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6ecbf02c5e
FUP-Anemometer/fup-anemomoter-user.py
Julien Lazarewicz 6ecbf02c5e Update 
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2024-06-22 00:09:27 +02:00

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Python
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#!/usr/bin/env python3
"""
OSC/Random Example: send random numbers to OSC.
This example sends a pseudo-random number between 0 and 1024
to the OSC receiver on UDP port 2222.
"""
from pythonosc import udp_client
from pythonosc import osc_message_builder
import time
import os
import sys
import time
# import urllib library
import urllib.request
import urllib.error
# import json
import json
# import argparse
import argparse
# Logging to file
import logging
# Errors codes
OSC_no_error = 0
OSC_error = 1
OSC_meteobridge_auth_error = 10
OSC_meteobridge_url_error = 11
OSC_meteobridge_http_error = 12
OSC_meteobridge_nosensor_error = 20
OSC_meteobridge_restart = 30
debug_args_print = True
debug_json_print = True
debug_urllib_print = True
debug_restart_print = True
debug_osc = False
debug_working_directory = os.path.dirname(os.path.realpath(__file__))
# define urllib timeout in seconds
url_timeout = 10
# max error number before self restart
# max_error_rst = 3
prod_flag = False
prod_working_directory = "/usr/local/com.fup.anemometre_daemon"
meteobridge_template = "cgi-bin/template.cgi?template={%22time%22:%22[DD][MM][YYYY][hh][mm][ss]%22,%22speed%22:[wind0wind-act],%22lastspeed%22:[wind0wind-lastval],%22battery%22:[wind0lowbat-act.0],%22wind-age%22:[wind0wind-age],%22signal%22:[wind0signal-act.0]}"
def main(meteobridge_url, meteobridge_user, meteobridge_passwd, max_host, max_port, errors_restart):
error_counter = 0
http_auth_status = False
oscSender = udp_client.UDPClient(max_host, max_port)
meteobridge_sensor_req = meteobridge_url + meteobridge_template
# Logging
logging.basicConfig(filename='fup_anemometer.log', encoding='utf-8', format='%(asctime)s-%(levelname)s:%(message)s', datefmt='%Y/%m/%d %H:%M:%S', level=logging.DEBUG)
logging.info("fup_anemometer started")
while True:
if http_auth_status == False:
# http log to meteobridge
passman = urllib.request.HTTPPasswordMgrWithDefaultRealm()
passman.add_password(None, meteobridge_url, meteobridge_user, meteobridge_passwd)
authhandler = urllib.request.HTTPBasicAuthHandler(passman)
opener = urllib.request.build_opener(authhandler)
urllib.request.install_opener(opener)
try:
res = urllib.request.urlopen(meteobridge_url, timeout = url_timeout)
except urllib.error.HTTPError as e:
if debug_urllib_print:
print('HTTP Error code: ', e.code)
logging.error("Authentification to " + meteobridge_url + " - HTTP Error code: " + str(e.code))
error_counter += 1
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/error")
msg.add_arg(OSC_meteobridge_http_error)
oscSender.send(msg.build())
# Sleep 5 seconds if error
time.sleep(5)
# raise SystemExit(e)
except urllib.error.URLError as e:
if debug_urllib_print:
print('URL Error Reason: ', e.reason)
logging.error("Authentification to " + meteobridge_url + " - URL Error Reason: " + str(e.reason))
error_counter += 1
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/error")
msg.add_arg(OSC_meteobridge_url_error)
oscSender.send(msg.build())
# Sleep 5 seconds if error
time.sleep(5)
# raise SystemExit(e)
else:
error_counter = 0
res_body = res.read()
if debug_urllib_print:
print(res_body.decode('utf-8'))
http_auth_status = True
logging.info("HTTP authentification to " + meteobridge_url + " succesful")
# Sleep 2 seconds if no errors
time.sleep(2)
else:
try:
response = urllib.request.urlopen(meteobridge_sensor_req, timeout = url_timeout)
except urllib.error.HTTPError as e:
if debug_urllib_print:
