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com.unity.netcode.gameobjects/Runtime/SceneManagement/SceneEventData.cs
Unity Technologies fe02ca682e com.unity.netcode.gameobjects@1.2.0 
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).

## [1.2.0] - 2022-11-21

### Added

- Added protected method `NetworkBehaviour.OnSynchronize` which is invoked during the initial `NetworkObject` synchronization process. This provides users the ability to include custom serialization information that will be applied to the `NetworkBehaviour` prior to the `NetworkObject` being spawned. (#2298)
- Added support for different versions of the SDK to talk to each other in circumstances where changes permit it. Starting with this version and into future versions, patch versions should be compatible as long as the minor version is the same. (#2290)
- Added `NetworkObject` auto-add helper and Multiplayer Tools install reminder settings to Project Settings. (#2285)
- Added `public string DisconnectReason` getter to `NetworkManager` and `string Reason` to `ConnectionApprovalResponse`. Allows connection approval to communicate back a reason. Also added `public void DisconnectClient(ulong clientId, string reason)` allowing setting a disconnection reason, when explicitly disconnecting a client. (#2280)

### Changed

- Changed 3rd-party `XXHash` (32 & 64) implementation with an in-house reimplementation (#2310)
- When `NetworkConfig.EnsureNetworkVariableLengthSafety` is disabled `NetworkVariable` fields do not write the additional `ushort` size value (_which helps to reduce the total synchronization message size_), but when enabled it still writes the additional `ushort` value. (#2298)
- Optimized bandwidth usage by encoding most integer fields using variable-length encoding. (#2276)

### Fixed

- Fixed issue where `NetworkTransform` components nested under a parent with a `NetworkObject` component  (i.e. network prefab) would not have their associated `GameObject`'s transform synchronized. (#2298)
- Fixed issue where `NetworkObject`s that failed to instantiate could cause the entire synchronization pipeline to be disrupted/halted for a connecting client. (#2298)
- Fixed issue where in-scene placed `NetworkObject`s nested under a `GameObject` would be added to the orphaned children list causing continual console warning log messages. (#2298)
- Custom messages are now properly received by the local client when they're sent while running in host mode. (#2296)
- Fixed issue where the host would receive more than one event completed notification when loading or unloading a scene only when no clients were connected. (#2292)
- Fixed an issue in `UnityTransport` where an error would be logged if the 'Use Encryption' flag was enabled with a Relay configuration that used a secure protocol. (#2289)
- Fixed issue where in-scene placed `NetworkObjects` were not honoring the `AutoObjectParentSync` property. (#2281)
- Fixed the issue where `NetworkManager.OnClientConnectedCallback` was being invoked before in-scene placed `NetworkObject`s had been spawned when starting `NetworkManager` as a host. (#2277)
- Creating a `FastBufferReader` with `Allocator.None` will not result in extra memory being allocated for the buffer (since it's owned externally in that scenario). (#2265)

### Removed

- Removed the `NetworkObject` auto-add and Multiplayer Tools install reminder settings from the Menu interface. (#2285)
2022-11-21 00:00:00 +00:00

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using System.Collections.Generic;
using System;
using System.Linq;
using Unity.Collections;
using UnityEngine.SceneManagement;
namespace Unity.Netcode
{
/// <summary>
/// The different types of scene events communicated between a server and client. <br/>
/// Used by <see cref="NetworkSceneManager"/> for <see cref="SceneEventMessage"/> messages.<br/>
/// <em>Note: This is only when <see cref="NetworkConfig.EnableSceneManagement"/> is enabled.</em><br/>
/// See also: <br/>
/// <seealso cref="SceneEvent"/>
/// </summary>
public enum SceneEventType : byte
{
/// <summary>
/// Load a scene<br/>
/// <b>Invocation:</b> Server Side<br/>
/// <b>Message Flow:</b> Server to client<br/>
/// <b>Event Notification:</b> Both server and client are notified a load scene event started
/// </summary>
Load,
/// <summary>
/// Unload a scene<br/>
/// <b>Invocation:</b> Server Side<br/>
/// <b>Message Flow:</b> Server to client<br/>
/// <b>Event Notification:</b> Both server and client are notified an unload scene event started.
/// </summary>
Unload,
/// <summary>
/// Synchronizes current game session state for newly approved clients<br/>
/// <b>Invocation:</b> Server Side<br/>
/// <b>Message Flow:</b> Server to client<br/>
/// <b>Event Notification:</b> Server and Client receives a local notification (<em>server receives the ClientId being synchronized</em>).
