def __init__(self, xmpp, sid, block_size, to, ifrom, window_size=1, use_messages=False): self.xmpp = xmpp self.sid = sid self.block_size = block_size self.window_size = window_size self.use_messages = use_messages self.receiver = to self.sender = ifrom self.send_seq = -1 self.recv_seq = -1 self._send_seq_lock = threading.Lock() self._recv_seq_lock = threading.Lock() self.stream_started = threading.Event() self.stream_in_closed = threading.Event() self.stream_out_closed = threading.Event() self.recv_queue = Queue() self.send_window = threading.BoundedSemaphore(value=self.window_size) self.window_ids = set() self.window_empty = threading.Event() self.window_empty.set()
def __init__(self, xmpp, sid, block_size, jid, peer, window_size=1, use_messages=False): self.xmpp = xmpp self.sid = sid self.block_size = block_size self.window_size = window_size self.use_messages = use_messages if jid is None: jid = xmpp.boundjid self.self_jid = jid self.peer_jid = peer self.send_seq = -1 self.recv_seq = -1 self._send_seq_lock = threading.Lock() self._recv_seq_lock = threading.Lock() self.stream_started = threading.Event() self.stream_in_closed = threading.Event() self.stream_out_closed = threading.Event() self.recv_queue = Queue() self.send_window = threading.BoundedSemaphore(value=self.window_size) self.window_ids = set() self.window_empty = threading.Event() self.window_empty.set()
def __init__(self, *args, **kwargs): """ Create a new test socket. Arguments: Same as arguments for socket.socket """ self.socket = socket.socket(*args, **kwargs) self.recv_queue = Queue() self.send_queue = Queue() self.is_live = False self.disconnected = False
def __init__(self, *args, **kwargs): """ Create a new, live test socket. Arguments: Same as arguments for socket.socket """ self.socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM) self.recv_buffer = [] self.recv_queue = Queue() self.send_queue = Queue() self.send_queue_lock = threading.Lock() self.recv_queue_lock = threading.Lock() self.is_live = True
def __init__(self, xmpp, sid, block_size, to, ifrom, window_size=1): self.xmpp = xmpp self.sid = sid self.block_size = block_size self.window_size = window_size self.receiver = to self.sender = ifrom self.send_seq = -1 self.recv_seq = -1 self._send_seq_lock = threading.Lock() self._recv_seq_lock = threading.Lock() self.stream_started = threading.Event() self.stream_in_closed = threading.Event() self.stream_out_closed = threading.Event() self.recv_queue = Queue() self.send_window = threading.BoundedSemaphore(value=self.window_size) self.window_ids = set() self.window_empty = threading.Event() self.window_empty.set()
class Collector(BaseHandler): """ The Collector handler allows for collecting a set of stanzas that match a given pattern. Unlike the Waiter handler, a Collector does not block execution, and will continue to accumulate matching stanzas until told to stop. :param string name: The name of the handler. :param matcher: A :class:`~sleekxmpp.xmlstream.matcher.base.MatcherBase` derived object for matching stanza objects. :param stream: The :class:`~sleekxmpp.xmlstream.xmlstream.XMLStream` instance this handler should monitor. """ def __init__(self, name, matcher, stream=None): BaseHandler.__init__(self, name, matcher, stream=stream) self._payload = Queue() def prerun(self, payload): """Store the matched stanza when received during processing. :param payload: The matched :class:`~sleekxmpp.xmlstream.stanzabase.ElementBase` object. """ self._payload.put(payload) def run(self, payload): """Do not process this handler during the main event loop.""" pass def stop(self): """ Stop collection of matching stanzas, and return the ones that have been stored so far. """ self._destroy = True results = [] try: while True: results.append(self._payload.get(False)) except QueueEmpty: pass self.stream().remove_handler(self.name) return results
def __init__(self, parentstop=None): #: A queue for storing tasks self.addq = Queue() #: A list of tasks in order of execution time. self.schedule = [] #: If running in threaded mode, this will be the thread processing #: the schedule. self.thread = None #: A flag indicating that the scheduler is running. self.run = False #: An :class:`~threading.Event` instance for signalling to stop #: the scheduler. self.stop = parentstop #: Lock for accessing the task queue. self.schedule_lock = threading.RLock()
def __init__(self, master, jid_password): self.master = master self.buffer_size = 0 #number of bytes of data waiting to be sent self.buffer_queue = Queue() self.buffer_size_lock = threading.Lock() self.num_clients = 0 #number of clients sockets using this bot self.num_clients_lock = threading.Lock() self.__failed_send_stanza = None #some sleekxmpp thing for resending stuff sleekxmpp.ClientXMPP.__init__(self, *jid_password) # gmail xmpp server is actually at talk.google.com if jid_password[0].find("@gmail.com") != -1: self.connect_address = ("talk.google.com", 5222) else: self.connect_address = None # event handlers are sleekxmpp's way of dealing with important xml tags it receives self.add_event_handler("session_start", lambda event: self.session_start()) self.add_event_handler("disconnected", lambda event: self.disconnected()) self.register_plugin('xep_0199') # Ping
def __init__(self, parentstop=None): #: A queue for storing tasks self.addq = Queue() #: A list of tasks in order of execution time. self.schedule = [] #: If running in threaded mode, this will be the thread processing #: the schedule. self.thread = None #: A flag indicating that the scheduler is running. self.run = False #: An :class:`~threading.Event` instance for signalling to stop #: the scheduler. self.stop = parentstop #: Lock for accessing the task queue. self.schedule_lock = threading.RLock() #: The time in seconds to wait for events from the event queue, #: and also the time between checks for the process stop signal. self.wait_timeout = WAIT_TIMEOUT
def __init__(self, jid, password, auto_connect=True): ClientXMPP.__init__(self, jid, password) self.success = False self.notification_callback = None self.wait_for_start = Queue() self.register_plugin('xep_0004') self.register_plugin('xep_0030') self.register_plugin('xep_0060') self.register_plugin('xep_0199') self.add_event_handler("session_start", self.start) handler = Callback('superfeedr', MatchXPath("{jabber:client}message/" "{http://jabber.org/protocol/pubsub#event}event"), self.superfeedr_msg) self.register_handler(handler) if auto_connect: self.connect_wait()
