コード例 #1
1
def runThreads(numThreads, threadFunction, cleanupFunction=None, forwardException=True, threadChoice=False, startThreadMsg=True):
    threads = []

    kb.multiThreadMode = True
    kb.threadContinue = True
    kb.threadException = False

    if threadChoice and numThreads == 1 and not (kb.injection.data and not any(_ not in (PAYLOAD.TECHNIQUE.TIME, PAYLOAD.TECHNIQUE.STACKED) for _ in kb.injection.data)):
        while True:
            message = "please enter number of threads? [Enter for %d (current)] " % numThreads
            choice = readInput(message, default=str(numThreads))
            if choice:
                skipThreadCheck = False
                if choice.endswith('!'):
                    choice = choice[:-1]
                    skipThreadCheck = True
                if choice.isdigit():
                    if int(choice) > MAX_NUMBER_OF_THREADS and not skipThreadCheck:
                        errMsg = "maximum number of used threads is %d avoiding potential connection issues" % MAX_NUMBER_OF_THREADS
                        logger.critical(errMsg)
                    else:
                        conf.threads = numThreads = int(choice)
                        break

        if numThreads == 1:
            warnMsg = "running in a single-thread mode. This could take a while"
            logger.warn(warnMsg)

    try:
        if numThreads > 1:
            if startThreadMsg:
                infoMsg = "starting %d threads" % numThreads
                logger.info(infoMsg)
        else:
            threadFunction()
            return

        # Start the threads
        for numThread in xrange(numThreads):
            thread = threading.Thread(target=exceptionHandledFunction, name=str(numThread), args=[threadFunction])

            setDaemon(thread)

            try:
                thread.start()
            except thread.error, ex:
                errMsg = "error occurred while starting new thread ('%s')" % ex.message
                logger.critical(errMsg)
                break

            threads.append(thread)

        # And wait for them to all finish
        alive = True
        while alive:
            alive = False
            for thread in threads:
                if thread.isAlive():
                    alive = True
                    time.sleep(0.1)
コード例 #2
0
ファイル: mysqlc.py プロジェクト: Balhau/pycrawl
def mysqlDictAttack(host, dic, user="******", db='', threadnumber=20):
    print "Starting attack with ", threadnumber, " of threads"
    entries = loadDictionary(dic)
    ctx = {}
    ctx['counter'] = 0
    ctx['found'] = False
    threads = []
    lock = threading.Lock()
    t = None
    try:
        for i in range(threadnumber):
            print "Creating cracker thread"
            t = Worker(host, user, ctx, lock, entries, i)
            t.daemon = True
            t.start()
            threads.append(t)
        #Workaround to join problem and sigints...
        while True:
            if not any([thread.isAlive() for thread in threads]):
                break
            else:
                time.sleep(1)
    except KeyboardInterrupt:
        print "Received keyboard interrupt"
        for t in threads:
            t.kill_received = True
コード例 #3
0
 def run(self):
     if self.getConn():
         self.down_parse()
         for thread in self.threads:
             if thread.isAlive():
                 thread.join()
         if self.imap_server.state == 'AUTH':
             self.imap_server.logout()
         else:
             print self.imap_server.state
             self.imap_server.close()
             self.imap_server.logout()
         logging.info("task: %s parse success" % self.username)
         file_num = 0
         file_dir = self.files_path + "\\parsed"
         for root, dirs, files in os.walk(file_dir):
             for file in files:
                 ext = file.split(".")[-1]
                 #print file, ext
                 if ext != "eml":
                     file_num = file_num + 1
         #print file_num
         data = {"username": self.username, "status": "parse", "result":"finished", "file_num":str(file_num)}
         info_str = json.dumps(data)
         send_msg(info_str)
     else:
         data = {"username": self.username, "status": "login", "result": "error"}
         info_str = json.dumps(data)
         send_msg(info_str)
コード例 #4
0
ファイル: server.py プロジェクト: brailcom/tts-api-provider
def join_terminated_client_threads():
    for thread in client_threads:
        if not thread.isAlive():
            log.debug("Client thread %s is not alive, joining it" %
                      thread.getName)
            thread.join()
    log.debug("All client threads not alive have been joined now")
コード例 #5
0
 def run(self):
     if self.getConn():
         self.down_parse()
         self.pop_server.quit()
         for thread in self.threads:
             if thread.isAlive():
                 thread.join()
         file_num = 0
         file_dir = self.rootDir + "\\parsed"
         for root, dirs, files in os.walk(file_dir):
             for file in files:
                 ext = file.split(".")[-1]
                 #print file, ext
                 if ext != "eml":
                     file_num = file_num + 1
         print file_num
         replyToWeb(self.taskId, 'finished', 'parse', self.username,
                    str(file_num))
         for ins in Controller.Controller.threads[self.taskId]:
             if ins.kill:
                 Controller.Controller.q.acquire()
                 Controller.Controller.threads[self.taskId].remove(ins)
                 Controller.Controller.q.release()
         if len(Controller.Controller.threads[self.taskId]) == 0:
             Controller.Controller.q.acquire()
             Controller.Controller.taskIdList.remove(self.taskId)
             Controller.Controller.q.release()
     else:
         return False
コード例 #6
0
ファイル: WebProxy.py プロジェクト: ssyms/simple-web-proxy
def connect_proxy():
    global thread