/// </summary>
Synchronize,
/// <summary>
/// Game session re-synchronization of NetworkObjects that were destroyed during a <see cref="Synchronize"/> event<br/>
/// <b>Invocation:</b> Server Side<br/>
/// <b>Message Flow:</b> Server to client<br/>
/// <b>Event Notification:</b> Both server and client receive a local notification<br/>
/// </summary>
ReSynchronize,
/// <summary>
/// All clients have finished loading a scene<br/>
/// <b>Invocation:</b> Server Side<br/>
/// <b>Message Flow:</b> Server to Client<br/>
/// <b>Event Notification:</b> Both server and client receive a local notification containing the clients that finished
/// as well as the clients that timed out(<em>if any</em>).
/// </summary>
LoadEventCompleted,
/// <summary>
/// All clients have unloaded a scene<br/>
/// <b>Invocation:</b> Server Side<br/>
/// <b>Message Flow:</b> Server to Client<br/>
/// <b>Event Notification:</b> Both server and client receive a local notification containing the clients that finished
/// as well as the clients that timed out(<em>if any</em>).
/// </summary>
UnloadEventCompleted,
/// <summary>
/// A client has finished loading a scene<br/>
/// <b>Invocation:</b> Client Side<br/>
/// <b>Message Flow:</b> Client to Server<br/>
/// <b>Event Notification:</b> Both server and client receive a local notification.
/// </summary>
LoadComplete,
/// <summary>
/// A client has finished unloading a scene<br/>
/// <b>Invocation:</b> Client Side<br/>
/// <b>Message Flow:</b> Client to Server<br/>
/// <b>Event Notification:</b> Both server and client receive a local notification.
/// </summary>
UnloadComplete,
/// <summary>
/// A client has finished synchronizing from a <see cref="Synchronize"/> event<br/>
/// <b>Invocation:</b> Client Side<br/>
/// <b>Message Flow:</b> Client to Server<br/>
/// <b>Event Notification:</b> Both server and client receive a local notification.
/// </summary>
SynchronizeComplete,
}
/// <summary>
/// Used by <see cref="NetworkSceneManager"/> for <see cref="SceneEventMessage"/> messages
/// <em>Note: This is only when <see cref="NetworkConfig.EnableSceneManagement"/> is enabled.</em><br/>
/// See also: <seealso cref="SceneEvent"/>
/// </summary>
internal class SceneEventData : IDisposable
{
internal SceneEventType SceneEventType;
internal LoadSceneMode LoadSceneMode;
internal ForceNetworkSerializeByMemcpy<Guid> SceneEventProgressId;
internal uint SceneEventId;
internal uint SceneHash;
internal int SceneHandle;
// Used by the client during synchronization
internal uint ClientSceneHash;
internal int NetworkSceneHandle;
/// Only used for <see cref="SceneEventType.Synchronize"/> scene events, this assures permissions when writing
/// NetworkVariable information. If that process changes, then we need to update this
internal ulong TargetClientId;
private Dictionary<uint, List<NetworkObject>> m_SceneNetworkObjects;
private Dictionary<uint, long> m_SceneNetworkObjectDataOffsets;
/// <summary>
/// Client or Server Side:
/// Client side: Generates a list of all NetworkObjects by their NetworkObjectId that was spawned during th synchronization process
/// Server side: Compares list from client to make sure client didn't drop a message about a NetworkObject being despawned while it
/// was synchronizing (if so server will send another message back to the client informing the client of NetworkObjects to remove)
/// spawned during an initial synchronization.
/// </summary>
private List<NetworkObject> m_NetworkObjectsSync = new List<NetworkObject>();
private List<NetworkObject> m_DespawnedInSceneObjectsSync = new List<NetworkObject>();
private Dictionary<int, List<uint>> m_DespawnedInSceneObjects = new Dictionary<int, List<uint>>();
/// <summary>
/// Server Side Re-Synchronization:
/// If there happens to be NetworkObjects in the final Event_Sync_Complete message that are no longer spawned,
/// the server will compile a list and send back an Event_ReSync message to the client.
/// </summary>
private List<ulong> m_NetworkObjectsToBeRemoved = new List<ulong>();
private bool m_HasInternalBuffer;
internal FastBufferReader InternalBuffer;
private NetworkManager m_NetworkManager;
internal List<ulong> ClientsCompleted;
internal List<ulong> ClientsTimedOut;
internal Queue<uint> ScenesToSynchronize;
internal Queue<uint> SceneHandlesToSynchronize;
/// <summary>
/// Server Side:
/// Add a scene and its handle to the list of scenes the client should load before synchronizing
/// Since scene handles are not the same per instance, the client builds a server scene handle to
/// client scene handle lookup table.
/// Why include the scene handle? In order to support loading of the same additive scene more than once
/// we must distinguish which scene we are talking about when the server tells the client to unload a scene.
/// The server will always communicate its local relative scene's handle and the client will determine its
/// local relative handle from the table being built.
