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07f206ff9e795b7710ecfc1dbea4c333e0189aaf
com.unity.netcode.gameobjects/Editor/CodeGen/NetworkBehaviourILPP.cs
Unity Technologies 07f206ff9e com.unity.netcode.gameobjects@1.8.0 
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).

## [1.8.0] - 2023-12-12

### Added

- Added a new RPC attribute, which is simply `Rpc`. (#2762)
  - This is a generic attribute that can perform the functions of both Server and Client RPCs, as well as enabling client-to-client RPCs. Includes several default targets: `Server`, `NotServer`, `Owner`, `NotOwner`, `Me`, `NotMe`, `ClientsAndHost`, and `Everyone`. Runtime overrides are available for any of these targets, as well as for sending to a specific ID or groups of IDs.
  - This attribute also includes the ability to defer RPCs that are sent to the local process to the start of the next frame instead of executing them immediately, treating them as if they had gone across the network. The default behavior is to execute immediately.
  - This attribute effectively replaces `ServerRpc` and `ClientRpc`. `ServerRpc` and `ClientRpc` remain in their existing forms for backward compatibility, but `Rpc` will be the recommended and most supported option.
- Added `NetworkManager.OnConnectionEvent` as a unified connection event callback to notify clients and servers of all client connections and disconnections within the session (#2762)
- Added `NetworkManager.ServerIsHost` and `NetworkBehaviour.ServerIsHost` to allow a client to tell if it is connected to a host or to a dedicated server (#2762)
- Added `SceneEventProgress.SceneManagementNotEnabled` return status to be returned when a `NetworkSceneManager` method is invoked and scene management is not enabled. (#2735)
- Added `SceneEventProgress.ServerOnlyAction` return status to be returned when a `NetworkSceneManager` method is invoked by a client. (#2735)
- Added `NetworkObject.InstantiateAndSpawn` and `NetworkSpawnManager.InstantiateAndSpawn` methods to simplify prefab spawning by assuring that the prefab is valid and applies any override prior to instantiating the `GameObject` and spawning the `NetworkObject` instance. (#2710)

### Fixed

- Fixed issue where a client disconnected by a server-host would not receive a local notification. (#2789)
- Fixed issue where a server-host could shutdown during a relay connection but periodically the transport disconnect message sent to any connected clients could be dropped. (#2789)
- Fixed issue where a host could disconnect its local client but remain running as a server. (#2789)
- Fixed issue where `OnClientDisconnectedCallback` was not being invoked under certain conditions. (#2789)
- Fixed issue where `OnClientDisconnectedCallback` was always returning 0 as the client identifier. (#2789)
- Fixed issue where if a host or server shutdown while a client owned NetworkObjects (other than the player) it would throw an exception. (#2789)
- Fixed issue where setting values on a `NetworkVariable` or `NetworkList` within `OnNetworkDespawn` during a shutdown sequence would throw an exception. (#2789)
- Fixed issue where a teleport state could potentially be overridden by a previous unreliable delta state. (#2777)
- Fixed issue where `NetworkTransform` was using the `NetworkManager.ServerTime.Tick` as opposed to `NetworkManager.NetworkTickSystem.ServerTime.Tick` during the authoritative side's tick update where it performed a delta state check. (#2777)
- Fixed issue where a parented in-scene placed NetworkObject would be destroyed upon a client or server exiting a network session but not unloading the original scene in which the NetworkObject was placed. (#2737)
- Fixed issue where during client synchronization and scene loading, when client synchronization or the scene loading mode are set to `LoadSceneMode.Single`, a `CreateObjectMessage` could be received, processed, and the resultant spawned `NetworkObject` could be instantiated in the client's currently active scene that could, towards the end of the client synchronization or loading process, be unloaded and cause the newly created `NetworkObject` to be destroyed (and throw and exception). (#2735)
- Fixed issue where a `NetworkTransform` instance with interpolation enabled would result in wide visual motion gaps (stuttering) under above normal latency conditions and a 1-5% or higher packet are drop rate. (#2713)
- Fixed issue where  you could not have multiple source network prefab overrides targeting the same network prefab as their override. (#2710)

### Changed
- Changed the server or host shutdown so it will now perform a "soft shutdown" when `NetworkManager.Shutdown` is invoked. This will send a disconnect notification to all connected clients and the server-host will wait for all connected clients to disconnect or timeout after a 5 second period before completing the shutdown process. (#2789)
- Changed `OnClientDisconnectedCallback` will now return the assigned client identifier on the local client side if the client was approved and assigned one prior to being disconnected. (#2789)
- Changed `NetworkTransform.SetState` (and related methods) now are cumulative during a fractional tick period and sent on the next pending tick. (#2777)
- `NetworkManager.ConnectedClientsIds` is now accessible on the client side and will contain the list of all clients in the session, including the host client if the server is operating in host mode (#2762)
- Changed `NetworkSceneManager` to return a `SceneEventProgress` status and not throw exceptions for methods invoked when scene management is disabled and when a client attempts to access a `NetworkSceneManager` method by a client. (#2735)
- Changed `NetworkTransform` authoritative instance tick registration so a single `NetworkTransform` specific tick event update will update all authoritative instances to improve perofmance. (#2713)
- Changed `NetworkPrefabs.OverrideToNetworkPrefab` dictionary is no longer used/populated due to it ending up being related to a regression bug and not allowing more than one override to be assigned to a network prefab asset. (#2710)
- Changed in-scene placed `NetworkObject`s now store their source network prefab asset's `GlobalObjectIdHash` internally that is used, when scene management is disabled, by clients to spawn the correct prefab even if the `NetworkPrefab` entry has an override. This does not impact dynamically spawning the same prefab which will yield the override on both host and client. (#2710)
- Changed in-scene placed `NetworkObject`s no longer require a `NetworkPrefab` entry with `GlobalObjectIdHash` override in order for clients to properly synchronize. (#2710)
- Changed in-scene placed `NetworkObject`s now set their `IsSceneObject` value when generating their `GlobalObjectIdHash` value. (#2710)
- Changed the default `NetworkConfig.SpawnTimeout` value from 1.0s to 10.0s. (#2710)
2023-12-12 00:00:00 +00:00

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using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Runtime.CompilerServices;
using Mono.Cecil;
using Mono.Cecil.Cil;
using Mono.Cecil.Rocks;
using Unity.CompilationPipeline.Common.Diagnostics;
using Unity.CompilationPipeline.Common.ILPostProcessing;
#if UNITY_EDITOR
using UnityEditor;
#endif
using UnityEngine;
using ILPPInterface = Unity.CompilationPipeline.Common.ILPostProcessing.ILPostProcessor;
using MethodAttributes = Mono.Cecil.MethodAttributes;
using ParameterAttributes = Mono.Cecil.ParameterAttributes;
namespace Unity.Netcode.Editor.CodeGen
{
internal sealed class NetworkBehaviourILPP : ILPPInterface
{
private const string k_ReadValueMethodName = nameof(FastBufferReader.ReadValueSafe);
private const string k_ReadValueInPlaceMethodName = nameof(FastBufferReader.ReadValueSafeInPlace);
private const string k_ReadValueTempMethodName = nameof(FastBufferReader.ReadValueSafeTemp);
private const string k_WriteValueMethodName = nameof(FastBufferWriter.WriteValueSafe);
public override ILPPInterface GetInstance() => this;
public override bool WillProcess(ICompiledAssembly compiledAssembly) => compiledAssembly.References.Any(filePath => Path.GetFileNameWithoutExtension(filePath) == CodeGenHelpers.RuntimeAssemblyName);
private readonly List<DiagnosticMessage> m_Diagnostics = new List<DiagnosticMessage>();
public override ILPostProcessResult Process(ICompiledAssembly compiledAssembly)
{
if (!WillProcess(compiledAssembly))
{
return null;
}
m_Diagnostics.Clear();
// read
var assemblyDefinition = CodeGenHelpers.AssemblyDefinitionFor(compiledAssembly, out m_AssemblyResolver);
if (assemblyDefinition == null)
{
m_Diagnostics.AddError($"Cannot read assembly definition: {compiledAssembly.Name}");
return null;
}
// modules
(m_UnityModule, m_NetcodeModule) = CodeGenHelpers.FindBaseModules(assemblyDefinition, m_AssemblyResolver);
if (m_UnityModule == null)
{
m_Diagnostics.AddError($"Cannot find Unity module: {CodeGenHelpers.UnityModuleName}");
return null;
}
if (m_NetcodeModule == null)
{
m_Diagnostics.AddError($"Cannot find Netcode module: {CodeGenHelpers.NetcodeModuleName}");
return null;
}
// process
var mainModule = assemblyDefinition.MainModule;
if (mainModule != null)
{
m_MainModule = mainModule;
if (ImportReferences(mainModule, compiledAssembly.Defines))
{
// process `NetworkBehaviour` types
try
{
mainModule.GetTypes()
.Where(t => t.IsSubclassOf(CodeGenHelpers.NetworkBehaviour_FullName))
.ToList()
.ForEach(b => ProcessNetworkBehaviour(b, compiledAssembly.Defines));
foreach (var type in mainModule.GetTypes())
{
var resolved = type.Resolve();
foreach (var attribute in resolved.CustomAttributes)
{
if (attribute.AttributeType.Name == nameof(GenerateSerializationForTypeAttribute))
{
var wrappedType = mainModule.ImportReference((TypeReference)attribute.ConstructorArguments[0].Value);
if (!m_WrappedNetworkVariableTypes.Contains(wrappedType))
{
m_WrappedNetworkVariableTypes.Add(wrappedType);
}
}
}
foreach (var method in resolved.Methods)
{
foreach (var attribute in method.CustomAttributes)
{
if (attribute.AttributeType.Name == nameof(GenerateSerializationForTypeAttribute))
{
var wrappedType = mainModule.ImportReference((TypeReference)attribute.ConstructorArguments[0].Value);
if (!m_WrappedNetworkVariableTypes.Contains(wrappedType))
{
m_WrappedNetworkVariableTypes.Add(wrappedType);
}
}
}
}
}
CreateNetworkVariableTypeInitializers(assemblyDefinition, compiledAssembly.Defines);
}
catch (Exception e)
{
m_Diagnostics.AddError((e.ToString() + e.StackTrace).Replace("\n", "|").Replace("\r", "|"));
}
}
else
{
m_Diagnostics.AddError($"Cannot import references into main module: {mainModule.Name}");
}
}
else
{
m_Diagnostics.AddError($"Cannot get main module from assembly definition: {compiledAssembly.Name}");
}
// write
var pe = new MemoryStream();
var pdb = new MemoryStream();
var writerParameters = new WriterParameters
{
SymbolWriterProvider = new PortablePdbWriterProvider(),
SymbolStream = pdb,
WriteSymbols = true
};
assemblyDefinition.Write(pe, writerParameters);
return new ILPostProcessResult(new InMemoryAssembly(pe.ToArray(), pdb.ToArray()), m_Diagnostics);
}
private bool IsMemcpyableType(TypeReference type)
{
foreach (var supportedType in BaseSupportedTypes)
{
if (type.FullName == supportedType.FullName)
{
return true;
}
}
return false;
}
private bool IsSpecialCaseType(TypeReference type)
{
foreach (var supportedType in SpecialCaseTypes)
{
if (type.FullName == supportedType.FullName)
{
return true;
}
}
return false;
}
private void CreateNetworkVariableTypeInitializers(AssemblyDefinition assembly, string[] assemblyDefines)
{
var typeDefinition = new TypeDefinition("__GEN", "NetworkVariableSerializationHelper", TypeAttributes.NotPublic | TypeAttributes.AnsiClass | TypeAttributes.BeforeFieldInit, assembly.MainModule.TypeSystem.Object);
var staticCtorMethodDef = new MethodDefinition(
$"InitializeSerialization",
MethodAttributes.Assembly |
MethodAttributes.Static,
assembly.MainModule.TypeSystem.Void);
staticCtorMethodDef.Body.Instructions.Add(Instruction.Create(OpCodes.Ret));
bool isEditor = assemblyDefines.Contains("UNITY_EDITOR");
if (isEditor)
{
staticCtorMethodDef.CustomAttributes.Add(new CustomAttribute(m_InitializeOnLoadAttribute_Ctor));
}
else
{
staticCtorMethodDef.CustomAttributes.Add(new CustomAttribute(m_RuntimeInitializeOnLoadAttribute_Ctor));
}
typeDefinition.Methods.Add(staticCtorMethodDef);
var instructions = new List<Instruction>();
var processor = staticCtorMethodDef.Body.GetILProcessor();
foreach (var type in m_WrappedNetworkVariableTypes)
{
if (type.Resolve() == null)
{
continue;
}
if (IsSpecialCaseType(type))
{
continue;
}
// If a serializable type isn't found, FallbackSerializer will be used automatically, which will
// call into UserNetworkVariableSerialization, giving the user a chance to define their own serializaiton
// for types that aren't in our official supported types list.