class Scheduler(object): """ A threaded scheduler that allows for updates mid-execution unlike the scheduler in the standard library. Based on: http://docs.python.org/library/sched.html#module-sched :param parentstop: An :class:`~threading.Event` to signal stopping the scheduler. """ def __init__(self, parentstop=None): #: A queue for storing tasks self.addq = Queue() #: A list of tasks in order of execution time. self.schedule = [] #: If running in threaded mode, this will be the thread processing #: the schedule. self.thread = None #: A flag indicating that the scheduler is running. self.run = False #: An :class:`~threading.Event` instance for signalling to stop #: the scheduler. self.stop = parentstop #: Lock for accessing the task queue. self.schedule_lock = threading.RLock() def process(self, threaded=True, daemon=False): """Begin accepting and processing scheduled tasks. :param bool threaded: Indicates if the scheduler should execute in its own thread. Defaults to ``True``. """ if threaded: self.thread = threading.Thread(name='scheduler_process', target=self._process) self.thread.daemon = daemon self.thread.start() else: self._process() def _process(self): """Process scheduled tasks.""" self.run = True try: while self.run and not self.stop.is_set(): wait = 0.1 updated = False if self.schedule: wait = self.schedule[0].next - time.time() try: if wait <= 0.0: newtask = self.addq.get(False) else: if wait >= 3.0: wait = 3.0 newtask = None elapsed = 0 while not self.stop.is_set() and \ newtask is None and \ elapsed < wait: newtask = self.addq.get(True, 0.1) elapsed += 0.1 except QueueEmpty: cleanup = [] self.schedule_lock.acquire() for task in self.schedule: if time.time() >= task.next: updated = True if not task.run(): cleanup.append(task) else: break for task in cleanup: self.schedule.pop(self.schedule.index(task)) else: updated = True self.schedule_lock.acquire() if newtask is not None: self.schedule.append(newtask) finally: if updated: self.schedule = sorted(self.schedule, key=lambda task: task.next) self.schedule_lock.release() except KeyboardInterrupt: self.run = False except SystemExit: self.run = False log.debug("Quitting Scheduler thread") def add(self, name, seconds, callback, args=None, kwargs=None, repeat=False, qpointer=None): """Schedule a new task. :param string name: The name of the task. :param int seconds: The number of seconds to wait before executing. :param callback: The function to execute. :param tuple args: The arguments to pass to the callback. :param dict kwargs: The keyword arguments to pass to the callback. :param bool repeat: Indicates if the task should repeat. Defaults to ``False``. :param pointer: A pointer to an event queue for queuing callback execution instead of executing immediately. """ try: self.schedule_lock.acquire() for task in self.schedule: if task.name == name: raise ValueError("Key %s already exists" % name) self.addq.put(Task(name, seconds, callback, args, kwargs, repeat, qpointer)) except: raise finally: self.schedule_lock.release() def remove(self, name): """Remove a scheduled task ahead of schedule, and without executing it. :param string name: The name of the task to remove. """ try: self.schedule_lock.acquire() the_task = None for task in self.schedule: if task.name == name: the_task = task if the_task is not None: self.schedule.remove(the_task) except: raise finally: self.schedule_lock.release() def quit(self): """Shutdown the scheduler.""" self.run = False
class IBBytestream(object): def __init__(self, xmpp, sid, block_size, to, ifrom, window_size=1, use_messages=False): self.xmpp = xmpp self.sid = sid self.block_size = block_size self.window_size = window_size self.use_messages = use_messages self.receiver = to self.sender = ifrom self.send_seq = -1 self.recv_seq = -1 self._send_seq_lock = threading.Lock() self._recv_seq_lock = threading.Lock() self.stream_started = threading.Event() self.stream_in_closed = threading.Event() self.stream_out_closed = threading.Event() self.recv_queue = Queue() self.send_window = threading.BoundedSemaphore(value=self.window_size) self.window_ids = set() self.window_empty = threading.Event() self.window_empty.set() def send(self, data): if not self.stream_started.is_set() or \ self.stream_out_closed.is_set(): raise socket.error data = data[0:self.block_size] self.send_window.acquire() with self._send_seq_lock: self.send_seq = (self.send_seq + 1) % 65535 seq = self.send_seq if self.use_messages: msg = self.xmpp.Message() msg['to'] = self.receiver msg['from'] = self.sender msg['id'] = self.xmpp.new_id() msg['ibb_data']['sid'] = self.sid msg['ibb_data']['seq'] = seq msg['ibb_data']['data'] = data msg.send() self.send_window.release() else: iq = self.xmpp.Iq() iq['type'] = 'set' iq['to'] = self.receiver iq['from'] = self.sender iq['ibb_data']['sid'] = self.sid iq['ibb_data']['seq'] = seq iq['ibb_data']['data'] = data self.window_empty.clear() self.window_ids.add(iq['id']) iq.send(block=False, callback=self._recv_ack) return len(data) def sendall(self, data): sent_len = 0 while sent_len < len(data): sent_len += self.send(data[sent_len:]) def _recv_ack(self, iq): self.window_ids.remove(iq['id']) if not self.window_ids: self.window_empty.set() self.send_window.release() if iq['type'] == 'error': self.close() def _recv_data(self, stanza): with self._recv_seq_lock: new_seq = stanza['ibb_data']['seq'] if new_seq != (self.recv_seq + 1) % 65535: self.close() raise XMPPError('unexpected-request') self.recv_seq = new_seq data = stanza['ibb_data']['data'] if len(data) > self.block_size: self.close() raise XMPPError('not-acceptable') self.recv_queue.put(data) self.xmpp.event('ibb_stream_data', {'stream': self, 'data': data}) if isinstance(stanza, Iq): stanza.reply() stanza.send() def recv(self, *args, **kwargs): return self.read(block=True) def read(self, block=True, timeout=None, **kwargs): if not self.stream_started.is_set() or \ self.stream_in_closed.is_set(): raise socket.error if timeout is not None: block = True try: return self.recv_queue.get(block, timeout) except: return None def close(self): iq = self.xmpp.Iq() iq['type'] = 'set' iq['to'] = self.receiver iq['from'] = self.sender iq['ibb_close']['sid'] = self.sid self.stream_out_closed.set() iq.send(block=False, callback=lambda x: self.stream_in_closed.set()) self.xmpp.event('ibb_stream_end', self) def _closed(self, iq): self.stream_in_closed.set() self.stream_out_closed.set() while not self.window_empty.is_set(): log.info('waiting for send window to empty') self.window_empty.wait(timeout=1) iq.reply() iq.send() self.xmpp.event('ibb_stream_end', self) def makefile(self, *args, **kwargs): return self def connect(*args, **kwargs): return None def shutdown(self, *args, **kwargs): return None
