Added License, update to 0.79

This commit is contained in:
Thorsten Spille 2021-06-28 12:48:35 +02:00
parent aeb423bf0b
commit a9251b6dfc
14 changed files with 655 additions and 73 deletions

View File

@ -1,6 +1,28 @@
#!/usr/bin/env python3 #!/usr/bin/env python3
# -*- encoding: utf-8; py-indent-offset: 4 -*- # -*- encoding: utf-8; py-indent-offset: 4 -*-
# #
## MIT License
##
## Copyright (c) 2021 Bash Club
##
## Permission is hereby granted, free of charge, to any person obtaining a copy
## of this software and associated documentation files (the "Software"), to deal
## in the Software without restriction, including without limitation the rights
## to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
## copies of the Software, and to permit persons to whom the Software is
## furnished to do so, subject to the following conditions:
##
## The above copyright notice and this permission notice shall be included in all
## copies or substantial portions of the Software.
##
## THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
## IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
## FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
## AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
## LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
## OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
## SOFTWARE.
from cmk.gui.i18n import _ from cmk.gui.i18n import _
from .agent_based_api.v1 import ( from .agent_based_api.v1 import (
@ -8,9 +30,13 @@ from .agent_based_api.v1 import (
register, register,
render, render,
Result, Result,
IgnoreResults,
Service, Service,
State, State,
TableRow,
Attributes
) )
from .agent_based_api.v1.type_defs import CheckResult, DiscoveryResult from .agent_based_api.v1.type_defs import CheckResult, DiscoveryResult
from typing import Any, Dict, Mapping, Sequence, Optional from typing import Any, Dict, Mapping, Sequence, Optional
@ -38,6 +64,12 @@ def _safe_float(val):
except (TypeError,ValueError): except (TypeError,ValueError):
return 0 return 0
def _safe_int(val,default=0):
try:
return int(val)
except (TypeError,ValueError):
return default
def _unifi_status2state(status): def _unifi_status2state(status):
return { return {
"ok" : State.OK, "ok" : State.OK,
@ -59,6 +91,13 @@ def parse_unifi_nested_dict(string_table):
_ret[_line[0]][_line[1]] = _line[2] _ret[_line[0]][_line[1]] = _line[2]
return _ret return _ret
UNIFI_DEVICE_STATES = {
"0" : "disconnected",
"1" : "connected",
"2" : "pending"
}
############ Controller ############ ############ Controller ############
def discovery_unifi_controller(section): def discovery_unifi_controller(section):
yield Service(item="Unifi Controller") yield Service(item="Unifi Controller")
@ -88,6 +127,14 @@ def check_unifi_controller(item,section):
notice=_("Update available") notice=_("Update available")
) )
def inventory_unifi_controller(section):
yield Attributes(
path=["software","os"],
inventory_attributes={
"controller_version" : section.get("controller_version")
}
)
register.agent_section( register.agent_section(
name = 'unifi_controller', name = 'unifi_controller',
parse_function = parse_unifi_dict parse_function = parse_unifi_dict
@ -99,6 +146,12 @@ register.check_plugin(
discovery_function=discovery_unifi_controller, discovery_function=discovery_unifi_controller,
check_function=check_unifi_controller, check_function=check_unifi_controller,
) )
register.inventory_plugin(
name = "unifi_controller",
inventory_function = inventory_unifi_controller
)
############ SITES ########### ############ SITES ###########
def discovery_unifi_sites(section): def discovery_unifi_sites(section):
@ -107,15 +160,15 @@ def discovery_unifi_sites(section):
def check_unifi_sites(item,section): def check_unifi_sites(item,section):
site = next(filter(lambda x: x.desc == item,section.values())) site = next(filter(lambda x: x.desc == item,section.values()))
yield Metric("satisfaction",max(0,interfaces.saveint(site.satisfaction))) yield Metric("satisfaction",max(0,_safe_int(site.satisfaction)))
if site.lan_status != "unknown": if site.lan_status != "unknown":
yield Metric("lan_user_sta",interfaces.saveint(site.lan_num_user)) yield Metric("lan_user_sta",_safe_int(site.lan_num_user))
yield Metric("lan_guest_sta",interfaces.saveint(site.lan_num_guest)) yield Metric("lan_guest_sta",_safe_int(site.lan_num_guest))
yield Metric("if_in_octets",interfaces.saveint(site.lan_rx_bytes_r)) yield Metric("if_in_octets",_safe_int(site.lan_rx_bytes_r))
#yield Metric("if_in_bps",interfaces.saveint(site.lan_rx_bytes_r)*8) #yield Metric("if_in_bps",_safe_int(site.lan_rx_bytes_r)*8)
yield Metric("if_out_octets",interfaces.saveint(site.lan_tx_bytes_r)) yield Metric("if_out_octets",_safe_int(site.lan_tx_bytes_r))
#yield Metric("if_out_bps",interfaces.saveint(site.lan_tx_bytes_r)*8) #yield Metric("if_out_bps",_safe_int(site.lan_tx_bytes_r)*8)
yield Result( yield Result(
state=_unifi_status2state(site.lan_status), state=_unifi_status2state(site.lan_status),
@ -127,11 +180,11 @@ def check_unifi_sites(item,section):
#) #)
if site.wlan_status != "unknown": if site.wlan_status != "unknown":
yield Metric("wlan_user_sta",interfaces.saveint(site.wlan_num_user)) yield Metric("wlan_user_sta",_safe_int(site.wlan_num_user))
yield Metric("wlan_guest_sta",interfaces.saveint(site.wlan_num_guest)) yield Metric("wlan_guest_sta",_safe_int(site.wlan_num_guest))
yield Metric("wlan_iot_sta",interfaces.saveint(site.wlan_num_iot)) yield Metric("wlan_iot_sta",_safe_int(site.wlan_num_iot))
yield Metric("wlan_if_in_octets",interfaces.saveint(site.wlan_rx_bytes_r)) yield Metric("wlan_if_in_octets",_safe_int(site.wlan_rx_bytes_r))
yield Metric("wlan_if_out_octets",interfaces.saveint(site.wlan_tx_bytes_r)) yield Metric("wlan_if_out_octets",_safe_int(site.wlan_tx_bytes_r))
yield Result( yield Result(
state=_unifi_status2state(site.wlan_status), state=_unifi_status2state(site.wlan_status),