GenericInstanceMethod serializeMethod = null;
GenericInstanceMethod equalityMethod;
if (type.Resolve().FullName == "Unity.Collections.NativeArray`1")
{
var wrappedType = ((GenericInstanceType)type).GenericArguments[0];
if (IsSpecialCaseType(wrappedType) || wrappedType.HasInterface(typeof(INetworkSerializeByMemcpy).FullName) || wrappedType.Resolve().IsEnum || IsMemcpyableType(wrappedType))
{
serializeMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedByMemcpyArray_MethodRef);
}
else if (wrappedType.HasInterface(typeof(INetworkSerializable).FullName))
{
serializeMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedINetworkSerializableArray_MethodRef);
}
else if (wrappedType.HasInterface(CodeGenHelpers.IUTF8Bytes_FullName) && wrappedType.HasInterface(k_INativeListBool_FullName))
{
serializeMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeSerializer_FixedStringArray_MethodRef);
}
if (wrappedType.HasInterface(typeof(IEquatable<>).FullName + "<" + wrappedType.FullName + ">"))
{
equalityMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedIEquatableArray_MethodRef);
}
else
{
equalityMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedValueEqualsArray_MethodRef);
}
serializeMethod?.GenericArguments.Add(wrappedType);
equalityMethod.GenericArguments.Add(wrappedType);
}
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
else if (type.Resolve().FullName == "Unity.Collections.NativeList`1")
{
var wrappedType = ((GenericInstanceType)type).GenericArguments[0];
if (IsSpecialCaseType(wrappedType) || wrappedType.HasInterface(typeof(INetworkSerializeByMemcpy).FullName) || wrappedType.Resolve().IsEnum || IsMemcpyableType(wrappedType))
{
serializeMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedByMemcpyList_MethodRef);
}
else if (wrappedType.HasInterface(typeof(INetworkSerializable).FullName))
{
serializeMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedINetworkSerializableList_MethodRef);
}
else if (wrappedType.HasInterface(CodeGenHelpers.IUTF8Bytes_FullName) && wrappedType.HasInterface(k_INativeListBool_FullName))
{
serializeMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeSerializer_FixedStringList_MethodRef);
}
if (wrappedType.HasInterface(typeof(IEquatable<>).FullName + "<" + wrappedType.FullName + ">"))
{
equalityMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedIEquatableList_MethodRef);
}
else
{
equalityMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedValueEqualsList_MethodRef);
}
if (serializeMethod != null)
{
serializeMethod.GenericArguments.Add(wrappedType);
}
equalityMethod.GenericArguments.Add(wrappedType);
}
#endif
else if (type.IsValueType)
{
if (type.HasInterface(typeof(INetworkSerializeByMemcpy).FullName) || type.Resolve().IsEnum || IsMemcpyableType(type))
{
serializeMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedByMemcpy_MethodRef);
}
else if (type.HasInterface(typeof(INetworkSerializable).FullName))
{
serializeMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedINetworkSerializable_MethodRef);
}
else if (type.HasInterface(CodeGenHelpers.IUTF8Bytes_FullName) && type.HasInterface(k_INativeListBool_FullName))
{
serializeMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeSerializer_FixedString_MethodRef);
}
if (type.HasInterface(typeof(IEquatable<>).FullName + "<" + type.FullName + ">"))
{
equalityMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedIEquatable_MethodRef);
}
else
{
equalityMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedValueEquals_MethodRef);
}
serializeMethod?.GenericArguments.Add(type);
equalityMethod.GenericArguments.Add(type);
}
else
{
if (type.HasInterface(typeof(INetworkSerializable).FullName))
{
var constructors = type.Resolve().GetConstructors();
var hasEmptyConstructor = false;
foreach (var constructor in constructors)
{
if (constructor.Parameters.Count == 0)
{
hasEmptyConstructor = true;
}
}
if (!hasEmptyConstructor)
{
m_Diagnostics.AddError($"{type} cannot be used in a network variable - Managed {nameof(INetworkSerializable)} instances must meet the `new()` (default empty constructor) constraint.");
continue;
}
serializeMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeSerializer_ManagedINetworkSerializable_MethodRef);
}
if (type.HasInterface(typeof(IEquatable<>).FullName + "<" + type.FullName + ">"))
{
equalityMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeEqualityChecker_ManagedIEquatable_MethodRef);
}
else
{
equalityMethod = new GenericInstanceMethod(m_NetworkVariableSerializationTypes_InitializeEqualityChecker_ManagedClassEquals_MethodRef);
}
serializeMethod?.GenericArguments.Add(type);
equalityMethod.GenericArguments.Add(type);
}
if (serializeMethod != null)
{
instructions.Add(processor.Create(OpCodes.Call, m_MainModule.ImportReference(serializeMethod)));
}
instructions.Add(processor.Create(OpCodes.Call, m_MainModule.ImportReference(equalityMethod)));
}
instructions.ForEach(instruction => processor.Body.Instructions.Insert(processor.Body.Instructions.Count - 1, instruction));
assembly.MainModule.Types.Add(typeDefinition);
}
private ModuleDefinition m_MainModule;
private ModuleDefinition m_UnityModule;
private ModuleDefinition m_NetcodeModule;
private PostProcessorAssemblyResolver m_AssemblyResolver;
private MethodReference m_Debug_LogError_MethodRef;
private TypeReference m_NetworkManager_TypeRef;
private MethodReference m_NetworkManager_getLocalClientId_MethodRef;
private MethodReference m_NetworkManager_getIsListening_MethodRef;
private MethodReference m_NetworkManager_getIsHost_MethodRef;
private MethodReference m_NetworkManager_getIsServer_MethodRef;
private MethodReference m_NetworkManager_getIsClient_MethodRef;
private FieldReference m_NetworkManager_LogLevel_FieldRef;
private MethodReference m_NetworkBehaviour___registerRpc_MethodRef;
private TypeReference m_NetworkBehaviour_TypeRef;
private TypeReference m_AttributeParamsType_TypeRef;
private TypeReference m_NetworkVariableBase_TypeRef;
private MethodReference m_NetworkVariableBase_Initialize_MethodRef;
private MethodReference m_NetworkBehaviour___nameNetworkVariable_MethodRef;
private MethodReference m_NetworkBehaviour_beginSendServerRpc_MethodRef;
private MethodReference m_NetworkBehaviour_endSendServerRpc_MethodRef;
private MethodReference m_NetworkBehaviour_beginSendRpc_MethodRef;
private MethodReference m_NetworkBehaviour_endSendRpc_MethodRef;
private MethodReference m_NetworkBehaviour_beginSendClientRpc_MethodRef;
private MethodReference m_NetworkBehaviour_endSendClientRpc_MethodRef;
private FieldReference m_NetworkBehaviour_rpc_exec_stage_FieldRef;
private FieldReference m_NetworkBehaviour_NetworkVariableFields_FieldRef;
private MethodReference m_NetworkBehaviour_getNetworkManager_MethodRef;
private MethodReference m_NetworkBehaviour_getOwnerClientId_MethodRef;
private MethodReference m_NetworkHandlerDelegateCtor_MethodRef;
private TypeReference m_RpcParams_TypeRef;
private FieldReference m_RpcParams_Server_FieldRef;
private FieldReference m_RpcParams_Client_FieldRef;
private FieldReference m_RpcParams_Ext_FieldRef;
private TypeReference m_ServerRpcParams_TypeRef;
private FieldReference m_ServerRpcParams_Receive_FieldRef;
private FieldReference m_ServerRpcParams_Receive_SenderClientId_FieldRef;
private FieldReference m_UniversalRpcParams_Receive_FieldRef;
private FieldReference m_UniversalRpcParams_Receive_SenderClientId_FieldRef;
private TypeReference m_UniversalRpcParams_TypeRef;
private TypeReference m_ClientRpcParams_TypeRef;
private MethodReference m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedByMemcpy_MethodRef;
private MethodReference m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedByMemcpyArray_MethodRef;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
private MethodReference m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedByMemcpyList_MethodRef;