print('HTTP Error code: ', e.code)
logging.error("Get sensor datas from : " + meteobridge_url + " - HTTP Error code: " + str(e.code))
error_counter += 1
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/error")
msg.add_arg(OSC_meteobridge_http_error)
oscSender.send(msg.build())
# Sleep 5 seconds if error
time.sleep(5)
except urllib.error.URLError as e:
if debug_urllib_print:
print('URL Error Reason: ', e.reason)
logging.error("Get sensor datas from : " + meteobridge_url + " - URL Error Reason: " + str(e.reason))
error_counter += 1
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/error")
msg.add_arg(OSC_meteobridge_url_error)
oscSender.send(msg.build())
# Sleep 5 seconds if error
time.sleep(5)
else:
try:
data_json = json.loads(response.read())
if debug_json_print == True:
print(data_json)
wind_speed = float(data_json["speed"])
wind_lastspeed = float(data_json["lastspeed"])
wind_batt = int(data_json["battery"])
wind_age = int(data_json["wind-age"])
wind_signal = int(data_json["signal"])
except json.JSONDecodeError as e:
if debug_json_print:
print("Invalid JSON syntax:", e)
logging.error("Decode JSON from : " + meteobridge_url + " - Invalid JSON syntax : " + str(e))
error_counter += 1
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/error")
msg.add_arg(OSC_meteobridge_nosensor_error)
oscSender.send(msg.build())
# Sleep 5 seconds if error
time.sleep(5)
else:
error_counter = 0
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/speed")
msg.add_arg(wind_lastspeed)
oscSender.send(msg.build())
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/battery")
msg.add_arg(wind_batt)
oscSender.send(msg.build())
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/age")
msg.add_arg(wind_age)
oscSender.send(msg.build())
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/signal")
msg.add_arg(wind_signal)
oscSender.send(msg.build())
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/error")
msg.add_arg(OSC_no_error)
oscSender.send(msg.build())
if debug_osc:
logging.debug("OSC datas sent")
# Sleep 2 seconds if no errors
time.sleep(2)
# Self restart
if error_counter >= int(errors_restart):
msg = osc_message_builder.OscMessageBuilder(address = "/env_sensors/anemometer/error")
msg.add_arg(OSC_meteobridge_restart)
oscSender.send(msg.build())
time.sleep(1)
if debug_restart_print:
print("Current errors count : " + str(error_counter) + " / " + errors_restart + " max errors")
print("Too many errors restarting program ...")
logging.error("Current errors count : " + str(error_counter) + " / " + errors_restart + " max errors")
logging.error("Too many errors restarting program ...")
os.execv(sys.executable, ['python'] + sys.argv)
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="FUP anemometer for OSC")
parser.add_argument('-url', '--url-meteobridge', default='http://192.168.0.39/')
parser.add_argument('-u', '--user-meteobridge', default='meteobridge')
parser.add_argument('-p', '--passwd-meteobridge',default='meteobridge')
parser.add_argument('-mh', '--max-host', default='localhost')
parser.add_argument('-mp','--max-port', default=2222)
parser.add_argument('-e', '--errors-restart', default=20)
args = parser.parse_args()
# if debug_args_print is True, print arguments
if debug_args_print:
print('Meteobridge URL:', args.url_meteobridge)
print('Meteobridge User:', args.user_meteobridge)
print('Meteobridge Password:', args.passwd_meteobridge)
print('OSC host:', args.max_host)
print('OSC port:', args.max_port)
print('Errors restart:', args.errors_restart)
main(meteobridge_url=args.url_meteobridge, meteobridge_user=args.user_meteobridge, meteobridge_passwd=args.passwd_meteobridge, max_host=args.max_host, max_port=args.max_port, errors_restart=args.errors_restart)
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