/// Look for <see cref="NetworkSceneManager.m_ServerSceneHandleToClientSceneHandle"/> usage to see where
/// entries are being added to or removed from the table
/// </summary>
/// <param name="sceneIndex"></param>
/// <param name="sceneHandle"></param>
internal void AddSceneToSynchronize(uint sceneHash, int sceneHandle)
{
ScenesToSynchronize.Enqueue(sceneHash);
SceneHandlesToSynchronize.Enqueue((uint)sceneHandle);
}
/// <summary>
/// Client Side:
/// Gets the next scene hash to be loaded for approval and/or late joining
/// </summary>
/// <returns></returns>
internal uint GetNextSceneSynchronizationHash()
{
return ScenesToSynchronize.Dequeue();
}
/// <summary>
/// Client Side:
/// Gets the next scene handle to be loaded for approval and/or late joining
/// </summary>
/// <returns></returns>
internal int GetNextSceneSynchronizationHandle()
{
return (int)SceneHandlesToSynchronize.Dequeue();
}
/// <summary>
/// Client Side:
/// Determines if all scenes have been processed during the synchronization process
/// </summary>
/// <returns>true/false</returns>
internal bool IsDoneWithSynchronization()
{
if (ScenesToSynchronize.Count == 0 && SceneHandlesToSynchronize.Count == 0)
{
return true;
}
else if (ScenesToSynchronize.Count != SceneHandlesToSynchronize.Count)
{
// This should never happen, but in the event it does...
throw new Exception($"[{nameof(SceneEventData)}-Internal Mismatch Error] {nameof(ScenesToSynchronize)} count != {nameof(SceneHandlesToSynchronize)} count!");
}
return false;
}
/// <summary>
/// Server Side:
/// Called just before the synchronization process
/// </summary>
internal void InitializeForSynch()
{
if (m_SceneNetworkObjects == null)
{
m_SceneNetworkObjects = new Dictionary<uint, List<NetworkObject>>();
}
else
{
m_SceneNetworkObjects.Clear();
}
if (ScenesToSynchronize == null)
{
ScenesToSynchronize = new Queue<uint>();
}
else
{
ScenesToSynchronize.Clear();
}
if (SceneHandlesToSynchronize == null)
{
SceneHandlesToSynchronize = new Queue<uint>();
}
else
{
SceneHandlesToSynchronize.Clear();
}
}
internal void AddSpawnedNetworkObjects()
{
m_NetworkObjectsSync.Clear();
foreach (var sobj in m_NetworkManager.SpawnManager.SpawnedObjectsList)
{
if (sobj.Observers.Contains(TargetClientId))
{
m_NetworkObjectsSync.Add(sobj);
}
}
// Sort by parents before children
m_NetworkObjectsSync.Sort(SortParentedNetworkObjects);
// Sort by INetworkPrefabInstanceHandler implementation before the
// NetworkObjects spawned by the implementation
m_NetworkObjectsSync.Sort(SortNetworkObjects);
// This is useful to know what NetworkObjects a client is going to be synchronized with
// as well as the order in which they will be deserialized
if (m_NetworkManager.LogLevel == LogLevel.Developer)
{
var messageBuilder = new System.Text.StringBuilder(0xFFFF);
messageBuilder.Append("[Server-Side Client-Synchronization] NetworkObject serialization order:");
foreach (var networkObject in m_NetworkObjectsSync)
{
messageBuilder.Append($"{networkObject.name}");
}
NetworkLog.LogInfo(messageBuilder.ToString());
}
}
internal void AddDespawnedInSceneNetworkObjects()
{
m_DespawnedInSceneObjectsSync.Clear();
// Find all active and non-active in-scene placed NetworkObjects
#if UNITY_2023_1_OR_NEWER
var inSceneNetworkObjects = UnityEngine.Object.FindObjectsByType<NetworkObject>(UnityEngine.FindObjectsInactive.Include, UnityEngine.FindObjectsSortMode.InstanceID).Where((c) => c.NetworkManager == m_NetworkManager);
#else
var inSceneNetworkObjects = UnityEngine.Object.FindObjectsOfType<NetworkObject>(includeInactive: true).Where((c) => c.NetworkManager == m_NetworkManager);
#endif
foreach (var sobj in inSceneNetworkObjects)
{
if (sobj.IsSceneObject.HasValue && sobj.IsSceneObject.Value && !sobj.IsSpawned)
{
m_DespawnedInSceneObjectsSync.Add(sobj);
}
}
}
/// <summary>
/// Server Side:
/// Used during the synchronization process to associate NetworkObjects with scenes
/// </summary>
/// <param name="sceneIndex"></param>
/// <param name="networkObject"></param>
internal void AddNetworkObjectForSynch(uint sceneIndex, NetworkObject networkObject)
{
