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com.unity.netcode.gameobjects/Runtime/Messaging/Messages/ConnectionApprovedMessage.cs
Unity Technologies 8fe07bbad2 com.unity.netcode.gameobjects@2.2.0 
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).

## [2.2.0] - 2024-12-12

### Added

- Added `NetworkObject.OwnershipStatus.SessionOwner` to allow Network Objects to be distributable and only owned by the Session Owner. This flag will override all other `OwnershipStatus` flags. (#3175)
- Added `UnityTransport.GetEndpoint` method to provide a way to obtain `NetworkEndpoint` information of a connection via client identifier. (#3130)
- Added `NetworkTransport.OnEarlyUpdate` and `NetworkTransport.OnPostLateUpdate` methods to provide more control over handling transport related events at the start and end of each frame. (#3113)

### Fixed

- Fixed issue where the server, host, or session owner would not populate the in-scene place `NetworkObject` table if the scene was loaded prior to starting the `NetworkManager`. (#3177)
- Fixed issue where the `NetworkObjectIdHash` value could be incorrect when entering play mode while still in prefab edit mode with pending changes and using MPPM. (#3162)
- Fixed issue where a sever only `NetworkManager` instance would spawn the actual `NetworkPrefab`'s `GameObject` as opposed to creating an instance of it. (#3160)
- Fixed issue where only the session owner (as opposed to all clients) would handle spawning prefab overrides properly when using a distributed authority network topology. (#3160)
- Fixed issue where an exception was thrown when calling `NetworkManager.Shutdown` after calling `UnityTransport.Shutdown`. (#3118)
- Fixed issue where `NetworkList` properties on in-scene placed `NetworkObject`s could cause small memory leaks when entering playmode. (#3147)
- Fixed in-scene `NertworkObject` synchronization issue when loading a scene with currently connected clients connected to a session created by a `NetworkManager` started as a server (i.e. not as a host). (#3133)
- Fixed issue where a `NetworkManager` started as a server would not add itself as an observer to in-scene placed `NetworkObject`s instantiated and spawned by a scene loading event. (#3133)
- Fixed issue where spawning a player using `NetworkObject.InstantiateAndSpawn` or `NetworkSpawnManager.InstantiateAndSpawn` would not update the `NetworkSpawnManager.PlayerObjects` or assign the newly spawned player to the `NetworkClient.PlayerObject`. (#3122)
- Fixed issue where queued UnitTransport (NetworkTransport) message batches were being sent on the next frame. They are now sent at the end of the frame during `PostLateUpdate`.  (#3113)
- Fixed issue where `NotOwnerRpcTarget` or `OwnerRpcTarget` were not using their replacements `NotAuthorityRpcTarget` and `AuthorityRpcTarget` which would invoke a warning. (#3111)
- Fixed issue where client is removed as an observer from spawned objects when their player instance is despawned. (#3110)
- Fixed issue where `NetworkAnimator` would statically allocate write buffer space for `Animator` parameters that could cause a write error if the number of parameters exceeded the space allocated. (#3108)

### Changed

- In-scene placed `NetworkObject`s have been made distributable when balancing object distribution after a connection event. (#3175)
- Optimised `NetworkVariable` and `NetworkTransform` related packets when in Distributed Authority mode.
- The Debug Simulator section of the Unity Transport component was removed. This section was not functional anymore and users are now recommended to use the more featureful [Network Simulator](https://docs-multiplayer.unity3d.com/tools/current/tools-network-simulator/) tool from the Multiplayer Tools package instead. (#3121)
2024-12-12 00:00:00 +00:00