class TestSocket(object): """ A dummy socket that reads and writes to queues instead of an actual networking socket. Methods: next_sent -- Return the next sent stanza. recv_data -- Make a stanza available to read next. recv -- Read the next stanza from the socket. send -- Write a stanza to the socket. makefile -- Dummy call, returns self. read -- Read the next stanza from the socket. """ def __init__(self, *args, **kwargs): """ Create a new test socket. Arguments: Same as arguments for socket.socket """ self.socket = socket.socket(*args, **kwargs) self.recv_queue = Queue() self.send_queue = Queue() self.is_live = False self.disconnected = False def __getattr__(self, name): """ Return attribute values of internal, dummy socket. Some attributes and methods are disabled to prevent the socket from connecting to the network. Arguments: name -- Name of the attribute requested. """ def dummy(*args): """Method to do nothing and prevent actual socket connections.""" return None overrides = {'connect': dummy, 'close': dummy, 'shutdown': dummy} return overrides.get(name, getattr(self.socket, name)) # ------------------------------------------------------------------ # Testing Interface def next_sent(self, timeout=None): """ Get the next stanza that has been 'sent'. Arguments: timeout -- Optional timeout for waiting for a new value. """ args = {'block': False} if timeout is not None: args = {'block': True, 'timeout': timeout} try: return self.send_queue.get(**args) except: return None def recv_data(self, data): """ Add data to the receiving queue. Arguments: data -- String data to 'write' to the socket to be received by the XMPP client. """ self.recv_queue.put(data) def disconnect_error(self): """ Simulate a disconnect error by raising a socket.error exception for any current or further socket operations. """ self.disconnected = True # ------------------------------------------------------------------ # Socket Interface def recv(self, *args, **kwargs): """ Read a value from the received queue. Arguments: Placeholders. Same as for socket.Socket.recv. """ if self.disconnected: raise socket.error return self.read(block=True) def send(self, data): """ Send data by placing it in the send queue. Arguments: data -- String value to write. """ if self.disconnected: raise socket.error self.send_queue.put(data) return len(data) # ------------------------------------------------------------------ # File Socket def makefile(self, *args, **kwargs): """ File socket version to use with ElementTree. Arguments: Placeholders, same as socket.Socket.makefile() """ return self def read(self, block=True, timeout=None, **kwargs): """ Implement the file socket interface. Arguments: block -- Indicate if the read should block until a value is ready. timeout -- Time in seconds a block should last before returning None. """ if self.disconnected: raise socket.error if timeout is not None: block = True try: return self.recv_queue.get(block, timeout) except: return None
class IBBytestream(object): def __init__(self, xmpp, sid, block_size, to, ifrom, window_size=1): self.xmpp = xmpp self.sid = sid self.block_size = block_size self.window_size = window_size self.receiver = to self.sender = ifrom self.send_seq = -1 self.recv_seq = -1 self._send_seq_lock = threading.Lock() self._recv_seq_lock = threading.Lock() self.stream_started = threading.Event() self.stream_in_closed = threading.Event() self.stream_out_closed = threading.Event() self.recv_queue = Queue() self.send_window = threading.BoundedSemaphore(value=self.window_size) self.window_ids = set() self.window_empty = threading.Event() self.window_empty.set() def send(self, data): if not self.stream_started.is_set() or \ self.stream_out_closed.is_set(): raise socket.error data = data[0:self.block_size] self.send_window.acquire() with self._send_seq_lock: self.send_seq = (self.send_seq + 1) % 65535 seq = self.send_seq iq = self.xmpp.Iq() iq['type'] = 'set' iq['to'] = self.receiver iq['from'] = self.sender iq['ibb_data']['sid'] = self.sid iq['ibb_data']['seq'] = seq iq['ibb_data']['data'] = data self.window_empty.clear() self.window_ids.add(iq['id']) iq.send(block=False, callback=self._recv_ack) return len(data) def sendall(self, data): sent_len = 0 while sent_len < len(data): sent_len += self.send(data[sent_len:]) def _recv_ack(self, iq): self.window_ids.remove(iq['id']) if not self.window_ids: self.window_empty.set() self.send_window.release() if iq['type'] == 'error': self.close() def _recv_data(self, iq): with self._recv_seq_lock: new_seq = iq['ibb_data']['seq'] if new_seq != (self.recv_seq + 1) % 65535: self.close() raise XMPPError('unexpected-request') self.recv_seq = new_seq data = iq['ibb_data']['data'] if len(data) > self.block_size: self.close() raise XMPPError('not-acceptable') self.recv_queue.put(data) self.xmpp.event('ibb_stream_data', {'stream': self, 'data': data}) iq.reply() iq.send() def recv(self, *args, **kwargs): return self.read(block=True) def read(self, block=True, timeout=None, **kwargs): if not self.stream_started.is_set() or \ self.stream_in_closed.is_set(): raise socket.error if timeout is not None: block = True try: return self.recv_queue.get(block, timeout) except: return None def close(self): iq = self.xmpp.Iq() iq['type'] = 'set' iq['to'] = self.receiver iq['from'] = self.sender iq['ibb_close']['sid'] = self.sid self.stream_out_closed.set() iq.send(block=False, callback=lambda x: self.stream_in_closed.set()) self.xmpp.event('ibb_stream_end', self) def _closed(self, iq): self.stream_in_closed.set() self.stream_out_closed.set() while not self.window_empty.is_set(): log.info('waiting for send window to empty') self.window_empty.wait(timeout=1) iq.reply() iq.send() self.xmpp.event('ibb_stream_end', self) def makefile(self, *args, **kwargs): return self def connect(*args, **kwargs): return None def shutdown(self, *args, **kwargs): return None
class Scheduler(object): """ A threaded scheduler that allows for updates mid-execution unlike the scheduler in the standard library. Based on: http://docs.python.org/library/sched.html#module-sched :param parentstop: An :class:`~threading.Event` to signal stopping the scheduler. """ def __init__(self, parentstop=None): #: A queue for storing tasks self.addq = Queue() #: A list of tasks in order of execution time. self.schedule = [] #: If running in threaded mode, this will be the thread processing #: the schedule. self.thread = None #: A flag indicating that the scheduler is running. self.run = False #: An :class:`~threading.Event` instance for signalling to stop #: the scheduler. self.stop = parentstop #: Lock for accessing the task queue. self.schedule_lock = threading.RLock() #: The time in seconds to wait for events from the event queue, #: and also the time between checks for the process stop signal. self.wait_timeout = WAIT_TIMEOUT def process(self, threaded=True, daemon=False): """Begin accepting and processing scheduled tasks. :param bool threaded: Indicates if the scheduler should execute in its own thread. Defaults to ``True``. """ if threaded: self.thread = threading.Thread(name='scheduler_process', target=self._process) self.thread.daemon = daemon self.thread.start() else: self._process() def _process(self): """Process scheduled tasks.""" self.run = True try: while self.run and not self.stop.is_set(): updated = False if self.schedule: wait = self.schedule[0].next - time.time() else: wait = self.wait_timeout try: if wait <= 0.0: newtask = self.addq.get(False) else: newtask = None while self.run and \ not self.stop.is_set() and \ newtask is None and \ wait > 0: try: newtask = self.addq.get(True, min(wait, self.wait_timeout)) except QueueEmpty: # Nothing to add, nothing to do. Check run flags and continue waiting. wait -= self.wait_timeout except QueueEmpty: # Time to run some tasks, and no new tasks to add. self.schedule_lock.acquire() # select only those tasks which are to be executed now relevant = itertools.takewhile( lambda task: time.time() >= task.next, self.schedule) # run the tasks and keep the return value in a tuple status = map(lambda task: (task, task.run()), relevant) # remove non-repeating tasks for task, doRepeat in status: if not doRepeat: try: self.schedule.remove(task) except ValueError: pass else: # only need to resort tasks if a repeated task has # been kept in the list. updated = True else: # Add new task self.schedule_lock.acquire() if newtask is not None: self.schedule.append(newtask) updated = True finally: if updated: self.schedule.sort(key=lambda task: task.next) self.schedule_lock.release() except KeyboardInterrupt: self.run = False except SystemExit: self.run = False log.debug("Quitting Scheduler thread") def add(self, name, seconds, callback, args=None, kwargs=None, repeat=False, qpointer=None): """Schedule a new task. :param string name: The name of the task. :param int seconds: The number of seconds to wait before executing. :param callback: The function to execute. :param tuple args: The arguments to pass to the callback. :param dict kwargs: The keyword arguments to pass to the callback. :param bool repeat: Indicates if the task should repeat. Defaults to ``False``. :param pointer: A pointer to an event queue for queuing callback execution instead of executing immediately. """ try: self.schedule_lock.acquire() for task in self.schedule: if task.name == name: raise ValueError("Key %s already exists" % name) self.addq.put(Task(name, seconds, callback, args, kwargs, repeat, qpointer)) except: raise finally: self.schedule_lock.release() def remove(self, name): """Remove a scheduled task ahead of schedule, and without executing it. :param string name: The name of the task to remove. """ try: self.schedule_lock.acquire() the_task = None for task in self.schedule: if task.name == name: the_task = task if the_task is not None: self.schedule.remove(the_task) except: raise finally: self.schedule_lock.release() def quit(self): """Shutdown the scheduler.""" self.run = False
def __init__(self, name, matcher, stream=None): BaseHandler.__init__(self, name, matcher, stream=stream) self._payload = Queue()
class bot(sleekxmpp.ClientXMPP): ''' Bot used to send and receive messages ''' def __init__(self, master, jid_password): self.master = master self.buffer_size = 0 #number of bytes of data waiting to be sent self.buffer_queue = Queue() self.buffer_size_lock = threading.Lock() self.num_clients = 0 #number of clients sockets using this bot self.num_clients_lock = threading.Lock() self.__failed_send_stanza = None #some sleekxmpp thing for resending stuff sleekxmpp.ClientXMPP.__init__(self, *jid_password) # gmail xmpp server is actually at talk.google.com if jid_password[0].find("@gmail.com") != -1: self.connect_address = ("talk.google.com", 5222) else: self.connect_address = None # event handlers are sleekxmpp's way of dealing with important xml tags it receives self.add_event_handler("session_start", lambda event: self.session_start()) self.add_event_handler("disconnected", lambda event: self.disconnected()) self.register_plugin('xep_0199') # Ping def buffer_message(self, data): ''' set the karma and time_last_sent karma_lock should have been acquired before calling this function ''' self.buffer_queue.put(data) self.buffer_size += len(data) self.buffer_size_lock.release() def get_buffer_size(self): self.buffer_size_lock.acquire() return self.buffer_size def get_num_clients(self): self.num_clients_lock.acquire() return self.num_clients def register_hexchat_handlers(self): '''these handle the custom iq stanzas''' self.register_handler( callback.Callback('Connect Handler', stanzapath.StanzaPath('iq@type=set/connect'), self.master.connect_handler)) self.register_handler( callback.Callback( 'Connect Message Handler', stanzapath.StanzaPath('message@type=chat/connect'), self.master.connect_handler)) self.register_handler( callback.Callback( 'Connect Ack Handler', stanzapath.StanzaPath('iq@type=result/connect_ack'), self.master.connect_ack_handler)) self.register_handler( callback.Callback('Data Handler', stanzapath.StanzaPath('iq@type=set/packet'), self.master.data_handler)) self.register_handler( callback.Callback('Disconnect Handler', stanzapath.StanzaPath('iq@type=set/disconnect'), self.master.disconnect_handler)) self.register_handler( callback.Callback( 'Disconnect Error Message Handler', stanzapath.StanzaPath('message@type=chat/disconnect_error'), self.master.disconnect_error_handler)) self.register_handler( callback.Callback( 'Disconnect Error Iq Handler', stanzapath.StanzaPath('iq@type=set/disconnect_error'), self.master.disconnect_error_handler)) self.register_handler( callback.Callback('IQ Error Handler', stanzapath.StanzaPath('iq@type=error/error'), self.master.error_handler)) self.register_handler( callback.Callback( 'Message Error Handler', stanzapath.StanzaPath('message@type=error/error'), self.master.error_handler)) ### session management mathods: def boot(self, process=True): if self.connect(self.connect_address): if process: self.process() else: raise (Exception(self.boundjid.bare + " could not connect")) def session_start(self): """Called when the bot connects and establishes a session with the XMPP server.""" # XMPP spec says that we should broadcast our presence when we connect. self.send_presence() def disconnected(self): ''' Called when the bot disconnects from the XMPP server. Try to reconnect. ''' logging.warning("XMPP chat server disconnected") logging.debug("Trying to reconnect") self.boot(False) self.send_presence() def _send_thread(self): ''' modifed version of sleekxmpp's _send_thread that will not send faster than THROUGHPUT ''' try: while not self.stop.is_set(): while not self.stop.is_set() and \ not self.session_started_event.is_set(): self.session_started_event.wait(timeout=0.1) if self.__failed_send_stanza is not None: data = self.__failed_send_stanza self.