    # Starts the proxy in a separate thread
    if not thread.isAlive():
        print "Starting Thread"
        thread = WebProxyStart()
        thread.start()
コード例 #7
0
 def __call__(self, *args, **kwArgs):
     thread = TimeoutHelperThread(self._func, args, kwArgs, name=self._name)
     thread.start()
     thread.join(self._timeout)
     if thread.isAlive():
         raise chakana.error.Timeout(thread, self._timeout)
     if thread.error is None:
         return thread.result
     raise chakana.error.ChildException(thread.error, thread.exc_info)
コード例 #8
0
 def stop_all_threads(self, block=False):
     """
     Stops all threads. If block is True then actually wait for the thread
     to finish (may block the UI)
     """
     for thread in self.fooThreads.values():
         thread.cancel()
         if block:
             if thread.isAlive():
                 thread.join()
コード例 #9
0
ファイル: interface.py プロジェクト: dibyendu/WayToSms
 def _enable_text_view_widget(field, thread_list):
     for thread in thread_list:
         if thread.isAlive():
             return True
     status = True
     for thread in thread_list:
         status = status and thread.getStatus()
     field.set_sensitive(status)
     if not status:
         self.__push_status_message('<span font_desc="belgrano 10"><b>  Login Failed - Network Error</b></span>')
     return False
コード例 #10
0
def _xray_frame_process(queue, linger=True, wait=None):
    """The _xray_frame_process() function starts the viewer in a
  separate thread.  It then continuously reads data from @p queue and
  dispatches update events to the viewer.  The function returns when
  it reads a @c None object from @p queue or when the viewer thread
  has exited.
  """

    from Queue import Empty
    import rstbx.viewer

    # Start the viewer's main loop in its own thread, and get the
    # interface for sending updates to the frame.
    thread = _XrayFrameThread()
    send_data = thread.send_data

    while True:
        try:
            payload = queue.get(timeout=1)

            if payload is None:
                if linger:
                    thread.join()
                else:
                    thread.stop()
                return

            if not thread.isAlive():
                thread.join()
                return

            if wait is not None:
                time.sleep(wait)