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using System.Collections.Generic;
using Unity.Collections;
namespace Unity.Netcode
{
internal struct ServiceConfig : INetworkSerializable
{
public uint SessionVersion;
public bool IsRestoredSession;
public ulong CurrentSessionOwner;
public bool ServerRedistribution;
public void NetworkSerialize<T>(BufferSerializer<T> serializer) where T : IReaderWriter
{
if (serializer.IsWriter)
{
BytePacker.WriteValueBitPacked(serializer.GetFastBufferWriter(), SessionVersion);
serializer.SerializeValue(ref IsRestoredSession);
BytePacker.WriteValueBitPacked(serializer.GetFastBufferWriter(), CurrentSessionOwner);
if (SessionVersion >= SessionConfig.ServerDistributionCompatible)
{
serializer.SerializeValue(ref ServerRedistribution);
}
}
else
{
ByteUnpacker.ReadValueBitPacked(serializer.GetFastBufferReader(), out SessionVersion);
serializer.SerializeValue(ref IsRestoredSession);
ByteUnpacker.ReadValueBitPacked(serializer.GetFastBufferReader(), out CurrentSessionOwner);
if (SessionVersion >= SessionConfig.ServerDistributionCompatible)
{
serializer.SerializeValue(ref ServerRedistribution);
}
else
{
ServerRedistribution = false;
}
}
}
}
internal struct ConnectionApprovedMessage : INetworkMessage
{
private const int k_AddCMBServiceConfig = 2;
private const int k_VersionAddClientIds = 1;
public int Version => k_AddCMBServiceConfig;
public ulong OwnerClientId;
public int NetworkTick;
// The cloud state service should set this if we are restoring a session
public ServiceConfig ServiceConfig;
public bool IsRestoredSession;
public ulong CurrentSessionOwner;
// Not serialized
public bool IsDistributedAuthority;
// Not serialized, held as references to serialize NetworkVariable data
public HashSet<NetworkObject> SpawnedObjectsList;
private FastBufferReader m_ReceivedSceneObjectData;
public NativeArray<MessageVersionData> MessageVersions;
public NativeArray<ulong> ConnectedClientIds;
private int m_ReceiveMessageVersion;
private ulong GetSessionOwner()
{
if (m_ReceiveMessageVersion >= k_AddCMBServiceConfig)
{
return ServiceConfig.CurrentSessionOwner;
}
else
{
return CurrentSessionOwner;
}
}
private bool GetIsSessionRestor()
{
if (m_ReceiveMessageVersion >= k_AddCMBServiceConfig)
{
return ServiceConfig.IsRestoredSession;
}
else
{
return IsRestoredSession;
}
}
public void Serialize(FastBufferWriter writer, int targetVersion)
{
// ============================================================
// BEGIN FORBIDDEN SEGMENT
// DO NOT CHANGE THIS HEADER. Everything added to this message
// must go AFTER the message version header.
// ============================================================
BytePacker.WriteValueBitPacked(writer, MessageVersions.Length);
foreach (var messageVersion in MessageVersions)
{
messageVersion.Serialize(writer);
}
// ============================================================
// END FORBIDDEN SEGMENT
// ============================================================
BytePacker.WriteValueBitPacked(writer, OwnerClientId);
BytePacker.WriteValueBitPacked(writer, NetworkTick);
if (IsDistributedAuthority)
{
if (targetVersion >= k_AddCMBServiceConfig)
{
ServiceConfig.IsRestoredSession = false;
ServiceConfig.CurrentSessionOwner = CurrentSessionOwner;
writer.WriteNetworkSerializable(ServiceConfig);
}
else
{
writer.WriteValueSafe(IsRestoredSession);
BytePacker.WriteValueBitPacked(writer, CurrentSessionOwner);
}
}
if (targetVersion >= k_VersionAddClientIds)
{
writer.WriteValueSafe(ConnectedClientIds);
}
uint sceneObjectCount = 0;
// When SpawnedObjectsList is not null then scene management is disabled. Provide a list of
// all observed and spawned NetworkObjects that the approved client needs to synchronize.
if (SpawnedObjectsList != null)
{
var pos = writer.Position;
writer.Seek(writer.Position + FastBufferWriter.GetWriteSize(sceneObjectCount));
// Serialize NetworkVariable data
foreach (var sobj in SpawnedObjectsList)
{
if (sobj.SpawnWithObservers && (sobj.CheckObjectVisibility == null || sobj.CheckObjectVisibility(OwnerClientId)))
