mirror of
https://github.com/ail-project/ail-framework.git
synced 2024-11-10 08:38:28 +00:00
commit
ddfe3cf66a
1 changed files with 155 additions and 123 deletions
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@ -25,9 +25,9 @@ import json
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from terminaltables import AsciiTable
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import textwrap
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from colorama import Fore, Back, Style, init
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import curses
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# CONFIG VARIABLES
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threshold_stucked_module = 60*10*1 #1 hour
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kill_retry_threshold = 60 #1m
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log_filename = "../logs/moduleInfo.log"
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command_search_pid = "ps a -o pid,cmd | grep {}"
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@ -39,6 +39,15 @@ printarrayGlob = [None]*14
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printarrayGlob.insert(0, ["Time", "Module", "PID", "Action"])
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lastTimeKillCommand = {}
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#Curses init
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#stdscr = curses.initscr()
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#curses.cbreak()
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#stdscr.keypad(1)
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# GLOBAL
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last_refresh = 0
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def getPid(module):
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p = Popen([command_search_pid.format(module+".py")], stdin=PIPE, stdout=PIPE, bufsize=1, shell=True)
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for line in p.stdout:
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@ -145,23 +154,33 @@ def get_color(time, idle):
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temp = time.split(':')
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time = int(temp[0])*3600 + int(temp[1])*60 + int(temp[2])
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if time >= threshold_stucked_module:
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if time >= args.treshold:
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if not idle:
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return Back.RED + Style.BRIGHT
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else:
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return Back.MAGENTA + Style.BRIGHT
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elif time > threshold_stucked_module/2:
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elif time > args.treshold/2:
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return Back.YELLOW + Style.BRIGHT
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else:
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return Back.GREEN + Style.BRIGHT
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else:
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return Style.RESET_ALL
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def waiting_refresh():
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global last_refresh
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if time.time() - last_refresh < args.refresh:
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return False
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else:
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last_refresh = time.time()
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return True
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if __name__ == "__main__":
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parser = argparse.ArgumentParser(description='Show info concerning running modules and log suspected stucked modules. May be use to automatically kill and restart stucked one.')
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parser.add_argument('-r', '--refresh', type=int, required=False, default=1, help='Refresh rate')
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parser.add_argument('-t', '--treshold', type=int, required=False, default=60*10*1, help='Refresh rate')
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parser.add_argument('-k', '--autokill', type=int, required=False, default=0, help='Enable auto kill option (1 for TRUE, anything else for FALSE)')
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parser.add_argument('-c', '--clear', type=int, required=False, default=0, help='Clear the current module information (Used to clear data from old launched modules)')
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@ -176,8 +195,6 @@ if __name__ == "__main__":
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cfg = ConfigParser.ConfigParser()
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cfg.read(configfile)
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threshold_stucked_module = cfg.getint("Module_ModuleInformation", "threshold_stucked_module")
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# REDIS #
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server = redis.StrictRedis(
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host=cfg.get("Redis_Queues", "host"),
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@ -199,123 +216,138 @@ if __name__ == "__main__":
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cleanRedis()
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while True:
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if waiting_refresh():
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all_queue = set()
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printarray1 = []
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printarray2 = []
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printarray3 = []
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for queue, card in server.hgetall("queues").iteritems():
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all_queue.add(queue)
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key = "MODULE_" + queue + "_"
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keySet = "MODULE_TYPE_" + queue
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array_module_type = []
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#key = ''
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#while key != 'q':
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# key = stdsrc.getch()
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# stdscr.refresh()
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for moduleNum in server.smembers(keySet):
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value = server.get(key + str(moduleNum))
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if value is not None:
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timestamp, path = value.split(", ")
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if timestamp is not None and path is not None:
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startTime_readable = datetime.datetime.fromtimestamp(int(timestamp))
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processed_time_readable = str((datetime.datetime.now() - startTime_readable)).split('.')[0]
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all_queue = set()
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printarray1 = []
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printarray2 = []
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printarray3 = []
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for queue, card in server.hgetall("queues").iteritems():
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all_queue.add(queue)
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key = "MODULE_" + queue + "_"
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keySet = "MODULE_TYPE_" + queue
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array_module_type = []
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if int(card) > 0:
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if int((datetime.datetime.now() - startTime_readable).total_seconds()) > threshold_stucked_module:
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log = open(log_filename, 'a')
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log.write(json.dumps([queue, card, str(startTime_readable), str(processed_time_readable), path]) + "\n")
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try:
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last_kill_try = time.time() - lastTimeKillCommand[moduleNum]
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except KeyError:
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last_kill_try = kill_retry_threshold+1
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if args.autokill == 1 and last_kill_try > kill_retry_threshold :
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kill_module(queue, int(moduleNum))
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for moduleNum in server.smembers(keySet):
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value = server.get(key + str(moduleNum))
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if value is not None:
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timestamp, path = value.split(", ")
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if timestamp is not None and path is not None:
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startTime_readable = datetime.datetime.fromtimestamp(int(timestamp))
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processed_time_readable = str((datetime.datetime.now() - startTime_readable)).split('.')[0]
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array_module_type.append([get_color(processed_time_readable, False) + str(queue), str(moduleNum), str(card), str(startTime_readable), str(processed_time_readable), str(path) + get_color(None, False)])
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if int(card) > 0:
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if int((datetime.datetime.now() - startTime_readable).total_seconds()) > args.treshold:
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log = open(log_filename, 'a')
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log.write(json.dumps([queue, card, str(startTime_readable), str(processed_time_readable), path]) + "\n")
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try:
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last_kill_try = time.time() - lastTimeKillCommand[moduleNum]
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except KeyError:
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last_kill_try = kill_retry_threshold+1
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if args.autokill == 1 and last_kill_try > kill_retry_threshold :
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kill_module(queue, int(moduleNum))
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else:
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printarray2.append([get_color(processed_time_readable, True) + str(queue), str(moduleNum), str(card), str(startTime_readable), str(processed_time_readable), str(path) + get_color(None, True)])
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array_module_type.sort(lambda x,y: cmp(x[4], y[4]), reverse=True)
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for e in array_module_type:
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printarray1.append(e)
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array_module_type.append([get_color(processed_time_readable, False) + str(queue), str(moduleNum), str(card), str(startTime_readable), str(processed_time_readable), str(path) + get_color(None, False)])
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for curr_queue in module_file_array:
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if curr_queue not in all_queue:
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printarray3.append([curr_queue, "Not running"])
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else:
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if len(list(server.smembers('MODULE_TYPE_'+curr_queue))) == 0:
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if curr_queue not in no_info_modules:
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no_info_modules[curr_queue] = int(time.time())
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printarray3.append([curr_queue, "No data"])
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else:
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#If no info since long time, try to kill
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if args.autokill == 1 and int(time.time()) - no_info_modules[curr_queue] > threshold_stucked_module:
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kill_module(curr_queue, None)
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else:
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printarray2.append([get_color(processed_time_readable, True) + str(queue), str(moduleNum), str(card), str(startTime_readable), str(processed_time_readable), str(path) + get_color(None, True)])
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array_module_type.sort(lambda x,y: cmp(x[4], y[4]), reverse=True)
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for e in array_module_type:
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printarray1.append(e)
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for curr_queue in module_file_array:
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if curr_queue not in all_queue:
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printarray3.append([curr_queue, "Not running"])
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else:
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if len(list(server.smembers('MODULE_TYPE_'+curr_queue))) == 0:
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if curr_queue not in no_info_modules:
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no_info_modules[curr_queue] = int(time.time())
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printarray3.append([curr_queue, "Stuck or idle, restarting in " + str(threshold_stucked_module - (int(time.time()) - no_info_modules[curr_queue])) + "s"])
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printarray3.append([curr_queue, "No data"])
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else:
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#If no info since long time, try to kill
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if args.autokill == 1:
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if int(time.time()) - no_info_modules[curr_queue] > args.treshold:
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kill_module(curr_queue, None)
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no_info_modules[curr_queue] = int(time.time())
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printarray3.append([curr_queue, "Stuck or idle, restarting in " + str(abs(args.treshold - (int(time.time()) - no_info_modules[curr_queue]))) + "s"])
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else:
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printarray3.append([curr_queue, "Stuck or idle, restarting disabled"])
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## FIXME To add:
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## Button KILL Process using Curses
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#printarray1.sort(lambda x,y: cmp(x[0], y[0]), reverse=False)
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printarray1.sort(key=lambda x: x[0][9:], reverse=False)
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#printarray2.sort(lambda x,y: cmp(x[0], y[0]), reverse=False)
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printarray2.sort(key=lambda x: x[0][9:], reverse=False)
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printarray1.insert(0,["Queue", "PID", "Amount", "Paste start time", "Processing time for current paste (H:M:S)", "Paste hash"])
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printarray2.insert(0,["Queue", "PID","Amount", "Paste start time", "Time since idle (H:M:S)", "Last paste hash"])
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printarray3.insert(0,["Queue", "State"])
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printarray1.sort(key=lambda x: x[0][9:], reverse=False)
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printarray2.sort(key=lambda x: x[0][9:], reverse=False)
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printarray1.insert(0,["Queue", "PID", "Amount", "Paste start time", "Processing time for current paste (H:M:S)", "Paste hash"])
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printarray2.insert(0,["Queue", "PID","Amount", "Paste start time", "Time since idle (H:M:S)", "Last paste hash"])
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printarray3.insert(0,["Queue", "State"])
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os.system('clear')
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t1 = AsciiTable(printarray1, title="Working queues")
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t1.column_max_width(1)
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if not t1.ok:
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longest_col = t1.column_widths.index(max(t1.column_widths))
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max_length_col = t1.column_max_width(longest_col)
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if max_length_col > 0:
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for i, content in enumerate(t1.table_data):
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if len(content[longest_col]) > max_length_col:
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temp = ''
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for l in content[longest_col].splitlines():
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if len(l) > max_length_col:
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temp += '\n'.join(textwrap.wrap(l, max_length_col)) + '\n'
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else:
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temp += l + '\n'
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content[longest_col] = temp.strip()
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t1.table_data[i] = content
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os.system('clear')
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t1 = AsciiTable(printarray1, title="Working queues")
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t1.column_max_width(1)
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if not t1.ok:
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longest_col = t1.column_widths.index(max(t1.column_widths))
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max_length_col = t1.column_max_width(longest_col)
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if max_length_col > 0:
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for i, content in enumerate(t1.table_data):
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if len(content[longest_col]) > max_length_col:
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temp = ''
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for l in content[longest_col].splitlines():
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if len(l) > max_length_col:
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temp += '\n'.join(textwrap.wrap(l, max_length_col)) + '\n'
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else:
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temp += l + '\n'
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content[longest_col] = temp.strip()
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t1.table_data[i] = content
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t2 = AsciiTable(printarray2, title="Idling queues")
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t2.column_max_width(1)
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if not t2.ok:
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longest_col = t2.column_widths.index(max(t2.column_widths))
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max_length_col = t2.column_max_width(longest_col)
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if max_length_col > 0:
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for i, content in enumerate(t2.table_data):
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if len(content[longest_col]) > max_length_col:
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temp = ''
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for l in content[longest_col].splitlines():
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if len(l) > max_length_col:
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temp += '\n'.join(textwrap.wrap(l, max_length_col)) + '\n'
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else:
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temp += l + '\n'
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content[longest_col] = temp.strip()
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t2.table_data[i] = content
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t2 = AsciiTable(printarray2, title="Idling queues")
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t2.column_max_width(1)
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if not t2.ok:
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longest_col = t2.column_widths.index(max(t2.column_widths))
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max_length_col = t2.column_max_width(longest_col)
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if max_length_col > 0:
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for i, content in enumerate(t2.table_data):
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if len(content[longest_col]) > max_length_col:
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temp = ''
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for l in content[longest_col].splitlines():
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if len(l) > max_length_col:
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temp += '\n'.join(textwrap.wrap(l, max_length_col)) + '\n'
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else:
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temp += l + '\n'
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content[longest_col] = temp.strip()
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t2.table_data[i] = content
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t3 = AsciiTable(printarray3, title="Not running queues")
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t3.column_max_width(1)
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t3 = AsciiTable(printarray3, title="Not running queues")
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t3.column_max_width(1)
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printarray4 = []
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for elem in printarrayGlob:
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if elem is not None:
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printarray4.append(elem)
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printarray4 = []
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for elem in printarrayGlob:
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if elem is not None:
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printarray4.append(elem)
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t4 = AsciiTable(printarray4, title="Last actions")
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t4.column_max_width(1)
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t4 = AsciiTable(printarray4, title="Last actions")
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t4.column_max_width(1)
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print t1.table
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print '\n'
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print t2.table
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print '\n'
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print t3.table
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print '\n'
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print t4.table
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legend_array = [["Color", "Meaning"], [Back.RED+Style.BRIGHT+" "*10+Style.RESET_ALL, "Time >=" +str(args.treshold)+Style.RESET_ALL], [Back.MAGENTA+Style.BRIGHT+" "*10+Style.RESET_ALL, "Time >=" +str(args.treshold)+" while idle"+Style.RESET_ALL], [Back.YELLOW+Style.BRIGHT+" "*10+Style.RESET_ALL, "Time >=" +str(args.treshold/2)+Style.RESET_ALL], [Back.GREEN+Style.BRIGHT+" "*10+Style.RESET_ALL, "Time <" +str(args.treshold)]]
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legend = AsciiTable(legend_array, title="Legend")
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legend.column_max_width(1)
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if (datetime.datetime.now() - lastTime).total_seconds() > args.refresh*5:
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lastTime = datetime.datetime.now()
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cleanRedis()
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time.sleep(args.refresh)
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print legend.table
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print '\n'
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print t1.table
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print '\n'
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print t2.table
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print '\n'
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print t3.table
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print '\n'
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print t4.table
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if (datetime.datetime.now() - lastTime).total_seconds() > args.refresh*5:
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lastTime = datetime.datetime.now()
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cleanRedis()
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#time.sleep(args.refresh)
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