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com.unity.netcode.gameobjects/Runtime/Configuration/NetworkConfig.cs
Unity Technologies b5abc3ff7c com.unity.netcode.gameobjects@1.4.0 
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).

## [1.4.0] - 2023-04-10

### Added

- Added a way to access the GlobalObjectIdHash via PrefabIdHash for use in the Connection Approval Callback. (#2437)
- Added `OnServerStarted` and `OnServerStopped` events that will trigger only on the server (or host player) to notify that the server just started or is no longer active (#2420)
- Added `OnClientStarted` and `OnClientStopped` events that will trigger only on the client (or host player) to notify that the client just started or is no longer active (#2420)
- Added `NetworkTransform.UseHalfFloatPrecision` property that, when enabled, will use half float values for position, rotation, and scale. This yields a 50% bandwidth savings a the cost of precision. (#2388)
- Added `NetworkTransform.UseQuaternionSynchronization` property that, when enabled, will synchronize the entire quaternion. (#2388)
- Added `NetworkTransform.UseQuaternionCompression` property that, when enabled, will use a smallest three implementation reducing a full quaternion synchronization update to the size of an unsigned integer. (#2388)
- Added `NetworkTransform.SlerpPosition` property that, when enabled along with interpolation being enabled, will interpolate using `Vector3.Slerp`. (#2388)
- Added `BufferedLinearInterpolatorVector3` that replaces the float version, is now used by `NetworkTransform`, and provides the ability to enable or disable `Slerp`. (#2388)
- Added `HalfVector3` used for scale when half float precision is enabled. (#2388)
- Added `HalfVector4` used for rotation when half float precision and quaternion synchronization is enabled. (#2388)
- Added `HalfVector3DeltaPosition` used for position when half float precision is enabled. This handles loss in position precision by updating only the delta position as opposed to the full position. (#2388)
- Added `NetworkTransform.GetSpaceRelativePosition` and `NetworkTransform.GetSpaceRelativeRotation` helper methods to return the proper values depending upon whether local or world space. (#2388)
- Added `NetworkTransform.OnAuthorityPushTransformState` virtual method that is invoked just prior to sending the `NetworkTransformState` to non-authoritative instances. This provides users with the ability to obtain more precise delta values for prediction related calculations. (#2388)
- Added `NetworkTransform.OnNetworkTransformStateUpdated` virtual method that is invoked just after the authoritative `NetworkTransformState` is applied. This provides users with the ability to obtain more precise delta values for prediction related calculations. (#2388)
- Added `NetworkTransform.OnInitialize`virtual method that is invoked after the `NetworkTransform` has been initialized or re-initialized when ownership changes. This provides for a way to make adjustments when `NetworkTransform` is initialized (i.e. resetting client prediction etc) (#2388)
- Added `NetworkObject.SynchronizeTransform` property (default is true) that provides users with another way to help with bandwidth optimizations where, when set to false, the `NetworkObject`'s associated transform will not be included when spawning and/or synchronizing late joining players. (#2388)
- Added `NetworkSceneManager.ActiveSceneSynchronizationEnabled` property, disabled by default, that enables client synchronization of server-side active scene changes. (#2383)
- Added `NetworkObject.ActiveSceneSynchronization`, disabled by default, that will automatically migrate a `NetworkObject` to a newly assigned active scene. (#2383)
- Added `NetworkObject.SceneMigrationSynchronization`, enabled by default, that will synchronize client(s) when a `NetworkObject` is migrated into a new scene on the server side via `SceneManager.MoveGameObjectToScene`. (#2383)

### Changed

- Made sure the `CheckObjectVisibility` delegate is checked and applied, upon `NetworkShow` attempt. Found while supporting (#2454), although this is not a fix for this (already fixed) issue. (#2463)
- Changed `NetworkTransform` authority handles delta checks on each new network tick and no longer consumes processing cycles checking for deltas for all frames in-between ticks. (#2388)
