public async Task AttributeMockSerializeDeserializeTest(int count, bool useParallel)
{
var serializer = new TcpSerializer <AttributeMockSerialize>(_bitConverterHelper, i => new byte[i]);
var deserializer = new TcpDeserializer <uint, AttributeMockSerialize>(_bitConverterHelper);
var mock = new AttributeMockSerialize
{
Id = TestContext.CurrentContext.Random.NextUInt(),
DateTime = DateTime.Now.AddSeconds(TestContext.CurrentContext.Random.NextUInt()),
LongNumbers = TestContext.CurrentContext.Random.NextULong(),
IntNumbers = TestContext.CurrentContext.Random.NextUInt()
};
mock.BuildBody();
var enumerable = Enumerable.Range(0, count);
var tasks = (useParallel ? enumerable.AsParallel().Select(Selector) : enumerable.Select(Selector)).ToArray();
await Task.WhenAll(tasks);
Task Selector(int i) =>
Task.Run(() =>
{
var serialize = serializer.Serialize(mock);
_ = deserializer.Deserialize(new ReadOnlySequence <byte>(serialize.Request));
});
}
public void Ctor()
{
_arrayPool = ArrayPool <byte> .Create();
var helper = new BitConverterHelper(TcpClientIoOptions.Default.RegisterConverter(new TcpUtf8StringConverter()));
_serializer = new TcpSerializer <Mock>(helper, l => _arrayPool.Rent(l));
_deserializer = new TcpDeserializer <long, Mock>(helper);
}
public void SerializeDeserializeTest()
{
var ethalon = Mock.Default();
const int ethalonHeaderLength = 270;
var serializer = new TcpSerializer <Mock>(_bitConverterHelper, i => new byte[i]);
var deserializer = new TcpDeserializer <long, Mock>(_bitConverterHelper);
var serialize = serializer.Serialize(ethalon);
Assert.IsTrue(serialize.Request.Length == ethalon.Size + ethalonHeaderLength);
var(_, deserialize) = deserializer.Deserialize(new ReadOnlySequence <byte>(serialize.Request));
Assert.IsTrue(ethalon.Equals(deserialize));
}
public async Task SerializeDeserializeFromPipeReaderTest()
{
var ethalon = Mock.Default();
const int ethalonHeaderLength = 270;
var serializer = new TcpSerializer <Mock>(_bitConverterHelper, i => new byte[i]);
var deserializer = new TcpDeserializer <long, Mock>(_bitConverterHelper);
var serialize = serializer.Serialize(ethalon);
Assert.IsTrue(serialize.Request.Length == ethalon.Size + ethalonHeaderLength);
var(_, deserialize) = await deserializer.DeserializeAsync(PipeReader.Create(new MemoryStream(serialize.Request.ToArray())), CancellationToken.None);
Assert.IsTrue(ethalon.Equals(deserialize));
}
public async Task SerializeDeserializeRecursiveComposeValueTypeTest()
{
var pool = ArrayPool <byte> .Create();
var serializer = new TcpSerializer <RecursiveMock <int> >(_bitConverterHelper, i => pool.Rent(i));
var deserializer = new TcpDeserializer <long, RecursiveMock <int> >(_bitConverterHelper);
var mock = RecursiveMock <int> .Create(1337);
var serialize = serializer.Serialize(mock);
var pipe = PipeReader.Create(new MemoryStream(serialize.Request.ToArray()));
var(id, data) = await deserializer.DeserializeAsync(pipe, CancellationToken.None);
Assert.NotNull(id);
Assert.NotNull(data);
}
public async Task SerializeDeserializeSpeedTest()
{
var pool = ArrayPool <byte> .Create();
var serializer = new TcpSerializer <RecursiveMock <RecursiveMock <RecursiveMock <RecursiveMock <RecursiveMock <int> > > > > >(_bitConverterHelper, i => pool.Rent(i));
var deserializer = new TcpDeserializer <long, RecursiveMock <RecursiveMock <RecursiveMock <RecursiveMock <RecursiveMock <int> > > > > >(_bitConverterHelper);
var mock = RecursiveMock <RecursiveMock <RecursiveMock <RecursiveMock <RecursiveMock <int> > > > > .Create(
RecursiveMock <RecursiveMock <RecursiveMock <RecursiveMock <int> > > > .Create(
RecursiveMock <RecursiveMock <RecursiveMock <int> > > .Create(
RecursiveMock <RecursiveMock <int> > .Create(
RecursiveMock <int> .Create(int.MaxValue
)
)
)
)
);
var sw = Stopwatch.StartNew();
SerializedRequest serialize = null;
for (var i = 0; i < 10000; i++)
{
serialize = serializer.Serialize(mock);
}
sw.Stop();
Assert.Less(sw.ElapsedMilliseconds, 1000);
TestContext.WriteLine($"Serialize: {sw.Elapsed.ToString()}");
sw.Reset();
for (var i = 0; i < 10000; i++)
{
var pipe = PipeReader.Create(new MemoryStream(serialize.Request.ToArray()));
sw.Start();
var(id, data) = await deserializer.DeserializeAsync(pipe, CancellationToken.None);
sw.Stop();
Assert.NotNull(id);
Assert.NotNull(data);
}
Assert.Less(sw.ElapsedMilliseconds, 1000);
TestContext.WriteLine($"Deserialize: {sw.Elapsed.ToString()}");
}
private TcpClientIo(TcpClientIoOptions tcpClientIoOptions, ILogger <TcpClientIo <TId, TRequest, TResponse> > logger)
{
var pipe = new Pipe();
Id = Guid.NewGuid();
_logger = logger;
_options = tcpClientIoOptions ?? TcpClientIoOptions.Default;
_batchRules = TcpBatchRules <TResponse> .Default;
_baseCancellationTokenSource = new CancellationTokenSource();
_baseCancellationToken = _baseCancellationTokenSource.Token;
_bufferBlockRequests = new BufferBlock <SerializedRequest>();
var middleware = new MiddlewareBuilder <ITcpBatch <TResponse> >()
.RegisterCancellationActionInWait((tcs, hasOwnToken) =>
{
if (_disposing || hasOwnToken)
{
tcs.TrySetCanceled();
}
else if (!_disposing && _pipelineReadEnded)
{
tcs.TrySetException(TcpClientIoException.ConnectionBroken());
}
})
.RegisterDuplicateActionInSet((batch, newBatch) => _batchRules.Update(batch, newBatch.Single()))
.RegisterCompletionActionInSet(() => _consumingResetEvent.Set());
_completeResponses = new WaitingDictionary <TId, ITcpBatch <TResponse> >(middleware);
_arrayPool = ArrayPool <byte> .Create();
var bitConverterHelper = new BitConverterHelper(_options);
_serializer = new TcpSerializer <TRequest>(bitConverterHelper, length => _arrayPool.Rent(length));
_deserializer = new TcpDeserializer <TId, TResponse>(bitConverterHelper);
_writeResetEvent = new AsyncManualResetEvent();
_readResetEvent = new AsyncManualResetEvent();
_consumingResetEvent = new AsyncManualResetEvent();
_deserializePipeReader = pipe.Reader;
_deserializePipeWriter = pipe.Writer;
}
