add668dfd2
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/) and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html). Additional documentation and release notes are available at [Multiplayer Documentation](https://docs-multiplayer.unity3d.com). ## [1.0.0-pre.8] - 2022-04-27 ### Changed - `unmanaged` structs are no longer universally accepted as RPC parameters because some structs (i.e., structs with pointers in them, such as `NativeList<T>`) can't be supported by the default memcpy struct serializer. Structs that are intended to be serialized across the network must add `INetworkSerializeByMemcpy` to the interface list (i.e., `struct Foo : INetworkSerializeByMemcpy`). This interface is empty and just serves to mark the struct as compatible with memcpy serialization. For external structs you can't edit, you can pass them to RPCs by wrapping them in `ForceNetworkSerializeByMemcpy<T>`. (#1901) ### Removed - Removed `SIPTransport` (#1870) - Removed `ClientNetworkTransform` from the package samples and moved to Boss Room's Utilities package which can be found [here](https://github.com/Unity-Technologies/com.unity.multiplayer.samples.coop/blob/main/Packages/com.unity.multiplayer.samples.coop/Utilities/Net/ClientAuthority/ClientNetworkTransform.cs). ### Fixed - Fixed `NetworkTransform` generating false positive rotation delta checks when rolling over between 0 and 360 degrees. (#1890) - Fixed client throwing an exception if it has messages in the outbound queue when processing the `NetworkEvent.Disconnect` event and is using UTP. (#1884) - Fixed issue during client synchronization if 'ValidateSceneBeforeLoading' returned false it would halt the client synchronization process resulting in a client that was approved but not synchronized or fully connected with the server. (#1883) - Fixed an issue where UNetTransport.StartServer would return success even if the underlying transport failed to start (#854) - Passing generic types to RPCs no longer causes a native crash (#1901) - Fixed an issue where calling `Shutdown` on a `NetworkManager` that was already shut down would cause an immediate shutdown the next time it was started (basically the fix makes `Shutdown` idempotent). (#1877)
229 lines
8.4 KiB
C#
229 lines
8.4 KiB
C#
using System;
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using System.Collections.Generic;
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using NUnit.Framework;
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using Unity.Collections;
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using Unity.Collections.LowLevel.Unsafe;
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namespace Unity.Netcode.EditorTests
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{
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public class MessageSendingTests
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{
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private struct TestMessage : INetworkMessage, INetworkSerializeByMemcpy
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{
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public int A;
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public int B;
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public int C;
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public static bool Serialized;
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public void Serialize(FastBufferWriter writer)
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{
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Serialized = true;
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writer.WriteValueSafe(this);
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}
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public bool Deserialize(FastBufferReader reader, ref NetworkContext context)
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{
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return true;
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}
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public void Handle(ref NetworkContext context)
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{
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}
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}
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private class TestMessageSender : IMessageSender
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{
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public List<byte[]> MessageQueue = new List<byte[]>();
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public void Send(ulong clientId, NetworkDelivery delivery, FastBufferWriter batchData)
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{
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MessageQueue.Add(batchData.ToArray());
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}
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}
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private class TestMessageProvider : IMessageProvider
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{
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public List<MessagingSystem.MessageWithHandler> GetMessages()
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{
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return new List<MessagingSystem.MessageWithHandler>
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{
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new MessagingSystem.MessageWithHandler
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{
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MessageType = typeof(TestMessage),
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Handler = MessagingSystem.ReceiveMessage<TestMessage>
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}
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};
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}
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}
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private TestMessageSender m_MessageSender;
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private MessagingSystem m_MessagingSystem;
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private ulong[] m_Clients = { 0 };
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[SetUp]
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public void SetUp()
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{
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TestMessage.Serialized = false;
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m_MessageSender = new TestMessageSender();
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m_MessagingSystem = new MessagingSystem(m_MessageSender, this, new TestMessageProvider());
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m_MessagingSystem.ClientConnected(0);
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}
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[TearDown]
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public void TearDown()
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{
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m_MessagingSystem.Dispose();
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}
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private TestMessage GetMessage()
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{
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var random = new Random();
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return new TestMessage
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{
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A = random.Next(),
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B = random.Next(),
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C = random.Next(),
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};
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}
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[Test]
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public void WhenSendingMessage_SerializeIsCalled()
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{
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var message = GetMessage();
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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Assert.IsTrue(TestMessage.Serialized);
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}
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[Test]
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public void WhenSendingMessage_NothingIsSentBeforeProcessingSendQueue()