__failed_send_stanza = None else: try: data = self.buffer_queue.get(True, 1) was_buffered = True except QueueEmpty: try: data = self.send_queue.get(True, 0.0) was_buffered = False except QueueEmpty: continue logging.debug("SEND: %s", data) enc_data = data.encode('utf-8') total = len(enc_data) sent = 0 count = 0 tries = 0 try: with self.send_lock: while sent < total and not self.stop.is_set() and \ self.session_started_event.is_set(): try: num_bytes = self.socket.send(enc_data[sent:]) sent += num_bytes count += 1 ''' throttling code that prevents data from being sent faster than THROUGHPUT ''' time.sleep(num_bytes / THROUGHPUT) if was_buffered: with self.buffer_size_lock: self.buffer_size -= num_bytes except ssl.SSLError as serr: if tries >= self.ssl_retry_max: logging.debug( 'SSL error: max retries reached') self.exception(serr) logging.warning("Failed to send %s", data) if not self.stop.is_set(): self.disconnect(self.auto_reconnect, send_close=False) logging.warning( 'SSL write error: retrying') if not self.stop.is_set(): time.sleep(self.ssl_retry_delay) tries += 1 if count > 1: logging.debug('SENT: %d chunks', count) if was_buffered: self.buffer_queue.task_done() else: self.send_queue.task_done() except (Socket.error, ssl.SSLError) as serr: self.event('socket_error', serr, direct=True) logging.warning("Failed to send %s", data) if not self.stop.is_set(): self.__failed_send_stanza = data self._end_thread('send') self.disconnect(self.auto_reconnect, send_close=False) return except Exception as ex: logging.exception('Unexpected error in send thread: %s', ex) self.exception(ex) if not self.stop.is_set(): self._end_thread('send') self.disconnect(self.auto_reconnect) return self._end_thread('send')
def stream_start(self, mode='client', skip=True, header=None, socket='mock', jid='tester@localhost', password='******', server='localhost', port=5222, sasl_mech=None, plugins=None, plugin_config={}): """ Initialize an XMPP client or component using a dummy XML stream. Arguments: mode -- Either 'client' or 'component'. Defaults to 'client'. skip -- Indicates if the first item in the sent queue (the stream header) should be removed. Tests that wish to test initializing the stream should set this to False. Otherwise, the default of True should be used. socket -- Either 'mock' or 'live' to indicate if the socket should be a dummy, mock socket or a live, functioning socket. Defaults to 'mock'. jid -- The JID to use for the connection. Defaults to 'tester@localhost'. password -- The password to use for the connection. Defaults to 'test'. server -- The name of the XMPP server. Defaults to 'localhost'. port -- The port to use when connecting to the server. Defaults to 5222. plugins -- List of plugins to register. By default, all plugins are loaded. """ if mode == 'client': self.xmpp = ClientXMPP(jid, password, sasl_mech=sasl_mech, plugin_config=plugin_config) elif mode == 'component': self.xmpp = ComponentXMPP(jid, password, server, port, plugin_config=plugin_config) else: raise ValueError("Unknown XMPP connection mode.") # Remove unique ID prefix to make it easier to test self.xmpp._id_prefix = '' self.xmpp._disconnect_wait_for_threads = False self.xmpp.default_lang = None self.xmpp.peer_default_lang = None # We will use this to wait for the session_start event # for live connections. skip_queue = Queue() if socket == 'mock': self.xmpp.set_socket(TestSocket()) # Simulate connecting for mock sockets. self.xmpp.auto_reconnect = False self.xmpp.state._set_state('connected') # Must have the stream header ready for xmpp.process() to work. if not header: header = self.xmpp.stream_header self.xmpp.socket.recv_data(header) elif socket == 'live': self.xmpp.socket_class = TestLiveSocket def wait_for_session(x): self.xmpp.socket.clear() skip_queue.put('started') self.xmpp.add_event_handler('session_start', wait_for_session) if server is not None: self.xmpp.connect((server, port)) else: self.xmpp.connect() else: raise ValueError("Unknown socket type.") if plugins is None: self.xmpp.register_plugins() else: for plugin in plugins: self.xmpp.register_plugin(plugin) # Some plugins require messages to have ID values. Set # this to True in tests related to those plugins. self.xmpp.use_message_ids = False self.xmpp.process(threaded=True) if skip: if socket != 'live': # Mark send queue as usable self.xmpp.session_started_event.set() # Clear startup stanzas self.xmpp.socket.next_sent(timeout=1) if mode == 'component': self.xmpp.socket.next_sent(timeout=1) else: skip_queue.get(block=True, timeout=10)
class TestLiveSocket(object): """ A live test socket that reads and writes to queues in addition to an actual networking socket. Methods: next_sent -- Return the next sent stanza. next_recv -- Return the next received stanza. recv_data -- Dummy method to have same interface as TestSocket. recv -- Read the next stanza from the socket. send -- Write a stanza to the socket. makefile -- Dummy call, returns self. read -- Read the next stanza from the socket. """ def __init__(self, *args, **kwargs): """ Create a new, live test socket. Arguments: Same as arguments for socket.socket """ self.socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM) self.recv_buffer = [] self.recv_queue = Queue() self.send_queue = Queue() self.send_queue_lock = threading.Lock() self.recv_queue_lock = threading.Lock() self.is_live = True def __getattr__(self, name): """ Return attribute values of internal, live socket. Arguments: name -- Name of the attribute requested. """ return getattr(self.socket, name) # ------------------------------------------------------------------ # Testing Interface def disconnect_errror(self): """ Used to simulate a socket disconnection error. Not used by live sockets. """ try: self.socket.shutdown() self.socket.close() except: pass def next_sent(self, timeout=None): """ Get the next stanza that has been sent. Arguments: timeout -- Optional timeout for waiting for a new value. """ args = {'block': False} if timeout is not None: args = {'block': True, 'timeout': timeout} try: return self.send_queue.get(**args) except: return None def next_recv(self, timeout=None): """ Get the next stanza that has been received. Arguments: timeout -- Optional timeout for waiting for a new value. """ args = {'block': False} if timeout is not None: args = {'block': True, 'timeout': timeout} try: if self.recv_buffer: return self.recv_buffer.pop(0) else: return self.recv_queue.get(**args) except: return None def recv_data(self, data): """ Add data to a receive buffer for cases when more than a single stanza was received. """ self.recv_buffer.append(data) # ------------------------------------------------------------------ # Socket Interface def recv(self, *args, **kwargs): """ Read data from the socket. Store a copy in the receive queue. Arguments: Placeholders. Same as for socket.recv. """ data = self.socket.recv(*args, **kwargs) with self.recv_queue_lock: self.recv_queue.put(data) return data def send(self, data): """ Send data on the socket. Store a copy in the send queue. Arguments: data -- String value to write. """ with self.send_queue_lock: self.send_queue.put(data) return self.socket.send(data) # ------------------------------------------------------------------ # File Socket def makefile(self, *args, **kwargs): """ File socket version to use with ElementTree. Arguments: Placeholders, same as socket.makefile() """ return self def read(self, *args, **kwargs): """ Implement the file socket read interface. Arguments: Placeholders, same as socket.recv() """ return self.recv(*args, **kwargs) def clear(self): """ Empty the send queue, typically done once the session has started to remove the feature negotiation and log in stanzas. """ with self.send_queue_lock: for i in range(0, self.send_queue.qsize()): self.send_queue.get(block=False) with self.recv_queue_lock: for i in range(0, self.recv_queue.qsize()): self.recv_queue.get(block=False)