summary=f"WLAN: {site.wlan_num_ap}/{site.wlan_num_adopted} AP ({site.wlan_status})" summary=f"WLAN: {site.wlan_num_ap}/{site.wlan_num_adopted} AP ({site.wlan_status})"
@ -173,6 +226,36 @@ register.check_plugin(
check_function=check_unifi_sites, check_function=check_unifi_sites,
) )
############ DEVICE_SHORTLIST ##########
def inventory_unifi_device_shortlist(section):
for _name,_device in section.items():
yield TableRow(
path=["hardware","networkdevices"],
key_columns={"_name" : _name},
inventory_columns={
"serial" : _device.get("serial"),
"_state" : UNIFI_DEVICE_STATES.get(_device.state,"unknown"),
"vendor" : "ubiquiti",
"model" : _device.get("model_name",_device.get("model")),
"version" : _device.version,
"ip_address": _device.ip,
"mac" : _device.mac
}
)
register.agent_section(
name = 'unifi_device_shortlist',
parse_function = parse_unifi_nested_dict
)
register.inventory_plugin(
name = "unifi_device_shortlist",
inventory_function = inventory_unifi_device_shortlist
)
############ DEVICE ########### ############ DEVICE ###########
def discovery_unifi_device(section): def discovery_unifi_device(section):
yield Service(item="Unifi Device") yield Service(item="Unifi Device")
@ -188,29 +271,32 @@ def discovery_unifi_device(section):
yield Service(item="Speedtest") yield Service(item="Speedtest")
def check_unifi_device(item,section): def check_unifi_device(item,section):
if section.state != "1":
yield IgnoreResults(f"device not active State: {section.state}")
if item == "Unifi Device": if item == "Unifi Device":
yield Result( yield Result(
state=State.OK, state=State.OK,
summary=f"Version: {section.version}" summary=f"Version: {section.version}"
) )
if interfaces.saveint(section.upgradable) > 0: if _safe_int(section.upgradable) > 0:
yield Result( yield Result(
state=State.WARN, state=State.WARN,
notice=_("Update available") notice=_("Update available")
) )
if item == "Active-User": if item == "Active-User":
_active_user = interfaces.saveint(section.user_num_sta) _active_user = _safe_int(section.user_num_sta)
yield Result( yield Result(
state=State.OK, state=State.OK,
summary=f"{_active_user}" summary=f"{_active_user}"
) )
if interfaces.saveint(section.guest_num_sta) > -1: if _safe_int(section.guest_num_sta) > -1:
yield Result( yield Result(
state=State.OK, state=State.OK,
summary=f"Guest: {section.guest_num_sta}" summary=f"Guest: {section.guest_num_sta}"
) )
yield Metric("user_sta",_active_user) yield Metric("user_sta",_active_user)
yield Metric("guest_sta",interfaces.saveint(section.guest_num_sta)) yield Metric("guest_sta",_safe_int(section.guest_num_sta))
if item == "Uptime": if item == "Uptime":
_uptime = int(section.uptime) if section.uptime else -1 _uptime = int(section.uptime) if section.uptime else -1
if _uptime > 0: if _uptime > 0:
@ -224,7 +310,7 @@ def check_unifi_device(item,section):
state=State.OK, state=State.OK,
summary=f"{section.satisfaction}%" summary=f"{section.satisfaction}%"
) )
yield Metric("satisfaction",max(0,interfaces.saveint(section.satisfaction))) yield Metric("satisfaction",max(0,_safe_int(section.satisfaction)))
if item == "Temperature": if item == "Temperature":
yield Metric("temp",_safe_float(section.general_temperature)) yield Metric("temp",_safe_float(section.general_temperature))
yield Result( yield Result(
@ -264,6 +350,33 @@ def check_unifi_device(item,section):
summary=f"Device {section.uplink_device} Port: {section.uplink_remote_port}" summary=f"Device {section.uplink_device} Port: {section.uplink_remote_port}"
) )
def inventory_unifi_device(section):
yield Attributes(
path=["software","os"],
inventory_attributes={
"version" : section.get("version")
}
)
yield Attributes(
path=["software","configuration","snmp_info"],
inventory_attributes = {
"name" : section.get("name"),
"contact" : section.get("snmp_contact"),
"location" : section.get("snmp_location")
}
)
_hwdict = {
"vendor" : "ubiquiti",
}
for _key in ("model","board_rev","serial","mac"):
_val = section.get(_key)
if _val:
_hwdict[_key] = _val
yield Attributes(
path=["hardware","system"],
inventory_attributes= _hwdict
)
register.agent_section( register.agent_section(
name = 'unifi_device', name = 'unifi_device',
parse_function = parse_unifi_dict parse_function = parse_unifi_dict
@ -275,6 +388,12 @@ register.check_plugin(
discovery_function=discovery_unifi_device, discovery_function=discovery_unifi_device,
check_function=check_unifi_device, check_function=check_unifi_device,
) )
register.inventory_plugin(
name = "unifi_device",
inventory_function = inventory_unifi_device
)
############ DEVICEPORT ########### ############ DEVICEPORT ###########
@dataclass @dataclass
class unifi_interface(interfaces.Interface): class unifi_interface(interfaces.Interface):
@ -290,34 +409,87 @@ class unifi_interface(interfaces.Interface):
dot1x_mode : Optional[str] = None dot1x_mode : Optional[str] = None
dot1x_status : Optional[str] = None dot1x_status : Optional[str] = None
ip_address : Optional[str] = None ip_address : Optional[str] = None
portconf : Optional[str] = None
def __post_init__(self) -> None: def __post_init__(self) -> None:
self.finalize() self.finalize()
def _convert_unifi_counters_if(section: Section) -> interfaces.Section: def _convert_unifi_counters_if(section: Section) -> interfaces.Section:
## 10|port_idx|10
## 10|port_poe|1
## 10|poe_caps|7
## 10|op_mode|switch
## 10|poe_mode|auto
## 10|anomalies|0
## 10|autoneg|1
## 10|dot1x_mode|unknown
## 10|dot1x_status|disabled
## 10|enable|1
## 10|full_duplex|1
## 10|is_uplink|0
## 10|jumbo|1
## 10|poe_class|Unknown
## 10|poe_current|0.00
## 10|poe_enable|0
## 10|poe_good|0
## 10|poe_power|0.00
## 10|poe_voltage|0.00
## 10|rx_broadcast|1290
## 10|rx_bytes|38499976384
## 10|rx_dropped|0
## 10|rx_errors|0
## 10|rx_multicast|16423
## 10|rx_packets|125489263
## 10|satisfaction|100
## 10|satisfaction_reason|0
## 10|speed|1000
## 10|stp_pathcost|20000
## 10|stp_state|forwarding
## 10|tx_broadcast|20791854
## 10|tx_bytes|238190158091
## 10|tx_dropped|0
## 10|tx_errors|0
## 10|tx_multicast|262691
## 10|tx_packets|228482694
## 10|tx_bytes_r|17729
## 10|rx_bytes_r|176941
## 10|bytes_r|194671
## 10|name|Port 10
## 10|aggregated_by|0
## 10|oper_status|1
## 10|admin_status|1
## 10|portconf|ALL
## unifi_interface(index='10', descr='Port 10', alias='Port 10', type='6', speed=1000000000, oper_status='1',
## in_octets=38448560321, in_ucast=125404491, in_mcast=16414, in_bcast=1290, in_discards=0, in_errors=0,
## out_octets=238185160794, out_ucast=228451699, out_mcast=262551, out_bcast=20783341, out_discards=0, out_errors=0,
## out_qlen=0, phys_address='', oper_status_name='up', speed_as_text='', group=None, node=None, admin_status='1',
## total_octets=276633721115, jumbo=True, satisfaction=100,
## poe_enable=False, poe_mode='auto', poe_good=None, poe_current=0.0, poe_power=0.0, poe_voltage=0.0, poe_class='Unknown',
## dot1x_mode='unknown',dot1x_status='disabled', ip_address='', portconf='ALL')
return [ return [
unifi_interface( unifi_interface(
index=str(netif.port_idx), index=str(netif.port_idx),
descr=netif.name, descr=netif.name,
alias=netif.name, alias=netif.name,
type='6', type='6',
speed=interfaces.saveint(netif.speed)*1000000, speed=_safe_int(netif.speed)*1000000,
oper_status=netif.oper_status, oper_status=netif.oper_status,
admin_status=netif.admin_status, admin_status=netif.admin_status,
in_octets=interfaces.saveint(netif.rx_bytes), in_octets=_safe_int(netif.rx_bytes),
in_ucast=interfaces.saveint(netif.rx_packets), in_ucast=_safe_int(netif.rx_packets),
in_mcast=interfaces.saveint(netif.rx_multicast), in_mcast=_safe_int(netif.rx_multicast),
in_bcast=interfaces.saveint(netif.rx_broadcast), in_bcast=_safe_int(netif.rx_broadcast),
in_discards=interfaces.saveint(netif.rx_dropped), in_discards=_safe_int(netif.rx_dropped),
in_errors=interfaces.saveint(netif.rx_errors), in_errors=_safe_int(netif.rx_errors),
out_octets=interfaces.saveint(netif.tx_bytes), out_octets=_safe_int(netif.tx_bytes),
out_ucast=interfaces.saveint(netif.tx_packets), out_ucast=_safe_int(netif.tx_packets),
out_mcast=interfaces.saveint(netif.tx_multicast), out_mcast=_safe_int(netif.tx_multicast),
out_bcast=interfaces.saveint(netif.tx_broadcast), out_bcast=_safe_int(netif.tx_broadcast),
out_discards=interfaces.saveint(netif.tx_dropped), out_discards=_safe_int(netif.tx_dropped),
out_errors=interfaces.saveint(netif.tx_errors), out_errors=_safe_int(netif.tx_errors),
jumbo=True if netif.jumbo == "1" else False, jumbo=True if netif.jumbo == "1" else False,
satisfaction=interfaces.saveint(netif.satisfaction) if netif.satisfaction and netif.oper_status == "1" else 0, satisfaction=_safe_int(netif.satisfaction) if netif.satisfaction and netif.oper_status == "1" else 0,
poe_enable=True if netif.poe_enable == "1" else False, poe_enable=True if netif.poe_enable == "1" else False,
poe_mode=netif.poe_mode, poe_mode=netif.poe_mode,
poe_current=float(netif.poe_current) if netif.poe_current else 0, poe_current=float(netif.poe_current) if netif.poe_current else 0,
@ -326,7 +498,8 @@ def _convert_unifi_counters_if(section: Section) -> interfaces.Section:
poe_class=netif.poe_class, poe_class=netif.poe_class,
dot1x_mode=netif.dot1x_mode, dot1x_mode=netif.dot1x_mode,
dot1x_status=netif.dot1x_status, dot1x_status=netif.dot1x_status,
ip_address=netif.ip ip_address=netif.ip,
portconf=netif.portconf
) for netif in parse_unifi_nested_dict(section).values() ) for netif in parse_unifi_nested_dict(section).values()
] ]
@ -348,13 +521,19 @@ def check_unifi_network_port_if( ##fixme parsed_section_name
section: Section, section: Section,
) -> CheckResult: ) -> CheckResult:
_converted_ifs = _convert_unifi_counters_if(section) _converted_ifs = _convert_unifi_counters_if(section)
iface = next(filter(lambda x: item in (x.index,x.alias),_converted_ifs),None) ## fix Service Discovery appearance alias/descr iface = next(filter(lambda x: _safe_int(item,-1) == _safe_int(x.index) or item == x.alias,_converted_ifs),None) ## fix Service Discovery appearance alias/descr
yield from interfaces.check_multiple_interfaces( yield from interfaces.check_multiple_interfaces(
item, item,
params, params,
_converted_ifs, _converted_ifs,
) )
if iface: if iface:
#pprint(iface)
if iface.portconf:
yield Result(
state=State.OK,
summary=f"Network: {iface.portconf}"
)
yield Metric("satisfaction",max(0,iface.satisfaction)) yield Metric("satisfaction",max(0,iface.satisfaction))
#pprint(iface) #pprint(iface)
if iface.poe_enable: if iface.poe_enable:
@ -371,6 +550,35 @@ def check_unifi_network_port_if( ##fixme parsed_section_name
summary=f"IP: {iface.ip_address}" summary=f"IP: {iface.ip_address}"
) )
def inventory_unifi_network_ports(section):
_total_ethernet_ports = 0
_available_ethernet_ports = 0
for _iface in parse_unifi_nested_dict(section).values():
_total_ethernet_ports +=1
_available_ethernet_ports +=1 if _iface.oper_status == '2' else 0
yield TableRow(
path=["networking","interfaces"],
key_columns={"index" : _safe_int(_iface.port_idx)},
inventory_columns={
"description" : _iface.name,
"alias" : _iface.name,
"speed" : _safe_int(_iface.speed)*1000000,
"oper_status" : _safe_int(_iface.oper_status),
"admin_status" : _safe_int(_iface.admin_status),
"available" : _iface.oper_status == '2',
"vlans" : _iface.portconf,
"port_type" : 6,
}
)
yield Attributes(
path=["networking"],
inventory_attributes={
"available_ethernet_ports" : _available_ethernet_ports,
"total_ethernet_ports" : _total_ethernet_ports,
"total_interfaces" : _total_ethernet_ports
}
)
register.check_plugin( register.check_plugin(
name='unifi_network_ports_if', name='unifi_network_ports_if',
@ -384,6 +592,12 @@ register.check_plugin(
check_default_parameters=interfaces.CHECK_DEFAULT_PARAMETERS, check_default_parameters=interfaces.CHECK_DEFAULT_PARAMETERS,
