def test_restart(self): """Test Timer restarts correctly.""" timer = Timer(0.2) timer.start() time.sleep(0.1) timer.restart() time.sleep(0.15) self.assertFalse(timer.is_expired) time.sleep(0.05) self.assertTrue(timer.is_expired)
class DULServiceProvider(Thread): """ Three ways to call DULServiceProvider: - If a port number is given, the DUL will wait for incoming connections on this port. - If a socket is given, the DUL will use this socket as the client socket. - If neither is given, the DUL will not be able to accept connections (but will be able to initiate them.) Attributes ---------- artim_timer : pynetdicom3.timer.Timer The ARTIM timer association : pynetdicom3.association.Association The DUL's current Association dul_from_user_queue : queue.Queue Queue of PDUs from the DUL service user to be processed by the DUL provider dul_to_user_queue : queue.Queue Queue of primitives from the DUL service to be processed by the DUL user event_queue : queue.Queue List of queued events to be processed by the state machine scp_socket : socket.socket() If the local AE is acting as an SCP, this is the connection from the peer AE to the SCP scu_socket : socket.socket() If the local AE is acting as an SCU, this is the connection from the local AE to the peer AE SCP state_machine : pynetdicom3.fsm.StateMachine The DICOM Upper Layer's State Machine """ def __init__(self, socket=None, port=None, dul_timeout=None, assoc=None): """ Parameters ---------- socket : socket.socket, optional The local AE's listen socket port : int, optional The port number on which to wait for incoming connections dul_timeout : float, optional The maximum amount of time to wait for connection responses (in seconds) assoc : pynetdicom3.association.Association The DUL's current Association """ if socket and port: raise ValueError("DULServiceProvider can't be instantiated with " "both socket and port parameters") # The association thread self.assoc = assoc Thread.__init__(self) # Current primitive and PDU self.primitive = None self.pdu = None # The event_queue tracks the events the DUL state machine needs to # process self.event_queue = queue.Queue() # These queues provide communication between the DUL service # user and the DUL service provider. # An event occurs when the DUL service user adds to # the to_provider_queue self.to_provider_queue = queue.Queue() # A primitive is sent to the service user when the DUL service provider # adds to the to_user_queue. self.to_user_queue = queue.Queue() # Setup the idle timer, ARTIM timer and finite state machine # FIXME: Why do we have an idle timer? self._idle_timer = Timer(dul_timeout) # ARTIM timer self.artim_timer = Timer(dul_timeout) # State machine - PS3.8 Section 9.2 self.state_machine = StateMachine(self) if socket: # A client socket has been given, so the local AE is acting as # an SCP # generate an event 5 self.event_queue.put('Evt5') self.scu_socket = socket self.peer_address = None self.scp_socket = None elif port: # A port number has been given, so the local AE is acting as an # SCU. Create a new socket using the given port number self.scp_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM) self.scp_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) # The port number for the local AE to listen on self.local_port = port if self.local_port: try: local_address = os.popen('hostname').read()[:-1] self.scp_socket.bind((local_address, self.local_port)) except Exception as ex: LOGGER.exception(ex) self.scp_socket.listen(1) else: self.scp_socket = None self.scu_socket = None self.peer_address = None else: # No port nor socket self.scp_socket = None self.scu_socket = None self.peer_address = None self._kill_thread = False self.daemon = False # Controls the minimum delay between loops in run() self._run_loop_delay = 0.001 def idle_timer_expired(self): """ Checks if the idle timer has expired Returns ------- bool True if the idle timer has expired, False otherwise """ if self._idle_timer is None: return False if self._idle_timer.is_expired: return True return False def kill_dul(self): """Immediately interrupts the thread""" self._kill_thread = True def on_receive_pdu(self): """Called after the first byte of an incoming PDU is read. """ pass def peek_next_pdu(self): """Check the next PDU to be processed.""" try: return self.to_user_queue.queue[0] except (queue.Empty, IndexError): return None def receive_pdu(self, wait=False, timeout=None): """ Get the next item to be processed out of the queue of items sent from the DUL service provider to the service user Parameters ---------- wait : bool, optional If `wait` is True and `timeout` is None, blocks until an item is available. If `timeout` is a positive number, blocks at most `timeout` seconds. Otherwise returns an item if one is immediately available. timeout : int or None See the definition of `Wait` Returns ------- queue_item The next object in the to_user_queue [FIXME] None If the queue is empty """ try: # Remove and return an item from the queue # If block is True and timeout is None then block until an item # is available. # If timeout is a positive number, blocks timeout seconds and # raises queue.Empty if no item was available in that time. # If block is False, return an item if one is immediately # available, otherwise raise queue.Empty queue_item = self.to_user_queue.get(block=wait, timeout=timeout) return queue_item except queue.Empty: return None def run(self): """ The main threading.Thread run loop. Runs constantly, checking the connection for incoming data. When incoming data is received it categorises it and add its to the `to_user_queue`. Ripping out this loop and replacing it with event-driven reactor would be nice. """ # Main DUL loop if self._idle_timer is not None: self._idle_timer.start() while True: # This effectively controls how often the DUL checks the network time.sleep(self._run_loop_delay) if self._kill_thread: break # Check the connection for incoming data try: # If local AE is SCU also calls _check_incoming_pdu() if self._is_transport_event() and self._idle_timer is not None: self._idle_timer.restart() elif self._check_incoming_primitive(): pass elif self._is_artim_expired(): self._kill_thread = True except: # FIXME: This catch all should be removed self._kill_thread = True raise # Check the event queue to see if there is anything to do try: event = self.event_queue.get(False) # If the queue is empty, return to the start of the loop except queue.Empty: continue self.state_machine.do_action(event) def send_pdu(self, params): """ Parameters ---------- params - The parameters to put on FromServiceUser [FIXME] """ self.to_provider_queue.put(params) def stop_dul(self): """ Interrupts the thread if state is "Sta1" Returns ------- bool True if Sta1, False otherwise """ if self.state_machine.current_state == 'Sta1': self._kill_thread = True # Fix for Issue 39 # Give the DUL thread time to exit while self.is_alive(): time.sleep(0.001) return True return False def _check_incoming_pdu(self): """ Converts an incoming PDU from the peer AE back into a primitive (ie one of the following: A-ASSOCIATE, A-RELEASE, A-ABORT, P-DATA, A-P-ABORT) """ bytestream = bytes() # Try and read data from the socket try: # Get the data from the socket bytestream = self.scu_socket.recv(1) except socket.error: self.event_queue.put('Evt17') self.scu_socket.close() self.scu_socket = None LOGGER.error('DUL: Error reading data from the socket') return # Remote port has been closed if bytestream == bytes(): self.event_queue.put('Evt17') self.scu_socket.close() self.scu_socket = None LOGGER.error('Peer has closed transport connection') return # Incoming data is OK else: # First byte is always PDU type # 0x01 - A-ASSOCIATE-RQ 1, 2, 3-6 # 0x02 - A-ASSOCIATE-AC 1, 2, 3-6 # 0x03 - A-ASSOCIATE-RJ 1, 2, 3-6 # 0x04 - P-DATA-TF 1, 2, 3-6 # 0x05 - A-RELEASE-RQ 1, 2, 3-6 # 0x06 - A-RELEASE-RP 1, 2, 3-6 # 0x07 - A-ABORT 1, 2, 3-6 # We do all this just to get the length of the PDU # Byte 1 is PDU type # (value, ) pdu_type = unpack('B', bytestream)[0] # Unrecognised PDU type - Evt19 in the State Machine if pdu_type not in [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07]: LOGGER.error("Unrecognised PDU type: 0x%02x", pdu_type) self.event_queue.put('Evt19') return # Byte 2 is Reserved result = self._recvn(self.scu_socket, 1) bytestream += result # Bytes 3-6 is the PDU length result = unpack('B', result) length = self._recvn(self.scu_socket, 4) bytestream += length length = unpack('>L', length) # Bytes 7-xxxx is the rest of the PDU result = self._recvn(self.scu_socket, length[0]) bytestream += result # Determine the type of PDU coming on remote port, then decode # the raw bytestream to the corresponding PDU class self.pdu = self._socket_to_pdu(bytestream) # Put the event corresponding to the incoming PDU on the queue self.event_queue.put(self._pdu_to_event(self.pdu)) # Convert the incoming PDU to a corresponding ServiceParameters # object self.primitive = self.pdu.ToParams() def _check_incoming_primitive(self): """Check the incoming primitive.""" try: # Check the queue and see if there are any primitives # If so then put the corresponding event on the event queue self.primitive = self.to_provider_queue.get(False) self.event_queue.put(self._primitive_to_event(self.primitive)) return True except queue.Empty: return False def _is_artim_expired(self): """Return if the state machine's ARTIM timer has expired. If it has then 'Evt18' is added to the event queue. Returns ------- bool True if the ARTIM timer has expired, False otherwise """ if self.artim_timer.is_expired: #LOGGER.debug('%s: timer expired' % (self.name)) self.event_queue.put('Evt18') return True return False def _is_transport_event(self): """Check