if (!m_SceneNetworkObjects.ContainsKey(sceneIndex))
{
m_SceneNetworkObjects.Add(sceneIndex, new List<NetworkObject>());
}
m_SceneNetworkObjects[sceneIndex].Add(networkObject);
}
/// <summary>
/// Client and Server:
/// Determines if the scene event type was intended for the client ( or server )
/// </summary>
/// <returns>true (client should handle this message) false (server should handle this message)</returns>
internal bool IsSceneEventClientSide()
{
switch (SceneEventType)
{
case SceneEventType.Load:
case SceneEventType.Unload:
case SceneEventType.Synchronize:
case SceneEventType.ReSynchronize:
case SceneEventType.LoadEventCompleted:
case SceneEventType.UnloadEventCompleted:
{
return true;
}
}
return false;
}
/// <summary>
/// Server Side:
/// Sorts the NetworkObjects to assure proper instantiation order of operations for
/// registered INetworkPrefabInstanceHandler implementations
/// </summary>
/// <param name="first"></param>
/// <param name="second"></param>
/// <returns></returns>
private int SortNetworkObjects(NetworkObject first, NetworkObject second)
{
var doesFirstHaveHandler = m_NetworkManager.PrefabHandler.ContainsHandler(first);
var doesSecondHaveHandler = m_NetworkManager.PrefabHandler.ContainsHandler(second);
if (doesFirstHaveHandler != doesSecondHaveHandler)
{
if (doesFirstHaveHandler)
{
return 1;
}
else
{
return -1;
}
}
return 0;
}
/// <summary>
/// Sorts the synchronization order of the NetworkObjects to be serialized
/// by parents before children.
/// </summary>
/// <remarks>
/// This only handles late joining players. Spawning and nesting several children
/// dynamically is still handled by the orphaned child list when deserialized out of
/// hierarchical order (i.e. Spawn parent and child dynamically, parent message is
/// dropped and re-sent but child object is received and processed)
/// </remarks>
private int SortParentedNetworkObjects(NetworkObject first, NetworkObject second)
{
// If the first has a parent, move the first down
if (first.transform.parent != null)
{
return 1;
}
else // If the second has a parent and the first does not, then move the first up
if (second.transform.parent != null)
{
return -1;
}
return 0;
}
/// <summary>
/// Client and Server Side:
/// Serializes data based on the SceneEvent type (<see cref="SceneEventType"/>)
/// </summary>
/// <param name="writer"><see cref="FastBufferWriter"/> to write the scene event data</param>
internal void Serialize(FastBufferWriter writer)
{
// Write the scene event type
writer.WriteValueSafe(SceneEventType);
// Write the scene loading mode
writer.WriteValueSafe((byte)LoadSceneMode);
// Write the scene event progress Guid
if (SceneEventType != SceneEventType.Synchronize)
{
writer.WriteValueSafe(SceneEventProgressId);
}
// Write the scene index and handle
writer.WriteValueSafe(SceneHash);
writer.WriteValueSafe(SceneHandle);
switch (SceneEventType)
{
case SceneEventType.Synchronize:
{
WriteSceneSynchronizationData(writer);
break;
}
case SceneEventType.Load:
{
SerializeScenePlacedObjects(writer);
break;
}
case SceneEventType.SynchronizeComplete:
{
WriteClientSynchronizationResults(writer);
break;
}
case SceneEventType.ReSynchronize:
{
WriteClientReSynchronizationData(writer);
break;
}
case SceneEventType.LoadEventCompleted:
case SceneEventType.UnloadEventCompleted:
{
WriteSceneEventProgressDone(writer);
break;
}
}
}
/// <summary>
/// Server Side:
/// Called at the end of a <see cref="SceneEventType.Load"/> event once the scene is loaded and scene placed NetworkObjects
/// have been locally spawned
/// </summary>
internal void WriteSceneSynchronizationData(FastBufferWriter writer)
{
// Write the scenes we want to load, in the order we want to load them
writer.WriteValueSafe(ScenesToSynchronize.ToArray());
writer.WriteValueSafe(SceneHandlesToSynchronize.ToArray());
// Store our current position in the stream to come back and say how much data we have written
var positionStart = writer.Position;
// Size Place Holder -- Start
// !!NOTE!!: Since this is a placeholder to be set after we know how much we have written,
// for stream offset purposes this MUST not be a packed value!