#endif
private MethodReference m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedINetworkSerializable_MethodRef;
private MethodReference m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedINetworkSerializableArray_MethodRef;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
private MethodReference m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedINetworkSerializableList_MethodRef;
#endif
private MethodReference m_NetworkVariableSerializationTypes_InitializeSerializer_ManagedINetworkSerializable_MethodRef;
private MethodReference m_NetworkVariableSerializationTypes_InitializeSerializer_FixedString_MethodRef;
private MethodReference m_NetworkVariableSerializationTypes_InitializeSerializer_FixedStringArray_MethodRef;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
private MethodReference m_NetworkVariableSerializationTypes_InitializeSerializer_FixedStringList_MethodRef;
#endif
private MethodReference m_NetworkVariableSerializationTypes_InitializeEqualityChecker_ManagedIEquatable_MethodRef;
private MethodReference m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedIEquatable_MethodRef;
private MethodReference m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedIEquatableArray_MethodRef;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
private MethodReference m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedIEquatableList_MethodRef;
#endif
private MethodReference m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedValueEquals_MethodRef;
private MethodReference m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedValueEqualsArray_MethodRef;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
private MethodReference m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedValueEqualsList_MethodRef;
#endif
private MethodReference m_NetworkVariableSerializationTypes_InitializeEqualityChecker_ManagedClassEquals_MethodRef;
private MethodReference m_RuntimeInitializeOnLoadAttribute_Ctor;
private MethodReference m_InitializeOnLoadAttribute_Ctor;
private MethodReference m_ExceptionCtorMethodReference;
private MethodReference m_List_NetworkVariableBase_Add;
private MethodReference m_BytePacker_WriteValueBitPacked_Short_MethodRef;
private MethodReference m_BytePacker_WriteValueBitPacked_UShort_MethodRef;
private MethodReference m_BytePacker_WriteValueBitPacked_Int_MethodRef;
private MethodReference m_BytePacker_WriteValueBitPacked_UInt_MethodRef;
private MethodReference m_BytePacker_WriteValueBitPacked_Long_MethodRef;
private MethodReference m_BytePacker_WriteValueBitPacked_ULong_MethodRef;
private MethodReference m_ByteUnpacker_ReadValueBitPacked_Short_MethodRef;
private MethodReference m_ByteUnpacker_ReadValueBitPacked_UShort_MethodRef;
private MethodReference m_ByteUnpacker_ReadValueBitPacked_Int_MethodRef;
private MethodReference m_ByteUnpacker_ReadValueBitPacked_UInt_MethodRef;
private MethodReference m_ByteUnpacker_ReadValueBitPacked_Long_MethodRef;
private MethodReference m_ByteUnpacker_ReadValueBitPacked_ULong_MethodRef;
private MethodReference m_NetworkBehaviour_createNativeList_MethodRef;
private TypeReference m_FastBufferWriter_TypeRef;
private readonly Dictionary<string, MethodReference> m_FastBufferWriter_WriteValue_MethodRefs = new Dictionary<string, MethodReference>();
private readonly List<MethodReference> m_FastBufferWriter_ExtensionMethodRefs = new List<MethodReference>();
private TypeReference m_FastBufferReader_TypeRef;
private readonly Dictionary<string, MethodReference> m_FastBufferReader_ReadValue_MethodRefs = new Dictionary<string, MethodReference>();
private readonly List<MethodReference> m_FastBufferReader_ExtensionMethodRefs = new List<MethodReference>();
private HashSet<TypeReference> m_WrappedNetworkVariableTypes = new HashSet<TypeReference>();
internal static readonly Type[] BaseSupportedTypes = new[]
{
typeof(bool),
typeof(byte),
typeof(sbyte),
typeof(char),
typeof(decimal),
typeof(double),
typeof(float),
// the following types have special handling
/*typeof(int),
typeof(uint),
typeof(long),
typeof(ulong),
typeof(short),
typeof(ushort),*/
typeof(Vector2),
typeof(Vector3),
typeof(Vector2Int),
typeof(Vector3Int),
typeof(Vector4),
typeof(Quaternion),
typeof(Color),
typeof(Color32),
typeof(Ray),
typeof(Ray2D)
};
internal static readonly Type[] SpecialCaseTypes = new[]
{
// the following types have special handling
typeof(int),
typeof(uint),
typeof(long),
typeof(ulong),
typeof(short),
typeof(ushort),
};
private const string k_Debug_LogError = nameof(Debug.LogError);
private const string k_NetworkManager_LocalClientId = nameof(NetworkManager.LocalClientId);
private const string k_NetworkManager_IsListening = nameof(NetworkManager.IsListening);
private const string k_NetworkManager_IsHost = nameof(NetworkManager.IsHost);
private const string k_NetworkManager_IsServer = nameof(NetworkManager.IsServer);
private const string k_NetworkManager_IsClient = nameof(NetworkManager.IsClient);
private const string k_NetworkManager_LogLevel = nameof(NetworkManager.LogLevel);
private const string k_NetworkBehaviour_rpc_func_table = nameof(NetworkBehaviour.__rpc_func_table);
private const string k_NetworkBehaviour_rpc_name_table = nameof(NetworkBehaviour.__rpc_name_table);
private const string k_NetworkBehaviour_rpc_exec_stage = nameof(NetworkBehaviour.__rpc_exec_stage);
private const string k_NetworkBehaviour_NetworkVariableFields = nameof(NetworkBehaviour.NetworkVariableFields);
private const string k_NetworkBehaviour_beginSendServerRpc = nameof(NetworkBehaviour.__beginSendServerRpc);
private const string k_NetworkBehaviour_endSendServerRpc = nameof(NetworkBehaviour.__endSendServerRpc);
private const string k_NetworkBehaviour_beginSendRpc = nameof(NetworkBehaviour.__beginSendRpc);
private const string k_NetworkBehaviour_endSendRpc = nameof(NetworkBehaviour.__endSendRpc);
private const string k_NetworkBehaviour_beginSendClientRpc = nameof(NetworkBehaviour.__beginSendClientRpc);
private const string k_NetworkBehaviour_endSendClientRpc = nameof(NetworkBehaviour.__endSendClientRpc);
private const string k_NetworkBehaviour___initializeVariables = nameof(NetworkBehaviour.__initializeVariables);
private const string k_NetworkBehaviour___initializeRpcs = nameof(NetworkBehaviour.__initializeRpcs);
private const string k_NetworkBehaviour_createNativeList = nameof(NetworkBehaviour.__createNativeList);
private const string k_NetworkBehaviour_NetworkManager = nameof(NetworkBehaviour.NetworkManager);
private const string k_NetworkBehaviour_OwnerClientId = nameof(NetworkBehaviour.OwnerClientId);
private const string k_NetworkBehaviour___nameNetworkVariable = nameof(NetworkBehaviour.__nameNetworkVariable);
private const string k_NetworkBehaviour___registerRpc = nameof(NetworkBehaviour.__registerRpc);
private const string k_NetworkVariableBase_Initialize = nameof(NetworkVariableBase.Initialize);
private const string k_RpcAttribute_Delivery = nameof(RpcAttribute.Delivery);
private const string k_ServerRpcAttribute_RequireOwnership = nameof(ServerRpcAttribute.RequireOwnership);
private const string k_RpcParams_Server = nameof(__RpcParams.Server);
private const string k_RpcParams_Client = nameof(__RpcParams.Client);
private const string k_RpcParams_Ext = nameof(__RpcParams.Ext);
private const string k_ServerRpcParams_Receive = nameof(ServerRpcParams.Receive);
private const string k_RpcParams_Receive = nameof(RpcParams.Receive);
private const string k_ServerRpcReceiveParams_SenderClientId = nameof(ServerRpcReceiveParams.SenderClientId);
private const string k_RpcReceiveParams_SenderClientId = nameof(RpcReceiveParams.SenderClientId);
// CodeGen cannot reference the collections assembly to do a typeof() on it due to a bug that causes that to crash.