- Changed the `NetworkTransformState` structure is now public and now has public methods that provide access to key properties of the `NetworkTransformState` structure. (#2388)
- Changed `NetworkTransform` interpolation adjusts its interpolation "ticks ago" to be 2 ticks latent if it is owner authoritative and the instance is not the server or 1 tick latent if the instance is the server and/or is server authoritative. (#2388)
- Updated `NetworkSceneManager` to migrate dynamically spawned `NetworkObject`s with `DestroyWithScene` set to false into the active scene if their current scene is unloaded. (#2383)
- Updated the server to synchronize its local `NetworkSceneManager.ClientSynchronizationMode` during the initial client synchronization. (#2383)

### Fixed

- Fixed issue where during client synchronization the synchronizing client could receive a ObjectSceneChanged message before the client-side NetworkObject instance had been instantiated and spawned. (#2502)
- Fixed issue where `NetworkAnimator` was building client RPC parameters to exclude the host from sending itself messages but was not including it in the ClientRpc parameters. (#2492)
- Fixed issue where `NetworkAnimator` was not properly detecting and synchronizing cross fade initiated transitions. (#2481)
- Fixed issue where `NetworkAnimator` was not properly synchronizing animation state updates. (#2481)
- Fixed float NetworkVariables not being rendered properly in the inspector of NetworkObjects. (#2441)
- Fixed an issue where Named Message Handlers could remove themselves causing an exception when the metrics tried to access the name of the message.(#2426)
- Fixed registry of public `NetworkVariable`s in derived `NetworkBehaviour`s (#2423)
- Fixed issue where runtime association of `Animator` properties to `AnimationCurve`s would cause `NetworkAnimator` to attempt to update those changes. (#2416)
- Fixed issue where `NetworkAnimator` would not check if its associated `Animator` was valid during serialization and would spam exceptions in the editor console. (#2416)
- Fixed issue with a child's rotation rolling over when interpolation is enabled on a `NetworkTransform`. Now using half precision or full quaternion synchronization will always update all axis. (#2388)
- Fixed issue where `NetworkTransform` was not setting the teleport flag when the `NetworkTransform.InLocalSpace` value changed. This issue only impacted `NetworkTransform` when interpolation was enabled. (#2388)
- Fixed issue when the `NetworkSceneManager.ClientSynchronizationMode` is `LoadSceneMode.Additive` and the server changes the currently active scene prior to a client connecting then upon a client connecting and being synchronized the NetworkSceneManager would clear its internal ScenePlacedObjects list that could already be populated. (#2383)
- Fixed issue where a client would load duplicate scenes of already preloaded scenes during the initial client synchronization and `NetworkSceneManager.ClientSynchronizationMode` was set to `LoadSceneMode.Additive`. (#2383)
2023-04-10 00:00:00 +00:00

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using System;
using System.Collections.Generic;
using System.Linq;
using Unity.Collections;
using UnityEngine;
using UnityEngine.Serialization;
namespace Unity.Netcode
{
/// <summary>
/// The configuration object used to start server, client and hosts
/// </summary>
[Serializable]
public class NetworkConfig
{
/// <summary>
/// The protocol version. Different versions doesn't talk to each other.
/// </summary>
[Tooltip("Use this to make two builds incompatible with each other")]
public ushort ProtocolVersion = 0;
/// <summary>
/// The transport hosts the sever uses
/// </summary>
[Tooltip("The NetworkTransport to use")]
public NetworkTransport NetworkTransport = null;
/// <summary>
/// The default player prefab
/// </summary>
[Tooltip("When set, NetworkManager will automatically create and spawn the assigned player prefab. This can be overridden by adding it to the NetworkPrefabs list and selecting override.")]
public GameObject PlayerPrefab;
[SerializeField]
public NetworkPrefabs Prefabs = new NetworkPrefabs();
/// <summary>
/// The tickrate of network ticks. This value controls how often netcode runs user code and sends out data.
