#!/usr/bin/python3 ###################################################################### # # Write Starlink user terminal status info to an InfluxDB database. # # This script will poll current status and write it to the specified # InfluxDB database either once or in a periodic loop. # ###################################################################### import getopt import logging import os import signal import sys import time import warnings import grpc from influxdb import InfluxDBClient from influxdb import SeriesHelper import spacex.api.device.device_pb2 import spacex.api.device.device_pb2_grpc class Terminated(Exception): pass def handle_sigterm(signum, frame): # Turn SIGTERM into an exception so main loop can clean up raise Terminated() def main(): arg_error = False try: opts, args = getopt.getopt(sys.argv[1:], "hn:p:t:vC:D:IP:R:SU:") except getopt.GetoptError as err: print(str(err)) arg_error = True print_usage = False verbose = False default_loop_time = 0 loop_time = default_loop_time host_default = "localhost" database_default = "starlinkstats" icargs = {"host": host_default, "timeout": 5, "database": database_default} rp = None flush_limit = 6 # For each of these check they are both set and not empty string influxdb_host = os.environ.get("INFLUXDB_HOST") if influxdb_host: icargs["host"] = influxdb_host influxdb_port = os.environ.get("INFLUXDB_PORT") if influxdb_port: icargs["port"] = int(influxdb_port) influxdb_user = os.environ.get("INFLUXDB_USER") if influxdb_user: icargs["username"] = influxdb_user influxdb_pwd = os.environ.get("INFLUXDB_PWD") if influxdb_pwd: icargs["password"] = influxdb_pwd influxdb_db = os.environ.get("INFLUXDB_DB") if influxdb_db: icargs["database"] = influxdb_db influxdb_rp = os.environ.get("INFLUXDB_RP") if influxdb_rp: rp = influxdb_rp influxdb_ssl = os.environ.get("INFLUXDB_SSL") if influxdb_ssl: icargs["ssl"] = True if influxdb_ssl.lower() == "secure": icargs["verify_ssl"] = True elif influxdb_ssl.lower() == "insecure": icargs["verify_ssl"] = False else: icargs["verify_ssl"] = influxdb_ssl if not arg_error: if len(args) > 0: arg_error = True else: for opt, arg in opts: if opt == "-h": print_usage = True elif opt == "-n": icargs["host"] = arg elif opt == "-p": icargs["port"] = int(arg) elif opt == "-t": loop_time = int(arg) elif opt == "-v": verbose = True elif opt == "-C": icargs["ssl"] = True icargs["verify_ssl"] = arg elif opt == "-D": icargs["database"] = arg elif opt == "-I": icargs["ssl"] = True icargs["verify_ssl"] = False elif opt == "-P": icargs["password"] = arg elif opt == "-R": rp = arg elif opt == "-S": icargs["ssl"] = True icargs["verify_ssl"] = True elif opt == "-U": icargs["username"] = arg if "password" in icargs and "username" not in icargs: print("Password authentication requires username to be set") arg_error = True if print_usage or arg_error: print("Usage: " + sys.argv[0] + " [options...]") print("Options:") print(" -h: Be helpful") print(" -n : Hostname of InfluxDB server, default: " + host_default) print(" -p : Port number to use on InfluxDB server") print(" -t : Loop interval in seconds or 0 for no loop, default: " + str(default_loop_time)) print(" -v: Be verbose") print(" -C : Enable SSL/TLS using specified CA cert to verify server") print(" -D : Database name to use, default: " + database_default) print(" -I: Enable SSL/TLS but disable certificate verification (INSECURE!)") print(" -P : Set password for authentication") print(" -R : Retention policy name to use") print(" -S: Enable SSL/TLS using default CA cert") print(" -U : Set username for authentication") sys.exit(1 if arg_error else 0) logging.basicConfig(format="%(levelname)s: %(message)s") class GlobalState: pass gstate = GlobalState() gstate.dish_channel = None gstate.dish_id = None gstate.pending = 0 class DeviceStatusSeries(SeriesHelper): class Meta: series_name = "spacex.starlink.user_terminal.status" fields = [ "hardware_version", "software_version", "state", "alert_motors_stuck", "alert_thermal_throttle", "alert_thermal_shutdown", "alert_unexpected_location", "snr", "seconds_to_first_nonempty_slot", "pop_ping_drop_rate", "downlink_throughput_bps", "uplink_throughput_bps", "pop_ping_latency_ms", "currently_obstructed", "fraction_obstructed", ] tags = ["id"] retention_policy = rp def conn_error(msg, *args): # Connection errors that happen in an interval loop are not critical # failures, but are interesting enough to print in non-verbose mode. if loop_time > 0: print(msg % args) else: logging.error(msg, *args) def flush_pending(client): try: DeviceStatusSeries.commit(client) if verbose: print("Data points written: " + str(gstate.pending)) gstate.pending = 0 except Exception as e: conn_error("Failed writing to InfluxDB database: %s", str(e)) return 1 return 0 def get_status_retry(): """Try getting the status at most twice""" channel_reused = True while True: try: if gstate.dish_channel is None: gstate.dish_channel = grpc.insecure_channel("192.168.100.1:9200") channel_reused = False stub = spacex.api.device.device_pb2_grpc.DeviceStub(gstate.dish_channel) response = stub.Handle(spacex.api.device.device_pb2.Request(get_status={})) return response.dish_get_status except grpc.RpcError: gstate.dish_channel.close() gstate.dish_channel = None if channel_reused: # If the channel was open already, the connection may have # been lost in the time since prior loop iteration, so after # closing it, retry once, in case the dish is now reachable. if verbose: print("Dish RPC channel error") else: raise def loop_body(client): try: status = get_status_retry() DeviceStatusSeries(id=status.device_info.id, hardware_version=status.device_info.hardware_version, software_version=status.device_info.software_version, state=spacex.api.device.dish_pb2.DishState.Name(status.state), alert_motors_stuck=status.alerts.motors_stuck, alert_thermal_throttle=status.alerts.thermal_throttle, alert_thermal_shutdown=status.alerts.thermal_shutdown, alert_unexpected_location=status.alerts.unexpected_location, snr=status.snr, seconds_to_first_nonempty_slot=status.seconds_to_first_nonempty_slot, pop_ping_drop_rate=status.pop_ping_drop_rate, downlink_throughput_bps=status.downlink_throughput_bps, uplink_throughput_bps=status.uplink_throughput_bps, pop_ping_latency_ms=status.pop_ping_latency_ms, currently_obstructed=status.obstruction_stats.currently_obstructed, fraction_obstructed=status.obstruction_stats.fraction_obstructed) gstate.dish_id = status.device_info.id except grpc.RpcError: if gstate.dish_id is None: conn_error("Dish unreachable and ID unknown, so not recording state") return 1 else: if verbose: print("Dish unreachable") DeviceStatusSeries(id=gstate.dish_id, state="DISH_UNREACHABLE") gstate.pending += 1 if verbose: print("Data points queued: " + str(gstate.pending)) if gstate.pending >= flush_limit: return flush_pending(client) return 0 if "verify_ssl" in icargs and not icargs["verify_ssl"]: # user has explicitly said be insecure, so don't warn about it warnings.filterwarnings("ignore", message="Unverified HTTPS request") signal.signal(signal.SIGTERM, handle_sigterm) influx_client = InfluxDBClient(**icargs) try: next_loop = time.monotonic() while True: rc = loop_body(influx_client) if loop_time > 0: now = time.monotonic() next_loop = max(next_loop + loop_time, now) time.sleep(next_loop - now) else: break except Terminated: pass finally: # Flush on error/exit if gstate.pending: rc = flush_pending(influx_client) influx_client.close() if gstate.dish_channel is not None: gstate.dish_channel.close() sys.exit(rc) if __name__ == '__main__': main()