InnoLab/com.unity.netcode.gameobjects
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com.unity.netcode.gameobjects/Tests/Runtime/PlayerObjectTests.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;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using NUnit.Framework;
using Unity.Netcode.TestHelpers.Runtime;
using UnityEngine;
using UnityEngine.TestTools;
namespace Unity.Netcode.RuntimeTests
{
[TestFixture(HostOrServer.DAHost)]
[TestFixture(HostOrServer.Host)]
[TestFixture(HostOrServer.Server)]
internal class PlayerObjectTests : NetcodeIntegrationTest
{
protected override int NumberOfClients => 2;
protected GameObject m_NewPlayerToSpawn;
public PlayerObjectTests(HostOrServer hostOrServer) : base(hostOrServer) { }
protected override void OnServerAndClientsCreated()
{
m_NewPlayerToSpawn = CreateNetworkObjectPrefab("NewPlayerInstance");
base.OnServerAndClientsCreated();
}
[UnityTest]
public IEnumerator SpawnAndReplaceExistingPlayerObject()
{
yield return WaitForConditionOrTimeOut(() => m_PlayerNetworkObjects[m_ServerNetworkManager.LocalClientId].ContainsKey(m_ClientNetworkManagers[0].LocalClientId));
AssertOnTimeout("Timed out waiting for client-side player object to spawn!");
// Get the server-side player NetworkObject
var originalPlayer = m_PlayerNetworkObjects[m_ServerNetworkManager.LocalClientId][m_ClientNetworkManagers[0].LocalClientId];
// Get the client-side player NetworkObject
var playerLocalClient = m_ClientNetworkManagers[0].LocalClient.PlayerObject;
// Create a new player prefab instance
var newPlayer = Object.Instantiate(m_NewPlayerToSpawn);
var newPlayerNetworkObject = newPlayer.GetComponent<NetworkObject>();
// In distributed authority mode, the client owner spawns its new player
newPlayerNetworkObject.NetworkManagerOwner = m_DistributedAuthority ? m_ClientNetworkManagers[0] : m_ServerNetworkManager;
// Spawn this instance as a new player object for the client who already has an assigned player object
newPlayerNetworkObject.SpawnAsPlayerObject(m_ClientNetworkManagers[0].LocalClientId);
// Make sure server-side changes are detected, the original player object should no longer be marked as a player
// and the local new player object should.
yield return WaitForConditionOrTimeOut(() => !originalPlayer.IsPlayerObject && newPlayerNetworkObject.IsPlayerObject);
Assert.False(s_GlobalTimeoutHelper.TimedOut, "Timed out waiting for server-side player object to change!");
// Make sure the client-side changes are the same
yield return WaitForConditionOrTimeOut(() => m_ClientNetworkManagers[0].LocalClient.PlayerObject != playerLocalClient && !playerLocalClient.IsPlayerObject
&& m_ClientNetworkManagers[0].LocalClient.PlayerObject.IsPlayerObject);
Assert.False(s_GlobalTimeoutHelper.TimedOut, "Timed out waiting for client-side player object to change!");
}
}
/// <summary>
/// Validate that when auto-player spawning but SpawnWithObservers is disabled,
/// the player instantiated is only spawned on the authority side.
/// </summary>
[TestFixture(HostOrServer.DAHost)]
[TestFixture(HostOrServer.Host)]
[TestFixture(HostOrServer.Server)]
internal class PlayerSpawnNoObserversTest : NetcodeIntegrationTest
{
protected override int NumberOfClients => 2;
public PlayerSpawnNoObserversTest(HostOrServer hostOrServer) : base(hostOrServer) { }
protected override bool ShouldCheckForSpawnedPlayers()
{
return false;
}
protected override void OnCreatePlayerPrefab()
{
var playerNetworkObject = m_PlayerPrefab.GetComponent<NetworkObject>();
playerNetworkObject.SpawnWithObservers = false;
base.OnCreatePlayerPrefab();
}
[UnityTest]
public IEnumerator SpawnWithNoObservers()
{
yield return s_DefaultWaitForTick;
if (!m_DistributedAuthority)
{
// Make sure clients did not spawn their player object on any of the clients including the owner.
foreach (var client in m_ClientNetworkManagers)
{
foreach (var playerObject in m_ServerNetworkManager.SpawnManager.PlayerObjects)
{
Assert.IsFalse(client.SpawnManager.SpawnedObjects.ContainsKey(playerObject.NetworkObjectId), $"Client-{client.LocalClientId} spawned player object for Client-{playerObject.NetworkObjectId}!");
}
}
}
else
{
// For distributed authority, we want to make sure the player object is only spawned on the authority side and all non-authority instances did not spawn it.
