def api_info_cloud(self, request, id, link_id):
self.get_object_or_404(NetworkSegment, id=id)
link = self.get_object_or_404(Link, id=link_id)
r = {
"id": str(link.id),
"name": link.name or None,
"description": link.description or None,
"objects": [],
"method": link.discovery_method,
}
o = defaultdict(list)
for i in link.interfaces:
o[i.managed_object] += [i]
for mo in sorted(o, key=lambda x: x.name):
r["objects"] += [{
"id":
mo.id,
"name":
mo.name,
"interfaces": [{
"name": i.name,
"description": i.description or None,
"status": i.status
} for i in sorted(o[mo], key=lambda x: alnum_key(x.name))],
}]
return r
def _get_interface(iface, subs, links, ifcache):
r = {
"name": qs(iface["name"]),
"type": iface["type"],
"description": qs(iface.get("description")),
"enabled_protocols": iface.get("enabled_protocols") or [],
"admin_status": iface.get("admin_status", False),
}
if iface.get("ifindex"):
r["snmp_ifindex"] = iface["ifindex"]
if iface.get("mac"):
r["mac"] = iface["mac"]
if iface.get("aggregated_interface"):
r["aggregated_interface"] = ifcache[
iface["aggregated_interface"]][-1]
# Apply profile
if iface.get("profile"):
profile = InterfaceProfile.get_by_id(iface["profile"])
r["profile"] = ManagedObjectDataStream._get_interface_profile(
profile)
# Apply subinterfaces
r["subinterfaces"] = [
ManagedObjectDataStream._get_subinterface(s)
for s in sorted(subs, key=lambda x: alnum_key(x["name"]))
]
# Apply links
if links:
r["link"] = ManagedObjectDataStream._get_link(
iface, links, ifcache)
return r
def api_info_link(self, request, id, link_id):
def q(s):
if isinstance(s, str):
s = s.encode("utf-8")
return s
self.get_object_or_404(NetworkSegment, id=id)
link = self.get_object_or_404(Link, id=link_id)
r = {
"id": str(link.id),
"name": link.name or None,
"description": link.description or None,
"objects": [],
"method": link.discovery_method,
}
o = defaultdict(list)
for i in link.interfaces:
o[i.managed_object] += [i]
for mo in sorted(o, key=lambda x: x.name):
r["objects"] += [{
"id":
mo.id,
"name":
mo.name,
"interfaces": [{
"name": i.name,
"description": i.description or None,
"status": i.status
} for i in sorted(o[mo], key=lambda x: alnum_key(x.name))],
}]
# Get link bandwidth
mo_in = defaultdict(float)
mo_out = defaultdict(float)
mos = [ManagedObject.get_by_id(mo["id"]) for mo in r["objects"]]
metric_map, last_ts = get_interface_metrics(list(o))
for mo in o:
if mo not in metric_map:
continue
for i in o[mo]:
if i.name not in metric_map[mo]:
continue
mo_in[mo] += metric_map[mo][i.name]["Interface | Load | In"]
mo_out[mo] += metric_map[mo][i.name]["Interface | Load | Out"]
if len(mos) == 2:
mo1, mo2 = mos
r["utilisation"] = [
int(max(mo_in[mo1], mo_out[mo2])),
int(max(mo_in[mo2], mo_out[mo1])),
]
else:
mv = list(mo_in.values()) + list(mo_out.values())
if mv:
r["utilisation"] = [int(max(mv))]
else:
r["utilisation"] = 0
return r
def get_template_context(self) -> Dict[str, Any]:
local_interfaces: List[Interface] = []
remote_interfaces: List[Interface] = []
for link in Link.objects.filter(linked_segments=self.attacker.id):
for iface in link.interfaces:
if iface.managed_object.segment.id == self.attacker.id:
local_interfaces += [iface]
else:
remote_interfaces += [iface]
return {
"interfaces":
list(sorted(local_interfaces, key=lambda x: alnum_key(x.name))),
"parent_interfaces":
list(sorted(remote_interfaces, key=lambda x: alnum_key(x.name))),