private const string k_INativeListBool_FullName = "Unity.Collections.INativeList`1<System.Byte>";
private bool ImportReferences(ModuleDefinition moduleDefinition, string[] assemblyDefines)
{
TypeDefinition debugTypeDef = null;
foreach (var unityTypeDef in m_UnityModule.GetAllTypes())
{
if (debugTypeDef == null && unityTypeDef.FullName == typeof(Debug).FullName)
{
debugTypeDef = unityTypeDef;
continue;
}
}
bool isEditor = assemblyDefines.Contains("UNITY_EDITOR");
if (isEditor)
{
m_InitializeOnLoadAttribute_Ctor = moduleDefinition.ImportReference(typeof(InitializeOnLoadMethodAttribute).GetConstructor(new Type[] { }));
}
m_RuntimeInitializeOnLoadAttribute_Ctor = moduleDefinition.ImportReference(typeof(RuntimeInitializeOnLoadMethodAttribute).GetConstructor(new Type[] { }));
TypeDefinition networkManagerTypeDef = null;
TypeDefinition networkBehaviourTypeDef = null;
TypeDefinition networkVariableBaseTypeDef = null;
TypeDefinition networkHandlerDelegateTypeDef = null;
TypeDefinition rpcParamsTypeDef = null;
TypeDefinition serverRpcParamsTypeDef = null;
TypeDefinition clientRpcParamsTypeDef = null;
TypeDefinition universalRpcParamsTypeDef = null;
TypeDefinition fastBufferWriterTypeDef = null;
TypeDefinition fastBufferReaderTypeDef = null;
TypeDefinition networkVariableSerializationTypesTypeDef = null;
TypeDefinition bytePackerTypeDef = null;
TypeDefinition byteUnpackerTypeDef = null;
TypeDefinition attributeParamsType = null;
foreach (var netcodeTypeDef in m_NetcodeModule.GetAllTypes())
{
if (attributeParamsType == null && netcodeTypeDef.Name == nameof(RpcAttribute.RpcAttributeParams))
{
attributeParamsType = netcodeTypeDef;
continue;
}
if (networkManagerTypeDef == null && netcodeTypeDef.Name == nameof(NetworkManager))
{
networkManagerTypeDef = netcodeTypeDef;
continue;
}
if (networkBehaviourTypeDef == null && netcodeTypeDef.Name == nameof(NetworkBehaviour))
{
networkBehaviourTypeDef = netcodeTypeDef;
continue;
}
if (networkVariableBaseTypeDef == null && netcodeTypeDef.Name == nameof(NetworkVariableBase))
{
networkVariableBaseTypeDef = netcodeTypeDef;
continue;
}
if (networkHandlerDelegateTypeDef == null && netcodeTypeDef.Name == nameof(NetworkBehaviour.RpcReceiveHandler))
{
networkHandlerDelegateTypeDef = netcodeTypeDef;
continue;
}
if (rpcParamsTypeDef == null && netcodeTypeDef.Name == nameof(__RpcParams))
{
rpcParamsTypeDef = netcodeTypeDef;
continue;
}
if (serverRpcParamsTypeDef == null && netcodeTypeDef.Name == nameof(ServerRpcParams))
{
serverRpcParamsTypeDef = netcodeTypeDef;
continue;
}
if (universalRpcParamsTypeDef == null && netcodeTypeDef.Name == nameof(RpcParams))
{
universalRpcParamsTypeDef = netcodeTypeDef;
continue;
}
if (clientRpcParamsTypeDef == null && netcodeTypeDef.Name == nameof(ClientRpcParams))
{
clientRpcParamsTypeDef = netcodeTypeDef;
continue;
}
if (fastBufferWriterTypeDef == null && netcodeTypeDef.Name == nameof(FastBufferWriter))
{
fastBufferWriterTypeDef = netcodeTypeDef;
continue;
}
if (fastBufferReaderTypeDef == null && netcodeTypeDef.Name == nameof(FastBufferReader))
{
fastBufferReaderTypeDef = netcodeTypeDef;
continue;
}
if (networkVariableSerializationTypesTypeDef == null && netcodeTypeDef.Name == nameof(NetworkVariableSerializationTypes))
{
networkVariableSerializationTypesTypeDef = netcodeTypeDef;
continue;
}
if (bytePackerTypeDef == null && netcodeTypeDef.Name == nameof(BytePacker))
{
bytePackerTypeDef = netcodeTypeDef;
continue;
}
if (byteUnpackerTypeDef == null && netcodeTypeDef.Name == nameof(ByteUnpacker))
{
byteUnpackerTypeDef = netcodeTypeDef;
continue;
}
}
foreach (var methodDef in debugTypeDef.Methods)
{
switch (methodDef.Name)
{
case k_Debug_LogError:
if (methodDef.Parameters.Count == 1)
{
m_Debug_LogError_MethodRef = moduleDefinition.ImportReference(methodDef);
}
break;
}
}
m_NetworkManager_TypeRef = moduleDefinition.ImportReference(networkManagerTypeDef);
foreach (var propertyDef in networkManagerTypeDef.Properties)
{
switch (propertyDef.Name)
{
case k_NetworkManager_LocalClientId:
m_NetworkManager_getLocalClientId_MethodRef = moduleDefinition.ImportReference(propertyDef.GetMethod);
break;
case k_NetworkManager_IsListening:
m_NetworkManager_getIsListening_MethodRef = moduleDefinition.ImportReference(propertyDef.GetMethod);
break;
case k_NetworkManager_IsHost:
m_NetworkManager_getIsHost_MethodRef = moduleDefinition.ImportReference(propertyDef.GetMethod);
break;
case k_NetworkManager_IsServer:
m_NetworkManager_getIsServer_MethodRef = moduleDefinition.ImportReference(propertyDef.GetMethod);
break;
case k_NetworkManager_IsClient:
m_NetworkManager_getIsClient_MethodRef = moduleDefinition.ImportReference(propertyDef.GetMethod);
break;
}
}
m_AttributeParamsType_TypeRef = moduleDefinition.ImportReference(attributeParamsType);
foreach (var fieldDef in networkManagerTypeDef.Fields)
{
switch (fieldDef.Name)
{
case k_NetworkManager_LogLevel:
m_NetworkManager_LogLevel_FieldRef = moduleDefinition.ImportReference(fieldDef);
break;
}
}
m_NetworkBehaviour_TypeRef = moduleDefinition.ImportReference(networkBehaviourTypeDef);
foreach (var propertyDef in networkBehaviourTypeDef.Properties)
{
switch (propertyDef.Name)
{
case k_NetworkBehaviour_NetworkManager:
m_NetworkBehaviour_getNetworkManager_MethodRef = moduleDefinition.ImportReference(propertyDef.GetMethod);
break;
case k_NetworkBehaviour_OwnerClientId:
m_NetworkBehaviour_getOwnerClientId_MethodRef = moduleDefinition.ImportReference(propertyDef.GetMethod);
break;
}
}
foreach (var methodDef in networkBehaviourTypeDef.Methods)
{
switch (methodDef.Name)
{
case k_NetworkBehaviour_beginSendServerRpc:
m_NetworkBehaviour_beginSendServerRpc_MethodRef = moduleDefinition.ImportReference(methodDef);
break;
case k_NetworkBehaviour_endSendServerRpc:
m_NetworkBehaviour_endSendServerRpc_MethodRef = moduleDefinition.ImportReference(methodDef);
break;
case k_NetworkBehaviour_beginSendRpc:
m_NetworkBehaviour_beginSendRpc_MethodRef = moduleDefinition.ImportReference(methodDef);
break;
case k_NetworkBehaviour_endSendRpc:
m_NetworkBehaviour_endSendRpc_MethodRef = moduleDefinition.ImportReference(methodDef);
break;
case k_NetworkBehaviour_beginSendClientRpc:
m_NetworkBehaviour_beginSendClientRpc_MethodRef = moduleDefinition.ImportReference(methodDef);
break;
case k_NetworkBehaviour_endSendClientRpc:
m_NetworkBehaviour_endSendClientRpc_MethodRef = moduleDefinition.ImportReference(methodDef);
break;
case k_NetworkBehaviour_createNativeList:
m_NetworkBehaviour_createNativeList_MethodRef = moduleDefinition.ImportReference(methodDef);
break;
case k_NetworkBehaviour___nameNetworkVariable:
m_NetworkBehaviour___nameNetworkVariable_MethodRef = moduleDefinition.ImportReference(methodDef);
break;
case k_NetworkBehaviour___registerRpc:
m_NetworkBehaviour___registerRpc_MethodRef = moduleDefinition.ImportReference(methodDef);
break;
}
}
foreach (var fieldDef in networkBehaviourTypeDef.Fields)
{
switch (fieldDef.Name)
{
case k_NetworkBehaviour_rpc_exec_stage:
m_NetworkBehaviour_rpc_exec_stage_FieldRef = moduleDefinition.ImportReference(fieldDef);
break;
case k_NetworkBehaviour_NetworkVariableFields:
m_NetworkBehaviour_NetworkVariableFields_FieldRef = moduleDefinition.ImportReference(fieldDef);
break;
}
}
m_NetworkVariableBase_TypeRef = moduleDefinition.ImportReference(networkVariableBaseTypeDef);
foreach (var methodDef in networkVariableBaseTypeDef.Methods)
{
switch (methodDef.Name)
{
case k_NetworkVariableBase_Initialize:
m_NetworkVariableBase_Initialize_MethodRef = moduleDefinition.ImportReference(methodDef);
break;
}
}
foreach (var ctor in networkHandlerDelegateTypeDef.Resolve().GetConstructors())
{
if (ctor.HasParameters &&
ctor.Parameters.Count == 2 &&
ctor.Parameters[0].ParameterType.Name == nameof(System.Object) &&
ctor.Parameters[1].ParameterType.Name == nameof(IntPtr))
{
m_NetworkHandlerDelegateCtor_MethodRef = moduleDefinition.ImportReference(ctor);
break;
}
}
m_RpcParams_TypeRef = moduleDefinition.ImportReference(rpcParamsTypeDef);
foreach (var fieldDef in rpcParamsTypeDef.Fields)
{
switch (fieldDef.Name)
{
case k_RpcParams_Server:
m_RpcParams_Server_FieldRef = moduleDefinition.ImportReference(fieldDef);
break;
case k_RpcParams_Client:
m_RpcParams_Client_FieldRef = moduleDefinition.ImportReference(fieldDef);
break;
case k_RpcParams_Ext:
m_RpcParams_Ext_FieldRef = moduleDefinition.ImportReference(fieldDef);
break;
}
}
m_ServerRpcParams_TypeRef = moduleDefinition.ImportReference(serverRpcParamsTypeDef);
foreach (var fieldDef in serverRpcParamsTypeDef.Fields)
{
switch (fieldDef.Name)
{
case k_ServerRpcParams_Receive:
foreach (var recvFieldDef in fieldDef.FieldType.Resolve().Fields)
{
switch (recvFieldDef.Name)
{
case k_ServerRpcReceiveParams_SenderClientId:
m_ServerRpcParams_Receive_SenderClientId_FieldRef = moduleDefinition.ImportReference(recvFieldDef);
break;
}
}
m_ServerRpcParams_Receive_FieldRef = moduleDefinition.ImportReference(fieldDef);
break;
}
}
m_UniversalRpcParams_TypeRef = moduleDefinition.ImportReference(rpcParamsTypeDef);
foreach (var fieldDef in rpcParamsTypeDef.Fields)
{
switch (fieldDef.Name)
{
case k_RpcParams_Receive:
foreach (var recvFieldDef in fieldDef.FieldType.Resolve().Fields)
{
switch (recvFieldDef.Name)
{
case k_RpcReceiveParams_SenderClientId:
m_UniversalRpcParams_Receive_SenderClientId_FieldRef = moduleDefinition.ImportReference(recvFieldDef);
break;
}
}