var playerObjectId = m_ServerNetworkManager.LocalClient.PlayerObject.NetworkObjectId;
foreach (var client in m_ClientNetworkManagers)
{
Assert.IsFalse(client.SpawnManager.SpawnedObjects.ContainsKey(playerObjectId), $"Client-{client.LocalClientId} spawned player object for Client-{m_ServerNetworkManager.LocalClientId}!");
}
foreach (var clientPlayer in m_ClientNetworkManagers)
{
playerObjectId = clientPlayer.LocalClient.PlayerObject.NetworkObjectId;
Assert.IsFalse(m_ServerNetworkManager.SpawnManager.SpawnedObjects.ContainsKey(playerObjectId), $"Client-{m_ServerNetworkManager.LocalClientId} spawned player object for Client-{clientPlayer.LocalClientId}!");
foreach (var client in m_ClientNetworkManagers)
{
if (clientPlayer == client)
{
continue;
}
Assert.IsFalse(client.SpawnManager.SpawnedObjects.ContainsKey(playerObjectId), $"Client-{client.LocalClientId} spawned player object for Client-{clientPlayer.LocalClientId}!");
}
}
}
}
}
/// <summary>
/// This test validates the player position and rotation is correct
/// relative to the prefab's initial settings if no changes are applied.
/// </summary>
[TestFixture(HostOrServer.DAHost)]
[TestFixture(HostOrServer.Host)]
[TestFixture(HostOrServer.Server)]
internal class PlayerSpawnPositionTests : IntegrationTestWithApproximation
{
protected override int NumberOfClients => 2;
public PlayerSpawnPositionTests(HostOrServer hostOrServer) : base(hostOrServer) { }
private Vector3 m_PlayerPosition;
private Quaternion m_PlayerRotation;
protected override void OnCreatePlayerPrefab()
{
var playerNetworkObject = m_PlayerPrefab.GetComponent<NetworkObject>();
m_PlayerPosition = GetRandomVector3(-10.0f, 10.0f);
m_PlayerRotation = Quaternion.Euler(GetRandomVector3(-180.0f, 180.0f));
playerNetworkObject.transform.position = m_PlayerPosition;
playerNetworkObject.transform.rotation = m_PlayerRotation;
base.OnCreatePlayerPrefab();
}
private void PlayerTransformMatches(NetworkObject player)
{
var position = player.transform.position;
var rotation = player.transform.rotation;
Assert.True(Approximately(m_PlayerPosition, position), $"Client-{player.OwnerClientId} position {position} does not match the prefab position {m_PlayerPosition}!");
Assert.True(Approximately(m_PlayerRotation, rotation), $"Client-{player.OwnerClientId} rotation {rotation.eulerAngles} does not match the prefab rotation {m_PlayerRotation.eulerAngles}!");
}
[UnityTest]
public IEnumerator PlayerSpawnPosition()
{
if (m_ServerNetworkManager.IsHost)
{
PlayerTransformMatches(m_ServerNetworkManager.LocalClient.PlayerObject);
foreach (var client in m_ClientNetworkManagers)
{
yield return WaitForConditionOrTimeOut(() => client.SpawnManager.SpawnedObjects.ContainsKey(m_ServerNetworkManager.LocalClient.PlayerObject.NetworkObjectId));
AssertOnTimeout($"Client-{client.LocalClientId} does not contain a player prefab instance for client-{m_ServerNetworkManager.LocalClientId}!");
PlayerTransformMatches(client.SpawnManager.SpawnedObjects[m_ServerNetworkManager.LocalClient.PlayerObject.NetworkObjectId]);
}
}
foreach (var client in m_ClientNetworkManagers)
{
yield return WaitForConditionOrTimeOut(() => m_ServerNetworkManager.SpawnManager.SpawnedObjects.ContainsKey(client.LocalClient.PlayerObject.NetworkObjectId));
AssertOnTimeout($"Client-{m_ServerNetworkManager.LocalClientId} does not contain a player prefab instance for client-{client.LocalClientId}!");
PlayerTransformMatches(m_ServerNetworkManager.SpawnManager.SpawnedObjects[client.LocalClient.PlayerObject.NetworkObjectId]);
foreach (var subClient in m_ClientNetworkManagers)
{
yield return WaitForConditionOrTimeOut(() => subClient.SpawnManager.SpawnedObjects.ContainsKey(client.LocalClient.PlayerObject.NetworkObjectId));
AssertOnTimeout($"Client-{subClient.LocalClientId} does not contain a player prefab instance for client-{client.LocalClientId}!");
PlayerTransformMatches(subClient.SpawnManager.SpawnedObjects[client.LocalClient.PlayerObject.NetworkObjectId]);
}
}
}
}
/// <summary>
/// This test validates that when a player is spawned it has all observers
/// properly set and the spawned and player object lists are properly populated.
/// It also validates that when a player is despawned and the client is still connected
/// that the client maintains its observers for other players.
