import logging from coapthon import defines from coapthon.messages.request import Request from coapthon.messages.response import Response logger = logging.getLogger(__name__) __author__ = 'Giacomo Tanganelli' class BlockItem(object): def __init__(self, byte, num, m, size, payload=None, content_type=None): """ Data structure to store Block parameters :param byte: the last byte exchanged :param num: the num field of the block option :param m: the M bit of the block option :param size: the size field of the block option :param payload: the overall payload received in all blocks :param content_type: the content-type of the payload """ self.byte = byte self.num = num self.m = m self.size = size self.payload = payload self.content_type = content_type class BlockLayer(object): """ Handle the Blockwise options. Hides all the exchange to both servers and clients. """ def __init__(self): self._block1_sent = {} # type: dict[hash, BlockItem] self._block2_sent = {} # type: dict[hash, BlockItem] self._block1_receive = {} # type: dict[hash, BlockItem] self._block2_receive = {} # type: dict[hash, BlockItem] def receive_request(self, transaction): """ Handles the Blocks option in a incoming request. :type transaction: Transaction :param transaction: the transaction that owns the request :rtype : Transaction :return: the edited transaction """ if transaction.request.block2 is not None: host, port = transaction.request.source key_token = hash(str(host) + str(port) + str(transaction.request.token)) num, m, size = transaction.request.block2 if key_token in self._block2_receive: self._block2_receive[key_token].num = num self._block2_receive[key_token].size = size self._block2_receive[key_token].m = m del transaction.request.block2 else: # early negotiation byte = 0 self._block2_receive[key_token] = BlockItem(byte, num, m, size) del transaction.request.block2 elif transaction.request.block1 is not None: # POST or PUT host, port = transaction.request.source key_token = hash(str(host) + str(port) + str(transaction.request.token)) num, m, size = transaction.request.block1 if transaction.request.size1 is not None: # What to do if the size1 is larger than the maximum resource size or the maxium server buffer pass if key_token in self._block1_receive: # n-th block content_type = transaction.request.content_type if num != self._block1_receive[key_token].num \ or content_type != self._block1_receive[key_token].content_type: # Error Incomplete return self.incomplete(transaction) self._block1_receive[key_token].payload += transaction.request.payload else: # first block if num != 0: # Error Incomplete return self.incomplete(transaction) content_type = transaction.request.content_type self._block1_receive[key_token] = BlockItem(size, num, m, size, transaction.request.payload, content_type) if m == 0: transaction.request.payload = self._block1_receive[key_token].payload # end of blockwise del transaction.request.block1 transaction.block_transfer = False del self._block1_receive[key_token] return transaction else: # Continue transaction.block_transfer = True transaction.response = Response() transaction.response.destination = transaction.request.source transaction.response.token = transaction.request.token transaction.response.code = defines.Codes.CONTINUE.number transaction.response.block1 = (num, m, size) num += 1 byte = size self._block1_receive[key_token].byte = byte self._block1_receive[key_token].num = num self._block1_receive[key_token].size = size self._block1_receive[key_token].m = m return transaction def receive_response(self, transaction): """ Handles the Blocks option in a incoming response. :type transaction: Transaction :param transaction: the transaction that owns the response :rtype : Transaction :return: the edited transaction """ host, port = transaction.response.source key_token = hash(str(host) + str(port) + str(transaction.response.token)) if key_token in self._block1_sent and transaction.response.block1 is not None: item = self._block1_sent[key_token] transaction.block_transfer = True if item.m == 0: transaction.block_transfer = False del transaction.request.block1 return transaction n_num, n_m, n_size = transaction.response.block1 if n_num != item.num: # pragma: no cover logger.warning("Blockwise num acknowledged error, expected " + str(item.num) + " received " + str(n_num)) return None if n_size < item.size: logger.debug("Scale down size, was " + str(item.size) + " become " + str(n_size)) item.size = n_size request = transaction.request del request.mid del request.block1 request.payload = item.payload[item.byte: item.byte+item.size] item.num += 1 item.byte += item.size if len(item.payload) <= item.byte: item.m = 0 else: item.m = 1 request.block1 = (item.num, item.m, item.size) # The original request already has this option set # request.size1 = len(item.payload) elif transaction.response.block2 is not None: num, m, size = transaction.response.block2 if m == 1: transaction.block_transfer = True if key_token in self._block2_sent: item = self._block2_sent[key_token] if num != item.num: # pragma: no cover logger.error("Receive unwanted block") return self.error(transaction, defines.Codes.REQUEST_ENTITY_INCOMPLETE.number) if