if self.object.version is not None:
            version = self.object.version.version
        else:
            version = ""

        r = {
            "id": self.object.id,
            "object": self.object,
            "name": self.object.name,
            "address": self.object.address,
            "platform": platform,
            # self.object.platform.name if self.object.platform else "Unknown",
            "version": version,
            # self.object.version.version if self.object.version else "",
            "description": self.object.description,
            "object_profile": self.object.object_profile.id,
            "object_profile_name": self.object.object_profile.name,
            "hostname": hostname,
            "macs": ", ".join(sorted(macs)),
            "segment": self.object.segment,
            "firmware_status": FirmwarePolicy.get_status(self.object.platform, self.object.version),
            "firmware_recommended": FirmwarePolicy.get_recommended_version(self.object.platform),
            "service_summary": service_summary,
            "container_path": cp,
            "current_state": current_state,
            # Start of uptime/downtime
            "current_start": current_start,
            # Current uptime/downtime
            "current_duration": duration,
            "service_groups": service_groups,
            "client_groups": client_groups,
            "tt": [],
            "links": links,
            "alarms": alarm_list,
            "interfaces": interfaces,
            "metrics": meta,
            "sensors": s_meta,
            "maintenance": maintenance,
            "redundancy": redundancy,
            "inventory": self.flatten_inventory(inv),
            "serial_number": self.object.get_attr("Serial Number"),
            "attributes": list(
                ManagedObjectAttribute.objects.filter(managed_object=self.object.id)
            ),
            "confdb": None,
        }
        try:
            r["confdb"] = self.object.get_confdb()
        except (SyntaxError, ValueError):
            pass
        return r