m_UniversalRpcParams_Receive_FieldRef = moduleDefinition.ImportReference(fieldDef);
break;
}
}
m_ClientRpcParams_TypeRef = moduleDefinition.ImportReference(clientRpcParamsTypeDef);
m_FastBufferWriter_TypeRef = moduleDefinition.ImportReference(fastBufferWriterTypeDef);
m_FastBufferReader_TypeRef = moduleDefinition.ImportReference(fastBufferReaderTypeDef);
// Find all extension methods for FastBufferReader and FastBufferWriter to enable user-implemented methods to be called
var assemblies = new List<AssemblyDefinition> { m_MainModule.Assembly };
foreach (var reference in m_MainModule.AssemblyReferences)
{
var assembly = m_AssemblyResolver.Resolve(reference);
if (assembly != null)
{
assemblies.Add(assembly);
}
}
var extensionConstructor = moduleDefinition.ImportReference(typeof(ExtensionAttribute).GetConstructor(new Type[] { }));
foreach (var assembly in assemblies)
{
foreach (var module in assembly.Modules)
{
foreach (var type in module.Types)
{
var resolvedType = type.Resolve();
if (!resolvedType.IsSealed || !resolvedType.IsAbstract || resolvedType.IsNested)
{
continue;
}
foreach (var method in type.Methods)
{
if (!method.IsStatic)
{
continue;
}
var isExtension = false;
foreach (var attr in method.CustomAttributes)
{
if (attr.Constructor.Resolve() == extensionConstructor.Resolve())
{
isExtension = true;
}
}
if (!isExtension)
{
continue;
}
var parameters = method.Parameters;
if (parameters.Count == 2 && parameters[0].ParameterType.Resolve() == m_FastBufferWriter_TypeRef.MakeByReferenceType().Resolve())
{
m_FastBufferWriter_ExtensionMethodRefs.Add(m_MainModule.ImportReference(method));
}
else if (parameters.Count == 2 && parameters[0].ParameterType.Resolve() == m_FastBufferReader_TypeRef.MakeByReferenceType().Resolve())
{
m_FastBufferReader_ExtensionMethodRefs.Add(m_MainModule.ImportReference(method));
}
}
}
}
}
foreach (var method in networkVariableSerializationTypesTypeDef.Methods)
{
if (!method.IsStatic)
{
continue;
}
switch (method.Name)
{
case nameof(NetworkVariableSerializationTypes.InitializeSerializer_UnmanagedByMemcpy):
m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedByMemcpy_MethodRef = method;
break;
case nameof(NetworkVariableSerializationTypes.InitializeSerializer_UnmanagedByMemcpyArray):
m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedByMemcpyArray_MethodRef = method;
break;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
case nameof(NetworkVariableSerializationTypes.InitializeSerializer_UnmanagedByMemcpyList):
m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedByMemcpyList_MethodRef = method;
break;
#endif
case nameof(NetworkVariableSerializationTypes.InitializeSerializer_UnmanagedINetworkSerializable):
m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedINetworkSerializable_MethodRef = method;
break;
case nameof(NetworkVariableSerializationTypes.InitializeSerializer_UnmanagedINetworkSerializableArray):
m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedINetworkSerializableArray_MethodRef = method;
break;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
case nameof(NetworkVariableSerializationTypes.InitializeSerializer_UnmanagedINetworkSerializableList):
m_NetworkVariableSerializationTypes_InitializeSerializer_UnmanagedINetworkSerializableList_MethodRef = method;
break;
#endif
case nameof(NetworkVariableSerializationTypes.InitializeSerializer_ManagedINetworkSerializable):
m_NetworkVariableSerializationTypes_InitializeSerializer_ManagedINetworkSerializable_MethodRef = method;
break;
case nameof(NetworkVariableSerializationTypes.InitializeSerializer_FixedString):
m_NetworkVariableSerializationTypes_InitializeSerializer_FixedString_MethodRef = method;
break;
case nameof(NetworkVariableSerializationTypes.InitializeSerializer_FixedStringArray):
m_NetworkVariableSerializationTypes_InitializeSerializer_FixedStringArray_MethodRef = method;
break;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
case nameof(NetworkVariableSerializationTypes.InitializeSerializer_FixedStringList):
m_NetworkVariableSerializationTypes_InitializeSerializer_FixedStringList_MethodRef = method;
break;
#endif
case nameof(NetworkVariableSerializationTypes.InitializeEqualityChecker_ManagedIEquatable):
m_NetworkVariableSerializationTypes_InitializeEqualityChecker_ManagedIEquatable_MethodRef = method;
break;
case nameof(NetworkVariableSerializationTypes.InitializeEqualityChecker_UnmanagedIEquatable):
m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedIEquatable_MethodRef = method;
break;
case nameof(NetworkVariableSerializationTypes.InitializeEqualityChecker_UnmanagedIEquatableArray):
m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedIEquatableArray_MethodRef = method;
break;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
case nameof(NetworkVariableSerializationTypes.InitializeEqualityChecker_UnmanagedIEquatableList):
m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedIEquatableList_MethodRef = method;
break;
#endif
case nameof(NetworkVariableSerializationTypes.InitializeEqualityChecker_UnmanagedValueEquals):
m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedValueEquals_MethodRef = method;
break;
case nameof(NetworkVariableSerializationTypes.InitializeEqualityChecker_UnmanagedValueEqualsArray):
m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedValueEqualsArray_MethodRef = method;
break;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
case nameof(NetworkVariableSerializationTypes.InitializeEqualityChecker_UnmanagedValueEqualsList):
m_NetworkVariableSerializationTypes_InitializeEqualityChecker_UnmanagedValueEqualsList_MethodRef = method;
break;
#endif
case nameof(NetworkVariableSerializationTypes.InitializeEqualityChecker_ManagedClassEquals):
m_NetworkVariableSerializationTypes_InitializeEqualityChecker_ManagedClassEquals_MethodRef = method;
break;
}
}
foreach (var method in bytePackerTypeDef.Methods)
{
if (!method.IsStatic)
{
continue;
}
switch (method.Name)
{
case nameof(BytePacker.WriteValueBitPacked):
if (method.Parameters[1].ParameterType.FullName == typeof(short).FullName)
{
m_BytePacker_WriteValueBitPacked_Short_MethodRef = m_MainModule.ImportReference(method);
}
else if (method.Parameters[1].ParameterType.FullName == typeof(ushort).FullName)
{
m_BytePacker_WriteValueBitPacked_UShort_MethodRef = m_MainModule.ImportReference(method);
}
else if (method.Parameters[1].ParameterType.FullName == typeof(int).FullName)
{
m_BytePacker_WriteValueBitPacked_Int_MethodRef = m_MainModule.ImportReference(method);
}
else if (method.Parameters[1].ParameterType.FullName == typeof(uint).FullName)
{
m_BytePacker_WriteValueBitPacked_UInt_MethodRef = m_MainModule.ImportReference(method);
}
else if (method.Parameters[1].ParameterType.FullName == typeof(long).FullName)
{
m_BytePacker_WriteValueBitPacked_Long_MethodRef = m_MainModule.ImportReference(method);
}
else if (method.Parameters[1].ParameterType.FullName == typeof(ulong).FullName)
{
m_BytePacker_WriteValueBitPacked_ULong_MethodRef = m_MainModule.ImportReference(method);
}
break;
}
}
foreach (var method in byteUnpackerTypeDef.Methods)
{
if (!method.IsStatic)
{
continue;
}
switch (method.Name)
{
case nameof(ByteUnpacker.ReadValueBitPacked):
if (method.Parameters[1].ParameterType.FullName == typeof(short).MakeByRefType().FullName)
{
m_ByteUnpacker_ReadValueBitPacked_Short_MethodRef = m_MainModule.ImportReference(method);
}
else if (method.Parameters[1].ParameterType.FullName == typeof(ushort).MakeByRefType().FullName)
{
m_ByteUnpacker_ReadValueBitPacked_UShort_MethodRef = m_MainModule.ImportReference(method);
}
else if (method.Parameters[1].ParameterType.FullName == typeof(int).MakeByRefType().FullName)
{
m_ByteUnpacker_ReadValueBitPacked_Int_MethodRef = m_MainModule.ImportReference(method);
}
else if (method.Parameters[1].ParameterType.FullName == typeof(uint).MakeByRefType().FullName)
{
m_ByteUnpacker_ReadValueBitPacked_UInt_MethodRef = m_MainModule.ImportReference(method);
}
else if (method.Parameters[1].ParameterType.FullName == typeof(long).MakeByRefType().FullName)
{
m_ByteUnpacker_ReadValueBitPacked_Long_MethodRef = m_MainModule.ImportReference(method);
}
else if (method.Parameters[1].ParameterType.FullName == typeof(ulong).MakeByRefType().FullName)
{
m_ByteUnpacker_ReadValueBitPacked_ULong_MethodRef = m_MainModule.ImportReference(method);
}
break;
}
}
// Standard types are really hard to reliably find using the Mono Cecil way, they resolve differently in Mono vs .NET Core
// Importing with typeof() is less dangerous for standard framework types though, so we can just do it
var exceptionType = typeof(Exception);
var exceptionCtor = exceptionType.GetConstructor(new[] { typeof(string) });
m_ExceptionCtorMethodReference = m_MainModule.ImportReference(exceptionCtor);
var listType = typeof(List<NetworkVariableBase>);
var addMethod = listType.GetMethod(nameof(List<NetworkVariableBase>.Add), new[] { typeof(NetworkVariableBase) });
m_List_NetworkVariableBase_Add = moduleDefinition.ImportReference(addMethod);
return true;
}
// This gets all fields from this type as well as any parent types, up to (but not including) the base NetworkBehaviour class
// Importantly... this also resolves any generics, so if the base class is Foo<T> and contains a field of NetworkVariable<T>,
// and this class is Bar : Foo<int>, it will properly resolve NetworkVariable<T> to NetworkVariable<int>.