/// </summary>
[Tooltip("The tickrate. This value controls how often netcode runs user code and sends out data. The value is in 'ticks per seconds' which means a value of 50 will result in 50 ticks being executed per second or a fixed delta time of 0.02.")]
public uint TickRate = 30;
/// <summary>
/// The amount of seconds for the server to wait for the connection approval handshake to complete before the client is disconnected.
///
/// If the timeout is reached before approval is completed the client will be disconnected.
/// </summary>
/// <remarks>
/// The period begins after the <see cref="NetworkEvent.Connect"/> is received on the server.
/// The period ends once the server finishes processing a <see cref="ConnectionRequestMessage"/> from the client.
///
/// This setting is independent of any Transport-level timeouts that may be in effect. It covers the time between
/// the connection being established on the Transport layer, the client sending a
/// <see cref="ConnectionRequestMessage"/>, and the server processing that message through <see cref="ConnectionApproval"/>.
///
/// This setting is server-side only.
/// </remarks>
[Tooltip("The amount of seconds for the server to wait for the connection approval handshake to complete before the client is disconnected")]
public int ClientConnectionBufferTimeout = 10;
/// <summary>
/// Whether or not to use connection approval
/// </summary>
[Tooltip("Whether or not to force clients to be approved before they connect")]
public bool ConnectionApproval = false;
/// <summary>
/// The data to send during connection which can be used to decide on if a client should get accepted
/// </summary>
[Tooltip("The connection data sent along with connection requests")]
public byte[] ConnectionData = new byte[0];
/// <summary>
/// If your logic uses the NetworkTime, this should probably be turned off. If however it's needed to maximize accuracy, this is recommended to be turned on
/// </summary>
[Tooltip("Enable this to re-sync the NetworkTime after the initial sync")]
public bool EnableTimeResync = false;
/// <summary>
/// If time re-sync is turned on, this specifies the interval between syncs in seconds.
/// </summary>
[Tooltip("The amount of seconds between re-syncs of NetworkTime, if enabled")]
public int TimeResyncInterval = 30;
/// <summary>
/// Whether or not to ensure that NetworkVariables can be read even if a client accidentally writes where its not allowed to. This costs some CPU and bandwidth.
/// </summary>
[Tooltip("Ensures that NetworkVariables can be read even if a client accidental writes where its not allowed to. This will cost some CPU time and bandwidth")]
public bool EnsureNetworkVariableLengthSafety = false;
/// <summary>
/// Enables scene management. This will allow network scene switches and automatic scene difference corrections upon connect.
/// SoftSynced scene objects wont work with this disabled. That means that disabling SceneManagement also enables PrefabSync.
/// </summary>
[Tooltip("Enables scene management. This will allow network scene switches and automatic scene difference corrections upon connect.\n" +
"SoftSynced scene objects wont work with this disabled. That means that disabling SceneManagement also enables PrefabSync.")]
public bool EnableSceneManagement = true;
/// <summary>
/// Whether or not the netcode should check for differences in the prefabs at connection.
/// If you dynamically add prefabs at runtime, turn this OFF
/// </summary>
[Tooltip("Whether or not the netcode should check for differences in the prefab lists at connection")]
public bool ForceSamePrefabs = true;
/// <summary>
/// If true, NetworkIds will be reused after the NetworkIdRecycleDelay.
/// </summary>
[Tooltip("If true, NetworkIds will be reused after the NetworkIdRecycleDelay")]
public bool RecycleNetworkIds = true;
/// <summary>
/// The amount of seconds a NetworkId has to be unused in order for it to be reused.
/// </summary>
[Tooltip("The amount of seconds a NetworkId has to unused in order for it to be reused")]
public float NetworkIdRecycleDelay = 120f;
/// <summary>
/// Decides how many bytes to use for Rpc messaging. Leave this to 2 bytes unless you are facing hash collisions
/// </summary>
[Tooltip("The maximum amount of bytes to use for RPC messages.")]
public HashSize RpcHashSize = HashSize.VarIntFourBytes;
/// <summary>
/// The amount of seconds to wait for all clients to load or unload a requested scene
/// </summary>
[Tooltip("The amount of seconds to wait for all clients to load or unload a requested scene (only when EnableSceneManagement is enabled)")]
public int LoadSceneTimeOut = 120;
/// <summary>
/// The amount of time a message should be buffered if the asset or object needed to process it doesn't exist yet. If the asset is not added/object is not spawned within this time, it will be dropped.
