InnoLab/com.unity.netcode.gameobjects
Archived
6
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
This repository has been archived on 2025-04-22. You can view files and clone it. You cannot open issues or pull requests or push a commit.
Files
0f7a30d285561163b139aff9e48e6babc2ecce20
com.unity.netcode.gameobjects/Editor/CodeGen/CodeGenHelpers.cs
Unity Technologies 0f7a30d285 com.unity.netcode.gameobjects@1.0.0-pre.10 
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.10] - 2022-06-21

### Added

- Added a new `OnTransportFailure` callback to `NetworkManager`. This callback is invoked when the manager's `NetworkTransport` encounters an unrecoverable error. Transport failures also cause the `NetworkManager` to shut down. Currently, this is only used by `UnityTransport` to signal a timeout of its connection to the Unity Relay servers. (#1994)
- Added `NetworkEvent.TransportFailure`, which can be used by implementations of `NetworkTransport` to signal to `NetworkManager` that an unrecoverable error was encountered. (#1994)
- Added test to ensure a warning occurs when nesting NetworkObjects in a NetworkPrefab (#1969)
- Added `NetworkManager.RemoveNetworkPrefab(...)` to remove a prefab from the prefabs list (#1950)

### Changed

- Updated `UnityTransport` dependency on `com.unity.transport` to 1.1.0. (#2025)
- (API Breaking) `ConnectionApprovalCallback` is no longer an `event` and will not allow more than 1 handler registered at a time. Also, `ConnectionApprovalCallback` is now a `Func<>` taking `ConnectionApprovalRequest` in and returning `ConnectionApprovalResponse` back out (#1972)

### Removed

### Fixed
- Fixed issue where dynamically spawned `NetworkObject`s could throw an exception if the scene of origin handle was zero (0) and the `NetworkObject` was already spawned. (#2017)
- Fixed issue where `NetworkObject.Observers` was not being cleared when despawned. (#2009)
- Fixed `NetworkAnimator` could not run in the server authoritative mode. (#2003)
- Fixed issue where late joining clients would get a soft synchronization error if any in-scene placed NetworkObjects were parented under another `NetworkObject`. (#1985)
- Fixed issue where `NetworkBehaviourReference` would throw a type cast exception if using `NetworkBehaviourReference.TryGet` and the component type was not found. (#1984)
- Fixed `NetworkSceneManager` was not sending scene event notifications for the currently active scene and any additively loaded scenes when loading a new scene in `LoadSceneMode.Single` mode. (#1975)
- Fixed issue where one or more clients disconnecting during a scene event would cause `LoadEventCompleted` or `UnloadEventCompleted` to wait until the `NetworkConfig.LoadSceneTimeOut` period before being triggered. (#1973)
- Fixed issues when multiple `ConnectionApprovalCallback`s were registered (#1972)
- Fixed a regression in serialization support: `FixedString`, `Vector2Int`, and `Vector3Int` types can now be used in NetworkVariables and RPCs again without requiring a `ForceNetworkSerializeByMemcpy<>` wrapper. (#1961)
- Fixed generic types that inherit from NetworkBehaviour causing crashes at compile time. (#1976)
- Fixed endless dialog boxes when adding a `NetworkBehaviour` to a `NetworkManager` or vice-versa. (#1947)
- Fixed `NetworkAnimator` issue where it was only synchronizing parameters if the layer or state changed or was transitioning between states. (#1946)
- Fixed `NetworkAnimator` issue where when it did detect a parameter had changed it would send all parameters as opposed to only the parameters that changed. (#1946)
- Fixed `NetworkAnimator` issue where it was not always disposing the `NativeArray` that is allocated when spawned. (#1946)
- Fixed `NetworkAnimator` issue where it was not taking the animation speed or state speed multiplier into consideration. (#1946)
- Fixed `NetworkAnimator` issue where it was not properly synchronizing late joining clients if they joined while `Animator` was transitioning between states. (#1946)
- Fixed `NetworkAnimator` issue where the server was not relaying changes to non-owner clients when a client was the owner. (#1946)
- Fixed issue where the `PacketLoss` metric for tools would return the packet loss over a connection lifetime instead of a single frame. (#2004)
2022-06-21 00:00:00 +00:00