to see if the transport connection has incoming data Returns ------- bool True if an event has been added, False otherwise """ # Sta13 is waiting for the transport connection to close if self.state_machine.current_state == 'Sta13': # If we have no connection to the SCU if self.scu_socket is None: return False # If we are still connected to the SCU try: # socket.Socket().recv(bufsize) # If we are still receiving data from the socket # wait until its done while self.scu_socket.recv(1) != b'': continue except socket.error: return False # Once we have no more incoming data close the socket and # add the corresponding event to the queue self.scu_socket.close() self.scu_socket = None # Issue the Transport connection closed indication (AR-5 -> Sta1) self.event_queue.put('Evt17') return True # If the local AE is an SCP, listen for incoming data # The local AE is in Sta1, i.e. listening for Transport Connection # Indications if self.scp_socket and not self.scu_socket: read_list, _, _ = select.select([self.scp_socket], [], [], 0) # If theres incoming connection request, accept it if read_list: self.scu_socket, _ = self.scp_socket.accept() # Add to event queue (Sta1 + Evt5 -> AE-5 -> Sta2 self.event_queue.put('Evt5') return True # If a local AE is an SCU, listen for incoming data elif self.scu_socket: # If we are awaiting transport connection opening to complete # (from local transport service) then issue the corresponding # indication (Sta4 + Evt2 -> AE-2 -> Sta5) if self.state_machine.current_state == 'Sta4': self.event_queue.put('Evt2') return True # By this point the connection should be established # If theres incoming data on the connection then check the PDU # type # Fix for #28 - caused by peer disconnecting before run loop is # stopped by assoc.release() try: read_list, _, _ = select.select([self.scu_socket], [], [], 0) except (socket.error, ValueError): return False if read_list: self._check_incoming_pdu() return True else: return False @staticmethod def _pdu_to_event(pdu): """Returns the event associated with the PDU. Parameters ---------- pdu : pynetdicom3.pdu.PDU The PDU Returns ------- str The event str associated with the PDU """ if pdu.__class__ == A_ASSOCIATE_RQ: event_str = 'Evt6' elif pdu.__class__ == A_ASSOCIATE_AC: event_str = 'Evt3' elif pdu.__class__ == A_ASSOCIATE_RJ: event_str = 'Evt4' elif pdu.__class__ == P_DATA_TF: event_str = 'Evt10' elif pdu.__class__ == A_RELEASE_RQ: event_str = 'Evt12' elif pdu.__class__ == A_RELEASE_RP: event_str = 'Evt13' elif pdu.__class__ == A_ABORT_RQ: event_str = 'Evt16' else: #"Unrecognized or invalid PDU" event_str = 'Evt19' return event_str @staticmethod def _primitive_to_event(primitive): """Returns the state machine event associated with sending a primitive. Parameters ---------- primitive : pynetdicom3.pdu_primitives.ServiceParameter The Association primitive Returns ------- str The event associated with the primitive """ if primitive.__class__ == A_ASSOCIATE: if primitive.result is None: # A-ASSOCIATE Request event_str = 'Evt1' elif primitive.result == 0x00: # A-ASSOCIATE Response (accept) event_str = 'Evt7' else: # A-ASSOCIATE Response (reject) event_str = 'Evt8' elif primitive.__class__ == A_RELEASE: if primitive.result is None: # A-Release Request event_str = 'Evt11' else: # A-Release Response # result is 'affirmative' event_str = 'Evt14' elif primitive.__class__ == A_ABORT: event_str = 'Evt15' elif primitive.__class__ == P_DATA: event_str = 'Evt9' else: raise ValueError("_primitive_to_event(): invalid primitive") return event_str @staticmethod def _recvn(sock, n_bytes): """Read `n_bytes` from a socket. Parameters ---------- sock : socket.socket The socket to read from n_bytes : int The number of bytes to read """ ret = b'' read_length = 0 while read_length < n_bytes: tmp = sock.recv(n_bytes - read_length) if not tmp: return ret ret += tmp read_length += len(tmp) if read_length != n_bytes: raise RuntimeError("_recvn(socket, {}) - Error reading data from " "socket.".format(n_bytes)) return ret def _socket_to_pdu(self, data): """Returns the PDU object associated with an incoming data stream. Parameters ---------- data : bytes The incoming data stream Returns ------- pdu : pynetdicom3.pdu.PDU The decoded data as a PDU object """ pdutype = unpack('B', data[0:1])[0] acse = self.assoc.acse pdu_types = { 0x01: (A_ASSOCIATE_RQ(), acse.debug_receive_associate_rq), 0x02: (A_ASSOCIATE_AC(), acse.debug_receive_associate_ac), 0x03: (A_ASSOCIATE_RJ(), acse.debug_receive_associate_rj), 0x04: (P_DATA_TF(), acse.debug_receive_data_tf), 0x05: (A_RELEASE_RQ(), acse.debug_receive_release_rq), 0x06: (A_RELEASE_RP(), acse.debug_receive_release_rp), 0x07: (A_ABORT_RQ(), acse.debug_receive_abort) } if pdutype in pdu_types: pdu = pdu_types[pdutype][0] pdu.Decode(data) # ACSE callbacks pdu_types[pdutype][1](pdu) return pdu return None