/// </summary>
[TestFixture(HostOrServer.DAHost)]
[TestFixture(HostOrServer.Host)]
[TestFixture(HostOrServer.Server)]
internal class PlayerSpawnAndDespawnTests : NetcodeIntegrationTest
{
protected override int NumberOfClients => 4;
private StringBuilder m_ErrorLog = new StringBuilder();
public PlayerSpawnAndDespawnTests(HostOrServer hostOrServer) : base(hostOrServer) { }
private bool ValidateObservers(ulong playerClientId, NetworkObject player, ref List<NetworkManager> networkManagers)
{
foreach (var networkManager in networkManagers)
{
if (player != null && player.IsSpawned)
{
if (!networkManager.SpawnManager.SpawnedObjects.ContainsKey(player.NetworkObjectId))
{
m_ErrorLog.AppendLine($"Client-{networkManager.LocalClientId} does not contain a spawned object entry {nameof(NetworkObject)}-{player.NetworkObjectId} for Client-{playerClientId}!");
return false;
}
var playerClone = networkManager.SpawnManager.SpawnedObjects[player.NetworkObjectId];
foreach (var clientId in networkManager.ConnectedClientsIds)
{
if (!playerClone.IsNetworkVisibleTo(clientId))
{
m_ErrorLog.AppendLine($"Client-{networkManager.LocalClientId} failed visibility check for Client-{clientId} on {nameof(NetworkObject)}-{player.NetworkObjectId} for Client-{playerClientId}!");
return false;
}
}
var foundPlayerClone = (NetworkObject)null;
foreach (var playerObject in networkManager.SpawnManager.PlayerObjects)
{
if (playerObject.OwnerClientId == playerClientId && playerObject.NetworkObjectId == player.NetworkObjectId)
{
foundPlayerClone = playerObject;
break;
}
}
if (!foundPlayerClone)
{
m_ErrorLog.AppendLine($"Client-{networkManager.LocalClientId} does not contain a player entry for {nameof(NetworkObject)}-{player.NetworkObjectId} for Client-{playerClientId}!");
return false;
}
}
else
{
// If the player client in question is despawned, then no NetworkManager instance
// should contain a clone of that (or the client's NetworkManager instance as well)
foreach (var playerClone in networkManager.SpawnManager.PlayerObjects)
{
if (playerClone.OwnerClientId == playerClientId)
{
m_ErrorLog.AppendLine($"Client-{networkManager.LocalClientId} contains a player {nameof(NetworkObject)}-{playerClone.NetworkObjectId} for Client-{playerClientId} when it should be despawned!");
return false;
}
}
}
}
return true;
}
private bool ValidateAllClientPlayerObservers()
{
var networkManagers = new List<NetworkManager>();
if (m_ServerNetworkManager.IsHost)
{
networkManagers.Add(m_ServerNetworkManager);
}
foreach (var networkManager in m_ClientNetworkManagers)
{
networkManagers.Add(networkManager);
}
m_ErrorLog.Clear();
var success = true;
foreach (var networkManager in networkManagers)
{
var spawnedOrNot = networkManager.LocalClient.PlayerObject == null ? "despawned" : "spawned";
m_ErrorLog.AppendLine($"Validating Client-{networkManager.LocalClientId} {spawnedOrNot} player.");
if (networkManager.LocalClient == null)
{
m_ErrorLog.AppendLine($"No {nameof(NetworkClient)} found for Client-{networkManager.LocalClientId}!");
success = false;
break;
}
if (!ValidateObservers(networkManager.LocalClientId, networkManager.LocalClient.PlayerObject, ref networkManagers))
{
m_ErrorLog.AppendLine($"Client-{networkManager.LocalClientId} validation pass failed.");
success = false;
break;
}
}
networkManagers.Clear();
return success;
}
[UnityTest]
public IEnumerator PlayerSpawnDespawn()
{
// Validate all observers are properly set with all players spawned
yield return WaitForConditionOrTimeOut(ValidateAllClientPlayerObservers);
AssertOnTimeout($"First Validation Failed:\n {m_ErrorLog}");
var selectedClient = m_ClientNetworkManagers[Random.Range(0, m_ClientNetworkManagers.Count() - 1)];
var playerSelected = selectedClient.LocalClient.PlayerObject;
if (m_DistributedAuthority)
{
playerSelected.Despawn(false);
}
else
{
m_ServerNetworkManager.SpawnManager.SpawnedObjects[playerSelected.NetworkObjectId].Despawn(true);
}
// Validate all observers are properly set with one of the players despawned
yield return WaitForConditionOrTimeOut(ValidateAllClientPlayerObservers);
AssertOnTimeout($"Second Validation Failed:\n {m_ErrorLog}");
if (m_DistributedAuthority)
{
playerSelected.SpawnAsPlayerObject(selectedClient.LocalClientId, false);
}
else
{
SpawnPlayerObject(m_ServerNetworkManager.NetworkConfig.PlayerPrefab, selectedClient);
}
// Validate all observers are properly set when the client's player is respawned.
yield return WaitForConditionOrTimeOut(ValidateAllClientPlayerObservers);
AssertOnTimeout($"Third Validation Failed:\n {m_ErrorLog}");
}
}
}
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