class IBBytestream(object): def __init__(self, xmpp, sid, block_size, jid, peer, window_size=1, use_messages=False): self.xmpp = xmpp self.sid = sid self.block_size = block_size self.window_size = window_size self.use_messages = use_messages if jid is None: jid = xmpp.boundjid self.self_jid = jid self.peer_jid = peer self.send_seq = -1 self.recv_seq = -1 self._send_seq_lock = threading.Lock() self._recv_seq_lock = threading.Lock() self.stream_started = threading.Event() self.stream_in_closed = threading.Event() self.stream_out_closed = threading.Event() self.recv_queue = Queue() self.send_window = threading.BoundedSemaphore(value=self.window_size) self.window_ids = set() self.window_empty = threading.Event() self.window_empty.set() def send(self, data): if not self.stream_started.is_set() or \ self.stream_out_closed.is_set(): raise socket.error data = data[0:self.block_size] self.send_window.acquire() with self._send_seq_lock: self.send_seq = (self.send_seq + 1) % 65535 seq = self.send_seq if self.use_messages: msg = self.xmpp.Message() msg['to'] = self.peer_jid msg['from'] = self.self_jid msg['id'] = self.xmpp.new_id() msg['ibb_data']['sid'] = self.sid msg['ibb_data']['seq'] = seq msg['ibb_data']['data'] = data msg.send() self.send_window.release() else: iq = self.xmpp.Iq() iq['type'] = 'set' iq['to'] = self.peer_jid iq['from'] = self.self_jid iq['ibb_data']['sid'] = self.sid iq['ibb_data']['seq'] = seq iq['ibb_data']['data'] = data self.window_empty.clear() self.window_ids.add(iq['id']) iq.send(block=False, callback=self._recv_ack) return len(data) def sendall(self, data): sent_len = 0 while sent_len < len(data): sent_len += self.send(data[sent_len:]) def _recv_ack(self, iq): self.window_ids.remove(iq['id']) if not self.window_ids: self.window_empty.set() self.send_window.release() if iq['type'] == 'error': self.close() def _recv_data(self, stanza): with self._recv_seq_lock: new_seq = stanza['ibb_data']['seq'] if new_seq != (self.recv_seq + 1) % 65535: self.close() raise XMPPError('unexpected-request') self.recv_seq = new_seq data = stanza['ibb_data']['data'] if len(data) > self.block_size: self.close() raise XMPPError('not-acceptable') self.recv_queue.put(data) self.xmpp.event('ibb_stream_data', {'stream': self, 'data': data}) if isinstance(stanza, Iq): stanza.reply() stanza.send() def recv(self, *args, **kwargs): return self.read(block=True) def read(self, block=True, timeout=None, **kwargs): if not self.stream_started.is_set() or \ self.stream_in_closed.is_set(): raise socket.error if timeout is not None: block = True try: return self.recv_queue.get(block, timeout) except: return None def close(self): iq = self.xmpp.Iq() iq['type'] = 'set' iq['to'] = self.peer_jid iq['from'] = self.self_jid iq['ibb_close']['sid'] = self.sid self.stream_out_closed.set() iq.send(block=False, callback=lambda x: self.stream_in_closed.set()) self.xmpp.event('ibb_stream_end', self) def _closed(self, iq): self.stream_in_closed.set() self.stream_out_closed.set() iq.reply() iq.send() self.xmpp.event('ibb_stream_end', self) def makefile(self, *args, **kwargs): return self def connect(*args, **kwargs): return None def shutdown(self, *args, **kwargs): return None
class Waiter(BaseHandler): """ The Waiter handler allows an event handler to block until a particular stanza has been received. The handler will either be given the matched stanza, or ``False`` if the waiter has timed out. :param string name: The name of the handler. :param matcher: A :class:`~sleekxmpp.xmlstream.matcher.base.MatcherBase` derived object for matching stanza objects. :param stream: The :class:`~sleekxmpp.xmlstream.xmlstream.XMLStream` instance this handler should monitor. """ def __init__(self, name, matcher, stream=None): BaseHandler.__init__(self, name, matcher, stream=stream) self._payload = Queue() def prerun(self, payload): """Store the matched stanza when received during processing. :param payload: The matched :class:`~sleekxmpp.xmlstream.stanzabase.ElementBase` object. """ self._payload.put(payload) def run(self, payload): """Do not process this handler during the main event loop.""" pass def wait(self, timeout=None): """Block an event handler while waiting for a stanza to arrive. Be aware that this will impact performance if called from a non-threaded event handler. Will return either the received stanza, or ``False`` if the waiter timed out. :param int timeout: The number of seconds to wait for the stanza to arrive. Defaults to the the stream's :class:`~sleekxmpp.xmlstream.xmlstream.XMLStream.response_timeout` value. """ if timeout is None: timeout = self.stream().response_timeout elapsed_time = 0 stanza = False while elapsed_time < timeout and not self.stream().stop.is_set(): try: stanza = self._payload.get(True, 1) break except QueueEmpty: elapsed_time += 1 if elapsed_time >= timeout: log.warning("Timed out waiting for %s", self.name) self.stream().remove_handler(self.name) return stanza def check_delete(self): """Always remove waiters after use.""" return True