{
sobj.Observers.Add(OwnerClientId);
// In distributed authority mode, we send the currently known observers of each NetworkObject to the client being synchronized.
var sceneObject = sobj.GetMessageSceneObject(OwnerClientId, IsDistributedAuthority);
sceneObject.Serialize(writer);
++sceneObjectCount;
}
}
writer.Seek(pos);
// Can't pack this value because its space is reserved, so it needs to always use all the reserved space.
writer.WriteValueSafe(sceneObjectCount);
writer.Seek(writer.Length);
}
else
{
writer.WriteValueSafe(sceneObjectCount);
}
}
public bool Deserialize(FastBufferReader reader, ref NetworkContext context, int receivedMessageVersion)
{
var networkManager = (NetworkManager)context.SystemOwner;
if (!networkManager.IsClient)
{
return false;
}
// ============================================================
// BEGIN FORBIDDEN SEGMENT
// DO NOT CHANGE THIS HEADER. Everything added to this message
// must go AFTER the message version header.
// ============================================================
ByteUnpacker.ReadValueBitPacked(reader, out int length);
var messageHashesInOrder = new NativeArray<uint>(length, Allocator.Temp);
for (var i = 0; i < length; ++i)
{
var messageVersion = new MessageVersionData();
messageVersion.Deserialize(reader);
networkManager.ConnectionManager.MessageManager.SetVersion(context.SenderId, messageVersion.Hash, messageVersion.Version);
messageHashesInOrder[i] = messageVersion.Hash;
// Update the received version since this message will always be passed version 0, due to the map not
// being initialized until just now.
var messageType = networkManager.ConnectionManager.MessageManager.GetMessageForHash(messageVersion.Hash);
if (messageType == typeof(ConnectionApprovedMessage))
{
receivedMessageVersion = messageVersion.Version;
}
}
networkManager.ConnectionManager.MessageManager.SetServerMessageOrder(messageHashesInOrder);
messageHashesInOrder.Dispose();
// ============================================================
// END FORBIDDEN SEGMENT
// ============================================================
m_ReceiveMessageVersion = receivedMessageVersion;
ByteUnpacker.ReadValueBitPacked(reader, out OwnerClientId);
ByteUnpacker.ReadValueBitPacked(reader, out NetworkTick);
if (networkManager.DistributedAuthorityMode)
{
if (receivedMessageVersion >= k_AddCMBServiceConfig)
{
reader.ReadNetworkSerializable(out ServiceConfig);
networkManager.SessionConfig = new SessionConfig(ServiceConfig);
}
else
{
reader.ReadValueSafe(out IsRestoredSession);
ByteUnpacker.ReadValueBitPacked(reader, out CurrentSessionOwner);
networkManager.SessionConfig = new SessionConfig(SessionConfig.NoFeatureCompatibility);
}
}
if (receivedMessageVersion >= k_VersionAddClientIds)
{
reader.ReadValueSafe(out ConnectedClientIds, Allocator.TempJob);
}
else
{
ConnectedClientIds = new NativeArray<ulong>(0, Allocator.TempJob);
}
m_ReceivedSceneObjectData = reader;
return true;
}
public void Handle(ref NetworkContext context)
{
var networkManager = (NetworkManager)context.SystemOwner;
if (NetworkLog.CurrentLogLevel <= LogLevel.Developer)
{
NetworkLog.LogInfo($"[Client-{OwnerClientId}] Connection approved! Synchronizing...");
}
networkManager.LocalClientId = OwnerClientId;
networkManager.MessageManager.SetLocalClientId(networkManager.LocalClientId);
networkManager.NetworkMetrics.SetConnectionId(networkManager.LocalClientId);
if (networkManager.DistributedAuthorityMode)
{
networkManager.SetSessionOwner(GetSessionOwner());
if (networkManager.LocalClient.IsSessionOwner && networkManager.NetworkConfig.EnableSceneManagement)
{
networkManager.SceneManager.InitializeScenesLoaded();
}
}
var time = new NetworkTime(networkManager.NetworkTickSystem.TickRate, NetworkTick);
networkManager.NetworkTimeSystem.Reset(time.Time, 0.15f); // Start with a constant RTT of 150 until we receive values from the transport.
networkManager.NetworkTickSystem.Reset(networkManager.NetworkTimeSystem.LocalTime, networkManager.NetworkTimeSystem.ServerTime);