check_function=check_unifi_network_port_if, check_function=check_unifi_network_port_if,
) )
register.inventory_plugin(
name = "unifi_network_ports",
inventory_function = inventory_unifi_network_ports
)
############ DEVICERADIO ########### ############ DEVICERADIO ###########
def discovery_unifi_radios(section): def discovery_unifi_radios(section):
#pprint(section) #pprint(section)
@ -396,12 +610,12 @@ def discovery_unifi_radios(section):
def check_unifi_radios(item,section): def check_unifi_radios(item,section):
_item = { "2.4Ghz" : "ng", "5Ghz" : "na" }.get(item) _item = { "2.4Ghz" : "ng", "5Ghz" : "na" }.get(item)
radio = next(filter(lambda x: x.radio == _item,section.values())) radio = next(filter(lambda x: x.radio == _item,section.values()))
yield Metric("read_data",interfaces.saveint(radio.rx_bytes)) yield Metric("read_data",_safe_int(radio.rx_bytes))
yield Metric("write_data",interfaces.saveint(radio.tx_bytes)) yield Metric("write_data",_safe_int(radio.tx_bytes))
yield Metric("satisfaction",max(0,interfaces.saveint(radio.satisfaction))) yield Metric("satisfaction",max(0,_safe_int(radio.satisfaction)))
yield Metric("wlan_user_sta",interfaces.saveint(radio.user_num_sta)) yield Metric("wlan_user_sta",_safe_int(radio.user_num_sta))
yield Metric("wlan_guest_sta",interfaces.saveint(radio.guest_num_sta)) yield Metric("wlan_guest_sta",_safe_int(radio.guest_num_sta))
yield Metric("wlan_iot_sta",interfaces.saveint(radio.iot_num_sta)) yield Metric("wlan_iot_sta",_safe_int(radio.iot_num_sta))
yield Result( yield Result(
state=State.OK, state=State.OK,
@ -440,41 +654,41 @@ def discovery_unifi_ssids(section):
def check_unifi_ssids(item,section): def check_unifi_ssids(item,section):
ssid = section.get(item) ssid = section.get(item)
_channels = ",".join(list(filter(lambda x: interfaces.saveint(x) > 0,[ssid.ng_channel,ssid.na_channel]))) _channels = ",".join(list(filter(lambda x: _safe_int(x) > 0,[ssid.ng_channel,ssid.na_channel])))
yield Result( yield Result(
state=State.OK, state=State.OK,
summary=f"Channels: {_channels}" summary=f"Channels: {_channels}"
) )
if (interfaces.saveint(ssid.ng_is_guest) + interfaces.saveint(ssid.na_is_guest)) > 0: if (_safe_int(ssid.ng_is_guest) + _safe_int(ssid.na_is_guest)) > 0:
yield Result( yield Result(
state=State.OK, state=State.OK,
summary="Guest" summary="Guest"
) )
_satisfaction = max(0,min(interfaces.saveint(ssid.ng_satisfaction),interfaces.saveint(ssid.na_satisfaction))) _satisfaction = max(0,min(_safe_int(ssid.ng_satisfaction),_safe_int(ssid.na_satisfaction)))
yield Result( yield Result(
state=State.OK, state=State.OK,
summary=f"Satisfaction: {_satisfaction}" summary=f"Satisfaction: {_satisfaction}"
) )
_num_sta = interfaces.saveint(ssid.na_num_sta) + interfaces.saveint(ssid.ng_num_sta) _num_sta = _safe_int(ssid.na_num_sta) + _safe_int(ssid.ng_num_sta)
if _num_sta > 0: if _num_sta > 0:
yield Result( yield Result(
state=State.OK, state=State.OK,
summary=f"User: {_num_sta}" summary=f"User: {_num_sta}"
) )
yield Metric("satisfaction",max(0,_satisfaction)) yield Metric("satisfaction",max(0,_satisfaction))
yield Metric("wlan_24Ghz_num_user",interfaces.saveint(ssid.ng_num_sta) ) yield Metric("wlan_24Ghz_num_user",_safe_int(ssid.ng_num_sta) )
yield Metric("wlan_5Ghz_num_user",interfaces.saveint(ssid.na_num_sta) ) yield Metric("wlan_5Ghz_num_user",_safe_int(ssid.na_num_sta) )
yield Metric("na_avg_client_signal",interfaces.saveint(ssid.na_avg_client_signal)) yield Metric("na_avg_client_signal",_safe_int(ssid.na_avg_client_signal))
yield Metric("ng_avg_client_signal",interfaces.saveint(ssid.ng_avg_client_signal)) yield Metric("ng_avg_client_signal",_safe_int(ssid.ng_avg_client_signal))
yield Metric("na_tcp_packet_loss",interfaces.saveint(ssid.na_tcp_packet_loss)) yield Metric("na_tcp_packet_loss",_safe_int(ssid.na_tcp_packet_loss))
yield Metric("ng_tcp_packet_loss",interfaces.saveint(ssid.ng_tcp_packet_loss)) yield Metric("ng_tcp_packet_loss",_safe_int(ssid.ng_tcp_packet_loss))
yield Metric("na_wifi_retries",interfaces.saveint(ssid.na_wifi_retries)) yield Metric("na_wifi_retries",_safe_int(ssid.na_wifi_retries))
yield Metric("ng_wifi_retries",interfaces.saveint(ssid.ng_wifi_retries)) yield Metric("ng_wifi_retries",_safe_int(ssid.ng_wifi_retries))
yield Metric("na_wifi_latency",interfaces.saveint(ssid.na_wifi_latency)) yield Metric("na_wifi_latency",_safe_int(ssid.na_wifi_latency))
yield Metric("ng_wifi_latency",interfaces.saveint(ssid.ng_wifi_latency)) yield Metric("ng_wifi_latency",_safe_int(ssid.ng_wifi_latency))
@ -503,19 +717,22 @@ def check_unifi_ssidlist(item,section):
state=State.OK, state=State.OK,
summary=f"Channels: {ssid.channels}" summary=f"Channels: {ssid.channels}"
) )
# if (interfaces.saveint(ssid.ng_is_guest) + interfaces.saveint(ssid.na_is_guest)) > 0:
# yield Result(
# state=State.OK,
# summary="Guest"
# )
# yield Result(
# state=State.OK,
# summary=f"Satisfaction: {_satisfaction}"
# )
yield Result( yield Result(
state=State.OK, state=State.OK,
summary=f"User: {ssid.num_sta}" summary=f"User: {ssid.num_sta}"
) )
yield Metric("wlan_24Ghz_num_user",_safe_int(ssid.ng_num_sta) )
yield Metric("wlan_5Ghz_num_user",_safe_int(ssid.na_num_sta) )
yield Metric("na_avg_client_signal",_safe_int(ssid.na_avg_client_signal))
yield Metric("ng_avg_client_signal",_safe_int(ssid.ng_avg_client_signal))
yield Metric("na_tcp_packet_loss",_safe_int(ssid.na_tcp_packet_loss))
yield Metric("ng_tcp_packet_loss",_safe_int(ssid.ng_tcp_packet_loss))
yield Metric("na_wifi_retries",_safe_int(ssid.na_wifi_retries))
yield Metric("ng_wifi_retries",_safe_int(ssid.ng_wifi_retries))
yield Metric("na_wifi_latency",_safe_int(ssid.na_wifi_latency))
yield Metric("ng_wifi_latency",_safe_int(ssid.ng_wifi_latency))
register.agent_section( register.agent_section(
name = 'unifi_ssid_list', name = 'unifi_ssid_list',
@ -530,3 +747,5 @@ register.check_plugin(
) )