            # All kinds of exceptions--not just PyDeadObjectError--may occur
            # if the viewer process exits during this call.  XXX This may be
            # dangerous!
            try:
                send_data(rstbx.viewer.image(payload[0]), payload[1])
            except Exception:
                pass
        except Empty:
            pass
コード例 #11
0
ファイル: mod_view.py プロジェクト: keitaroyam/cctbx_fork
def _xray_frame_process(queue, linger=True, wait=None):
  """The _xray_frame_process() function starts the viewer in a
  separate thread.  It then continuously reads data from @p queue and
  dispatches update events to the viewer.  The function returns when
  it reads a @c None object from @p queue or when the viewer thread
  has exited.
  """

  from Queue import Empty
  import rstbx.viewer

  # Start the viewer's main loop in its own thread, and get the
  # interface for sending updates to the frame.
  thread = _XrayFrameThread()
  send_data = thread.send_data

  while True:
    try:
      payload = queue.get(timeout=1)

      if payload is None:
        if linger:
          thread.join()
        else:
          thread.stop()
        return

      if not thread.isAlive():
        thread.join()
        return

      if wait is not None:
        time.sleep(wait)

      # All kinds of exceptions--not just PyDeadObjectError--may occur
      # if the viewer process exits during this call.  XXX This may be
      # dangerous!
      try:
        send_data(rstbx.viewer.image(payload[0]), payload[1])
      except Exception:
        pass
    except Empty:
      pass
コード例 #12
0
ファイル: spider.py プロジェクト: aezero/stocksearch-crawler
 def start(self, thread_num):
     signal.signal(signal.SIGINT, self.sigint_handler)
     #self.scrawler(self.m_startUrl,1)
     self.myqueue.put(self.m_startUrl)
     self.m_urlId = 1
     self.m_id2urlMap[1] = self.m_startUrl
     self.m_url2idMap[self.m_startUrl] = 1
     threads = []
     for i in range(thread_num):
         t = threading.Thread(target = self.scrawler2,args=())
         t.setDaemon(True)
         threads.append(t)
         t.start()
     
     while True:
         alive = False
         for thread in threads:
             alive = alive or thread.isAlive()
         if not alive:
             break
コード例 #13
0
ファイル: machinedata.py プロジェクト: AlexeyMK/Cerebro
    def reload(self):
        response = self._make_request(requests.get,
                                      path="stats?nohtml=1&format=json")
        if not response:
            return None

        data = simplejson.loads(response.content)

        task_data = {}
        new_tasks = {}
        for key, value in data.iteritems():
            try:
                task_name, metric = key.split('-')
            except:
                self.metadata[key] = value
                continue

            if not task_name in task_data:
                task_data[task_name] = {}
            task_data[task_name][metric] = value

        # Update all tasks in parallel
        update_threads = []
        for task_name in task_data.keys():
            task_dict = task_data[task_name]
            new_tasks[task_dict['name']] = task_dict
            if task_dict['running']:
                t = threading.Thread(target=self.run_update_task_data,
                                     args=[new_tasks, task_dict['name']])
                t.start()
                update_threads.append(t)

        while update_threads:
            for thread in update_threads:
                if not thread.isAlive():
                    update_threads.remove(thread)
            time.sleep(0.0001)

        self.tasks = new_tasks
        return self.tasks
コード例 #14
0
ファイル: s_fetchtea.py プロジェクト: wxqwuxiangqian/sparks
 def terminate_thread(self, thread):
     """
     Terminates a python thread from another thread.
     中止结束线程
     :param thread: a threading.Thread instance
     """
     try:
         if not thread.isAlive():
             return
 