class Scheduler(object): """ A threaded scheduler that allows for updates mid-execution unlike the scheduler in the standard library. Based on: http://docs.python.org/library/sched.html#module-sched :param parentstop: An :class:`~threading.Event` to signal stopping the scheduler. """ def __init__(self, parentstop=None): #: A queue for storing tasks self.addq = Queue() #: A list of tasks in order of execution time. self.schedule = [] #: If running in threaded mode, this will be the thread processing #: the schedule. self.thread = None #: A flag indicating that the scheduler is running. self.run = False #: An :class:`~threading.Event` instance for signalling to stop #: the scheduler. self.stop = parentstop #: Lock for accessing the task queue. self.schedule_lock = threading.RLock() def process(self, threaded=True, daemon=False): """Begin accepting and processing scheduled tasks. :param bool threaded: Indicates if the scheduler should execute in its own thread. Defaults to ``True``. """ if threaded: self.thread = threading.Thread(name='scheduler_process', target=self._process) self.thread.daemon = daemon self.thread.start() else: self._process() def _process(self): """Process scheduled tasks.""" self.run = True try: while self.run and not self.stop.is_set(): wait = 0.1 updated = False if self.schedule: wait = self.schedule[0].next - time.time() try: if wait <= 0.0: newtask = self.addq.get(False) else: if wait >= 3.0: wait = 3.0 newtask = None elapsed = 0 while not self.stop.is_set() and \ newtask is None and \ elapsed < wait: newtask = self.addq.get(True, 0.1) elapsed += 0.1 except QueueEmpty: self.schedule_lock.acquire() # select only those tasks which are to be executed now relevant = itertools.takewhile( lambda task: time.time() >= task.next, self.schedule) # run the tasks and keep the return value in a tuple status = map(lambda task: (task, task.run()), relevant) # remove non-repeating tasks for task, doRepeat in status: if not doRepeat: try: self.schedule.remove(task) except ValueError: pass else: # only need to resort tasks if a repeated task has # been kept in the list. updated = True else: updated = True self.schedule_lock.acquire() if newtask is not None: self.schedule.append(newtask) finally: if updated: self.schedule.sort(key=lambda task: task.next) self.schedule_lock.release() except KeyboardInterrupt: self.run = False except SystemExit: self.run = False log.debug("Quitting Scheduler thread") def add(self, name, seconds, callback, args=None, kwargs=None, repeat=False, qpointer=None): """Schedule a new task. :param string name: The name of the task. :param int seconds: The number of seconds to wait before executing. :param callback: The function to execute. :param tuple args: The arguments to pass to the callback. :param dict kwargs: The keyword arguments to pass to the callback. :param bool repeat: Indicates if the task should repeat. Defaults to ``False``. :param pointer: A pointer to an event queue for queuing callback execution instead of executing immediately. """ try: self.schedule_lock.acquire() for task in self.schedule: if task.name == name: raise ValueError("Key %s already exists" % name) self.addq.put( Task(name, seconds, callback, args, kwargs, repeat, qpointer)) except: raise finally: self.schedule_lock.release() def remove(self, name): """Remove a scheduled task ahead of schedule, and without executing it. :param string name: The name of the task to remove. """ try: self.schedule_lock.acquire() the_task = None for task in self.schedule: if task.name == name: the_task = task if the_task is not None: self.schedule.remove(the_task) except: raise finally: self.schedule_lock.release() def quit(self): """Shutdown the scheduler.""" self.run = False
class bot(sleekxmpp.ClientXMPP): ''' Bot used to send and receive messages ''' def __init__(self, master, jid_password): self.master = master self.buffer_size = 0 #number of bytes of data waiting to be sent self.buffer_queue = Queue() self.buffer_size_lock = threading.Lock() self.num_clients = 0 #number of clients sockets using this bot self.num_clients_lock = threading.Lock() self.__failed_send_stanza = None #some sleekxmpp thing for resending stuff sleekxmpp.ClientXMPP.__init__(self, *jid_password) # gmail xmpp server is actually at talk.google.com if jid_password[0].find("@gmail.com") != -1: self.connect_address = ("talk.google.com", 5222) else: self.connect_address = None # event handlers are sleekxmpp's way of dealing with important xml tags it receives self.add_event_handler("session_start", lambda event: self.session_start()) self.add_event_handler("disconnected", lambda event: self.disconnected()) self.register_plugin('xep_0199') # Ping def buffer_message(self, data): ''' set the karma and time_last_sent karma_lock should have been acquired before calling this function ''' self.buffer_queue.put(data) self.buffer_size += len(data) self.buffer_size_lock.release() def get_buffer_size(self): self.buffer_size_lock.acquire() return self.buffer_size def get_num_clients(self): self.num_clients_lock.acquire() return self.num_clients def register_hexchat_handlers(self): '''these handle the custom iq stanzas''' self.register_handler( callback.Callback('Connect Handler', stanzapath.StanzaPath('iq@type=set/connect'), self.master.connect_handler) ) self.register_handler( callback.Callback('Connect Message Handler', stanzapath.StanzaPath('message@type=chat/connect'), self.master.connect_handler) ) self.register_handler( callback.Callback('Connect Ack Handler', stanzapath.StanzaPath('iq@type=result/connect_ack'), self.master.connect_ack_handler) ) self.register_handler( callback.Callback('Data Handler', stanzapath.StanzaPath('iq@type=set/packet'), self.master.data_handler) ) self.register_handler( callback.Callback('Disconnect Handler', stanzapath.StanzaPath('iq@type=set/disconnect'), self.master.disconnect_handler) ) self.register_handler( callback.Callback('Disconnect Error Message Handler', stanzapath.StanzaPath('message@type=chat/disconnect_error'), self.master.disconnect_error_handler) ) self.register_handler( callback.Callback('Disconnect Error Iq Handler', stanzapath.StanzaPath('iq@type=set/disconnect_error'), self.master.disconnect_error_handler) ) self.register_handler( callback.Callback('IQ Error Handler', stanzapath.StanzaPath('iq@type=error/error'), self.master.error_handler) ) self.register_handler( callback.Callback('Message Error Handler', stanzapath.StanzaPath('message@type=error/error'), self.master.error_handler) ) ### session management mathods: def boot(self, process=True): if self.connect(self.connect_address): if process: self.process() else: raise(Exception(self.boundjid.bare + " could not connect")) def session_start(self): """Called when the bot connects and establishes a session with the XMPP server.""" # XMPP spec says that we should broadcast our presence when we connect. self.send_presence() def disconnected(self): ''' Called when the bot disconnects from the XMPP server. Try to reconnect. ''' logging.warning("XMPP chat server disconnected") logging.debug("Trying to reconnect") self.boot(False) self.send_presence() def _send_thread(self): ''' modifed version of sleekxmpp's _send_thread that will not send faster than THROUGHPUT ''' try: while not self.stop.is_set(): while not self.stop.is_set() and \ not self.session_started_event.is_set(): self.session_started_event.wait(timeout=0.1) if self.__failed_send_stanza is not None: data = self.__failed_send_stanza self.