public void PartialReadGenerator_will_create_partial_read() { var prepender = new LengthFieldPrepender(4, false); var decoder = new LengthFieldBasedFrameDecoder(int.MaxValue, 0, 4, 0, 4); var partialReader = new PartialReadGenerator(new[] { new ReadInstruction(ReadMode.Partial, 5, 8) }); var ec = new EmbeddedChannel(partialReader, prepender, decoder); var byteBuff = Unpooled.Buffer(10).WriteInt(4).WriteInt(10); ec.WriteAndFlushAsync(byteBuff.Duplicate()).Wait(); IByteBuf encoded; do { encoded = ec.ReadOutbound <IByteBuf>(); if (encoded != null) { ec.WriteInbound(encoded); } } while (encoded != null); // finish the read ec.Pipeline.FireUserEventTriggered(PartialReadGenerator.FinishPartialReads.Instance); var inboud = ec.ReadInbound <IByteBuf>(); Assert.Equal(byteBuff.ResetReaderIndex(), inboud, AbstractByteBuf.ByteBufComparer); }
public Property LengthFrameEncoders_should_correctly_encode_anything_LittleEndian( Tuple <IByteBuf, ReadInstruction>[] reads) { var expectedReads = reads.Select(x => x.Item1).ToArray(); var readModes = reads.Select(x => x.Item2).ToArray(); var partialReader = new PartialReadGenerator(readModes); var prepender = new LengthFieldPrepender(4, false); var decoder = new LengthFieldBasedFrameDecoder(int.MaxValue, 0, 4, 0, 4); var ec = new EmbeddedChannel(partialReader, prepender, decoder); foreach (var read in expectedReads) { ec.WriteAndFlushAsync(read.Duplicate()).Wait(); IByteBuf encoded; do { encoded = ec.ReadOutbound <IByteBuf>(); if (encoded != null) { ec.WriteInbound(encoded); } } while (encoded != null); } var actualReads = new List <IByteBuf>(); // do one final read in case the last readmode was a partial ec.Pipeline.FireUserEventTriggered(PartialReadGenerator.FinishPartialReads.Instance); IByteBuf decoded; do { decoded = ec.ReadInbound <IByteBuf>(); if (decoded != null) { actualReads.Add(decoded); } } while (decoded != null); expectedReads = expectedReads.Select(x => x.ResetReaderIndex()).ToArray(); // need to perform a read reset of the buffer var pass = expectedReads.SequenceEqual(actualReads, AbstractByteBuf.ByteBufComparer); if (!pass) { Debugger.Break(); } return (pass .When(reads.Length > 0 // need something to read ) .Label($"Expected encoders and decoders to read each other's messages, even with partial reads. " + $"Expected: {string.Join("|", expectedReads.Select(x => ByteBufferUtil.HexDump(x)))}" + Environment.NewLine + $"Actual: {string.Join("|", actualReads.Select(x => ByteBufferUtil.HexDump(x)))}")); }
public void PartialReadGenerator_will_correctly_handle_multiple_reads() { var prepender = new LengthFieldPrepender(4, false); var decoder = new LengthFieldBasedFrameDecoder(int.MaxValue, 0, 4, 0, 4); var partialReader = new PartialReadGenerator(new[] { new ReadInstruction(ReadMode.Partial, 2, 8), new ReadInstruction(ReadMode.Partial, 4, 8), new ReadInstruction(ReadMode.Full, 8, 8) }); var ec = new EmbeddedChannel(partialReader, prepender, decoder); var byteBuf1 = Unpooled.Buffer(10).WriteInt(4).WriteInt(10); var byteBuf2 = Unpooled.Buffer(100).WriteInt(5).WriteInt(6).WriteBytes(new byte[92]); var byteBuf3 = Unpooled.Buffer(10).WriteInt(21).WriteInt(11); Task.WaitAll(ec.WriteAndFlushAsync(byteBuf1.Duplicate().Retain()), ec.WriteAndFlushAsync(byteBuf2.Duplicate().Retain()), ec.WriteAndFlushAsync(byteBuf3.Duplicate().Retain())); IByteBuf encoded; do { encoded = ec.ReadOutbound <IByteBuf>(); if (encoded != null) { ec.WriteInbound(encoded.Duplicate().Retain()); } } while (encoded != null); // finish the read ec.Pipeline.FireUserEventTriggered(PartialReadGenerator.FinishPartialReads.Instance); var inbound1 = ec.ReadInbound <IByteBuf>(); var inbound2 = ec.ReadInbound <IByteBuf>(); var inbound3 = ec.ReadInbound <IByteBuf>(); Assert.Equal(byteBuf1.ResetReaderIndex(), inbound1, AbstractByteBuf.ByteBufComparer); Assert.Equal(byteBuf2.ResetReaderIndex(), inbound2, AbstractByteBuf.ByteBufComparer); Assert.Equal(byteBuf3.ResetReaderIndex(), inbound3, AbstractByteBuf.ByteBufComparer); byteBuf1.Release(); byteBuf2.Release(); byteBuf3.Release(); }
