speedtest-to-influxdb2/main.py
2021-05-19 11:39:21 +02:00

239 lines
7.8 KiB
Python
Executable file

import os
import time
import json
import datetime
import subprocess
from pythonping import ping
from multiprocessing import Process
from influxdb_client import InfluxDBClient, Point, WritePrecision
from influxdb_client.client.write_api import SYNCHRONOUS
# InfluxDB Settings
NAMESPACE = os.getenv("NAMESPACE", "None")
DB_ADDRESS = os.getenv("INFLUX_DB_ADDRESS", "influxdb:8086")
DB_TOKEN = os.getenv("INFLUX_DB_TOKEN", "")
DB_ORG = os.getenv("INFLUX_DB_ORG", "speed-org")
DB_BUCKET = os.getenv("INFLUX_DB_BUCKET", "speedtests")
DB_TAGS = os.getenv("INFLUX_DB_TAGS", None)
DB_VERIFY_SSL = os.getenv("INFLUX_DB_VERIFY_SSL", True)
# Speedtest Settings
# Time between tests (in minutes, converts to seconds).
TEST_INTERVAL = int(os.getenv("SPEEDTEST_INTERVAL", "5")) * 60
# Time before retrying a failed Speedtest (in minutes, converts to seconds).
TEST_FAIL_INTERVAL = int(os.getenv("SPEEDTEST_FAIL_INTERVAL", "5")) * 60
# Specific server ID
SERVER_ID = os.getenv("SPEEDTEST_SERVER_ID", "")
# Time between ping tests (in seconds).
PING_INTERVAL = int(os.getenv("PING_INTERVAL", "5"))
# Addresses to ping
PING_TARGETS = os.getenv("PING_TARGETS", "1.1.1.1, 8.8.8.8")
# Logging settings
DEBUG = os.getenv("SPEEDTEST_DEBUG", False)
client = InfluxDBClient(
url=DB_ADDRESS, token=DB_TOKEN, org=DB_ORG, verify_ssl=DB_VERIFY_SSL
)
write_api = client.write_api(write_options=SYNCHRONOUS)
def verbose_print(statement):
if DEBUG:
print(statement)
def pkt_loss(data):
if "packetLoss" in data.keys():
return int(data["packetLoss"])
else:
return 0
def tag_selection(data):
tags = DB_TAGS
options = {}
# tag_switch takes in _data and attaches CLIoutput to more readable ids
tag_switch = {
"namespace": NAMESPACE,
"isp": data["isp"],
"interface": data["interface"]["name"],
"internal_ip": data["interface"]["internalIp"],
"interface_mac": data["interface"]["macAddr"],
"vpn_enabled": (False if data["interface"]["isVpn"] == "false" else True),
"external_ip": data["interface"]["externalIp"],
"server_id": data["server"]["id"],
"server_name": data["server"]["name"],
"server_location": data["server"]["location"],
"server_country": data["server"]["country"],
"server_host": data["server"]["host"],
"server_port": data["server"]["port"],
"server_ip": data["server"]["ip"],
"speedtest_id": data["result"]["id"],
"speedtest_url": data["result"]["url"],
}
if tags is None:
tags = "namespace"
elif "*" in tags:
return tag_switch
else:
tags = "namespace, " + tags
tags = tags.split(",")
for tag in tags:
# split the tag string, strip and add selected tags to {options} with corresponding tag_switch data
tag = tag.strip()
options[tag] = tag_switch[tag]
return options
def format_for_influx(data):
# There is additional data in the speedtest-cli output but it is likely not necessary to store.
influx_data = [
{
"measurement": "ping",
"time": data["timestamp"],
"fields": {
"jitter": data["ping"]["jitter"],
"latency": data["ping"]["latency"],
},
},
{
"measurement": "packetLoss",
"time": data["timestamp"],
"fields": {"packetLoss": pkt_loss(data)},
},
{
"measurement": "speeds",
"time": data["timestamp"],
"fields": {
"jitter": data["ping"]["jitter"],
"latency": data["ping"]["latency"],
"packetLoss": pkt_loss(data),
"bandwidth_down": data["download"]["bandwidth"],
"bytes_down": data["download"]["bytes"],
"elapsed_down": data["download"]["elapsed"],
"bandwidth_up": data["upload"]["bandwidth"],
"bytes_up": data["upload"]["bytes"],
"elapsed_up": data["upload"]["elapsed"],
},
},
]
tags = tag_selection(data)
if tags is not None:
for measurement in influx_data:
measurement["tags"] = tags
return influx_data
def speedtest():
if not SERVER_ID:
speedtest = subprocess.run(
["speedtest", "--accept-license", "--accept-gdpr", "-f", "json"],
capture_output=True,
)
verbose_print("Automatic server choice")
else:
speedtest = subprocess.run(
[
"speedtest",
"--accept-license",
"--accept-gdpr",
"-f",
"json",
"--server-id=" + SERVER_ID,
],
capture_output=True,
)
verbose_print("Manual server choice : ID = " + SERVER_ID)
if speedtest.returncode == 0: # Speedtest was successful.
verbose_print("Speedtest Successful :")
data_json = json.loads(speedtest.stdout)
verbose_print(
"time: "
+ str(data_json["timestamp"])
+ " - ping: "
+ str(data_json["ping"]["latency"])
+ " ms - download: "
+ str(data_json["download"]["bandwidth"])
+ " Mb/s - upload: "
+ str(data_json["upload"]["bandwidth"])
+ " Mb/s - isp: "
+ data_json["isp"]
+ " - ext. IP: "
+ data_json["interface"]["externalIp"]
+ " - server id: "
+ str(data_json["server"]["id"])
+ " ("
+ data_json["server"]["name"]
+ " @ "
+ data_json["server"]["location"]
+ ")"
)
data = format_for_influx(data_json)
write_api.write(bucket=DB_BUCKET, record=data)
verbose_print("Data written to DB")
else: # Speedtest failed.
print("Speedtest Failed :")
print(speedtest.stderr)
print(speedtest.stdout)
def pingtest():
timestamp = datetime.datetime.utcnow()
for target in PING_TARGETS.split(","):
target = target.strip()
pingtest = ping(target, verbose=False, timeout=1, count=1, size=128)
data = [
{
"measurement": "pings",
"time": timestamp,
"tags": {"namespace": NAMESPACE, "target": target},
"fields": {
"success": int(pingtest._responses[0].error_message is None),
"rtt": float(
0
if pingtest._responses[0].error_message is not None
else pingtest.rtt_avg_ms
),
},
}
]
write_api.write(bucket=DB_BUCKET, record=data)
def main():
pPing = Process(target=pingtest)
pSpeed = Process(target=speedtest)
loopcount = 0
while 1: # Run a Speedtest and send the results to influxDB indefinitely.
if PING_INTERVAL != 0 and (loopcount == 0 or loopcount % PING_INTERVAL == 0):
if pPing.is_alive():
pPing.terminate()
pPing = Process(target=pingtest)
pPing.start()
if TEST_INTERVAL != 0 and (loopcount == 0 or loopcount % TEST_INTERVAL == 0):
if pSpeed.is_alive():
pSpeed.terminate()
pSpeed = Process(target=speedtest)
pSpeed.start()
if loopcount % (PING_INTERVAL * TEST_INTERVAL) == 0:
loopcount = 0
time.sleep(1)
loopcount += 1
if __name__ == "__main__":
print("Speedtest CLI data logger to InfluxDB started...")
main()
client.close()