View File

@ -1,8 +1,29 @@
#!/usr/bin/env python3 #!/usr/bin/env python3
# -*- encoding: utf-8; py-indent-offset: 4 -*- # -*- encoding: utf-8; py-indent-offset: 4 -*-
## MIT License
##
## Copyright (c) 2021 Bash Club
##
## Permission is hereby granted, free of charge, to any person obtaining a copy
## of this software and associated documentation files (the "Software"), to deal
## in the Software without restriction, including without limitation the rights
## to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
## copies of the Software, and to permit persons to whom the Software is
## furnished to do so, subject to the following conditions:
##
## The above copyright notice and this permission notice shall be included in all
## copies or substantial portions of the Software.
##
## THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
## IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
## FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
## AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
## LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
## OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
## SOFTWARE.
### ###
__VERSION__ = 0.75 __VERSION__ = 0.79
import sys import sys
import socket import socket
@ -14,7 +35,127 @@ from statistics import mean
from collections import defaultdict from collections import defaultdict
from pprint import pprint from pprint import pprint
try:
import cmk.utils.paths
AGENT_TMP_PATH = cmk.utils.paths.Path(cmk.utils.paths.tmp_dir, "agents/agent_unifi")
except ImportError:
AGENT_TMP_PATH = None
UNIFI_DEVICE_TABLE = {
'BZ2' : 'UAP',
'BZ2LR' : 'UAP-LR',
'U2HSR' : 'UAP-Outdoor+',
'U2IW' : 'UAP-IW',
'U2L48' : 'UAP-AC-LR',
'U2Lv2' : 'UAP-AC-LR',
'U2M' : 'UAP-Mini',
'U2O' : 'UAP-Outdoor',
'U2S48' : 'UAP-AC',
'U2Sv2' : 'UAP-AC',
'U5O' : 'UAP-Outdoor5',
'U7E' : 'UAP-AC',
'U7EDU' : 'UAP-AC-EDU',
'U7Ev2' : 'UAP-AC',
'U7HD' : 'UAP-AC-HD',
'U7SHD' : 'UAP-AC-SHD',
'U7NHD' : 'UAP-nanoHD',
'UFLHD' : 'UAP-FlexHD',
'UHDIW' : 'UAP-IW-HD',
'UAIW6' : 'U6-IW',
'UAE6' : 'U6-Extender',
'UAL6' : 'U6-Lite',
'UAM6' : 'U6-Mesh',
'UALR6' : 'U6-LR-EA',
'UAP6' : 'U6-LR',
'UALR6v2' : 'U6-LR',
'UALR6v3' : 'U6-LR',
'UCXG' : 'UAP-XG',
'UXSDM' : 'UWB-XG',
'UXBSDM' : 'UWB-XG-BK',
'UCMSH' : 'UAP-XG-Mesh',
'U7IW' : 'UAP-AC-IW',
'U7IWP' : 'UAP-AC-IW-Pro',
'U7MP' : 'UAP-AC-M-Pro',
'U7LR' : 'UAP-AC-LR',
'U7LT' : 'UAP-AC-Lite',
'U7O' : 'UAP-AC-Outdoor',
'U7P' : 'UAP-Pro',
'U7MSH' : 'UAP-AC-M',
'U7PG2' : 'UAP-AC-Pro',
'p2N' : 'PICOM2HP',
'UDMB' : 'UAP-BeaconHD',
'USF5P' : 'USW-Flex',
'US8' : 'US-8',
'US8P60' : 'US-8-60W',
'US8P150' : 'US-8-150W',
'S28150' : 'US-8-150W',
'USC8' : 'US-8',
'USC8P60' : 'US-8-60W',
'USC8P150' : 'US-8-150W',
'US16P150' : 'US-16-150W',
'S216150' : 'US-16-150W',
'US24' : 'US-24-G1',
'US24PRO' : 'USW-Pro-24-PoE',
'US24PRO2' : 'USW-Pro-24',
'US24P250' : 'US-24-250W',
'US24PL2' : 'US-L2-24-PoE',
'US24P500' : 'US-24-500W',
'S224250' : 'US-24-250W',
'S224500' : 'US-24-500W',
'US48' : 'US-48-G1',
'US48PRO' : 'USW-Pro-48-PoE',
'US48PRO2' : 'USW-Pro-48',
'US48P500' : 'US-48-500W',
'US48PL2' : 'US-L2-48-PoE',
'US48P750' : 'US-48-750W',
'S248500' : 'US-48-500W',
'S248750' : 'US-48-750W',
'US6XG150' : 'US-XG-6PoE',
'USMINI' : 'USW-Flex-Mini',
'USXG' : 'US-16-XG',
'USC8P450' : 'USW-Industrial',
'UDC48X6' : 'USW-Leaf',
'USL8A' : 'UniFi Switch Aggregation',
'USAGGPRO' : 'UniFi Switch Aggregation Pro',
'USL8LP' : 'USW-Lite-8-PoE',
'USL8MP' : 'USW-Mission-Critical',
'USL16P' : 'USW-16-PoE',
'USL16LP' : 'USW-Lite-16-PoE',
'USL24' : 'USW-24-G2',
'USL48' : 'USW-48-G2',
'USL24P' : 'USW-24-PoE',
'USL48P' : 'USW-48-PoE',
'UGW3' : 'USG-3P',
'UGW4' : 'USG-Pro-4',
'UGWHD4' : 'USG',
'UGWXG' : 'USG-XG-8',
'UDM' : 'UDM',
'UDMSE' : 'UDM-SE',
'UDMPRO' : 'UDM-Pro',
'UP4' : 'UVP-X',
'UP5' : 'UVP',
'UP5t' : 'UVP-Pro',
'UP7' : 'UVP-Executive',
'UP5c' : 'UVP',
'UP5tc' : 'UVP-Pro',
'UP7c' : 'UVP-Executive',
'UCK' : 'UCK',
'UCK-v2' : 'UCK',
'UCK-v3' : 'UCK',
'UCKG2' : 'UCK-G2',
'UCKP' : 'UCK-G2-Plus',
'UASXG' : 'UAS-XG',
'ULTE' : 'U-LTE',
'ULTEPUS' : 'U-LTE-Pro',
'ULTEPEU' : 'U-LTE-Pro',
