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horusdemodlib/horusdemodlib/sondehubamateur.py

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Python
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#!/usr/bin/env python
#
# HorusDemodLib - SondeHub Amateur Uploader
#
# Uploads telemetry to the SondeHub ElasticSearch cluster,
# in the new 'universal' format descried here:
# https://github.com/projecthorus/sondehub-infra/wiki/%5BDRAFT%5D-Amateur-Balloon-Telemetry-Format
#
# Copyright (C) 2022 Mark Jessop <vk5qi@rfhead.net>
# Released under GNU GPL v3 or later
#
import horusdemodlib
import datetime
import glob
import gzip
import json
import logging
import os
import requests
import time
from threading import Thread
from email.utils import formatdate
from .delegates import fix_datetime
try:
# Python 2
from Queue import Queue
except ImportError:
# Python 3
from queue import Queue
class SondehubAmateurUploader(object):
""" Sondehub (Amateur) Uploader Class.
Accepts telemetry dictionaries from a decoder, buffers them up, and then compresses and uploads
them to the Sondehub Elasticsearch cluster.
"""
# SondeHub API endpoint
SONDEHUB_AMATEUR_URL = "https://api.v2.sondehub.org/amateur/telemetry"
SONDEHUB_AMATEUR_STATION_POSITION_URL = "https://api.v2.sondehub.org/amateur/listeners"
def __init__(
self,
upload_rate=30,
upload_timeout=20,
upload_retries=5,
user_callsign="N0CALL",
user_position=None,
user_radio="",
user_antenna="",
contact_email="",
user_position_update_rate=6,
software_name="horusdemodlib",
software_version="",
inhibit=False
):
""" Initialise and start a Sondehub (Amateur) uploader
Args:
upload_rate (int): How often to upload batches of data.
upload_timeout (int): Upload timeout.
"""
self.upload_rate = upload_rate
self.upload_timeout = upload_timeout
self.upload_retries = upload_retries
self.user_callsign = user_callsign
self.user_position = user_position
self.user_radio = user_radio
self.user_antenna = user_antenna
self.contact_email = contact_email
self.user_position_update_rate = user_position_update_rate
self.software_name = software_name
self.software_version = software_version
self.inhibit = inhibit
if self.user_position is None:
self.inhibit_position_upload = True
else:
self.inhibit_position_upload = False
# Input Queue.
self.input_queue = Queue()
# Record of when we last uploaded a user station position to Sondehub.
self.last_user_position_upload = 0
try:
# Python 2 check. Python 2 doesnt have gzip.compress so this will throw an exception.
gzip.compress(b"\x00\x00")
# Start queue processing thread.
if self.inhibit:
logging.info("SondeHub Amateur Uploader Inhibited.")
else:
self.input_processing_running = True
self.input_process_thread = Thread(target=self.process_queue)
self.input_process_thread.start()
except:
logging.error(
"Detected Python 2.7, which does not support gzip.compress. Sondehub DB uploading will be disabled."
)
self.input_processing_running = False
def update_station_position(self, lat, lon, alt):
""" Update the internal station position record. Used when determining the station position by GPSD """
if self.inhibit_position_upload:
# Don't update the internal position array if we aren't uploading our position.
return
else:
self.user_position = (lat, lon, alt)
def add(self, telemetry):
""" Add a dictionary of telemetry to the input queue.
Args:
telemetry (dict): Telemetry dictionary to add to the input queue.
"""
if self.inhibit:
return
# Attempt to reformat the data.
_telem = self.reformat_data(telemetry)
# self.log_debug("Telem: %s" % str(_telem))
# Add it to the queue if we are running.
if self.input_processing_running and _telem:
self.input_queue.put(_telem)
else:
self.log_debug("Processing not running, discarding.")
def reformat_data(self, telemetry):
""" Take an input dictionary and convert it to the universal format """
# Init output dictionary
_output = {
"software_name": self.software_name,
"software_version": self.software_version,
"uploader_callsign": self.user_callsign,
"uploader_position": self.user_position,
"uploader_radio": self.user_radio,
"uploader_antenna": self.user_antenna,
"time_received": datetime.datetime.utcnow().strftime(
"%Y-%m-%dT%H:%M:%S.%fZ"
),
}
# Mandatory Fields
# Datetime
try:
_datetime = fix_datetime(telemetry['time'])
# Compare system time and payload time, to look for issues where system time is way out.
_timedelta = abs((_datetime - datetime.datetime.utcnow()).total_seconds())
if _timedelta > 3*60:
# Greater than 3 minutes time difference. Discard packet in this case.
self.log_error("Payload and Receiver times are offset by more than 3 minutes. Either payload does not have GNSS lock, or your system time is not set correctly. Not uploading.")
return None
if _timedelta > 60:
self.log_warning("Payload and Receiver times are offset by more than 1 minute. Either payload does not have GNSS lock, or your system time is not set correctly.")