/// </summary>
[Tooltip("The amount of time a message should be buffered if the asset or object needed to process it doesn't exist yet. If the asset is not added/object is not spawned within this time, it will be dropped")]
public float SpawnTimeout = 1f;
/// <summary>
/// Whether or not to enable network logs.
/// </summary>
public bool EnableNetworkLogs = true;
/// <summary>
/// The number of RTT samples that is kept as an average for calculations
/// </summary>
public const int RttAverageSamples = 5; // number of RTT to keep an average of (plus one)
/// <summary>
/// The number of slots used for RTT calculations. This is the maximum amount of in-flight messages
/// </summary>
public const int RttWindowSize = 64; // number of slots to use for RTT computations (max number of in-flight packets)
/// <summary>
/// Returns a base64 encoded version of the configuration
/// </summary>
/// <returns></returns>
public string ToBase64()
{
NetworkConfig config = this;
var writer = new FastBufferWriter(MessagingSystem.NON_FRAGMENTED_MESSAGE_MAX_SIZE, Allocator.Temp);
using (writer)
{
writer.WriteValueSafe(config.ProtocolVersion);
writer.WriteValueSafe(config.TickRate);
writer.WriteValueSafe(config.ClientConnectionBufferTimeout);
writer.WriteValueSafe(config.ConnectionApproval);
writer.WriteValueSafe(config.LoadSceneTimeOut);
writer.WriteValueSafe(config.EnableTimeResync);
writer.WriteValueSafe(config.EnsureNetworkVariableLengthSafety);
writer.WriteValueSafe(config.RpcHashSize);
writer.WriteValueSafe(ForceSamePrefabs);
writer.WriteValueSafe(EnableSceneManagement);
writer.WriteValueSafe(RecycleNetworkIds);
writer.WriteValueSafe(NetworkIdRecycleDelay);
writer.WriteValueSafe(EnableNetworkLogs);
// Allocates
return Convert.ToBase64String(writer.ToArray());
}
}
/// <summary>
/// Sets the NetworkConfig data with that from a base64 encoded version
/// </summary>
/// <param name="base64">The base64 encoded version</param>
public void FromBase64(string base64)
{
NetworkConfig config = this;
byte[] binary = Convert.FromBase64String(base64);
using var reader = new FastBufferReader(binary, Allocator.Temp);
using (reader)
{
reader.ReadValueSafe(out config.ProtocolVersion);
reader.ReadValueSafe(out config.TickRate);
reader.ReadValueSafe(out config.ClientConnectionBufferTimeout);
reader.ReadValueSafe(out config.ConnectionApproval);
reader.ReadValueSafe(out config.LoadSceneTimeOut);
reader.ReadValueSafe(out config.EnableTimeResync);
reader.ReadValueSafe(out config.EnsureNetworkVariableLengthSafety);
reader.ReadValueSafe(out config.RpcHashSize);
reader.ReadValueSafe(out config.ForceSamePrefabs);
reader.ReadValueSafe(out config.EnableSceneManagement);
reader.ReadValueSafe(out config.RecycleNetworkIds);
reader.ReadValueSafe(out config.NetworkIdRecycleDelay);
reader.ReadValueSafe(out config.EnableNetworkLogs);
}
}
private ulong? m_ConfigHash = null;
/// <summary>
/// Clears out the configuration hash value generated for a specific network session
/// </summary>
internal void ClearConfigHash()
{
m_ConfigHash = null;
}
/// <summary>
/// Gets a SHA256 hash of parts of the NetworkConfig instance
/// </summary>