private void GetAllFieldsAndResolveGenerics(TypeDefinition type, ref List<TypeReference> fieldTypes, Dictionary<string, TypeReference> genericParameters = null)
{
foreach (var field in type.Fields)
{
if (field.FieldType.IsGenericInstance)
{
var genericType = (GenericInstanceType)field.FieldType;
var newGenericType = new GenericInstanceType(field.FieldType.Resolve());
for (var i = 0; i < genericType.GenericArguments.Count; ++i)
{
var argument = genericType.GenericArguments[i];
if (genericParameters != null && genericParameters.ContainsKey(argument.Name))
{
newGenericType.GenericArguments.Add(genericParameters[argument.Name]);
}
else
{
newGenericType.GenericArguments.Add(argument);
}
}
fieldTypes.Add(newGenericType);
}
else
{
fieldTypes.Add(field.FieldType);
}
}
if (type.BaseType == null || type.BaseType.Name == nameof(NetworkBehaviour))
{
return;
}
var genericParams = new Dictionary<string, TypeReference>();
var resolved = type.BaseType.Resolve();
if (type.BaseType.IsGenericInstance)
{
var genericType = (GenericInstanceType)type.BaseType;
for (var i = 0; i < genericType.GenericArguments.Count; ++i)
{
genericParams[resolved.GenericParameters[i].Name] = genericType.GenericArguments[i];
}
}
GetAllFieldsAndResolveGenerics(resolved, ref fieldTypes, genericParams);
}
private void GetAllBaseTypesAndResolveGenerics(TypeDefinition type, ref List<TypeReference> baseTypes, Dictionary<string, TypeReference> genericParameters)
{
if (type == null || type.BaseType == null || type.BaseType.Name == "Object")
{
return;
}
var baseType = type.BaseType;
var genericParams = new Dictionary<string, TypeReference>();
if (baseType.IsGenericInstance)
{
var genericType = (GenericInstanceType)baseType;
var newGenericType = new GenericInstanceType(baseType.Resolve());
for (var i = 0; i < genericType.GenericArguments.Count; ++i)
{
var argument = genericType.GenericArguments[i];
if (genericParameters != null && genericParameters.ContainsKey(argument.Name))
{
newGenericType.GenericArguments.Add(genericParameters[argument.Name]);
genericParams[baseType.Resolve().GenericParameters[newGenericType.GenericArguments.Count - 1].Name] = genericParameters[argument.Name];
}
else
{
newGenericType.GenericArguments.Add(argument);
}
}
baseTypes.Add(newGenericType);
}
else
{
baseTypes.Add(baseType);
}
var resolved = type.BaseType.Resolve();
if (type.BaseType.IsGenericInstance)
{
var genericType = (GenericInstanceType)type.BaseType;
for (var i = 0; i < genericType.GenericArguments.Count; ++i)
{
if (!genericParams.ContainsKey(resolved.GenericParameters[i].Name))
{
genericParams[resolved.GenericParameters[i].Name] = genericType.GenericArguments[i];
}
}
}
GetAllBaseTypesAndResolveGenerics(resolved, ref baseTypes, genericParams);
}
private void ProcessNetworkBehaviour(TypeDefinition typeDefinition, string[] assemblyDefines)
{
foreach (var methodDefinition in typeDefinition.Methods)
{
if (methodDefinition.Name == k_NetworkBehaviour___initializeRpcs)
{
// If this hits, we've already generated the method for this class because a child class got processed first.
return;
}
}
var rpcHandlers = new List<(uint RpcMethodId, MethodDefinition RpcHandler, string RpcMethodName)>();
bool isEditorOrDevelopment = assemblyDefines.Contains("UNITY_EDITOR") || assemblyDefines.Contains("DEVELOPMENT_BUILD");
foreach (var methodDefinition in typeDefinition.Methods)
{
var rpcAttribute = CheckAndGetRpcAttribute(methodDefinition);
if (rpcAttribute == null)
{
continue;
}
var rpcMethodId = methodDefinition.Hash();
if (rpcMethodId == 0)
{
continue;
}
if (methodDefinition.HasCustomAttributes)
{
foreach (var attribute in methodDefinition.CustomAttributes)
{
if (attribute.AttributeType.Name == nameof(AsyncStateMachineAttribute))
{
m_Diagnostics.AddError(methodDefinition, $"{methodDefinition.FullName}: RPCs cannot be 'async'");
}
}
}
InjectWriteAndCallBlocks(methodDefinition, rpcAttribute, rpcMethodId);
rpcHandlers.Add((rpcMethodId, GenerateStaticHandler(methodDefinition, rpcAttribute, rpcMethodId), methodDefinition.Name));
}
GenerateVariableInitialization(typeDefinition);
if (!typeDefinition.HasGenericParameters && !typeDefinition.IsGenericInstance)
{
var fieldTypes = new List<TypeReference>();
GetAllFieldsAndResolveGenerics(typeDefinition, ref fieldTypes);
foreach (var type in fieldTypes)
{
//var type = field.FieldType;
if (type.IsGenericInstance)
{
foreach (var attribute in type.Resolve().CustomAttributes)
{
if (attribute.AttributeType.Name == nameof(GenerateSerializationForGenericParameterAttribute))
{
var idx = (int)attribute.ConstructorArguments[0].Value;
var genericInstanceType = (GenericInstanceType)type;
if (idx < 0 || idx >= genericInstanceType.GenericArguments.Count)
{
m_Diagnostics.AddError($"{type} has a {nameof(GenerateSerializationForGenericParameterAttribute)} referencing a parameter index outside the valid range (0-{genericInstanceType.GenericArguments.Count - 1}");
continue;
}
var wrappedType = genericInstanceType.GenericArguments[idx];
if (!m_WrappedNetworkVariableTypes.Contains(wrappedType))
{
m_WrappedNetworkVariableTypes.Add(wrappedType);
}
}
}
}
{
var baseTypes = new List<TypeReference>();
var genericParams = new Dictionary<string, TypeReference>();
var resolved = type.Resolve();
if (type.IsGenericInstance)
{
var genericType = (GenericInstanceType)type;
for (var i = 0; i < genericType.GenericArguments.Count; ++i)
{
genericParams[resolved.GenericParameters[i].Name] = genericType.GenericArguments[i];
}
}
GetAllBaseTypesAndResolveGenerics(type.Resolve(), ref baseTypes, genericParams);
foreach (var baseType in baseTypes)
{
foreach (var attribute in baseType.Resolve().CustomAttributes)
{
if (attribute.AttributeType.Name == nameof(GenerateSerializationForGenericParameterAttribute))
{
var idx = (int)attribute.ConstructorArguments[0].Value;
var genericInstanceType = (GenericInstanceType)baseType;
if (idx < 0 || idx >= genericInstanceType.GenericArguments.Count)
{
m_Diagnostics.AddError($"{baseType} has a {nameof(GenerateSerializationForGenericParameterAttribute)} referencing a parameter index outside the valid range (0-{genericInstanceType.GenericArguments.Count - 1}");
continue;
}
var wrappedType = genericInstanceType.GenericArguments[idx];
if (!m_WrappedNetworkVariableTypes.Contains(wrappedType))
{
m_WrappedNetworkVariableTypes.Add(wrappedType);
}
}
}
}
}
}
}
//if (rpcHandlers.Count > 0)
{
// This always needs to generate even if it's empty.
var initializeRpcsMethodDef = new MethodDefinition(
k_NetworkBehaviour___initializeRpcs,
MethodAttributes.Family | MethodAttributes.Virtual | MethodAttributes.HideBySig,
typeDefinition.Module.TypeSystem.Void);
initializeRpcsMethodDef.Body.Instructions.Add(Instruction.Create(OpCodes.Ret));
typeDefinition.Methods.Add(initializeRpcsMethodDef);
var instructions = new List<Instruction>();
var processor = initializeRpcsMethodDef.Body.GetILProcessor();
foreach (var (rpcMethodId, rpcHandler, rpcMethodName) in rpcHandlers)
{
typeDefinition.Methods.Add(rpcHandler);
MethodReference callMethod = rpcHandler;
if (typeDefinition.HasGenericParameters)
{
var genericTypes = new List<TypeReference>();
foreach (var parameter in typeDefinition.GenericParameters)
{
genericTypes.Add(parameter);
}
callMethod = callMethod.MakeGeneric(genericTypes.ToArray());
}
// __registerRpc(RpcMethodId, HandleFunc, methodName);
instructions.Add(processor.Create(OpCodes.Ldarg_0));
instructions.Add(processor.Create(OpCodes.Ldc_I4, unchecked((int)rpcMethodId)));
instructions.Add(processor.Create(OpCodes.Ldnull));
instructions.Add(processor.Create(OpCodes.Ldftn, callMethod));
instructions.Add(processor.Create(OpCodes.Newobj, m_NetworkHandlerDelegateCtor_MethodRef));
instructions.Add(processor.Create(OpCodes.Ldstr, rpcMethodName));
instructions.Add(processor.Create(OpCodes.Call, m_NetworkBehaviour___registerRpc_MethodRef));
}
// Find the base method...
MethodReference initializeRpcsBaseReference = null;
foreach (var methodDefinition in typeDefinition.BaseType.Resolve().Methods)
{
if (methodDefinition.Name == k_NetworkBehaviour___initializeRpcs)
{
initializeRpcsBaseReference = m_MainModule.ImportReference(methodDefinition);
break;
}
}
if (initializeRpcsBaseReference == null)
{
// If we couldn't find it, we have to go ahead and add it.
// The base class could be in another assembly... that's ok, this won't
// actually save but it'll generate the same method the same way later,
// so this at least allows us to reference it.