writer.WriteValueSafe((int)0);
int totalBytes = 0;
// Write the number of NetworkObjects we are serializing
writer.WriteValueSafe(m_NetworkObjectsSync.Count);
// Serialize all NetworkObjects that are spawned
for (var i = 0; i < m_NetworkObjectsSync.Count; ++i)
{
var noStart = writer.Position;
var sceneObject = m_NetworkObjectsSync[i].GetMessageSceneObject(TargetClientId);
sceneObject.Serialize(writer);
var noStop = writer.Position;
totalBytes += (int)(noStop - noStart);
}
// Write the number of despawned in-scene placed NetworkObjects
writer.WriteValueSafe(m_DespawnedInSceneObjectsSync.Count);
// Write the scene handle and GlobalObjectIdHash value
for (var i = 0; i < m_DespawnedInSceneObjectsSync.Count; ++i)
{
var noStart = writer.Position;
writer.WriteValueSafe(m_DespawnedInSceneObjectsSync[i].GetSceneOriginHandle());
writer.WriteValueSafe(m_DespawnedInSceneObjectsSync[i].GlobalObjectIdHash);
var noStop = writer.Position;
totalBytes += (int)(noStop - noStart);
}
// Size Place Holder -- End
var positionEnd = writer.Position;
var bytesWritten = (uint)(positionEnd - (positionStart + sizeof(uint)));
writer.Seek(positionStart);
// Write the total size written to the stream by NetworkObjects being serialized
writer.WriteValueSafe(bytesWritten);
writer.Seek(positionEnd);
}
/// <summary>
/// Server Side:
/// Called at the end of a <see cref="SceneEventType.Load"/> event once the scene is loaded and scene placed NetworkObjects
/// have been locally spawned
/// Maximum number of objects that could theoretically be synchronized is 65536
/// </summary>
internal void SerializeScenePlacedObjects(FastBufferWriter writer)
{
var numberOfObjects = (ushort)0;
var headPosition = writer.Position;
// Write our count place holder (must not be packed!)
writer.WriteValueSafe((ushort)0);
foreach (var keyValuePairByGlobalObjectIdHash in m_NetworkManager.SceneManager.ScenePlacedObjects)
{
foreach (var keyValuePairBySceneHandle in keyValuePairByGlobalObjectIdHash.Value)
{
if (keyValuePairBySceneHandle.Value.Observers.Contains(TargetClientId))
{
// Serialize the NetworkObject
var sceneObject = keyValuePairBySceneHandle.Value.GetMessageSceneObject(TargetClientId);
sceneObject.Serialize(writer);
numberOfObjects++;
}
}
}
// Write the number of despawned in-scene placed NetworkObjects
writer.WriteValueSafe(m_DespawnedInSceneObjectsSync.Count);
// Write the scene handle and GlobalObjectIdHash value
for (var i = 0; i < m_DespawnedInSceneObjectsSync.Count; ++i)
{
writer.WriteValueSafe(m_DespawnedInSceneObjectsSync[i].GetSceneOriginHandle());
writer.WriteValueSafe(m_DespawnedInSceneObjectsSync[i].GlobalObjectIdHash);
}
var tailPosition = writer.Position;
// Reposition to our count position to the head before we wrote our object count
writer.Seek(headPosition);
// Write number of NetworkObjects serialized (must not be packed!)
writer.WriteValueSafe(numberOfObjects);
// Set our position back to the tail
writer.Seek(tailPosition);
}
/// <summary>
/// Client and Server Side:
/// Deserialize data based on the SceneEvent type.
/// </summary>
/// <param name="reader"></param>
internal void Deserialize(FastBufferReader reader)
{
reader.ReadValueSafe(out SceneEventType);
reader.ReadValueSafe(out byte loadSceneMode);
LoadSceneMode = (LoadSceneMode)loadSceneMode;
if (SceneEventType != SceneEventType.Synchronize)
{
reader.ReadValueSafe(out SceneEventProgressId);
}
reader.ReadValueSafe(out SceneHash);
reader.ReadValueSafe(out SceneHandle);
switch (SceneEventType)
{
case SceneEventType.Synchronize:
{
CopySceneSynchronizationData(reader);
break;
}
case SceneEventType.SynchronizeComplete:
{
CheckClientSynchronizationResults(reader);
break;
}
case SceneEventType.Load:
{
unsafe
{
// We store off the trailing in-scene placed serialized NetworkObject data to
// be processed once we are done loading.
m_HasInternalBuffer = true;
// We use Allocator.Persistent since scene loading could take longer than 4 frames
InternalBuffer = new FastBufferReader(reader.GetUnsafePtrAtCurrentPosition(), Allocator.Persistent, reader.Length - reader.Position);
}
break;
}
case SceneEventType.ReSynchronize:
{
ReadClientReSynchronizationData(reader);
break;
}
case SceneEventType.LoadEventCompleted:
case SceneEventType.UnloadEventCompleted:
{
ReadSceneEventProgressDone(reader);
break;
}
}
}
/// <summary>
/// Client Side:
/// Prepares for a scene synchronization event and copies the scene synchronization data
/// into the internal buffer to be used throughout the synchronization process.
