def main():
scheduler = Scheduler()
servermap = ServerMap()
scheduler.add_job(servermap.reload, trigger='cron', minute='*/5')
scheduler.add_job(servermap.main, trigger='cron', minute='*/1')
scheduler.start()
dashboard.run()
def __init__(self, name):
"""
Init things.
:param name: str: name
"""
self.name = name
self.scheduler = Scheduler()
self.keep = True # class attribute or instance attribute
self.father, self.child = Pipe()
def __init__(self, name, queue):
"""
Init things.
:param name: str: name
:param queue: multiprocessing.Queue
"""
self.name = name
self.scheduler = Scheduler()
self.keep = True # class attribute or instance attribute
self.queue = queue
def __init__(self):
"""Webex Teams notification bot for the RCSS Graveyard Team
Intended to notify agents on an hourly basis on the 9agent's schedule to remind them to send an email to their managers.
Usage:
Just run the hermes.py to start the bot locally, then look for it on Webex Teams, either with the name: HermessRCSS or with the full name: [email protected]\n
After that, send the '/subscribe' command to set up the notification times.
"""
self.clear_screen()
self.current_user = None # Define current interacting user
self.filepath = "peopletonotify.json" # Define where to find the users file
self.baseurl = "https://api.ciscospark.com/v1" # API vars
# Retrieve required details from environment variables
dotenv.load_dotenv()
# Open a HTTP tunnel on the default port 8080
self.start_local_server()
# Get enviroment details
self.bot_email = os.getenv("TEAMS_BOT_EMAIL")
self.teams_token = os.getenv("TEAMS_BOT_TOKEN")
self.bot_app_name = os.getenv("TEAMS_BOT_APP_NAME")
self.api = WebexTeamsAPI(access_token=self.teams_token) # Start API
# Create the Bot Object
self.bot = webexteamsbot.TeamsBot(
self.bot_app_name,
teams_bot_token=self.teams_token,
teams_bot_url=self.bot_url,
teams_bot_email=self.bot_email,
webhook_resource_event=[
{
"resource": "messages",
"event": "created"
}, # Handles Messages
{
"resource": "attachmentActions",
"event": "created"
}
]) # Handles Adaptive cards
self.bot.set_help_message(
"Hello, my name is Hermes! You can use the following commands:\n")
self.add_commands()
self.init_users_file()
# Create the scheduler
self.sched = Scheduler({'apscheduler.timezone': 'America/Costa_Rica'})
self.sched.remove_all_jobs()
self.sched.start() # Start the scheduler
self.schedule_subscriptions()
self.bot.run(host="localhost", port=8080) # Run Bot
from django.contrib.auth.models import User
from django.db import models
# Create your models here.
from django.db.models.signals import post_save
from django.dispatch import receiver
from apscheduler.schedulers.background import BackgroundScheduler as Scheduler
from django.core.mail import send_mail
from datetime import datetime, timedelta
# Start the scheduler
sched = Scheduler()
sched.start()
# Define the function that is to be executed
def my_job():
print("payment verification...")
users = User.objects.all()
today = datetime.today()
emails = list()
for user in users:
if user.date_joined.day == today.day and user.date_joined.month != today.month:
user.date_joined = today
user.save()
emails.append(user.username)
print(emails)
if emails:
send_mail(
import threading as T
#from apscheduler.schedulers.blocking import BlockingScheduler as Scheduler
from apscheduler.schedulers.background import BackgroundScheduler as Scheduler
from apscheduler.executors.pool import ThreadPoolExecutor
from time import sleep
executors = {'default': ThreadPoolExecutor(3)}
s = Scheduler(executors=executors)
def show(msg='a'):
print '--------------------', msg
for t in T.enumerate():
print t
def output():
print '.'
def close(time = 5):
sleep(time)
show("closing")
s.shutdown()
show("closed")
s.add_job(output, 'interval', seconds=1)
s.start()
t = T.Thread(target=close, name="close")
t.start()
#for i in range(6):
while True:
sleep(1)
# coding:utf-8
import threading as T
import logging
from time import sleep
from apscheduler.schedulers.background import BackgroundScheduler as Scheduler
logging.basicConfig()
s = Scheduler()
mutex = T.Lock()
def show(name, l):
if mutex.acquire(1):
for i in l:
print i,
sleep(2)
print 'name is', name
mutex.release()
def f1():
show(1, ['1'] * 7)
def f2():
show(2, ['2'] * 7)
def f3():
return make_json_respond(controllers[plant_id].led_power)(status)
def init_controllers():
my_list = [
PlantController(plant_id=0, device_name="/dev/ttyUSB0"),
PlantController(plant_id=1, device_name="/dev/ttyUSB1"),
PlantController(plant_id=2, device_name="/dev/ttyUSB2"),
PlantController(plant_id=3, device_name="/dev/ttyUSB3"),
PlantController(plant_id=4, device_name="/dev/ttyUSB4"),
PlantController(plant_id=5, device_name="/dev/ttyUSB5"),
PlantController(plant_id=6, device_name="/dev/ttyUSB6"),
PlantController(plant_id=7, device_name="/dev/ttyUSB7"),
PlantController(plant_id=8, device_name="/dev/ttyUSB8"),
PlantController(plant_id=9, device_name="/dev/ttyUSB9")
]
return my_list
if __name__ == '__main__':
controllers = init_controllers()
scheduler = Scheduler()
scheduler.add_job(controllers[0].get_temperature,
trigger='interval',
args=[1],
seconds=5)
scheduler.start()
app.run(host='0.0.0.0')
def mainjob(self, name):
self.filename = '/tmp/dc/django_celery_%s.log' % name
# prepare
out_output(str(self.request.retries), self.filename)
self.default_retry_delay = 5
self.max_retries = 2
self.count = 0
# reply_to = self.request.reply_to
# out_output(reply_to, self.filename)
# out_output(dir(reply_to), self.filename)
# out_output(reply_to.__doc__, self.filename)
# out_output(type(reply_to), self.filename)
jlogger = logging.getLogger('apscheduler.scheduler')
jlogger.setLevel(logging.ERROR)
scheduler = Scheduler(logger=jlogger)
self.update_state(state='RUNNING')
# shutdown
def shutdown(a, b):
output('shuting')
scheduler.shutdown()
output('down - %s' % time())
def terminate(a, b):
output('terminating')
scheduler.shutdown()
output('down - %s' % time())
def retryer(a, b):
out_output('before retry', self.filename)
scheduler.shutdown()
raise self.retry()
out_output('after retry', self.filename)
signal(SIGUSR1, shutdown)
signal(SIGTERM, terminate)
signal(SIGALRM, retryer)
# listen
def listener(event):
try:
raise event.exception
except Exception as e:
out_output(e, self.filename)
[job.pause() for job in scheduler.get_jobs()]
alarm(1)
scheduler.add_listener(listener, EVENT_JOB_ERROR)
# add job and start
def output(msg):
self.count += 1
#if self.count == 9: raise StandardError('haha')
with open(self.filename, 'a') as file:
file.write('(%s - %s) %s\n' % (time(), name, msg))
scheduler.add_job(output, 'interval', args=('--a',), seconds=1)
sleep(0.5)
scheduler.add_job(output, 'interval', args=('------b',), seconds=1)
#scheduler.add_job(output, 'interval', args=('--b',), seconds=3)
scheduler.start()
# wait for retry
pause()
