Exemplo n.º 1
0
    def read_header_format(self, sz, header_size, data):
        # clear out any previous transforms
        self.__read_transforms = []

        header_size = header_size * 4
        if header_size > sz:
            raise TTransportException(TTransportException.INVALID_FRAME_SIZE,
                                      "Header size is larger than frame")
        end_header = header_size + data.tell()

        self.__proto_id = readVarint(data)
        num_headers = readVarint(data)

        if self.__proto_id == 1 and self.__client_type != \
                CLIENT_TYPE.HTTP_SERVER:
            raise TTransportException(TTransportException.INVALID_CLIENT_TYPE,
                                      "Trying to recv JSON encoding over binary")

        # Read the headers.  Data for each header varies.
        for _ in range(0, num_headers):
            trans_id = readVarint(data)
            if trans_id == TRANSFORM.ZLIB:
                self.__read_transforms.insert(0, trans_id)
            elif trans_id == TRANSFORM.SNAPPY:
                self.__read_transforms.insert(0, trans_id)
            elif trans_id == TRANSFORM.HMAC:
                raise TApplicationException(
                    TApplicationException.INVALID_TRANSFORM,
                    "Hmac transform is no longer supported: %i" % trans_id)
            else:
                # TApplicationException will be sent back to client
                raise TApplicationException(
                    TApplicationException.INVALID_TRANSFORM,
                    "Unknown transform in client request: %i" % trans_id)

        # Clear out previous info headers.
        self.__read_headers.clear()

        # Read the info headers.
        while data.tell() < end_header:
            info_id = readVarint(data)
            if info_id == INFO.NORMAL:
                _read_info_headers(
                    data, end_header, self.__read_headers)
            elif info_id == INFO.PERSISTENT:
                _read_info_headers(
                    data, end_header, self.__read_persistent_headers)
            else:
                break  # Unknown header.  Stop info processing.

        if self.__read_persistent_headers:
            self.__read_headers.update(self.__read_persistent_headers)

        # Skip the rest of the header
        data.seek(end_header)

        payload = data.read(sz - header_size)

        # Read the data section.
        self.__rbuf = StringIO(self.untransform(payload))
Exemplo n.º 2
0
 def recv_verifyClientVersion(self, ):
   (fname, mtype, rseqid) = self._iprot.readMessageBegin()
   if mtype == TMessageType.EXCEPTION:
     x = TApplicationException()
     x.read(self._iprot)
     self._iprot.readMessageEnd()
     raise x
   result = verifyClientVersion_result()
   result.read(self._iprot)
   self._iprot.readMessageEnd()
   if result.success != None:
     return result.success
   raise TApplicationException(TApplicationException.MISSING_RESULT, "verifyClientVersion failed: unknown result");
Exemplo n.º 3
0
def write_results_after_future(
    result,
    event_handler,
    handler_ctx,
    seqid,
    oprot,
    fn_name,
    known_exceptions,
    future,
):
    """Result/exception handler for asyncio futures."""
    try:
        try:
            result.success = future.result()
            reply_type = TMessageType.REPLY
        except TException as e:
            for exc_name, exc_type in known_exceptions.items():
                if isinstance(e, exc_type):
                    setattr(result, exc_name, e)
                    reply_type = TMessageType.REPLY
                    event_handler.handlerException(handler_ctx, fn_name, e)
                    break
            else:
                raise
    except Exception as e:
        result = TApplicationException(message=str(e))
        reply_type = TMessageType.EXCEPTION
        event_handler.handlerError(handler_ctx, fn_name, e)

    write_result(result, reply_type, seqid, event_handler, handler_ctx,
                 fn_name, oprot)
Exemplo n.º 4
0
 def _getProcessor(self, processor):
     """ Check if a processor is really a processor, or if it is a handler
         auto create a processor for it """
     if isinstance(processor, TProcessor):
         return processor
     elif hasattr(processor, "_processor_type"):
         handler = processor
         return handler._processor_type(handler)
     else:
         raise TApplicationException(
             message="Could not detect processor type")
    def reset_protocol(self):
        if self.__proto_id == self.trans.get_protocol_id():
            return

        proto_id = self.trans.get_protocol_id()

        if proto_id == self.T_BINARY_PROTOCOL:
            self.__proto = TBinaryProtocolAccelerated(self.trans,
                                                      self.strictRead, True)
        elif proto_id == self.T_COMPACT_PROTOCOL:
            self.__proto = TCompactProtocolAccelerated(self.trans)
        else:
            raise TApplicationException(TProtocolException.INVALID_PROTOCOL,
                                        "Unknown protocol requested")
        self.__proto_id = proto_id
Exemplo n.º 6
0
        def nested(self, seqid, iprot, oprot, server_ctx):
            _mem_before = _process_method_mem_usage()
            fn_name = get_function_name(func)
            # self is a TProcessor instance
            handler_ctx = self._event_handler.getHandlerContext(
                fn_name,
                server_ctx,
            )
            set_request_context(self, iprot)
            try:
                args = self.readArgs(iprot, handler_ctx, fn_name, argtype)
            except Exception as e:
                args = argtype()
                log.exception(
                    'Exception thrown while reading arguments: `%s`',
                    str(e),
                )
                result = TApplicationException(message=str(e))
                if not oneway:
                    self.writeException(oprot, fn_name, seqid, result)
            else:
                if asyncio:
                    return func(self, args, handler_ctx, seqid, oprot, fn_name)

                result = func(self, args, handler_ctx)
                if not oneway:
                    self.writeReply(oprot, handler_ctx, fn_name, seqid, result,
                                    server_ctx)
            finally:
                reset_request_context(self)

            _mem_after = _process_method_mem_usage()
            if _mem_after - _mem_before > MEMORY_WARNING_THRESHOLD:
                log.error(
                    'Memory usage rose from %d to %d while processing `%s` '
                    'with args `%s`',
                    _mem_before,
                    _mem_after,
                    fn_name,
                    str(args),
                )
Exemplo n.º 7
0
 def _handle_timeout(self, fname, seqid):
     exc = TApplicationException(TApplicationException.TIMEOUT,
                                 "Call to {} timed out".format(fname))
     serialized_exc = self.serialize_texception(fname, seqid, exc)
     self._handle_message(serialized_exc, clear_timeout=False)
Exemplo n.º 8
0
def make_unknown_function_exception(name):
    return TApplicationException(
        TApplicationException.UNKNOWN_METHOD,
        'Unknown function {!r}'.format(name),
    )