"attacker":
self.attacker,
"target":
self.target,
}
def api_unlinked(self, request, object_id):
def get_label(i):
if i.description:
return "%s (%s)" % (i.name, i.description)
else:
return i.name
o = self.get_object_or_404(ManagedObject, id=int(object_id))
r = [{
"id": str(i.id),
"label": get_label(i)
} for i in Interface.objects.filter(managed_object=o.id,
type="physical").order_by("name")
if not i.link]
return list(sorted(r, key=lambda x: alnum_key(x["label"])))
def split_interfaces(obj, interfaces):
# type: (ManagedObject, List[Interface]) -> Tuple[List[Interface], List[Interface]]
"""
Split list of interfaces of the links to egress (belonging to `obj`)
and ingress (leading out of object)
:param obj: Managed Object
:param interfaces: List of link interfaces
:return: List of egress links, List of ingress links
"""
ingress = [] # type: List[Interface]
egress = [] # type: List[Interface]
for iface in sorted(interfaces, key=lambda x: alnum_key(x.name)):
if iface.managed_object == obj:
egress += [iface]
else:
ingress += [iface]
return egress, ingress
def order_nodes(self, uplink, downlinks):
"""
Sort downlinks basing on uplink's interface
:param uplink: managed object id
:param downlinks: ids of downlinks
:returns: sorted list of downlinks
"""
id_to_name = {}
dl_map = {} # downlink -> uplink port
for p in self.G.node[uplink]["ports"]:
id_to_name[p["id"]] = sorted(p["ports"], key=alnum_key)[0]
for dl in downlinks:
for p in self.G.edges[uplink, dl]["ports"]:
if p in id_to_name:
dl_map[dl] = id_to_name[p]
break
return sorted(dl_map, key=lambda x: alnum_key(dl_map[x]))
def handle_portmap(self, portmap_objects=[]):
for po in portmap_objects:
for o in ManagedObjectSelector.get_objects_from_expression(po):
if not o.remote_system:
self.stdout.write("%s (%s, %s) NRI: N/A\n" %
(o.name, o.address, o.platform))
continue
portmapper = loader.get_loader(o.remote_system.name)(o)
nri = o.remote_system.name
self.stdout.write("%s (%s, %s) NRI: %s\n" %
(o.name, o.address, o.platform, nri))
r = []
for i in Interface._get_collection().find(
{
"managed_object": o.id,
"type": "physical"
},
{
"_id": 1,
"name": 1,
"nri_name": 1
},
):
rn = portmapper.to_remote(i["name"]) or self.PORT_ERROR
if rn == self.PORT_ERROR:
ln = self.PORT_ERROR
else:
ln = portmapper.to_local(rn) or self.PORT_ERROR
if i.get("nri_name") == rn and ln != self.PORT_ERROR:
status = "OK"
elif not i.get("nri_name") and ln != self.PORT_ERROR:
status = "Not in database"
elif rn == self.PORT_ERROR:
status = "Failed to convert to remote name"
else:
self.print(ln, rn, i.get("nri_name"))
status = "Failed to convert to local name"
r += [(i["name"], rn, i.get("nri_name", "--"), status)]
r = [("Local", "Remote", "Interface NRI", "Status")] + list(
sorted(r, key=lambda x: alnum_key(x[0])))
self.stdout.write(
"%s\n" %
format_table([0, 0, 0, 0], r, sep=" | ", hsep="-+-"))
def get_recommended_version(cls, platform):
"""
Get recommended version for platform
:param platform: Platform instance
:return: Version string or None
"""
if not platform:
return None
fp = FirmwarePolicy.objects.filter(platform=platform.id,
status=FS_RECOMMENDED).first()
if fp:
return fp.firmware.version
versions = []
for fp in FirmwarePolicy.objects.filter(platform=platform.id,
status=FS_ACCEPTABLE):
versions += [fp.firmware.version]
if versions:
# Get latest acceptable version
return list(sorted(versions, key=lambda x: alnum_key(x)))[-1]