385 lines
14 KiB
C#
Raw Blame History

using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Text;
using Mono.Cecil;
using Mono.Cecil.Cil;
using Mono.Cecil.Rocks;
using Unity.Collections;
using Unity.CompilationPipeline.Common.Diagnostics;
using Unity.CompilationPipeline.Common.ILPostProcessing;
using UnityEngine;
namespace Unity.Netcode.Editor.CodeGen
{
internal static class CodeGenHelpers
{
public const string RuntimeAssemblyName = "Unity.Netcode.Runtime";
public static readonly string NetworkBehaviour_FullName = typeof(NetworkBehaviour).FullName;
public static readonly string INetworkMessage_FullName = typeof(INetworkMessage).FullName;
public static readonly string ServerRpcAttribute_FullName = typeof(ServerRpcAttribute).FullName;
public static readonly string ClientRpcAttribute_FullName = typeof(ClientRpcAttribute).FullName;
public static readonly string ServerRpcParams_FullName = typeof(ServerRpcParams).FullName;
public static readonly string ClientRpcParams_FullName = typeof(ClientRpcParams).FullName;
public static readonly string ClientRpcSendParams_FullName = typeof(ClientRpcSendParams).FullName;
public static readonly string ClientRpcReceiveParams_FullName = typeof(ClientRpcReceiveParams).FullName;
public static readonly string ServerRpcSendParams_FullName = typeof(ServerRpcSendParams).FullName;
public static readonly string ServerRpcReceiveParams_FullName = typeof(ServerRpcReceiveParams).FullName;
public static readonly string INetworkSerializable_FullName = typeof(INetworkSerializable).FullName;
public static readonly string INetworkSerializeByMemcpy_FullName = typeof(INetworkSerializeByMemcpy).FullName;
public static readonly string IUTF8Bytes_FullName = typeof(IUTF8Bytes).FullName;
public static readonly string UnityColor_FullName = typeof(Color).FullName;
public static readonly string UnityColor32_FullName = typeof(Color32).FullName;
public static readonly string UnityVector2_FullName = typeof(Vector2).FullName;
public static readonly string UnityVector3_FullName = typeof(Vector3).FullName;
public static readonly string UnityVector4_FullName = typeof(Vector4).FullName;
public static readonly string UnityQuaternion_FullName = typeof(Quaternion).FullName;
public static readonly string UnityRay_FullName = typeof(Ray).FullName;
public static readonly string UnityRay2D_FullName = typeof(Ray2D).FullName;
public static uint Hash(this MethodDefinition methodDefinition)
{
var sigArr = Encoding.UTF8.GetBytes($"{methodDefinition.Module.Name} / {methodDefinition.FullName}");
var sigLen = sigArr.Length;
unsafe
{
fixed (byte* sigPtr = sigArr)
{
return XXHash.Hash32(sigPtr, sigLen);
}
}
}
public static bool IsSubclassOf(this TypeDefinition typeDefinition, string classTypeFullName)
{
if (!typeDefinition.IsClass)
{
return false;
}
var baseTypeRef = typeDefinition.BaseType;
while (baseTypeRef != null)
{
if (baseTypeRef.FullName == classTypeFullName)
{
return true;
}
try
{
baseTypeRef = baseTypeRef.Resolve().BaseType;
}
catch
{
return false;
}
}
return false;
}
public static string FullNameWithGenericParameters(this TypeReference typeReference, GenericParameter[] contextGenericParameters, TypeReference[] contextGenericParameterTypes)
{
var name = typeReference.FullName;
if (typeReference.HasGenericParameters)
{
name += "<";
for (var i = 0; i < typeReference.Resolve().GenericParameters.Count; ++i)
{
if (i != 0)
{
name += ", ";
}
for (var j = 0; j < contextGenericParameters.Length; ++j)
{
if (typeReference.GenericParameters[i].FullName == contextGenericParameters[i].FullName)
{
name += contextGenericParameterTypes[i].FullName;
break;
}
}
}
name += ">";
}
return name;
}
public static bool HasInterface(this TypeReference typeReference, string interfaceTypeFullName)
{
if (typeReference.IsArray)
{
return false;
}
try
{
var typeDef = typeReference.Resolve();
var typeFaces = typeDef.Interfaces;
return typeFaces.Any(iface => iface.InterfaceType.FullName == interfaceTypeFullName);
}
catch
{
return false;
}
}
public static bool IsSerializable(this TypeReference typeReference)
{
var typeSystem = typeReference.Module.TypeSystem;
// C# primitives
if (typeReference == typeSystem.Boolean)
{
return true;
}
if (typeReference == typeSystem.Char)
{
return true;
}
if (typeReference == typeSystem.SByte)
{
return true;
}
if (typeReference == typeSystem.Byte)
{
return true;
}
if (typeReference == typeSystem.Int16)
{
return true;
}
if (typeReference == typeSystem.UInt16)
{
return true;
}
if (typeReference == typeSystem.Int32)
{
return true;
}
if (typeReference == typeSystem.UInt32)
{
return true;
}
if (typeReference == typeSystem.Int64)
{
return true;
}
if (typeReference == typeSystem.UInt64)
{
return true;
}
if (typeReference == typeSystem.Single)
{
return true;
}
if (typeReference == typeSystem.Double)
{
return true;
}
if (typeReference == typeSystem.String)
{
return true;
}
// Unity primitives
if (typeReference.FullName == UnityColor_FullName)
{
return true;
}
if (typeReference.FullName == UnityColor32_FullName)