item.content_type is None: item.content_type = transaction.response.content_type if item.content_type != transaction.response.content_type: # pragma: no cover logger.error("Content-type Error") return self.error(transaction, defines.Codes.UNSUPPORTED_CONTENT_FORMAT.number) item.byte += size item.num = num + 1 item.size = size item.m = m item.payload += transaction.response.payload else: item = BlockItem(size, num + 1, m, size, transaction.response.payload, transaction.response.content_type) self._block2_sent[key_token] = item request = transaction.request del request.mid del request.block2 request.block2 = (item.num, 0, item.size) else: transaction.block_transfer = False if key_token in self._block2_sent: if self._block2_sent[key_token].content_type != transaction.response.content_type: # pragma: no cover logger.error("Content-type Error") return self.error(transaction, defines.Codes.UNSUPPORTED_CONTENT_FORMAT.number) transaction.response.payload = self._block2_sent[key_token].payload + transaction.response.payload del self._block2_sent[key_token] else: transaction.block_transfer = False return transaction def receive_empty(self, empty, transaction): """ Dummy function. Used to do not broke the layered architecture. :type empty: Message :param empty: the received empty message :type transaction: Transaction :param transaction: the transaction that owns the empty message :rtype : Transaction :return: the transaction """ return transaction def send_response(self, transaction): """ Handles the Blocks option in a outgoing response. :type transaction: Transaction :param transaction: the transaction that owns the response :rtype : Transaction :return: the edited transaction """ host, port = transaction.request.source key_token = hash(str(host) + str(port) + str(transaction.request.token)) if (key_token in self._block2_receive and transaction.response.payload is not None) or \ (transaction.response.payload is not None and len(transaction.response.payload) > defines.MAX_PAYLOAD): if key_token in self._block2_receive: byte = self._block2_receive[key_token].byte size = self._block2_receive[key_token].size num = self._block2_receive[key_token].num else: byte = 0 num = 0 size = defines.MAX_PAYLOAD m = 1 self._block2_receive[key_token] = BlockItem(byte, num, m, size) # correct m m = 0 if ((num * size) + size) > len(transaction.response.payload) else 1 # add size2 if requested or if payload is bigger than one datagram del transaction.response.size2 if (transaction.request.size2 is not None and transaction.request.size2 == 0) or \ (transaction.response.payload is not None and len(transaction.response.payload) > defines.MAX_PAYLOAD): transaction.response.size2 = len(transaction.response.payload) transaction.response.payload = transaction.response.payload[byte:byte + size] del transaction.response.block2 transaction.response.block2 = (num, m, size) self._block2_receive[key_token].byte += size self._block2_receive[key_token].num += 1 if m == 0: del self._block2_receive[key_token] return transaction def send_request(self, request): """ Handles the Blocks option in a outgoing request. :type request: Request :param request: the outgoing request :return: the edited request """ assert isinstance(request, Request) if request.block1 or (request.payload is not None and len(request.payload) > defines.MAX_PAYLOAD): host, port = request.destination key_token = hash(str(host) + str(port) + str(request.token)) if request.block1: num, m, size = request.block1 else: num = 0 m = 1 size = defines.MAX_PAYLOAD # correct m m = 0 if ((num * size) + size) > len(request.payload) else 1 del request.size1 request.size1 = len(request.payload) self._block1_sent[key_token] = BlockItem(size, num, m, size, request.payload, request.content_type) request.payload = request.payload[0:size] del request.block1 request.block1 = (num, m, size) elif request.block2: host, port = request.destination key_token = hash(str(host) + str(port) + str(request.token)) num, m, size = request.block2 item = BlockItem(size, num, m, size, "", None) self._block2_sent[key_token] = item return request return request @staticmethod def incomplete(transaction): """ Notifies incomplete blockwise exchange. :type transaction: Transaction :param transaction: the transaction that owns the response :rtype : Transaction :return: the edited transaction """ transaction.block_transfer = True transaction.response = Response() transaction.response.destination = transaction.request.source transaction.response.token = transaction.request.token transaction.response.code = defines.Codes.REQUEST_ENTITY_INCOMPLETE.number return transaction @staticmethod def error(transaction, code): # pragma: no cover """ Notifies generic error on blockwise exchange. :type transaction: Transaction :param transaction: the transaction that owns the response :rtype : Transaction :return: the edited transaction """ transaction.block_transfer = True transaction.response = Response() transaction.response.destination = transaction.request.source transaction.response.type = defines.Types["RST"] transaction.response.token = transaction.request.token transaction.response.code = code return transaction