networkManager.ConnectionManager.LocalClient.SetRole(false, true, networkManager);
networkManager.ConnectionManager.LocalClient.IsApproved = true;
networkManager.ConnectionManager.LocalClient.ClientId = OwnerClientId;
// Stop the client-side approval timeout coroutine since we are approved.
networkManager.ConnectionManager.StopClientApprovalCoroutine();
networkManager.ConnectionManager.ConnectedClientIds.Clear();
foreach (var clientId in ConnectedClientIds)
{
if (!networkManager.ConnectionManager.ConnectedClientIds.Contains(clientId))
{
networkManager.ConnectionManager.AddClient(clientId);
}
}
// Only if scene management is disabled do we handle NetworkObject synchronization at this point
if (!networkManager.NetworkConfig.EnableSceneManagement)
{
// DANGO-TODO: This is a temporary fix for no DA CMB scene event handling.
// We will either use this same concept or provide some way for the CMB state plugin to handle it.
if (networkManager.DistributedAuthorityMode && networkManager.LocalClient.IsSessionOwner)
{
networkManager.SpawnManager.ServerSpawnSceneObjectsOnStartSweep();
}
else
{
networkManager.SpawnManager.DestroySceneObjects();
}
m_ReceivedSceneObjectData.ReadValueSafe(out uint sceneObjectCount);
// Deserializing NetworkVariable data is deferred from Receive() to Handle to avoid needing
// to create a list to hold the data. This is a breach of convention for performance reasons.
for (ushort i = 0; i < sceneObjectCount; i++)
{
var sceneObject = new NetworkObject.SceneObject();
sceneObject.Deserialize(m_ReceivedSceneObjectData);
NetworkObject.AddSceneObject(sceneObject, m_ReceivedSceneObjectData, networkManager);
}
// Mark the client being connected
networkManager.IsConnectedClient = true;
if (networkManager.AutoSpawnPlayerPrefabClientSide)
{
networkManager.ConnectionManager.CreateAndSpawnPlayer(OwnerClientId);
}
if (NetworkLog.CurrentLogLevel <= LogLevel.Developer)
{
NetworkLog.LogInfo($"[Client-{OwnerClientId}][Scene Management Disabled] Synchronization complete!");
}
// When scene management is disabled we notify after everything is synchronized
networkManager.ConnectionManager.InvokeOnClientConnectedCallback(context.SenderId);
// For convenience, notify all NetworkBehaviours that synchronization is complete.
networkManager.SpawnManager.NotifyNetworkObjectsSynchronized();
}
else
{
if (networkManager.DistributedAuthorityMode && networkManager.CMBServiceConnection && networkManager.LocalClient.IsSessionOwner && networkManager.NetworkConfig.EnableSceneManagement)
{
// Mark the client being connected
networkManager.IsConnectedClient = true;
networkManager.SceneManager.IsRestoringSession = GetIsSessionRestor();
if (!networkManager.SceneManager.IsRestoringSession)
{
// Synchronize the service with the initial session owner's loaded scenes and spawned objects
networkManager.SceneManager.SynchronizeNetworkObjects(NetworkManager.ServerClientId);
// Spawn any in-scene placed NetworkObjects
networkManager.SpawnManager.ServerSpawnSceneObjectsOnStartSweep();
// Spawn the local player of the session owner
if (networkManager.AutoSpawnPlayerPrefabClientSide)
{
networkManager.ConnectionManager.CreateAndSpawnPlayer(OwnerClientId);
}
// Synchronize the service with the initial session owner's loaded scenes and spawned objects
networkManager.SceneManager.SynchronizeNetworkObjects(NetworkManager.ServerClientId);
// With scene management enabled and since the session owner doesn't send a Synchronize scene event synchronize itself,
// we need to notify the session owner that everything should be synchronized/spawned at this time.
networkManager.SpawnManager.NotifyNetworkObjectsSynchronized();
// When scene management is enabled and since the session owner is synchronizing the service (i.e. acting like host),
// we need to locallyh invoke the OnClientConnected callback at this point in time.
networkManager.ConnectionManager.InvokeOnClientConnectedCallback(OwnerClientId);
}
}
}
ConnectedClientIds.Dispose();
}
}
}
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