{
return true;
}
if (typeReference.FullName == UnityVector2_FullName)
{
return true;
}
if (typeReference.FullName == UnityVector3_FullName)
{
return true;
}
if (typeReference.FullName == UnityVector4_FullName)
{
return true;
}
if (typeReference.FullName == UnityQuaternion_FullName)
{
return true;
}
if (typeReference.FullName == UnityRay_FullName)
{
return true;
}
if (typeReference.FullName == UnityRay2D_FullName)
{
return true;
}
// Enum
if (typeReference.GetEnumAsInt() != null)
{
return true;
}
// INetworkSerializable
if (typeReference.HasInterface(INetworkSerializable_FullName))
{
return true;
}
// Static array
if (typeReference.IsArray)
{
return typeReference.GetElementType().IsSerializable();
}
return false;
}
public static TypeReference GetEnumAsInt(this TypeReference typeReference)
{
if (typeReference.IsArray)
{
return null;
}
try
{
var typeDef = typeReference.Resolve();
return typeDef.IsEnum ? typeDef.GetEnumUnderlyingType() : null;
}
catch
{
return null;
}
}
public static void AddError(this List<DiagnosticMessage> diagnostics, string message)
{
diagnostics.AddError((SequencePoint)null, message);
}
public static void AddError(this List<DiagnosticMessage> diagnostics, MethodDefinition methodDefinition, string message)
{
diagnostics.AddError(methodDefinition.DebugInformation.SequencePoints.FirstOrDefault(), message);
}
public static void AddError(this List<DiagnosticMessage> diagnostics, SequencePoint sequencePoint, string message)
{
diagnostics.Add(new DiagnosticMessage
{
DiagnosticType = DiagnosticType.Error,
File = sequencePoint?.Document.Url.Replace($"{Environment.CurrentDirectory}{Path.DirectorySeparatorChar}", ""),
Line = sequencePoint?.StartLine ?? 0,
Column = sequencePoint?.StartColumn ?? 0,
MessageData = $" - {message}"
});
}
public static void AddWarning(this List<DiagnosticMessage> diagnostics, string message)
{
diagnostics.AddWarning((SequencePoint)null, message);
}
public static void AddWarning(this List<DiagnosticMessage> diagnostics, MethodDefinition methodDefinition, string message)
{
diagnostics.AddWarning(methodDefinition.DebugInformation.SequencePoints.FirstOrDefault(), message);
}
public static void AddWarning(this List<DiagnosticMessage> diagnostics, SequencePoint sequencePoint, string message)
{
diagnostics.Add(new DiagnosticMessage
{
DiagnosticType = DiagnosticType.Warning,
File = sequencePoint?.Document.Url.Replace($"{Environment.CurrentDirectory}{Path.DirectorySeparatorChar}", ""),
Line = sequencePoint?.StartLine ?? 0,
Column = sequencePoint?.StartColumn ?? 0,
MessageData = $" - {message}"
});
}
public static void RemoveRecursiveReferences(this ModuleDefinition moduleDefinition)
{
// Weird behavior from Cecil: When importing a reference to a specific implementation of a generic
// method, it's importing the main module as a reference into itself. This causes Unity to have issues
// when attempting to iterate the assemblies to discover unit tests, as it goes into infinite recursion
// and eventually hits a stack overflow. I wasn't able to find any way to stop Cecil from importing the module
// into itself, so at the end of it all, we're just going to go back and remove it again.
var moduleName = moduleDefinition.Name;
if (moduleName.EndsWith(".dll") || moduleName.EndsWith(".exe"))
{
moduleName = moduleName.Substring(0, moduleName.Length - 4);
}
foreach (var reference in moduleDefinition.AssemblyReferences)
{
var referenceName = reference.Name.Split(',')[0];
if (referenceName.EndsWith(".dll") || referenceName.EndsWith(".exe"))
{
referenceName = referenceName.Substring(0, referenceName.Length - 4);
}
if (moduleName == referenceName)
{
try
{
moduleDefinition.AssemblyReferences.Remove(reference);
break;
}
catch (Exception)
{
//
}
}
}
}
public static AssemblyDefinition AssemblyDefinitionFor(ICompiledAssembly compiledAssembly, out PostProcessorAssemblyResolver assemblyResolver)
{
assemblyResolver = new PostProcessorAssemblyResolver(compiledAssembly);
var readerParameters = new ReaderParameters
{
SymbolStream = new MemoryStream(compiledAssembly.InMemoryAssembly.PdbData),
SymbolReaderProvider = new PortablePdbReaderProvider(),
AssemblyResolver = assemblyResolver,
ReflectionImporterProvider = new PostProcessorReflectionImporterProvider(),
ReadingMode = ReadingMode.Immediate
};
var assemblyDefinition = AssemblyDefinition.ReadAssembly(new MemoryStream(compiledAssembly.InMemoryAssembly.PeData), readerParameters);
//apparently, it will happen that when we ask to resolve a type that lives inside Unity.Netcode.Runtime, and we
//are also postprocessing Unity.Netcode.Runtime, type resolving will fail, because we do not actually try to resolve
//inside the assembly we are processing. Let's make sure we do that, so that we can use postprocessor features inside
//Unity.Netcode.Runtime itself as well.
assemblyResolver.AddAssemblyDefinitionBeingOperatedOn(assemblyDefinition);
return assemblyDefinition;
}
}
}
Reference in New Issue View Git Blame Copy Permalink