_output["datetime"] = _datetime.strftime(
"%Y-%m-%dT%H:%M:%S.%fZ"
)
except Exception as e:
self.log_error(
"Error converting telemetry datetime to string - %s" % str(e)
)
self.log_debug("Offending datetime_dt: %s" % str(telemetry["time"]))
return None
# Callsign - Break if this is an unknown payload ID.
if telemetry["callsign"] == "UNKNOWN_PAYLOAD_ID":
self.log_error("Not uploading telemetry from unknown payload ID. Is your payload ID list old?")
return None
if '4FSKTEST' in telemetry['callsign']:
self.log_warning(f"Payload ID {telemetry['callsign']} is for testing purposes only, and should not be used on an actual flight. Refer here: https://github.com/projecthorus/horusdemodlib/wiki#how-do-i-transmit-it")
_output['payload_callsign'] = telemetry["callsign"]
# Frame Number
_output["frame"] = telemetry["sequence_number"]
# Position
_output["lat"] = telemetry["latitude"]
_output["lon"] = telemetry["longitude"]
_output["alt"] = telemetry["altitude"]
# # Optional Fields
if "temperature" in telemetry:
if telemetry["temperature"] > -273.15:
_output["temp"] = telemetry["temperature"]
if "satellites" in telemetry:
_output["sats"] = telemetry["satellites"]
if "battery_voltage" in telemetry:
if telemetry["battery_voltage"] >= 0.0:
_output["batt"] = telemetry["battery_voltage"]
if "speed" in telemetry:
_output["speed"] = telemetry["speed"]
if "vel_h" in telemetry:
_output["vel_h"] = telemetry["vel_h"]
if "vel_v" in telemetry:
_output["vel_v"] = telemetry["vel_v"]
# Handle the additional SNR and frequency estimation if we have it
if "snr" in telemetry:
_output["snr"] = telemetry["snr"]
if "f_centre" in telemetry:
_output["frequency"] = telemetry["f_centre"] / 1e6 # Hz -> MHz
if "raw" in telemetry:
_output["raw"] = telemetry["raw"]
if "modulation" in telemetry:
_output["modulation"] = telemetry["modulation"]
if "modulation_detail" in telemetry:
_output["modulation_detail"] = telemetry["modulation_detail"]
if "baud_rate" in telemetry:
_output["baud_rate"] = telemetry["baud_rate"]
# Add in any field names from the custom field section
if "custom_field_names" in telemetry:
for _custom_field_name in telemetry["custom_field_names"]:
if _custom_field_name in telemetry:
_output[_custom_field_name] = telemetry[_custom_field_name]
logging.debug(f"Sondehub Amateur Uploader - Generated Packet: {str(_output)}")
return _output
def process_queue(self):
""" Process data from the input queue, and write telemetry to log files.
"""
self.log_info("Started Sondehub Amateur Uploader Thread.")
while self.input_processing_running:
# Process everything in the queue.
_to_upload = []
while self.input_queue.qsize() > 0:
try:
_to_upload.append(self.input_queue.get_nowait())
except Exception as e:
self.log_error("Error grabbing telemetry from queue - %s" % str(e))
# Upload data!
if len(_to_upload) > 0:
self.upload_telemetry(_to_upload)
# If we haven't uploaded our station position recently, re-upload it.
if (
time.time() - self.last_user_position_upload
) > self.user_position_update_rate * 3600:
self.station_position_upload()
# Sleep while waiting for some new data.
for i in range(self.upload_rate):
time.sleep(1)
if self.input_processing_running == False:
break
self.log_info("Stopped Sondehub Amateur Uploader Thread.")
def upload_telemetry(self, telem_list):
""" Upload an list of telemetry data to Sondehub """
_data_len = len(telem_list)
try:
_start_time = time.time()
_telem_json = json.dumps(telem_list).encode("utf-8")
_compressed_payload = gzip.compress(_telem_json)
except Exception as e:
self.log_error(
"Error serialising and compressing telemetry list for upload - %s"
% str(e)
)
return
_compression_time = time.time() - _start_time
self.log_debug(
"Pre-compression: %d bytes, post: %d bytes. %.1f %% compression ratio, in %.1f s"
% (
len(_telem_json),
len(_compressed_payload),
(len(_compressed_payload) / len(_telem_json)) * 100,
_compression_time,
)
)
_retries = 0
_upload_success = False
_start_time = time.time()
while _retries < self.upload_retries:
# Run the request.
try:
headers = {
"User-Agent": "horusdemodlib-" + horusdemodlib.__version__,
"Content-Encoding": "gzip",
"Content-Type": "application/json",
"Date": formatdate(timeval=None, localtime=False, usegmt=True),
}
_req = requests.put(
self.SONDEHUB_AMATEUR_URL,
_compressed_payload,
# TODO: Revisit this second timeout value.
timeout=(self.upload_timeout, 6.1),
headers=headers,
)
except Exception as e:
self.log_error("Upload Failed: %s" % str(e))
return
if _req.status_code == 200:
# 200 is the only status code that we accept.
_upload_time = time.time() - _start_time
self.log_info(
"Uploaded %d telemetry packets to Sondehub Amateur in %.1f seconds."