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{
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var message = GetMessage();
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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Assert.IsEmpty(m_MessageSender.MessageQueue);
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}
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[Test]
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public void WhenProcessingSendQueue_MessageIsSent()
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{
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var message = GetMessage();
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.ProcessSendQueues();
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Assert.AreEqual(1, m_MessageSender.MessageQueue.Count);
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}
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[Test]
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public void WhenSendingMultipleMessages_MessagesAreBatched()
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{
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var message = GetMessage();
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.ProcessSendQueues();
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Assert.AreEqual(1, m_MessageSender.MessageQueue.Count);
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}
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[Test]
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public void WhenNotExceedingBatchSize_NewBatchesAreNotCreated()
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{
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var message = GetMessage();
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var size = UnsafeUtility.SizeOf<TestMessage>() + 2; // MessageHeader packed with this message will be 2 bytes
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for (var i = 0; i < 1300 / size; ++i)
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{
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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}
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m_MessagingSystem.ProcessSendQueues();
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Assert.AreEqual(1, m_MessageSender.MessageQueue.Count);
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}
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[Test]
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public void WhenExceedingBatchSize_NewBatchesAreCreated()
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{
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var message = GetMessage();
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var size = UnsafeUtility.SizeOf<TestMessage>() + 2; // MessageHeader packed with this message will be 2 bytes
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for (var i = 0; i < (1300 / size) + 1; ++i)
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{
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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}
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m_MessagingSystem.ProcessSendQueues();
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Assert.AreEqual(2, m_MessageSender.MessageQueue.Count);
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}
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[Test]
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public void WhenExceedingMTUSizeWithFragmentedDelivery_NewBatchesAreNotCreated()
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{
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var message = GetMessage();
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var size = UnsafeUtility.SizeOf<TestMessage>() + 2; // MessageHeader packed with this message will be 2 bytes
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for (var i = 0; i < (1300 / size) + 1; ++i)
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{
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.ReliableFragmentedSequenced, m_Clients);
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}
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m_MessagingSystem.ProcessSendQueues();
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Assert.AreEqual(1, m_MessageSender.MessageQueue.Count);
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}
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[Test]
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public void WhenSwitchingDelivery_NewBatchesAreCreated()
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{
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var message = GetMessage();
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Unreliable, m_Clients);
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m_MessagingSystem.ProcessSendQueues();
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Assert.AreEqual(2, m_MessageSender.MessageQueue.Count);
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}
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[Test]
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public void WhenSwitchingChannel_NewBatchesAreNotCreated()
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{
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var message = GetMessage();
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.ProcessSendQueues();
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Assert.AreEqual(1, m_MessageSender.MessageQueue.Count);
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}
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[Test]
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public void WhenSendingMessaged_SentDataIsCorrect()
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{
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var message = GetMessage();
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var message2 = GetMessage();
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m_MessagingSystem.SendMessage(ref message, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.SendMessage(ref message2, NetworkDelivery.Reliable, m_Clients);
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m_MessagingSystem.ProcessSendQueues();
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var reader = new FastBufferReader(m_MessageSender.MessageQueue[0], Allocator.Temp);
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using (reader)
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{
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reader.ReadValueSafe(out BatchHeader header);
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Assert.AreEqual(2, header.BatchSize);
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MessageHeader messageHeader;
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ByteUnpacker.ReadValueBitPacked(reader, out messageHeader.MessageType);
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ByteUnpacker.ReadValueBitPacked(reader, out messageHeader.MessageSize);
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Assert.AreEqual(m_MessagingSystem.GetMessageType(typeof(TestMessage)), messageHeader.MessageType);
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Assert.AreEqual(UnsafeUtility.SizeOf<TestMessage>(), messageHeader.MessageSize);
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reader.ReadValueSafe(out TestMessage receivedMessage);
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Assert.AreEqual(message, receivedMessage);
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ByteUnpacker.ReadValueBitPacked(reader, out messageHeader.MessageType);
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ByteUnpacker.ReadValueBitPacked(reader, out messageHeader.MessageSize);
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Assert.AreEqual(m_MessagingSystem.GetMessageType(typeof(TestMessage)), messageHeader.MessageType);
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Assert.AreEqual(UnsafeUtility.SizeOf<TestMessage>(), messageHeader.MessageSize);
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reader.ReadValueSafe(out TestMessage receivedMessage2);
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Assert.AreEqual(message2, receivedMessage2);
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}
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}
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}
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}
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