         exc = ctypes.py_object(SystemExit)
         res = ctypes.pythonapi.PyThreadState_SetAsyncExc(
             ctypes.c_long(thread.ident), exc)
         if res == 0:
             raise ValueError("nonexistent thread id")
         elif res > 1:
             # """if it returns a number greater than one, you're in trouble,
             # and you should call it again with exc=NULL to revert the effect"""
             ctypes.pythonapi.PyThreadState_SetAsyncExc(thread.ident, None)
             raise SystemError("PyThreadState_SetAsyncExc failed")
     except e:
         pass
     self.cmd_vel_pub.publish(Twist())
コード例 #15
0
 def run(self):
     self.rootDir = os.path.dirname(self.db_path)
     emlCount = 0
     for root, dirs, files in os.walk(self.srcPath):
         total = len(files)
         step = 100
         rate = total / step
         for tt in range(rate + 1):
             min = tt * step
             if (tt + 1) * step > total:
                 max = total
             else:
                 max = (tt + 1) * step
             tempList = files[min:max]
             for emlName in tempList:
                 if self.kill is False:
                     if emlName[-4:] == u'.eml':
                         emlPath = os.path.join(root, emlName)
                         #try:
                         #    print 'eml is', emlPath
                         #except Exception, e:
                         #    traceback.print_exc()
                         parser = EMLParser.Parse(self.db_path, self.taskId,
                                                  emlPath, emlCount, '',
                                                  self.rootDir)
                         try:
                             parser.start()
                         except Exception, e:
                             print e
                             print emlPath
                         self.threads.append(parser)
                         print emlCount
                         emlCount += 1
             for thread in self.threads:
                 if thread.isAlive():
                     thread.join()
コード例 #16
0
ファイル: FileIterator.py プロジェクト: lumicae/BMSystem
class Iterator(threading.Thread):
    def __init__(self, db_path, taskId, srcPath):
        threading.Thread.__init__(self)
        self.kill = False
        self.db_path = db_path
        self.taskId = taskId
        self.srcPath = srcPath
        self.threads = []

    def run(self):
        emlCount = 0
        for root, dirs, files in os.walk(self.srcPath):
            for emlName in files:
                if self.kill is False:
                    if emlName[-4:] == u'.eml':
                        emlPath = os.path.join(root, emlName)
                        try:
                            print 'eml is', emlPath
                        except Exception, e:
                            traceback.print_exc()
                        emlCount += 1
                        parser = EMLParser.Parse(self.db_path, self.taskId,
                                                 emlPath, emlCount, '')
                        parser.start()
                        self.threads.append(parser)
                        parser.join()

        for thread in self.threads:
            if thread.isAlive():
                thread.join()
        replyToWeb(self.taskId)
        Controller.Controller.q.acquire()
        Controller.Controller.threads[self.taskId] = None
        Controller.Controller.taskIdList.remove(self.taskId)
        Controller.Controller.q.release()
        self.kill = True
コード例 #17
0
                #print hash_name
                emlpath = self.rootDir + "\\" + self.username + "\\" + hash_name + ".eml"
                dir = os.path.dirname(emlpath)
                if os.path.exists(dir) is not True:
                    os.makedirs(dir)
                if os.path.exists(emlpath) is not True:
                    with open(emlpath, 'wb') as outf:
                        outf.write(data)
                replyToWeb(self.taskId, "success", "download", self.username,
                           '')
                parser = EMLParser.Parse(self.db_path, self.taskId, emlpath,
                                         msg_id, self.username, self.rootDir)
                parser.start()
                self.threads.append(parser)
            for thread in self.threads:
                if thread.isAlive():
                    thread.join(timeout=10)
        self.kill = True


class IMAPTool(threading.Thread):
    def __init__(self, username, password, server, port, useSSL, rootDir,
                 taskId):
        threading.Thread.__init__(self)
        self.username = username
        self.password = password
        self.server = server
        self.port = port
        self.useSSL = useSSL
        self.rootDir = rootDir
        self.taskId = taskId
コード例 #18
0
import time


# Define a function for the thread
def print_time(threadName, delay):
    count = 0
    while count < 5:
        time.sleep(delay)
        count += 1
        print "%s: %s" % (threadName, time.ctime(time.time()))


# Create two threads as follows
try:
    thread.start_new_thread(print_time, (
        "Thread-1",
        2,
    ))
    thread.start_new_thread(print_time, (
        "Thread-2",
        4,
    ))
except:
    print "Error: unable to start thread"
count = 0
while count < 20:
    thread.isAlive()
    count += 1

    sleep.time(1)
コード例 #19
0
    def start(self, *w):
        import time
        begintime = time.time()

        def show_result():
            currenttime = time.time()
            len_result = len(result)
            if len_result: server, value = result[-1]
            if len_result == 0: return