% (_data_len, _upload_time)
)
_upload_success = True
break
elif _req.status_code == 202:
# A 202 return code means there was some kind of data issue.
# We expect a response of the form {"message": "error message", "errors":[], "warnings":[]}
try:
_resp_json = _req.json()
for _error in _resp_json['errors']:
self.log_error("Payload data error: " + _error["error_message"])
if 'payload' in _error:
self.log_debug("Payload data associated with error: " + str(_error['payload']))
for _warning in _resp_json['warnings']:
self.log_warning("Payload data warning: " + _warning["warning_message"])
if 'payload' in _warning:
self.log_debug("Payload data associated with warning: " + str(_warning['payload']))
except Exception as e:
self.log_error("Error when parsing 202 response: %s" % str(e))
self.log_debug("Content of 202 response: %s" % _req.text)
_upload_success = True
break
elif _req.status_code in [500,501,502,503,504]:
# Server Error, Retry.
_retries += 1
continue
else:
self.log_error(
"Error uploading to Sondehub Amateur. Status Code: %d %s."
% (_req.status_code, _req.text)
)
break
if not _upload_success:
self.log_error("Upload failed after %d retries" % (_retries))
def station_position_upload(self):
"""
Upload a station position packet to SondeHub.
This uses the PUT /listeners API described here:
https://github.com/projecthorus/sondehub-infra/wiki/API-(Beta)
"""
if self.inhibit_position_upload:
# Position upload inhibited. Ensure user position is set to None, and continue upload of other info.
self.log_debug("Sondehub station position upload inhibited.")
_position = {
"software_name": self.software_name,
"software_version": self.software_version,
"uploader_callsign": self.user_callsign,
"uploader_position": self.user_position,
"uploader_radio": self.user_radio,
"uploader_antenna": self.user_antenna,
"uploader_contact_email": self.contact_email,
"mobile": False, # Hardcoded mobile=false setting - Mobile stations should be using Chasemapper.
}
_retries = 0
_upload_success = False
_start_time = time.time()
while _retries < self.upload_retries:
# Run the request.
try:
headers = {
"User-Agent": "horusdemodlib-" + horusdemodlib.__version__,
"Content-Type": "application/json",
"Date": formatdate(timeval=None, localtime=False, usegmt=True),
}
_req = requests.put(
self.SONDEHUB_AMATEUR_STATION_POSITION_URL,
json=_position,
# TODO: Revisit this second timeout value.
timeout=(self.upload_timeout, 6.1),
headers=headers,
)
except Exception as e:
self.log_error("Station position upload failed: %s" % str(e))
self.last_user_position_upload = time.time()
return
if _req.status_code == 200:
# 200 is the only status code that we accept.
_upload_time = time.time() - _start_time
self.log_info("Uploaded station information to Sondehub.")
_upload_success = True
break
elif _req.status_code == 500:
# Server Error, Retry.
_retries += 1
continue
elif _req.status_code == 404:
# API doesn't exist yet!
self.log_debug("Sondehub Amateur position upload API not implemented yet!")
_upload_success = True
break
else:
self.log_error(
"Error uploading station information to Sondehub. Status Code: %d %s."
% (_req.status_code, _req.text)
)
break
if not _upload_success:
self.log_error(
"Station information upload failed after %d retries" % (_retries)
)
self.log_debug(f"Attempted to upload {json.dumps(_position)}")
self.last_user_position_upload = time.time()
def close(self):
""" Close input processing thread. """
self.input_processing_running = False
def running(self):
""" Check if the uploader thread is running.
Returns:
bool: True if the uploader thread is running.
"""
return self.input_processing_running
def log_debug(self, line):
""" Helper function to log a debug message with a descriptive heading.
Args:
line (str): Message to be logged.
"""
logging.debug("Sondehub Amateur Uploader - %s" % line)
def log_info(self, line):
""" Helper function to log an informational message with a descriptive heading.
Args:
line (str): Message to be logged.
"""
logging.info("Sondehub Amateur Uploader - %s" % line)
def log_error(self, line):
""" Helper function to log an error message with a descriptive heading.
Args:
line (str): Message to be logged.
"""
logging.error("Sondehub Amateur Uploader - %s" % line)
def log_warning(self, line):
""" Helper function to log a warning message with a descriptive heading.
Args:
line (str): Message to be logged.
"""
logging.warning("Sondehub Amateur Uploader - %s" % line)
if __name__ == "__main__":
# Test Script
logging.basicConfig(
format="%(asctime)s %(levelname)s:%(message)s", level=logging.DEBUG
)
_test = SondehubAmateurUploader()
time.sleep(5)
_test.close()
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