public void PartialReadGenerator_will_correctly_handle_multiple_reads() { var prepender = new LengthFieldPrepender(4, false); var decoder = new LengthFieldBasedFrameDecoder(int.MaxValue, 0, 4, 0, 4); var partialReader = new PartialReadGenerator(new[] { new ReadInstruction(ReadMode.Partial, 2, 8), new ReadInstruction(ReadMode.Partial, 4, 8), new ReadInstruction(ReadMode.Full, 8, 8) }); var ec = new EmbeddedChannel(partialReader, prepender, decoder); var byteBuf1 = Unpooled.Buffer(10).WriteInt(4).WriteInt(10); var byteBuf2 = Unpooled.Buffer(100).WriteInt(5).WriteInt(6).WriteBytes(new byte[92]); var byteBuf3 = Unpooled.Buffer(10).WriteInt(21).WriteInt(11); Task.WaitAll(ec.WriteAndFlushAsync(byteBuf1.Duplicate().Retain()), ec.WriteAndFlushAsync(byteBuf2.Duplicate().Retain()), ec.WriteAndFlushAsync(byteBuf3.Duplicate().Retain())); IByteBuf encoded; do { encoded = ec.ReadOutbound<IByteBuf>(); if (encoded != null) ec.WriteInbound(encoded.Duplicate().Retain()); } while (encoded != null); // finish the read ec.Pipeline.FireUserEventTriggered(PartialReadGenerator.FinishPartialReads.Instance); var inbound1 = ec.ReadInbound<IByteBuf>(); var inbound2 = ec.ReadInbound<IByteBuf>(); var inbound3 = ec.ReadInbound<IByteBuf>(); Assert.Equal(byteBuf1.ResetReaderIndex(), inbound1, AbstractByteBuf.ByteBufComparer); Assert.Equal(byteBuf2.ResetReaderIndex(), inbound2, AbstractByteBuf.ByteBufComparer); Assert.Equal(byteBuf3.ResetReaderIndex(), inbound3, AbstractByteBuf.ByteBufComparer); byteBuf1.Release(); byteBuf2.Release(); byteBuf3.Release(); }
public void PartialReadGenerator_will_create_partial_read() { var prepender = new LengthFieldPrepender(4, false); var decoder = new LengthFieldBasedFrameDecoder(int.MaxValue, 0, 4, 0, 4); var partialReader = new PartialReadGenerator(new[] {new ReadInstruction(ReadMode.Partial, 5, 8)}); var ec = new EmbeddedChannel(partialReader, prepender, decoder); var byteBuff = Unpooled.Buffer(10).WriteInt(4).WriteInt(10); ec.WriteAndFlushAsync(byteBuff.Duplicate()).Wait(); IByteBuf encoded; do { encoded = ec.ReadOutbound<IByteBuf>(); if (encoded != null) ec.WriteInbound(encoded); } while (encoded != null); // finish the read ec.Pipeline.FireUserEventTriggered(PartialReadGenerator.FinishPartialReads.Instance); var inboud = ec.ReadInbound<IByteBuf>(); Assert.Equal(byteBuff.ResetReaderIndex(), inboud, AbstractByteBuf.ByteBufComparer); }
public Property LengthFrameEncoders_should_correctly_encode_anything_LittleEndian( Tuple<IByteBuf, ReadInstruction>[] reads) { var expectedReads = reads.Select(x => x.Item1).ToArray(); var readModes = reads.Select(x => x.Item2).ToArray(); var partialReader = new PartialReadGenerator(readModes); var prepender = new LengthFieldPrepender(4, false); var decoder = new LengthFieldBasedFrameDecoder(int.MaxValue, 0, 4, 0, 4); var ec = new EmbeddedChannel(partialReader, prepender, decoder); foreach (var read in expectedReads) { ec.WriteAndFlushAsync(read.Duplicate()).Wait(); IByteBuf encoded; do { encoded = ec.ReadOutbound<IByteBuf>(); if (encoded != null) ec.WriteInbound(encoded); } while (encoded != null); } var actualReads = new List<IByteBuf>(); // do one final read in case the last readmode was a partial ec.Pipeline.FireUserEventTriggered(PartialReadGenerator.FinishPartialReads.Instance); IByteBuf decoded; do { decoded = ec.ReadInbound<IByteBuf>(); if (decoded != null) { actualReads.Add(decoded); } } while (decoded != null); expectedReads = expectedReads.Select(x => x.ResetReaderIndex()).ToArray(); // need to perform a read reset of the buffer var pass = expectedReads.SequenceEqual(actualReads, AbstractByteBuf.ByteBufComparer); if (!pass) { Debugger.Break(); } return pass .When(reads.Length > 0 // need something to read ) .Label($"Expected encoders and decoders to read each other's messages, even with partial reads. " + $"Expected: {string.Join("|", expectedReads.Select(x => ByteBufferUtil.HexDump(x)))}" + Environment.NewLine + $"Actual: {string.Join("|", actualReads.Select(x => ByteBufferUtil.HexDump(x)))}"); }