ProcessNetworkBehaviour(typeDefinition.BaseType.Resolve(), assemblyDefines);
foreach (var methodDefinition in typeDefinition.BaseType.Resolve().Methods)
{
if (methodDefinition.Name == k_NetworkBehaviour___initializeRpcs)
{
initializeRpcsBaseReference = m_MainModule.ImportReference(methodDefinition);
break;
}
}
}
if (typeDefinition.BaseType.Resolve().HasGenericParameters)
{
var baseTypeInstance = (GenericInstanceType)typeDefinition.BaseType;
initializeRpcsBaseReference = initializeRpcsBaseReference.MakeGeneric(baseTypeInstance.GenericArguments.ToArray());
}
// base.__initializeRpcs();
instructions.Add(processor.Create(OpCodes.Nop));
instructions.Add(processor.Create(OpCodes.Ldarg_0));
instructions.Add(processor.Create(OpCodes.Call, initializeRpcsBaseReference));
instructions.Add(processor.Create(OpCodes.Nop));
instructions.Reverse();
instructions.ForEach(instruction => processor.Body.Instructions.Insert(0, instruction));
}
// override NetworkBehaviour.__getTypeName() method to return concrete type
{
var networkBehaviour_TypeDef = m_NetworkBehaviour_TypeRef.Resolve();
var baseGetTypeNameMethod = networkBehaviour_TypeDef.Methods.First(p => p.Name.Equals(nameof(NetworkBehaviour.__getTypeName)));
var newGetTypeNameMethod = new MethodDefinition(
nameof(NetworkBehaviour.__getTypeName),
(baseGetTypeNameMethod.Attributes & ~MethodAttributes.NewSlot) | MethodAttributes.ReuseSlot,
baseGetTypeNameMethod.ReturnType)
{
ImplAttributes = baseGetTypeNameMethod.ImplAttributes,
SemanticsAttributes = baseGetTypeNameMethod.SemanticsAttributes,
IsFamilyOrAssembly = true
};
var processor = newGetTypeNameMethod.Body.GetILProcessor();
processor.Body.Instructions.Add(processor.Create(OpCodes.Ldstr, typeDefinition.Name));
processor.Body.Instructions.Add(processor.Create(OpCodes.Ret));
typeDefinition.Methods.Add(newGetTypeNameMethod);
}
m_MainModule.RemoveRecursiveReferences();
}
private CustomAttribute CheckAndGetRpcAttribute(MethodDefinition methodDefinition)
{
CustomAttribute rpcAttribute = null;
foreach (var customAttribute in methodDefinition.CustomAttributes)
{
var customAttributeType_FullName = customAttribute.AttributeType.FullName;
if (customAttributeType_FullName == CodeGenHelpers.ServerRpcAttribute_FullName ||
customAttributeType_FullName == CodeGenHelpers.ClientRpcAttribute_FullName ||
customAttributeType_FullName == CodeGenHelpers.RpcAttribute_FullName)
{
bool isValid = true;
if (methodDefinition.IsStatic)
{
m_Diagnostics.AddError(methodDefinition, "RPC method must not be static!");
isValid = false;
}
if (methodDefinition.IsAbstract)
{
m_Diagnostics.AddError(methodDefinition, "RPC method must not be abstract!");
isValid = false;
}
if (methodDefinition.HasGenericParameters)
{
m_Diagnostics.AddError(methodDefinition, "RPC method must not be generic!");
isValid = false;
}
if (methodDefinition.ReturnType != methodDefinition.Module.TypeSystem.Void)
{
m_Diagnostics.AddError(methodDefinition, "RPC method must return `void`!");
isValid = false;
}
if (customAttributeType_FullName == CodeGenHelpers.ServerRpcAttribute_FullName &&
!methodDefinition.Name.EndsWith("ServerRpc", StringComparison.OrdinalIgnoreCase))
{
m_Diagnostics.AddError(methodDefinition, "ServerRpc method must end with 'ServerRpc' suffix!");
isValid = false;
}
if (customAttributeType_FullName == CodeGenHelpers.RpcAttribute_FullName &&
!methodDefinition.Name.EndsWith("Rpc", StringComparison.OrdinalIgnoreCase))
{
m_Diagnostics.AddError(methodDefinition, "Rpc method must end with 'Rpc' suffix!");
isValid = false;
}
if (customAttributeType_FullName == CodeGenHelpers.ClientRpcAttribute_FullName &&
!methodDefinition.Name.EndsWith("ClientRpc", StringComparison.OrdinalIgnoreCase))
{
m_Diagnostics.AddError(methodDefinition, "ClientRpc method must end with 'ClientRpc' suffix!");
isValid = false;
}
if (isValid)
{
rpcAttribute = customAttribute;
}
else
{
return null;
}
}
}
if (rpcAttribute == null)
{
if (methodDefinition.Name.EndsWith("ServerRpc", StringComparison.OrdinalIgnoreCase))
{
m_Diagnostics.AddError(methodDefinition, $"ServerRpc method {methodDefinition} must be marked with 'ServerRpc' attribute!");
}
else if (methodDefinition.Name.EndsWith("ClientRpc", StringComparison.OrdinalIgnoreCase))
{
m_Diagnostics.AddError(methodDefinition, $"ClientRpc method {methodDefinition} must be marked with 'ClientRpc' attribute!");
}
else if (methodDefinition.Name.EndsWith("ExtRpc", StringComparison.OrdinalIgnoreCase))
{
m_Diagnostics.AddError(methodDefinition, $"Ext Rpc method {methodDefinition} must be marked with 'ExtRpc' attribute!");
}
return null;
}
// Checks for IsSerializable are moved to later as the check is now done by dynamically seeing if any valid
// serializer OR extension method exists for it.
return rpcAttribute;
}
private MethodReference GetFastBufferWriterWriteMethod(string name, TypeReference paramType)
{
foreach (var method in m_FastBufferWriter_TypeRef.Resolve().Methods)
{
if (method.Name == name)
{
var parameters = method.Parameters;
if (parameters.Count == 0 || (parameters.Count > 1 && !parameters[1].IsOptional))
{
continue;
}
if (parameters[0].ParameterType.IsArray != paramType.IsArray)
{
continue;
}
var checkType = paramType;
if (paramType.IsArray)
{
checkType = ((ArrayType)paramType).ElementType.Resolve();
}
if (!method.HasGenericParameters)
{
if (!paramType.IsGenericInstance && (parameters[0].ParameterType.Resolve() == checkType ||
(parameters[0].ParameterType.Resolve() == checkType.MakeByReferenceType().Resolve() && parameters[0].IsIn)))
{
return method;
}
if (parameters[0].ParameterType == paramType || parameters[0].ParameterType.FullName == paramType.FullName ||
(parameters[0].ParameterType == paramType.MakeByReferenceType() && parameters[0].IsIn))
{
return method;
}
}
else if (method.GenericParameters.Count == 1)
{
var resolved = method.Parameters[0].ParameterType.Resolve();
if (resolved != null && resolved != paramType.Resolve())
{
continue;
}
if (method.GenericParameters[0].HasConstraints)
{
if (paramType.IsGenericInstance && (
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
paramType.Resolve().FullName == "Unity.Collections.NativeList`1" ||
#endif
paramType.Resolve().FullName == "Unity.Collections.NativeArray`1"))
{
if (method.Parameters[0].ParameterType.Resolve() != paramType.Resolve())
{
continue;
}
var instanceType = (GenericInstanceType)paramType;
checkType = instanceType.GenericArguments[0];
}
var meetsConstraints = true;
foreach (var constraint in method.GenericParameters[0].Constraints)
{
#if CECIL_CONSTRAINTS_ARE_TYPE_REFERENCES
var resolvedConstraint = constraint.Resolve();
var constraintTypeRef = constraint;
#else
var resolvedConstraint = constraint.ConstraintType.Resolve();
var constraintTypeRef = constraint.ConstraintType;
#endif
var resolvedConstraintName = resolvedConstraint.FullNameWithGenericParameters(new[] { method.GenericParameters[0] }, new[] { checkType });
if (constraintTypeRef.IsGenericInstance)
{
var genericConstraint = (GenericInstanceType)constraintTypeRef;
if (genericConstraint.HasGenericArguments && genericConstraint.GenericArguments[0].Resolve() != null)
{
resolvedConstraintName = constraintTypeRef.FullName;
}
}
if ((resolvedConstraint.IsInterface && !checkType.HasInterface(resolvedConstraintName)) ||
(resolvedConstraint.IsClass && !checkType.Resolve().IsSubclassOf(resolvedConstraintName)) ||
(resolvedConstraint.Name == "ValueType" && !checkType.IsValueType))
{
meetsConstraints = false;
break;
}
}
if (meetsConstraints)
{
var instanceMethod = new GenericInstanceMethod(method);
if (paramType.IsGenericInstance && (
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
paramType.Resolve().FullName == "Unity.Collections.NativeList`1" ||
#endif
paramType.Resolve().FullName == "Unity.Collections.NativeArray`1"))
{
var wrappedType = ((GenericInstanceType)paramType).GenericArguments[0];
instanceMethod.GenericArguments.Add(wrappedType);
}
else if (paramType.IsArray)
{
instanceMethod.GenericArguments.Add(((ArrayType)paramType).ElementType);
}
else
{
instanceMethod.GenericArguments.Add(paramType);
}
return instanceMethod;
}
}
}
}
}
return null;
}
private bool GetWriteMethodForParameter(TypeReference paramType, out MethodReference methodRef)
{
if (paramType.Resolve() == null)
{
// Handle generic types by passing them to RpcFallbackSerialization
// This just passes directly to NetworkVariableSerialization, but I could not figure out how to
// get ILPP to generate valid code for calling a method of the format
// `GenericClass<T>.StaticMethod(ref T value)` - it would either complain about T being
// defined in another module, or it would end up generating a completely invalid call to a
// random method on another random class.