/// </summary>
/// <param name="reader"></param>
internal void CopySceneSynchronizationData(FastBufferReader reader)
{
m_NetworkObjectsSync.Clear();
reader.ReadValueSafe(out uint[] scenesToSynchronize);
reader.ReadValueSafe(out uint[] sceneHandlesToSynchronize);
ScenesToSynchronize = new Queue<uint>(scenesToSynchronize);
SceneHandlesToSynchronize = new Queue<uint>(sceneHandlesToSynchronize);
// is not packed!
reader.ReadValueSafe(out int sizeToCopy);
unsafe
{
if (!reader.TryBeginRead(sizeToCopy))
{
throw new OverflowException("Not enough space in the buffer to read recorded synchronization data size.");
}
m_HasInternalBuffer = true;
// We use Allocator.Persistent since scene synchronization will most likely take longer than 4 frames
InternalBuffer = new FastBufferReader(reader.GetUnsafePtrAtCurrentPosition(), Allocator.Persistent, sizeToCopy);
}
}
/// <summary>
/// Client Side:
/// This needs to occur at the end of a <see cref="SceneEventType.Load"/> event when the scene has finished loading
/// Maximum number of objects that could theoretically be synchronized is 65536
/// </summary>
internal void DeserializeScenePlacedObjects()
{
try
{
// is not packed!
InternalBuffer.ReadValueSafe(out ushort newObjectsCount);
for (ushort i = 0; i < newObjectsCount; i++)
{
var sceneObject = new NetworkObject.SceneObject();
sceneObject.Deserialize(InternalBuffer);
if (sceneObject.IsSceneObject)
{
// Set our relative scene to the NetworkObject
m_NetworkManager.SceneManager.SetTheSceneBeingSynchronized(sceneObject.NetworkSceneHandle);
}
NetworkObject.AddSceneObject(sceneObject, InternalBuffer, m_NetworkManager);
}
// Now deserialize the despawned in-scene placed NetworkObjects list (if any)
DeserializeDespawnedInScenePlacedNetworkObjects();
}
finally
{
InternalBuffer.Dispose();
m_HasInternalBuffer = false;
}
}
/// <summary>
/// Client Side:
/// If there happens to be NetworkObjects in the final Event_Sync_Complete message that are no longer spawned,
/// the server will compile a list and send back an Event_ReSync message to the client. This is where the
/// client handles any returned values by the server.
/// </summary>
/// <param name="reader"></param>
internal void ReadClientReSynchronizationData(FastBufferReader reader)
{
reader.ReadValueSafe(out uint[] networkObjectsToRemove);
if (networkObjectsToRemove.Length > 0)
{
#if UNITY_2023_1_OR_NEWER
var networkObjects = UnityEngine.Object.FindObjectsByType<NetworkObject>(UnityEngine.FindObjectsSortMode.InstanceID);
#else
var networkObjects = UnityEngine.Object.FindObjectsOfType<NetworkObject>();
#endif
var networkObjectIdToNetworkObject = new Dictionary<ulong, NetworkObject>();
foreach (var networkObject in networkObjects)
{
if (!networkObjectIdToNetworkObject.ContainsKey(networkObject.NetworkObjectId))
{
networkObjectIdToNetworkObject.Add(networkObject.NetworkObjectId, networkObject);
}
}
foreach (var networkObjectId in networkObjectsToRemove)
{
if (networkObjectIdToNetworkObject.ContainsKey(networkObjectId))
{
var networkObject = networkObjectIdToNetworkObject[networkObjectId];
networkObjectIdToNetworkObject.Remove(networkObjectId);
networkObject.IsSpawned = false;
if (m_NetworkManager.PrefabHandler.ContainsHandler(networkObject))
{
if (m_NetworkManager.SpawnManager.SpawnedObjects.ContainsKey(networkObjectId))
{
m_NetworkManager.SpawnManager.SpawnedObjects.Remove(networkObjectId);
}
if (m_NetworkManager.SpawnManager.SpawnedObjectsList.Contains(networkObject))
{
m_NetworkManager.SpawnManager.SpawnedObjectsList.Remove(networkObject);
}
NetworkManager.Singleton.PrefabHandler.HandleNetworkPrefabDestroy(networkObject);
}
else
{
UnityEngine.Object.DestroyImmediate(networkObject.gameObject);
}
}
}
}
}
/// <summary>
/// Server Side:
/// If there happens to be NetworkObjects in the final Event_Sync_Complete message that are no longer spawned,
/// the server will compile a list and send back an Event_ReSync message to the client.
/// </summary>
/// <param name="writer"></param>
internal void WriteClientReSynchronizationData(FastBufferWriter writer)
{
//Write how many objects need to be removed
writer.WriteValueSafe(m_NetworkObjectsToBeRemoved.ToArray());
}
/// <summary>
/// Server Side:
/// Determines if the client needs to be slightly re-synchronized if during the deserialization
/// process the server finds NetworkObjects that the client still thinks are spawned.