'UP1' : 'USP-Plug',
'UP6' : 'USP-Strip',
'USPPDUP' : 'USP - Power Distribution Unit Pro',
'USPRPS' : 'USP-RPS',
'US624P' : 'UniFi6 Switch 24',
'UBB' : 'UBB',
'UXGPRO' : 'UniFi NeXt-Gen Gateway PRO'
}
try: try:
from cmk.special_agents.utils.argument_parsing import create_default_argument_parser from cmk.special_agents.utils.argument_parsing import create_default_argument_parser
@ -40,6 +181,9 @@ class unifi_object(object):
if hasattr(self,"_init"): if hasattr(self,"_init"):
self._init() self._init()
def __repr__(self):
return repr([(_k,_v) for _k,_v in self.__dict__.items() if type(_v) in (int,str)])
######################################## ########################################
###### ######
###### S S I D ###### S S I D
@ -51,9 +195,17 @@ class unifi_network_ssid(unifi_object):
self._UNIFI_SITE = self._PARENT._PARENT self._UNIFI_SITE = self._PARENT._PARENT
for _k,_v in getattr(self,"reasons_bar_chart_now",{}).items(): for _k,_v in getattr(self,"reasons_bar_chart_now",{}).items():
setattr(self,_k,_v) setattr(self,_k,_v)
setattr(self,f"{self.radio}_num_sta",self.num_sta)
setattr(self,f"{self.radio}_tcp_packet_loss",self.tcp_packet_loss)
setattr(self,f"{self.radio}_wifi_retries",self.wifi_retries)
setattr(self,f"{self.radio}_wifi_latency",self.wifi_latency)
setattr(self,f"{self.radio}_avg_client_signal",self.avg_client_signal)
def __str__(self): def __str__(self):
_ret = [] _ret = []
_unwanted = ["essid","radio","id","t","name","radio_name","wlanconf_id","is_wep","up","site_id","ap_mac","state"] _unwanted = ["essid","radio","id","t","name","radio_name","wlanconf_id","is_wep","up","site_id","ap_mac","state",
"na_num_sta","ng_num_sta","ng_tcp_packet_loss","na_tcp_packet_loss","na_wifi_retries","ng_wifi_retries",
"na_wifi_latency","ng_wifi_latency","na_avg_client_signal","ng_avg_client_signal"
]
for _k,_v in self.__dict__.items(): for _k,_v in self.__dict__.items():
if _k.startswith("_") or _k in _unwanted or type(_v) not in (str,int,float): if _k.startswith("_") or _k in _unwanted or type(_v) not in (str,int,float):
continue continue
@ -102,6 +254,9 @@ class unifi_network_port(unifi_object):
if not hasattr(self,"port_idx") and hasattr(self,"ifname"): if not hasattr(self,"port_idx") and hasattr(self,"ifname"):
self.port_idx = int(self.ifname[-1])+1 ## ethX self.port_idx = int(self.ifname[-1])+1 ## ethX
self.portconf = self._PARENT._PARENT._PORTCONFIGS.get(getattr(self,"portconf_id",None))
def _get_state(self,state): def _get_state(self,state):
return { return {
"1" : 1, ## up "1" : 1, ## up
@ -135,6 +290,7 @@ class unifi_device(unifi_object):
for _k,_v in getattr(self,"sys_stats",{}).items(): for _k,_v in getattr(self,"sys_stats",{}).items():
_k = _k.replace("-","_") _k = _k.replace("-","_")
setattr(self,_k,_v) setattr(self,_k,_v)
self.model_name = UNIFI_DEVICE_TABLE.get(self.model)
if self.type in ("ugw","udm"): if self.type in ("ugw","udm"):
## change ip to local ip ## change ip to local ip
self.wan_ip = self.ip self.wan_ip = self.ip
@ -172,7 +328,7 @@ class unifi_device(unifi_object):
def _get_short_info(self): def _get_short_info(self):
_ret = [] _ret = []
_wanted = ["version","ip","mac","serial","model","uptime","upgradeable","num_sta"] _wanted = ["version","ip","mac","serial","model","model_name","uptime","upgradeable","num_sta","adopted","state"]
for _k,_v in self.__dict__.items(): for _k,_v in self.__dict__.items():
if _k.startswith("_") or _k not in _wanted or type(_v) not in (str,int,float): if _k.startswith("_") or _k not in _wanted or type(_v) not in (str,int,float):
continue continue
@ -234,6 +390,8 @@ class unifi_site(unifi_object):
##pprint(_api.get_data("/stat/rogueap")) ##pprint(_api.get_data("/stat/rogueap"))
self._SITE_DEVICES = [] self._SITE_DEVICES = []
self._PORTCONFIGS = {}
self._get_portconfig()
self._get_devices() self._get_devices()
_satisfaction = list(filter( _satisfaction = list(filter(
lambda x: x != None,map( lambda x: x != None,map(
@ -242,6 +400,10 @@ class unifi_site(unifi_object):
)) ))
