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huawei_lte_exporter/huwawei_lte_exporter
2020-04-06 21:27:29 +01:00

80 lines
3.2 KiB
Python
Executable File

#!/usr/bin/env python3
import os
import pprint
import http.server as SimpleHTTPServer
import socketserver as SocketServer
from huawei_lte_api.Client import Client
from huawei_lte_api.AuthorizedConnection import AuthorizedConnection
from huawei_lte_api.Connection import Connection
def prom_exporter():
MANDATORY_ENV_VARS = ["ROUTER_ADDRESS", "ROUTER_USER", "ROUTER_PASS", "PROM_PORT"]
for var in MANDATORY_ENV_VARS:
if var not in os.environ:
raise EnvironmentError("Failed because {} is not set.".format(var))
# Auth to router
conn ='http://'+os.environ.get('ROUTER_USER')+':'+os.environ.get('ROUTER_PASS')+'@'+os.environ.get('ROUTER_ADDRESS')+'/'
#print('Connecting to '+conn)
connection = AuthorizedConnection(conn)
# Initiatise client
client = Client(connection)
#pprint.pprint(client.device.signal()) # Can be accessed without authorization
#pprint.pprint(client.device.information()) # Needs valid authorization, will throw exception if invalid credentials are passed in URL
dev = 'deviceName="'+ client.device.information().get('DeviceName')+'",iccid="'+client.device.information().get('Iccid')+'"'
signal = { 'band' : client.device.signal().get('band'),
'rsrp' : client.device.signal().get('rsrp').replace("dBm", ""),
'rsrq' : client.device.signal().get('rsrq').replace("dB", ""),
'rssi' : client.device.signal().get('rssi').replace("dBm", ""),
'sinr' : client.device.signal().get('sinr').replace("dB", "")
}
# HELP ifInDiscards The number of inbound packets which were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher-layer protocol - 1.3.6.1.2.1.2.2.1.13
# TYPE ifInDiscards counter
#ifInDiscards{ifAlias="",ifDescr="atm0",ifIndex="7",ifName=""} 81
response=[]
# Band
response.append('HELP band The signal band the LTE connection is using')
response.append('TYPE band gauge')
response.append('band{'+dev+'} '+signal.get('band'))
# rsrp
response.append('HELP rsrp The average power received from a single Reference signal, and Its typical range is around -44dbm (good) to -140dbm(bad)')
response.append('TYPE rsrp gauge')
response.append('rsrp{'+dev+'} '+signal.get('rsrp'))
# rsrq
response.append('HELP rsrq Indicates quality of the received signal, and its range is typically -19.5dB(bad) to -3dB (good)')
response.append('TYPE rsrq gauge')
response.append('rsrq{'+dev+'} '+signal.get('rsrq'))
# rssi
response.append('HELP rssi Represents the entire received power including the wanted power from the serving cell as well as all co-channel power and other sources of noise in dBm')
response.append('TYPE rssi gauge')
response.append('rssi{'+dev+'} '+signal.get('rssi'))
# sinr
response.append('HELP sinr The signal-to-noise ratio of the given signal in dB')
response.append('TYPE sinr gauge')
response.append('rsrq{'+dev+'} '+signal.get('sinr'))
s='\n'
return s.join(response)
class GetHandler(
SimpleHTTPServer.SimpleHTTPRequestHandler
):
def do_GET(self):
self.send_response(200)
self.end_headers()
self.wfile.write(prom_exporter().encode())
Handler = GetHandler
httpd = SocketServer.TCPServer(("", int(os.environ.get('PROM_PORT'))), Handler)
httpd.serve_forever()