示例#1
0
        /// <summary>Creates a new IncomingRequestFrame.</summary>
        /// <param name="protocol">The Ice protocol.</param>
        /// <param name="data">The frame data as an array segment.</param>
        public IncomingRequestFrame(Protocol protocol, ArraySegment <byte> data)
        {
            Data     = data;
            Protocol = protocol;

            var istr = new InputStream(Protocol.GetEncoding(), data);

            Identity     = new Identity(istr);
            Facet        = istr.ReadFacet();
            Operation    = istr.ReadString();
            IsIdempotent = istr.ReadOperationMode() != OperationMode.Normal;
            Context      = istr.ReadContext();
            Payload      = Data.Slice(istr.Pos);
            (int size, Encoding encoding) = istr.ReadEncapsulationHeader();
            if (protocol == Protocol.Ice1 && size + 4 != Payload.Count)
            {
                // The payload holds an encapsulation and the encapsulation must use up the full buffer with ice1.
                // "4" corresponds to fixed-length size with the 1.1 encoding.
                throw new InvalidDataException($"invalid request encapsulation size: {size}");
            }
            else
            {
                // TODO: with ice2, the payload is followed by a context, and the size is not fixed-length.
                // TODO: read the compression status from the encapsulation data
            }
            Encoding = encoding;
        }
示例#2
0
        /// <summary>Creates a new IncomingRequestFrame.</summary>
        /// <param name="communicator">The communicator to use when initializing the stream.</param>
        /// <param name="data">The frame data as an array segment.</param>
        public IncomingRequestFrame(Communicator communicator, ArraySegment <byte> data)
        {
            _communicator = communicator;
            Data          = data;
            var istr = new InputStream(communicator, Ice1Definitions.Encoding, data);

            Identity     = new Identity(istr);
            Facet        = istr.ReadFacet();
            Operation    = istr.ReadString();
            IsIdempotent = istr.ReadOperationMode() != OperationMode.Normal;
            Context      = istr.ReadContext();
            Payload      = Data.Slice(istr.Pos);
            (int size, Encoding encoding) = istr.ReadEncapsulationHeader();
            if (size + 4 != Payload.Count)
            {
                throw new InvalidDataException($"invalid request encapsulation size: {size}");
            }
            Encoding = encoding;
        }
示例#3
0
        /// <summary>Creates a new IncomingRequestFrame.</summary>
        /// <param name="protocol">The Ice protocol.</param>
        /// <param name="data">The frame data as an array segment.</param>
        /// <param name="sizeMax">The maximum payload size, checked during decompress.</param>
        public IncomingRequestFrame(Protocol protocol, ArraySegment <byte> data, int sizeMax)
            : base(data, protocol, sizeMax)
        {
            var istr = new InputStream(Data, Protocol.GetEncoding());

            Identity     = new Identity(istr);
            Facet        = istr.ReadFacet();
            Operation    = istr.ReadString();
            IsIdempotent = istr.ReadOperationMode() != OperationMode.Normal;
            if (Protocol == Protocol.Ice1)
            {
                Context = istr.ReadContext();
            }
            else
            {
                Context = ImmutableDictionary <string, string> .Empty;
            }

            (int size, int sizeLength, Encoding encoding) =
                Data.Slice(istr.Pos).AsReadOnlySpan().ReadEncapsulationHeader(Protocol.GetEncoding());
            Encapsulation = Data.Slice(istr.Pos, size + sizeLength);
            Payload       = Data.Slice(0, istr.Pos + size + sizeLength);
            if (Protocol == Protocol.Ice2 && BinaryContext.TryGetValue(0, out ReadOnlyMemory <byte> value))
            {
                Context = value.Read(ContextHelper.IceReader);
            }

            if (protocol == Protocol.Ice1 && size + 4 + istr.Pos != data.Count)
            {
                // The payload holds an encapsulation and the encapsulation must use up the full buffer with ice1.
                // "4" corresponds to fixed-length size with the 1.1 encoding.
                throw new InvalidDataException($"invalid request encapsulation size: {size}");
            }

            Encoding             = encoding;
            HasCompressedPayload = Encoding == Encoding.V2_0 && Encapsulation[sizeLength + 2] != 0;
        }