self.satisfaction = max(0,int(mean(_satisfaction)) if _satisfaction else 0) self.satisfaction = max(0,int(mean(_satisfaction)) if _satisfaction else 0)
def _get_portconfig(self):
_data = self._API.get_portconfig(site=self.name)
for _config in _data:
self._PORTCONFIGS[_config["_id"]] = _config.get("name")
def _get_devices(self): def _get_devices(self):
_data = self._API.get_devices(site=self.name) _data = self._API.get_devices(site=self.name)
@ -308,7 +470,11 @@ class unifi_controller(unifi_object):
_ret = [] _ret = []
for _ssid,_obj in _dict.items(): for _ssid,_obj in _dict.items():
_ret.append("|".join([_ssid,"num_sta",str(sum(map(lambda x: getattr(x,"num_sta",0),_obj)))])) pprint(_obj)
for _key in ("num_sta","ng_num_sta","na_num_sta","ng_tcp_packet_loss","na_tcp_packet_loss","ng_wifi_retries","na_wifi_retries","ng_wifi_latency","na_wifi_latency"):
_ret.append("|".join([_ssid,_key,str(sum(map(lambda x: getattr(x,_key,0),_obj)))]))
_ret.append("|".join([_ssid,"ng_avg_client_signal",str(mean(map(lambda x: getattr(x,"ng_avg_client_signal",0),filter(lambda x: x.radio == "ng",_obj))))]))
_ret.append("|".join([_ssid,"na_avg_client_signal",str(mean(map(lambda x: getattr(x,"na_avg_client_signal",0),filter(lambda x: x.radio == "na",_obj))))]))
_ret.append("|".join([_ssid,"channels",",".join( _ret.append("|".join([_ssid,"channels",",".join(
sorted( sorted(
set(map(lambda x: str(getattr(x,"channel","0")),_obj)) set(map(lambda x: str(getattr(x,"channel","0")),_obj))
@ -338,7 +504,7 @@ class unifi_controller(unifi_object):
for _site in self._UNIFI_SITES: for _site in self._UNIFI_SITES:
_ret.append(str(_site)) _ret.append(str(_site))
_ret.append("<<<unifi_device_shortlist>>>") _ret.append("<<<unifi_device_shortlist:sep(124)>>>")
for _device in self._UNIFI_DEVICES: for _device in self._UNIFI_DEVICES:
if _device._piggy_back: if _device._piggy_back:
_ret.append(_device._get_short_info()) _ret.append(_device._get_short_info())
@ -351,7 +517,7 @@ class unifi_controller(unifi_object):
if self._API.PIGGYBACK_ATTRIBUT.lower() != "none": if self._API.PIGGYBACK_ATTRIBUT.lower() != "none":
## PIGGYBACK DEVICES ## ## PIGGYBACK DEVICES ##
for _device in self._UNIFI_DEVICES: for _device in self._UNIFI_DEVICES:
if _device._piggy_back: if _device._piggy_back and _device.adopted:
_ret.append(str(_device)) _ret.append(str(_device))
return "\n".join(_ret) return "\n".join(_ret)
@ -388,6 +554,9 @@ class unifi_controller_api(object):
def get_sites(self): def get_sites(self):
return self.get_data("/stat/sites",site=None) return self.get_data("/stat/sites",site=None)
def get_portconfig(self,site):
return self.get_data("/rest/portconf",site=site)
def get_devices(self,site): def get_devices(self,site):
return self.get_data("/stat/device",site=site) return self.get_data("/stat/device",site=site)
@ -409,8 +578,8 @@ class unifi_controller_api(object):
return return
raise unifi_api_exception("Login failed") raise unifi_api_exception("Login failed")
def get_data(self,path,site="default",method="GET"): def get_data(self,path,site="default",method="GET",**kwargs):
_json = self.request(method=method,path=path,site=site).json() _json = self.request(method=method,path=path,site=site,**kwargs).json()
_meta = _json.get("meta",{}) _meta = _json.get("meta",{})
if _meta.get("rc") == "ok": if _meta.get("rc") == "ok":
return _json.get("data",[]) return _json.get("data",[])
@ -470,11 +639,10 @@ if __name__ == '__main__':
if _api.is_unifios: if _api.is_unifios:
print("AgentOS: UnifiOS") print("AgentOS: UnifiOS")
#pprint(_api.get_data("rest/portconf",site="default",method="GET")) ##pprint(_api.get_data("/stat/rogueap?within=4"))
##pprint(_api.get_data("/stat/rogueap"))
##pprint(_api.get_data("/rest/user",site="default",method="GET")) ##pprint(_api.get_data("/rest/user",site="default",method="GET"))
##pprint(_api.get_data("/stat/sta",site="default",method="GET")) ##pprint(_api.get_data("/stat/sta",site="default",method="GET"))
#sys.exit(0) ##sys.exit(0)
_controller = unifi_controller(_API=_api) _controller = unifi_controller(_API=_api)
if args.rawapi == False: if args.rawapi == False:
print(_controller) print(_controller)