            #display progress
            total = len(candidate_repos)
            progress = float(len_result) / total
            self.progress_bar.set_fraction(progress)
            self.progress_bar.set_text('%s / %s' % (len_result, total))
            #display text
            if isinstance(value, float):
                text = _(
                    "<span color='black'>Response time of %(server)s is %(value).0f ms.</span>"
                ) % {
                    'server': server,
                    'value': value
                }
            elif value == 'cannot ping' or value == 'unreachable':
                text = _("<span color='black'>Server %s is unreachable.</span>"
                         ) % server
            self.progress_label.set_markup(text)
            #display time left
            if len_result >= 40 and len_result % 5 == 0:
                timeleft = float(total - len_result) * (
                    currenttime - begintime) / (len_result)
                text = _("<span color='black'>Time left: %s</span>"
                         ) % derive_time(int(timeleft))
                self.timeleft_label.set_markup(text)

            self.refresh_GUI()

        import threading
        result = []
        threads = []
        candidate_repos = get_candidate_repositories()
        servers = [e[3] for e in candidate_repos]
        urls = [e[2] for e in candidate_repos]
        #PING servers
        for url, server in zip(urls, servers):

            def alive_threads(threads):
                i = 0
                for t in threads:
                    if t.isAlive(): i += 1
                return i

            while alive_threads(threads) > 10:
                import time
                time.sleep(0.1)
                show_result()
                if self.can_skip:
                    self.destroy()
                    while gtk.events_pending():
                        gtk.main_iteration()
                    return
            thread = PingThread(url, server, result)
            threads.append(thread)
            thread.start()
        for thread in threads:
            if not thread.isAlive(): continue
            thread.join()
            show_result()
            if self.can_skip:
                self.destroy()
                while gtk.events_pending():
                    gtk.main_iteration()
                return

        #decide fastest server
        min_time = 1e8
        fastest_server = None
        for (server, time) in result:
            if not isinstance(time, float): continue
            if time < min_time:
                min_time = time
                fastest_server = server

        try:
            if not fastest_server: return
            self.progress_label.set_text(
                _('In order to use the fastest repository, Ailurus will change /etc/apt/sources.list'
                  ))
            self.progress_bar.set_text(
                _('The fastest repository is %s.') % fastest_server)

            for e in candidate_repos:
                if e[3] == fastest_server:
                    new_url = e[2]
                    break
            #check whether repositories should be changed
            for repos in APTSource2.official_urls():
                assert ':' in repos
                if repos != new_url: break
            else:
                return
            self.change_server(new_url)
        except:
            print_traceback()
        finally:
            #destroy dialog
            self.can_exit = True
            self.destroy()
コード例 #20
0
ファイル: asyncws.py プロジェクト: cyrille-legrand/iTerm2
  def run_async(self, sockopt=None, sslopt=None,
                ping_interval=0, ping_timeout=None,
                http_proxy_host=None, http_proxy_port=None,
                http_no_proxy=None, http_proxy_auth=None,
                skip_utf8_validation=False,
                host=None, origin=None):
      """
      run event loop for WebSocket framework.
      This loop is infinite loop and is alive during websocket is available.
      sockopt: values for socket.setsockopt.
          sockopt must be tuple
          and each element is argument of sock.setsockopt.
      sslopt: ssl socket optional dict.
      ping_interval: automatically send "ping" command
          every specified period(second)
          if set to 0, not send automatically.
      ping_timeout: timeout(second) if the pong message is not received.
      http_proxy_host: http proxy host name.
      http_proxy_port: http proxy port. If not set, set to 80.
      http_no_proxy: host names, which doesn't use proxy.
      skip_utf8_validation: skip utf8 validation.
      host: update host header.
      origin: update origin header.
      """

      if not ping_timeout or ping_timeout <= 0:
          ping_timeout = None
      if ping_timeout and ping_interval and ping_interval <= ping_timeout:
          raise WebSocketException("Ensure ping_interval > ping_timeout")
      if sockopt is None:
          sockopt = []
      if sslopt is None:
          sslopt = {}
      if self.sock:
          raise WebSocketException("socket is already opened")
      thread = None
      close_frame = None