/// <param name="cache"></param>
/// <returns></returns>
public ulong GetConfig(bool cache = true)
{
if (m_ConfigHash != null && cache)
{
return m_ConfigHash.Value;
}
var writer = new FastBufferWriter(MessagingSystem.NON_FRAGMENTED_MESSAGE_MAX_SIZE, Allocator.Temp, int.MaxValue);
using (writer)
{
writer.WriteValueSafe(ProtocolVersion);
writer.WriteValueSafe(NetworkConstants.PROTOCOL_VERSION);
if (ForceSamePrefabs)
{
var sortedDictionary = Prefabs.NetworkPrefabOverrideLinks.OrderBy(x => x.Key);
foreach (var sortedEntry in sortedDictionary)
{
writer.WriteValueSafe(sortedEntry.Key);
}
}
writer.WriteValueSafe(TickRate);
writer.WriteValueSafe(ConnectionApproval);
writer.WriteValueSafe(ForceSamePrefabs);
writer.WriteValueSafe(EnableSceneManagement);
writer.WriteValueSafe(EnsureNetworkVariableLengthSafety);
writer.WriteValueSafe(RpcHashSize);
if (cache)
{
m_ConfigHash = XXHash.Hash64(writer.ToArray());
return m_ConfigHash.Value;
}
return XXHash.Hash64(writer.ToArray());
}
}
/// <summary>
/// Compares a SHA256 hash with the current NetworkConfig instances hash
/// </summary>
/// <param name="hash"></param>
/// <returns></returns>
public bool CompareConfig(ulong hash)
{
return hash == GetConfig();
}
internal void InitializePrefabs()
{
if (HasOldPrefabList())
{
MigrateOldNetworkPrefabsToNetworkPrefabsList();
}
Prefabs.Initialize();
}
[NonSerialized]
private bool m_DidWarnOldPrefabList = false;
private void WarnOldPrefabList()
{
if (!m_DidWarnOldPrefabList)
{
Debug.LogWarning("Using Legacy Network Prefab List. Consider Migrating.");
m_DidWarnOldPrefabList = true;
}
}
/// <summary>
/// Returns true if the old List&lt;NetworkPrefab&gt; serialized data is present.
/// </summary>
/// <remarks>
/// Internal use only to help migrate projects. <seealso cref="MigrateOldNetworkPrefabsToNetworkPrefabsList"/></remarks>
internal bool HasOldPrefabList()
{
return OldPrefabList?.Count > 0;
}
/// <summary>
/// Migrate the old format List&lt;NetworkPrefab&gt; prefab registration to the new NetworkPrefabsList ScriptableObject.
/// </summary>
/// <remarks>
/// OnAfterDeserialize cannot instantiate new objects (e.g. NetworkPrefabsList SO) since it executes in a thread, so we have to do it later.
/// Since NetworkConfig isn't a Unity.Object it doesn't get an Awake callback, so we have to do this in NetworkManager and expose this API.
/// </remarks>
internal NetworkPrefabsList MigrateOldNetworkPrefabsToNetworkPrefabsList()
{
if (OldPrefabList == null || OldPrefabList.Count == 0)
{
return null;
}
if (Prefabs == null)
{
throw new Exception("Prefabs field is null.");
}
Prefabs.NetworkPrefabsLists.Add(ScriptableObject.CreateInstance<NetworkPrefabsList>());
if (OldPrefabList?.Count > 0)
{
// Migrate legacy types/fields
foreach (var networkPrefab in OldPrefabList)
{
Prefabs.NetworkPrefabsLists[Prefabs.NetworkPrefabsLists.Count - 1].Add(networkPrefab);
}
}
OldPrefabList = null;
return Prefabs.NetworkPrefabsLists[Prefabs.NetworkPrefabsLists.Count - 1];
}
[FormerlySerializedAs("NetworkPrefabs")]
[SerializeField]
internal List<NetworkPrefab> OldPrefabList;
}
}
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