return None
def _apply_interfaces(mo: ManagedObject, r):
# id -> (object id, name)
ifcache = {}
# Get interfaces
interfaces = sorted(
Interface._get_collection().find({"managed_object": mo.id}),
key=lambda x: alnum_key(x["name"]),
)
# Populate cache
for i in interfaces:
ifcache[i["_id"]] = (i["managed_object"], i["name"])
# Get subs
subs = defaultdict(list)
for s in SubInterface._get_collection().find({"managed_object": mo.id}):
subs[s["interface"]] += [s]
# Get links
links = defaultdict(list)
for link in Link._get_collection().find({"linked_objects": mo.id}):
for li in link.get("interfaces", []):
links[li] += [link]
# Populate cache with linked interfaces
if links:
for i in Interface._get_collection().find(
{"_id": {"$in": list(links)}}, {"_id": 1, "managed_object": 1, "name": 1}
):
ifcache[i["_id"]] = (i["managed_object"], i["name"])
# Get services
svc_ids = [i["service"] for i in interfaces if i.get("service")]
if svc_ids:
services = {svc.id: svc for svc in Service.objects.filter(id__in=svc_ids)}
else:
services = {}
# Populate
r["interfaces"] = [
ManagedObjectDataStream._get_interface(
i, subs[i["_id"]], links[i["_id"]], ifcache, set(mo.data.uplinks), services
)
for i in interfaces
]
def _apply_interfaces(mo, r):
# id -> (object id, name)
ifcache = {}
# Get interfaces
interfaces = sorted(
Interface._get_collection().find({"managed_object": mo.id}),
key=lambda x: alnum_key(x["name"]),
)
# Populate cache
for i in interfaces:
ifcache[i["_id"]] = (i["managed_object"], i["name"])
# Get subs
subs = defaultdict(list)
for s in SubInterface._get_collection().find({"managed_object":
mo.id}):
subs[s["interface"]] += [s]
# Get links
links = defaultdict(list)
for l in Link._get_collection().find({"linked_objects": mo.id}):
for li in l.get("interfaces", []):
links[li] += [l]
# Populate cache with linked interfaces
if links:
for i in Interface._get_collection().find(
{"_id": {
"$in": list(links)
}}, {
"_id": 1,
"managed_object": 1,
"name": 1
}):
ifcache[i["_id"]] = (i["managed_object"], i["name"])
# Populate
r["interfaces"] = [
ManagedObjectDataStream._get_interface(i, subs[i["_id"]],
links[i["_id"]], ifcache)
for i in interfaces
]
def match_gte(v, cv):
return alnum_key(v) >= alnum_key(cv)
def resolve_object_data(self, object):
def interface_profile_has_metrics(profile):
"""
Check interface profile has metrics
"""
for m in profile.metrics:
if m.enable_box or m.enable_periodic:
return True
return False
def interface_radio_metrics(profile):
"""
Check interface profile has metrics
"""
metrics = []
for m in profile.metrics:
if m.metric_type.name.startswith("Radio"):
metrics.append(m.metric_type.field_name)
if metrics:
return metrics
return None
def interface_dom_metrics(profile):
"""
Check interface profile has metrics
"""
metrics = []
for m in profile.metrics:
if m.metric_type.name.startswith("Interface | DOM"):
metrics.append(m.metric_type.field_name)
if metrics:
return metrics
return None
def check_metrics(metric):
"""
Object check metrics
"""
if metric.name.startswith("Check"):
return True
return False
port_types = []
object_metrics = []
object_check_metrics = []
lags = []
subif = []
radio_types = []
dom_types = []
selected_types = defaultdict(list)
selected_ifaces = set(self.extra_vars.get("var_ifaces", "").split(","))
# Get all interface profiles with configurable metrics
all_ifaces = list(Interface.objects.filter(managed_object=self.object.id))