/// </summary>
/// <returns></returns>
internal bool ClientNeedsReSynchronization()
{
return (m_NetworkObjectsToBeRemoved.Count > 0);
}
/// <summary>
/// Server Side:
/// Determines if the client needs to be re-synchronized if during the deserialization
/// process the server finds NetworkObjects that the client still thinks are spawned but
/// have since been despawned.
/// </summary>
/// <param name="reader"></param>
internal void CheckClientSynchronizationResults(FastBufferReader reader)
{
m_NetworkObjectsToBeRemoved.Clear();
reader.ReadValueSafe(out uint networkObjectIdCount);
for (int i = 0; i < networkObjectIdCount; i++)
{
reader.ReadValueSafe(out uint networkObjectId);
if (!m_NetworkManager.SpawnManager.SpawnedObjects.ContainsKey(networkObjectId))
{
m_NetworkObjectsToBeRemoved.Add(networkObjectId);
}
}
}
/// <summary>
/// Client Side:
/// During the deserialization process of the servers Event_Sync, the client builds a list of
/// all NetworkObjectIds that were spawned. Upon responding to the server with the Event_Sync_Complete
/// this list is included for the server to review over and determine if the client needs a minor resynchronization
/// of NetworkObjects that might have been despawned while the client was processing the Event_Sync.
/// </summary>
/// <param name="writer"></param>
internal void WriteClientSynchronizationResults(FastBufferWriter writer)
{
//Write how many objects were spawned
writer.WriteValueSafe((uint)m_NetworkObjectsSync.Count);
foreach (var networkObject in m_NetworkObjectsSync)
{
writer.WriteValueSafe((uint)networkObject.NetworkObjectId);
}
}
/// <summary>
/// For synchronizing any despawned in-scene placed NetworkObjects that were
/// despawned by the server during synchronization or scene loading
/// </summary>
private void DeserializeDespawnedInScenePlacedNetworkObjects()
{
// Process all de-spawned in-scene NetworkObjects for this network session
m_DespawnedInSceneObjects.Clear();
InternalBuffer.ReadValueSafe(out int despawnedObjectsCount);
var sceneCache = new Dictionary<int, Dictionary<uint, NetworkObject>>();
for (int i = 0; i < despawnedObjectsCount; i++)
{
// We just need to get the scene
InternalBuffer.ReadValueSafe(out int networkSceneHandle);
InternalBuffer.ReadValueSafe(out uint globalObjectIdHash);
var sceneRelativeNetworkObjects = new Dictionary<uint, NetworkObject>();
if (!sceneCache.ContainsKey(networkSceneHandle))
{
if (m_NetworkManager.SceneManager.ServerSceneHandleToClientSceneHandle.ContainsKey(networkSceneHandle))
{
var localSceneHandle = m_NetworkManager.SceneManager.ServerSceneHandleToClientSceneHandle[networkSceneHandle];
if (m_NetworkManager.SceneManager.ScenesLoaded.ContainsKey(localSceneHandle))
{
var objectRelativeScene = m_NetworkManager.SceneManager.ScenesLoaded[localSceneHandle];
// Find all active and non-active in-scene placed NetworkObjects
#if UNITY_2023_1_OR_NEWER
var inSceneNetworkObjects = UnityEngine.Object.FindObjectsByType<NetworkObject>(UnityEngine.FindObjectsInactive.Include, UnityEngine.FindObjectsSortMode.InstanceID).Where((c) =>
c.GetSceneOriginHandle() == localSceneHandle && (c.IsSceneObject != false)).ToList();
#else
var inSceneNetworkObjects = UnityEngine.Object.FindObjectsOfType<NetworkObject>(includeInactive: true).Where((c) =>
c.GetSceneOriginHandle() == localSceneHandle && (c.IsSceneObject != false)).ToList();
#endif
foreach (var inSceneObject in inSceneNetworkObjects)
{
if (!sceneRelativeNetworkObjects.ContainsKey(inSceneObject.GlobalObjectIdHash))
{
sceneRelativeNetworkObjects.Add(inSceneObject.GlobalObjectIdHash, inSceneObject);
}
}
// Add this to a cache so we don't have to run this potentially multiple times (nothing will spawn or despawn during this time
sceneCache.Add(networkSceneHandle, sceneRelativeNetworkObjects);
}
else
{
UnityEngine.Debug.LogError($"In-Scene NetworkObject GlobalObjectIdHash ({globalObjectIdHash}) cannot find its relative local scene handle {localSceneHandle}!");
}
}
else
{
UnityEngine.Debug.LogError($"In-Scene NetworkObject GlobalObjectIdHash ({globalObjectIdHash}) cannot find its relative NetworkSceneHandle {networkSceneHandle}!");
}
}
else // Use the cached NetworkObjects if they exist