__failed_send_stanza = None else: try: data = self.buffer_queue.get(True, 1) was_buffered = True except QueueEmpty: try: data = self.send_queue.get(True, 0.0) was_buffered = False except QueueEmpty: continue logging.debug("SEND: %s", data) enc_data = data.encode('utf-8') total = len(enc_data) sent = 0 count = 0 tries = 0 try: with self.send_lock: while sent < total and not self.stop.is_set() and \ self.session_started_event.is_set(): try: num_bytes = self.socket.send(enc_data[sent:]) sent += num_bytes count += 1 ''' throttling code that prevents data from being sent faster than THROUGHPUT ''' time.sleep(num_bytes / THROUGHPUT) if was_buffered: with self.buffer_size_lock: self.buffer_size -= num_bytes except ssl.SSLError as serr: if tries >= self.ssl_retry_max: logging.debug('SSL error: max retries reached') self.exception(serr) logging.warning("Failed to send %s", data) if not self.stop.is_set(): self.disconnect(self.auto_reconnect, send_close=False) logging.warning('SSL write error: retrying') if not self.stop.is_set(): time.sleep(self.ssl_retry_delay) tries += 1 if count > 1: logging.debug('SENT: %d chunks', count) if was_buffered: self.buffer_queue.task_done() else: self.send_queue.task_done() except (Socket.error, ssl.SSLError) as serr: self.event('socket_error', serr, direct=True) logging.warning("Failed to send %s", data) if not self.stop.is_set(): self.__failed_send_stanza = data self._end_thread('send') self.disconnect(self.auto_reconnect, send_close=False) return except Exception as ex: logging.exception('Unexpected error in send thread: %s', ex) self.exception(ex) if not self.stop.is_set(): self._end_thread('send') self.disconnect(self.auto_reconnect) return self._end_thread('send')
class Superfeedr(ClientXMPP): def __init__(self, jid, password, auto_connect=True): ClientXMPP.__init__(self, jid, password) self.success = False self.notification_callback = None self.wait_for_start = Queue() self.register_plugin('xep_0004') self.register_plugin('xep_0030') self.register_plugin('xep_0060') self.register_plugin('xep_0199') self.add_event_handler("session_start", self.start) handler = Callback('superfeedr', MatchXPath("{jabber:client}message/" "{http://jabber.org/protocol/pubsub#event}event"), self.superfeedr_msg) self.register_handler(handler) if auto_connect: self.connect_wait() def connect_wait(self, timeout=10): self.success = self.connect(('xmpp.superfeedr.com', 5222)) if self.success: self.process(threaded=True) start = self.wait_for_start.get(timeout) if start is None: self.success = False def start(self, event): self.get_roster() self.send_presence() self.wait_for_start.put(True) def superfeedr_msg(self, stanza): xml = stanza.xml event = {'items': [], 'status': self.parse_status(xml, '{http://jabber.org/protocol/pubsub#event}event')} items = xml.findall('{http://jabber.org/protocol/pubsub#event}event/' '{http://jabber.org/protocol/pubsub#event}items/' '{http://jabber.org/protocol/pubsub}item/' '{http://www.w3.org/2005/Atom}content') for item in items: if item.get('type') == 'application/json': event['items'].append(json.loads(item.text)) self.event('superfeedr', event) if len(event.get('items', [])) > 0: self.event('superfeedr_entry', event) return event def subscribe(self, feeds): if len(feeds) > 20: raise ValueError('Maximum of 20 feeds allowed per subscription message.') pubsub = ElementTree.Element('{http://jabber.org/protocol/pubsub}pubsub') pubsub.attrib['xmlns:superfeedr'] = 'http://superfeedr.com/xmpp-pubsub-ext' for f in feeds: feed = ElementTree.Element('subscribe') feed.attrib['node'] = f feed.attrib['jid'] = self.boundjid.bare feed.attrib['superfeedr:format'] = 'json' pubsub.append(feed) iq = self.make_iq_set(pubsub) iq.attrib['to'] = 'firehoser.superfeedr.com' iq.attrib['from'] = self.boundjid.bare iq.attrib['type'] = 'set' response = self.send_wait(iq) subscriptions = response.findall('{http://jabber.org/protocol/pubsub}pubsub/' '{http://jabber.org/protocol/pubsub}subscription') result = False if subscriptions: result = [] for subscription in subscriptions: status = self.parse_status(subscription) result.append({"subscription": {"status": status, "feed": {"url": subscription.get('node'), "title": status['title']}}}) return result def unsubscribe(self, feed): return self.plugin['xep_0060'].unsubscribe('firehoser.superfeedr.com', feed) def list(self, page=0): pubsub = ElementTree.Element('{http://jabber.org/protocol/pubsub}pubsub') pubsub.attrib['xmlns:superfeedr'] = 'http://superfeedr.com/xmpp-pubsub-ext' subscriptions = ElementTree.Element('subscriptions') subscriptions.attrib['jid'] = self.boundjid.full subscriptions.attrib['superfeedr:page'] = str(page) pubsub.append(subscriptions) iq = self.make_iq_set(pubsub) iq.attrib['to'] = 'firehoser.superfeedr.com' iq.attrib['from'] = self.boundjid.full iq.attrib['type'] = 'get' result = self.send_wait(iq) if not result or result.get('type') == 'error': return False nodes = result.findall('{http://jabber.org/protocol/pubsub}pubsub/' '{http://jabber.org/protocol/pubsub}subscriptions/' '{http://jabber.org/protocol/pubsub}subscription') if nodes is None: return [] nodelist = [] for node in nodes: nodelist.append(node.get('node', '')) return nodelist def on_notification(self, callback): self.add_event_handler('superfeedr', callback) def on_entry(self, callback): self.add_event_handler('superfeedr_entry', callback) def send_wait(self, iq, timeout=None): """ :param iq: Stanza to send :param int timeout: The number of seconds to wait for the stanza to arrive. Defaults to the the stream's :class:`~sleekxmpp.xmlstream.xmlstream.XMLStream.response_timeout` value. """ iq_id = iq.get('id') self.send(iq) waiter = Waiter("SendWait_%s" % self.new_id(), MatcherId(iq_id)) self.register_handler(waiter) return waiter.wait(timeout) @staticmethod def parse_status(xml, base_query=None): base_query = base_query + '/' if base_query else '' status_query = base_query + '{http://superfeedr.com/xmpp-pubsub-ext}status' status_child_query = status_query + '/{http://superfeedr.com/xmpp-pubsub-ext}' status = xml.find(status_query) http = xml.find(status_child_query + 'http') next_fetch = xml.find(status_child_query + 'next_fetch') last_fetch = xml.find(status_child_query + 'last_fetch') last_parse = xml.find(status_child_query + 'last_parse') period = xml.find(status_child_query + 'period') last_maintenance_at = xml.find(status_child_query + 'last_maintenance_at') title = xml.find(status_child_query + 'title') if None not in (status, http, next_fetch, last_fetch, last_parse, period, last_maintenance_at, last_fetch, title): result = dict(lastParse=date_to_epoch(last_parse.text), lastFetch=date_to_epoch(last_fetch.text), nextFetch=date_to_epoch(next_fetch.text), lastMaintenanceAt=date_to_epoch(last_maintenance_at.text), period=period.text, title=title.text) feed = status.get('feed') if feed is not None: result['feed'] = feed if http.text is not None: result['http'] = http.text code = http.get('code') if code: result['code'] = http.get('code') return result