iprof = set(i.profile for i in all_ifaces)
# @todo: Order by priority
profiles = [p for p in iprof if interface_profile_has_metrics(p)]
# Create charts for configured interface metrics
for profile in profiles:
ifaces = [i for i in all_ifaces if i.profile == profile]
ports = []
radio = []
dom = []
for iface in sorted(ifaces, key=lambda el: alnum_key(el.name)):
if iface.type == "SVI" and not iface.profile.allow_subinterface_metrics:
continue
if iface.type == "aggregated" and iface.lag_members:
lags += [
{
"name": iface.name,
"ports": [i.name for i in iface.lag_members],
"descr": self.str_cleanup(
iface.description, remove_letters=TITLE_BAD_CHARS
)
or "No description",
"status": [
", Status : ".join([i.name, i.status]) for i in iface.lag_members
],
}
]
continue
if interface_radio_metrics(profile):
radio += [
{
"name": iface.name,
"descr": self.str_cleanup(
iface.description, remove_letters=TITLE_BAD_CHARS
),
"status": iface.status,
"metrics": interface_radio_metrics(profile),
}
]
if interface_dom_metrics(profile) and iface.type == "physical":
dom += [
{
"name": iface.name,
"descr": self.str_cleanup(
iface.description, remove_letters=TITLE_BAD_CHARS
),
"status": iface.status,
"metrics": interface_dom_metrics(profile),
"type": profile.id,
"profile_name": profile.name,
}
]
if iface.type == "physical":
ports += [
{
"name": iface.name,
"descr": self.str_cleanup(
iface.description, remove_letters=TITLE_BAD_CHARS
),
"status": iface.status,
}
]
if iface.profile.allow_subinterface_metrics:
subif += [
{
"name": si.name,
"descr": self.str_cleanup(
si.description, remove_letters=TITLE_BAD_CHARS
),
}
for si in SubInterface.objects.filter(interface=iface)
]
if iface.name in selected_ifaces:
selected_types[profile.id] += [iface.name]
if ports:
port_types += [{"type": profile.id, "name": profile.name, "ports": ports}]
if radio:
radio_types += [{"type": profile.id, "name": profile.name, "ports": radio}]
if dom:
dom_types += dom
if self.object.object_profile.report_ping_rtt:
object_metrics += ["rtt"]
om = []
ocm = []
for m in self.object.object_profile.metrics or []:
mt = MetricType.get_by_id(m["metric_type"])
if not mt or not (m.get("enable_periodic", False) or m.get("enable_box", False)):
continue
if check_metrics(mt):
ocm += [{"name": mt.name, "metric": mt.field_name}]
continue
om += [mt.name]
object_metrics.extend(sorted(om))
object_check_metrics.extend(sorted(ocm, key=operator.itemgetter("name")))
return {
"port_types": port_types,
"selected_types": selected_types,
"object_metrics": object_metrics,
"object_check_metrics": object_check_metrics,
"lags": lags,
"subifaces": subif,
"radio_types": radio_types,
"dom_types": sorted(dom_types, key=lambda x: alnum_key(x["name"])),
}
def match_lte(v, cv):
return alnum_key(v) <= alnum_key(cv)
def match_lt(v, cv):
return alnum_key(v) < alnum_key(cv)
def sorted_iname(s):
return list(sorted(s, key=lambda x: alnum_key(x["name"])))
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
def iter_nodes(self):
if self.children:
for name in sorted(self.children,
key=lambda x: alnum_key(str(x or ""))):
yield self.children[name]
def test_alnum_key(input, expected):
assert alnum_key(input) == expected
def get_interfaces(mo):
return sorted(
Interface.objects.filter(managed_object=mo.id, type="physical"),
key=lambda x: alnum_key(x.name),
)
def match_gt(v, cv):
return alnum_key(v) > alnum_key(cv)