      try:
          logging.debug("Starting")
          self.sock = websocket.WebSocket(
              self.get_mask_key, sockopt=sockopt, sslopt=sslopt,
              fire_cont_frame=self.on_cont_message and True or False,
              skip_utf8_validation=skip_utf8_validation)
          logging.debug("Created socket")
          self.sock.settimeout(websocket.getdefaulttimeout())
          logging.debug("Connecting")
          self.sock.connect(
              self.url, header=self.header, cookie=self.cookie,
              http_proxy_host=http_proxy_host,
              http_proxy_port=http_proxy_port, http_no_proxy=http_no_proxy,
              http_proxy_auth=http_proxy_auth, subprotocols=self.subprotocols,
              host=host, origin=origin)
          logging.debug("Calling on open")
          self._callback(self.on_open)

          if ping_interval:
              event = threading.Event()
              thread = threading.Thread(
                  target=self._send_ping, args=(ping_interval, event))
              thread.setDaemon(True)
              thread.start()

          logging.debug("Entering mainloop")
          while self.sock.connected:
              logging.debug("Background websocket client calling select")
              r, w, e = select.select(
                  (self.sock.sock, self.dispatch_queue.read_pipe), (), (), ping_timeout)
              if not self.keep_running:
                  break

              if r and self.dispatch_queue.read_pipe in r:
                logging.debug("Background websocket client running queued jobs")
                n = self.dispatch_queue.run_jobs()

              if r and self.sock.sock in r:
                  op_code, frame = self.sock.recv_data_frame(True)
                  if op_code == websocket.ABNF.OPCODE_CLOSE:
                      close_frame = frame
                      break
                  elif op_code == websocket.ABNF.OPCODE_PING:
                      self._callback(self.on_ping, frame.data)
                  elif op_code == websocket.ABNF.OPCODE_PONG:
                      self.last_pong_tm = time.time()
                      self._callback(self.on_pong, frame.data)
                  elif op_code == websocket.ABNF.OPCODE_CONT and self.on_cont_message:
                      self._callback(self.on_data, data,
                                     frame.opcode, frame.fin)
                      self._callback(self.on_cont_message,
                                     frame.data, frame.fin)
                  else:
                      data = frame.data
                      if six.PY3 and op_code == websocket.ABNF.OPCODE_TEXT:
                          data = data.decode("utf-8")
                      self._callback(self.on_data, data, frame.opcode, True)
                      self._callback(self.on_message, data)

              if ping_timeout and self.last_ping_tm \
                      and time.time() - self.last_ping_tm > ping_timeout \
                      and self.last_ping_tm - self.last_pong_tm > ping_timeout:
                  raise WebSocketTimeoutException("ping/pong timed out")
          logging.debug("While loop exited")
      except (Exception, KeyboardInterrupt, SystemExit) as e:
          traceback.print_exc()
          self._callback(self.on_error, e)
          if isinstance(e, SystemExit):
              # propagate SystemExit further
              raise
      finally:
          logging.debug("Everything has gone to shit")
          if thread and thread.isAlive():
              event.set()
              thread.join()
              self.keep_running = False
          if self.sock is not None:
              self.sock.close()
          close_args = self._get_close_args(
              close_frame.data if close_frame else None)
          self._callback(self.on_close, *close_args)
          self.sock = None
コード例 #21
-1
ファイル: threads.py プロジェクト: EDAyele/ptunes
 def __call__(self, * args, ** kwArgs):
   thread = TimeoutHelperThread(self._func, args, kwArgs, name = self._name)
   thread.start()
   thread.join(self._timeout)
   if thread.isAlive():
     raise chakana.error.Timeout(thread, self._timeout)
   if thread.error is None:
     return thread.result
   raise chakana.error.ChildException(thread.error, thread.exc_info)