{
sceneRelativeNetworkObjects = sceneCache[networkSceneHandle];
}
// Now find the in-scene NetworkObject with the current GlobalObjectIdHash we are looking for
if (sceneRelativeNetworkObjects.ContainsKey(globalObjectIdHash))
{
// Since this is a NetworkObject that was never spawned, we just need to send a notification
// out that it was despawned so users can make adjustments
sceneRelativeNetworkObjects[globalObjectIdHash].InvokeBehaviourNetworkDespawn();
if (!m_NetworkManager.SceneManager.ScenePlacedObjects.ContainsKey(globalObjectIdHash))
{
m_NetworkManager.SceneManager.ScenePlacedObjects.Add(globalObjectIdHash, new Dictionary<int, NetworkObject>());
}
if (!m_NetworkManager.SceneManager.ScenePlacedObjects[globalObjectIdHash].ContainsKey(sceneRelativeNetworkObjects[globalObjectIdHash].GetSceneOriginHandle()))
{
m_NetworkManager.SceneManager.ScenePlacedObjects[globalObjectIdHash].Add(sceneRelativeNetworkObjects[globalObjectIdHash].GetSceneOriginHandle(), sceneRelativeNetworkObjects[globalObjectIdHash]);
}
}
else
{
UnityEngine.Debug.LogError($"In-Scene NetworkObject GlobalObjectIdHash ({globalObjectIdHash}) could not be found!");
}
}
}
/// <summary>
/// Client Side:
/// During the processing of a server sent Event_Sync, this method will be called for each scene once
/// it is finished loading. The client will also build a list of NetworkObjects that it spawned during
/// this process which will be used as part of the Event_Sync_Complete response.
/// </summary>
/// <param name="networkManager"></param>
internal void SynchronizeSceneNetworkObjects(NetworkManager networkManager)
{
try
{
// Process all spawned NetworkObjects for this network session
InternalBuffer.ReadValueSafe(out int newObjectsCount);
for (int i = 0; i < newObjectsCount; i++)
{
var sceneObject = new NetworkObject.SceneObject();
sceneObject.Deserialize(InternalBuffer);
// If the sceneObject is in-scene placed, then set the scene being synchronized
if (sceneObject.IsSceneObject)
{
m_NetworkManager.SceneManager.SetTheSceneBeingSynchronized(sceneObject.NetworkSceneHandle);
}
var spawnedNetworkObject = NetworkObject.AddSceneObject(sceneObject, InternalBuffer, networkManager);
// If we failed to deserialize the NetowrkObject then don't add null to the list
if (spawnedNetworkObject != null)
{
if (!m_NetworkObjectsSync.Contains(spawnedNetworkObject))
{
m_NetworkObjectsSync.Add(spawnedNetworkObject);
}
}
}
// Now deserialize the despawned in-scene placed NetworkObjects list (if any)
DeserializeDespawnedInScenePlacedNetworkObjects();
}
finally
{
InternalBuffer.Dispose();
m_HasInternalBuffer = false;
}
}
/// <summary>
/// Writes the all clients loaded or unloaded completed and timed out lists
/// </summary>
/// <param name="writer"></param>
internal void WriteSceneEventProgressDone(FastBufferWriter writer)
{
writer.WriteValueSafe((ushort)ClientsCompleted.Count);
foreach (var clientId in ClientsCompleted)
{
writer.WriteValueSafe(clientId);
}
writer.WriteValueSafe((ushort)ClientsTimedOut.Count);
foreach (var clientId in ClientsTimedOut)
{
writer.WriteValueSafe(clientId);
}
}
/// <summary>
/// Reads the all clients loaded or unloaded completed and timed out lists
/// </summary>
/// <param name="reader"></param>
internal void ReadSceneEventProgressDone(FastBufferReader reader)
{
reader.ReadValueSafe(out ushort completedCount);
ClientsCompleted = new List<ulong>();
for (int i = 0; i < completedCount; i++)
{
reader.ReadValueSafe(out ulong clientId);
ClientsCompleted.Add(clientId);
}
reader.ReadValueSafe(out ushort timedOutCount);
ClientsTimedOut = new List<ulong>();
for (int i = 0; i < timedOutCount; i++)
{
reader.ReadValueSafe(out ulong clientId);
ClientsTimedOut.Add(clientId);
}
}
/// <summary>
/// Used to release the pooled network buffer
/// </summary>
public void Dispose()
{
if (m_HasInternalBuffer)
{
InternalBuffer.Dispose();
m_HasInternalBuffer = false;
}
}
/// <summary>
/// Constructor for SceneEventData
/// </summary>
internal SceneEventData(NetworkManager networkManager)
{
m_NetworkManager = networkManager;
SceneEventId = XXHash.Hash32(Guid.NewGuid().ToString());
}
}
}
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