View File

@ -0,0 +1,13 @@
title: Unifi Controller
agents: unifi_controller
catalog: networking
licence: MIT
description:
plz fill me
item:
The name of the device
inventory:
One Service for each device

View File

@ -0,0 +1,13 @@
title: Unifi Device
agents: unifi_controller
catalog: networking
licence: MIT
description:
plz fill me
item:
The name of the device
inventory:
One Service for each device

View File

@ -0,0 +1,13 @@
title: Unifi Devicelist
catalog: networking
agents: unifi_controller
licence: MIT
description:
plz fill me
item:
The name of the device
inventory:
One Service for each device

View File

@ -0,0 +1,13 @@
title: Unifi Network Port
agents: unifi_controller
catalog: networking
licence: MIT
description:
plz fill me
item:
The name of the Port
inventory:
One Service for each Port

View File

@ -0,0 +1,13 @@
title: Unifi WLAN Radio
agents: unifi_controller
catalog: networking
licence: MIT
description:
plz fill me
item:
The name of the Radio
inventory:
One Service for each Radio

View File

@ -0,0 +1,13 @@
title: Unifi SSID
agents: unifi_controller
catalog: networking
licence: MIT
description:
plz fill me
item:
The name of the SSID
inventory:
One Service for each SSID

View File

@ -0,0 +1,13 @@
title: Unifi Site
agents: unifi_controller
catalog: networking
licence: MIT
description:
plz fill me
item:
The name of the Site
inventory:
One Service for each Site

View File

@ -0,0 +1,13 @@
title: Unifi Devicelist
catalog: networking
agents: unifi_controller
licence: MIT
description:
plz fill me
item:
The name of the device
inventory:
One Service for each device

View File

@ -1,5 +1,26 @@
#!/usr/bin/env python3 #!/usr/bin/env python3
# -*- encoding: utf-8; py-indent-offset: 4 -*- # -*- encoding: utf-8; py-indent-offset: 4 -*-
## MIT License
##
## Copyright (c) 2021 Bash Club
##
## Permission is hereby granted, free of charge, to any person obtaining a copy
## of this software and associated documentation files (the "Software"), to deal
## in the Software without restriction, including without limitation the rights
## to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
## copies of the Software, and to permit persons to whom the Software is
## furnished to do so, subject to the following conditions:
##
## The above copyright notice and this permission notice shall be included in all
## copies or substantial portions of the Software.
##
## THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
## IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
## FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
## AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
## LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
## OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
## SOFTWARE.
#Function get params (in this case is port, passed via WATO agent rule cunfiguration, hostname and ip addres of host, #Function get params (in this case is port, passed via WATO agent rule cunfiguration, hostname and ip addres of host,
#for which agent will be invoked #for which agent will be invoked

View File

@ -1,3 +1,27 @@
#!/usr/bin/env python3
# -*- encoding: utf-8; py-indent-offset: 4 -*-
## MIT License
##
## Copyright (c) 2021 Bash Club
##
## Permission is hereby granted, free of charge, to any person obtaining a copy
## of this software and associated documentation files (the "Software"), to deal
## in the Software without restriction, including without limitation the rights
## to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
## copies of the Software, and to permit persons to whom the Software is
## furnished to do so, subject to the following conditions:
##
## The above copyright notice and this permission notice shall be included in all
## copies or substantial portions of the Software.
##
## THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
## IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
## FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
## AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
## LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
## OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
## SOFTWARE.
from cmk.gui.i18n import _ from cmk.gui.i18n import _
from cmk.gui.plugins.metrics import ( from cmk.gui.plugins.metrics import (
metric_info, metric_info,

View File

@ -1,3 +1,27 @@
# -*- encoding: utf-8; py-indent-offset: 4 -*-
## MIT License
##
## Copyright (c) 2021 Bash Club
##
## Permission is hereby granted, free of charge, to any person obtaining a copy
## of this software and associated documentation files (the "Software"), to deal
## in the Software without restriction, including without limitation the rights
## to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
## copies of the Software, and to permit persons to whom the Software is
## furnished to do so, subject to the following conditions:
##
## The above copyright notice and this permission notice shall be included in all
## copies or substantial portions of the Software.
##
## THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
## IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
## FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
## AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
## LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
## OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
## SOFTWARE.
from cmk.gui.plugins.metrics import perfometer_info from cmk.gui.plugins.metrics import perfometer_info
perfometer_info.append({ perfometer_info.append({

View File

@ -1,5 +1,26 @@
#!/usr/bin/env python3 #!/usr/bin/env python3
# -*- encoding: utf-8; py-indent-offset: 4 -*- # -*- encoding: utf-8; py-indent-offset: 4 -*-
## MIT License
##
## Copyright (c) 2021 Bash Club
##
## Permission is hereby granted, free of charge, to any person obtaining a copy
## of this software and associated documentation files (the "Software"), to deal
## in the Software without restriction, including without limitation the rights
## to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
## copies of the Software, and to permit persons to whom the Software is
## furnished to do so, subject to the following conditions:
##
## The above copyright notice and this permission notice shall be included in all
## copies or substantial portions of the Software.
##
## THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
## IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
## FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
## AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
## LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
## OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
## SOFTWARE.
from cmk.gui.i18n import _ from cmk.gui.i18n import _
from cmk.gui.plugins.wato import ( from cmk.gui.plugins.wato import (
@ -50,3 +71,4 @@ rulespec_registry.register(
name='special_agents:unifi_controller', name='special_agents:unifi_controller',
valuespec=_valuespec_special_agent_unifi_controller, valuespec=_valuespec_special_agent_unifi_controller,
)) ))