var serializationHelperType = m_MainModule.ImportReference(typeof(RpcFallbackSerialization));
foreach (var method in serializationHelperType.Resolve().Methods)
{
if (method.Name == nameof(NetworkVariableSerialization<bool>.Write))
{
var reference = new GenericInstanceMethod(m_MainModule.ImportReference(method));
reference.GenericArguments.Add(paramType);
methodRef = reference;
return true;
}
}
}
if (paramType.FullName == typeof(short).FullName)
{
methodRef = m_BytePacker_WriteValueBitPacked_Short_MethodRef;
return true;
}
if (paramType.FullName == typeof(ushort).FullName)
{
methodRef = m_BytePacker_WriteValueBitPacked_UShort_MethodRef;
return true;
}
if (paramType.FullName == typeof(int).FullName)
{
methodRef = m_BytePacker_WriteValueBitPacked_Int_MethodRef;
return true;
}
if (paramType.FullName == typeof(uint).FullName)
{
methodRef = m_BytePacker_WriteValueBitPacked_UInt_MethodRef;
return true;
}
if (paramType.FullName == typeof(long).FullName)
{
methodRef = m_BytePacker_WriteValueBitPacked_Long_MethodRef;
return true;
}
if (paramType.FullName == typeof(ulong).FullName)
{
methodRef = m_BytePacker_WriteValueBitPacked_ULong_MethodRef;
return true;
}
var assemblyQualifiedName = paramType.FullName + ", " + paramType.Resolve().Module.Assembly.FullName;
var foundMethodRef = m_FastBufferWriter_WriteValue_MethodRefs.TryGetValue(assemblyQualifiedName, out methodRef);
if (!foundMethodRef)
{
foreach (var method in m_FastBufferWriter_ExtensionMethodRefs)
{
var parameters = method.Resolve().Parameters;
if (method.Name == k_WriteValueMethodName)
{
if (parameters[1].IsIn)
{
if (((ByReferenceType)parameters[1].ParameterType).ElementType.FullName == paramType.FullName &&
((ByReferenceType)parameters[1].ParameterType).ElementType.IsArray == paramType.IsArray)
{
methodRef = method;
m_FastBufferWriter_WriteValue_MethodRefs[assemblyQualifiedName] = methodRef;
return true;
}
}
else
{
if (parameters[1].ParameterType.FullName == paramType.FullName &&
parameters[1].ParameterType.IsArray == paramType.IsArray)
{
methodRef = method;
m_FastBufferWriter_WriteValue_MethodRefs[assemblyQualifiedName] = methodRef;
return true;
}
}
}
}
var typeMethod = GetFastBufferWriterWriteMethod(k_WriteValueMethodName, paramType);
if (typeMethod != null)
{
methodRef = m_MainModule.ImportReference(typeMethod);
m_FastBufferWriter_WriteValue_MethodRefs[assemblyQualifiedName] = methodRef;
foundMethodRef = true;
}
}
return foundMethodRef;
}
private MethodReference GetFastBufferReaderReadMethod(string name, TypeReference paramType)
{
foreach (var method in m_FastBufferReader_TypeRef.Resolve().Methods)
{
var paramTypeDef = paramType.Resolve();
if (method.Name == name)
{
var parameters = method.Parameters;
if (parameters.Count == 0 || (parameters.Count > 1 && !parameters[1].IsOptional))
{
continue;
}
if (!parameters[0].IsOut && !parameters[0].ParameterType.IsByReference)
{
continue;
}
var methodParam = ((ByReferenceType)parameters[0].ParameterType).ElementType;
if (methodParam.IsArray != paramType.IsArray)
{
continue;
}
var checkType = (TypeReference)paramType.Resolve();
if (paramType.IsArray)
{
checkType = ((ArrayType)paramType).ElementType.Resolve();
}
if (!method.HasGenericParameters)
{
if (!paramType.IsGenericInstance && (methodParam.Resolve() == checkType.Resolve() || methodParam.Resolve() == checkType.MakeByReferenceType().Resolve()))
{
return method;
}
if (methodParam.Resolve() == paramType || methodParam.FullName == paramType.FullName)
{
return method;
}
}
else if (method.GenericParameters.Count == 1)
{
var resolved = method.Parameters[0].ParameterType.Resolve();
if (resolved != null && resolved != paramType.Resolve())
{
continue;
}
if (paramType.IsGenericInstance && (
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
paramType.Resolve().FullName == "Unity.Collections.NativeList`1" ||
#endif
paramType.Resolve().FullName == "Unity.Collections.NativeArray`1"))
{
if (method.Name == "OnSendGlobalCounterClientRpc")
{
m_Diagnostics.AddWarning(
$"{method}: {method.Parameters[0].ParameterType} | {paramType}"
);
}
if (method.Parameters[0].ParameterType.Resolve() != paramType.Resolve())
{
if (method.Name == "OnSendGlobalCounterClientRpc")
{
m_Diagnostics.AddWarning(
$"{method}: Not suitable"
);
}
continue;
}
var instanceType = (GenericInstanceType)paramType;
checkType = instanceType.GenericArguments[0];
}
if (method.GenericParameters[0].HasConstraints)
{
var meetsConstraints = true;
foreach (var constraint in method.GenericParameters[0].Constraints)
{
#if CECIL_CONSTRAINTS_ARE_TYPE_REFERENCES
var resolvedConstraint = constraint.Resolve();
var constraintTypeRef = constraint;
#else
var resolvedConstraint = constraint.ConstraintType.Resolve();
var constraintTypeRef = constraint.ConstraintType;
#endif
var resolvedConstraintName = resolvedConstraint.FullNameWithGenericParameters(new[] { method.GenericParameters[0] }, new[] { checkType });
if (constraintTypeRef.IsGenericInstance)
{
var genericConstraint = (GenericInstanceType)constraintTypeRef;
if (genericConstraint.HasGenericArguments && genericConstraint.GenericArguments[0].Resolve() != null)
{
resolvedConstraintName = constraintTypeRef.FullName;
}
}
if ((resolvedConstraint.IsInterface && !checkType.HasInterface(resolvedConstraintName)) ||
(resolvedConstraint.IsClass && !checkType.Resolve().IsSubclassOf(resolvedConstraintName)) ||
(resolvedConstraint.Name == "ValueType" && !checkType.IsValueType))
{
meetsConstraints = false;
break;
}
}
if (meetsConstraints)
{
var instanceMethod = new GenericInstanceMethod(method);
if (paramType.IsGenericInstance && (
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
paramType.Resolve().FullName == "Unity.Collections.NativeList`1" ||
#endif
paramType.Resolve().FullName == "Unity.Collections.NativeArray`1"))
{
var wrappedType = ((GenericInstanceType)paramType).GenericArguments[0];
instanceMethod.GenericArguments.Add(wrappedType);
}
else if (paramType.IsArray)
{
instanceMethod.GenericArguments.Add(((ArrayType)paramType).ElementType);
}
else
{
instanceMethod.GenericArguments.Add(paramType);
}
return instanceMethod;
}
}
}
}
}
return null;
}
private bool GetReadMethodForParameter(TypeReference paramType, out MethodReference methodRef)
{
if (paramType.Resolve() == null)
{
// Handle generic types by passing them to RpcFallbackSerialization
// This just passes directly to NetworkVariableSerialization, but I could not figure out how to
// get ILPP to generate valid code for calling a method of the format
// `GenericClass<T>.StaticMethod(ref T value)` - it would either complain about T being
// defined in another module, or it would end up generating a completely invalid call to a
// random method on another random class.
var serializationHelperType = m_MainModule.ImportReference(typeof(RpcFallbackSerialization));
foreach (var method in serializationHelperType.Resolve().Methods)
{
if (method.Name == nameof(NetworkVariableSerialization<bool>.Read))
{
var reference = new GenericInstanceMethod(m_MainModule.ImportReference(method));
reference.GenericArguments.Add(paramType);
methodRef = reference;
return true;
}
}
}
if (paramType.FullName == typeof(short).FullName)
{
methodRef = m_ByteUnpacker_ReadValueBitPacked_Short_MethodRef;
return true;
}
if (paramType.FullName == typeof(ushort).FullName)
{
methodRef = m_ByteUnpacker_ReadValueBitPacked_UShort_MethodRef;
return true;
}
if (paramType.FullName == typeof(int).FullName)
{
methodRef = m_ByteUnpacker_ReadValueBitPacked_Int_MethodRef;
return true;
}
if (paramType.FullName == typeof(uint).FullName)
{
methodRef = m_ByteUnpacker_ReadValueBitPacked_UInt_MethodRef;
return true;
}
if (paramType.FullName == typeof(long).FullName)
{
methodRef = m_ByteUnpacker_ReadValueBitPacked_Long_MethodRef;
return true;
}
if (paramType.FullName == typeof(ulong).FullName)
{
methodRef = m_ByteUnpacker_ReadValueBitPacked_ULong_MethodRef;
return true;
}
var assemblyQualifiedName = paramType.FullName + ", " + paramType.Resolve().Module.Assembly.FullName;
var foundMethodRef = m_FastBufferReader_ReadValue_MethodRefs.TryGetValue(assemblyQualifiedName, out methodRef);
if (!foundMethodRef)
{
foreach (var method in m_FastBufferReader_ExtensionMethodRefs)
{
var parameters = method.Resolve().Parameters;
if (method.Name == k_ReadValueMethodName &&
parameters[1].IsOut &&
((ByReferenceType)parameters[1].ParameterType).ElementType.FullName == paramType.FullName &&
((ByReferenceType)parameters[1].ParameterType).ElementType.IsArray == paramType.IsArray)
{
methodRef = method;
m_FastBufferReader_ReadValue_MethodRefs[assemblyQualifiedName] = methodRef;
return true;
}
}
MethodReference typeMethod;
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
if (paramType.Resolve().FullName == "Unity.Collections.NativeList`1")
{
typeMethod = GetFastBufferReaderReadMethod(k_ReadValueInPlaceMethodName, paramType);
}
else
#endif
if (paramType.Resolve().FullName == "Unity.Collections.NativeArray`1")
{
typeMethod = GetFastBufferReaderReadMethod(k_ReadValueTempMethodName, paramType);
}
else
{
typeMethod = GetFastBufferReaderReadMethod(k_ReadValueMethodName, paramType);
}
if (typeMethod != null)
{
methodRef = m_MainModule.ImportReference(typeMethod);
m_FastBufferReader_ReadValue_MethodRefs[assemblyQualifiedName] = methodRef;
foundMethodRef = true;
}
}
return foundMethodRef;
}
private void InjectWriteAndCallBlocks(MethodDefinition methodDefinition, CustomAttribute rpcAttribute, uint rpcMethodId)
{
var typeSystem = methodDefinition.Module.TypeSystem;
var instructions = new List<Instruction>();
var processor = methodDefinition.Body.GetILProcessor();
var isServerRpc = rpcAttribute.AttributeType.FullName == CodeGenHelpers.ServerRpcAttribute_FullName;
var isClientRpc = rpcAttribute.AttributeType.FullName == CodeGenHelpers.ClientRpcAttribute_FullName;
var isGenericRpc = rpcAttribute.AttributeType.FullName == CodeGenHelpers.RpcAttribute_FullName;
var requireOwnership = true; // default value MUST be == `ServerRpcAttribute.RequireOwnership`
var rpcDelivery = RpcDelivery.Reliable; // default value MUST be == `RpcAttribute.Delivery`
var defaultTarget = SendTo.Everyone;
var allowTargetOverride = false;
if (isGenericRpc)
{
defaultTarget = (SendTo)rpcAttribute.ConstructorArguments[0].Value;
}
foreach (var attrField in rpcAttribute.Fields)
{
switch (attrField.Name)
{
case k_RpcAttribute_Delivery:
rpcDelivery = (RpcDelivery)attrField.Argument.Value;
break;
case k_ServerRpcAttribute_RequireOwnership:
requireOwnership = attrField.Argument.Type == typeSystem.Boolean && (bool)attrField.Argument.Value;
break;
case nameof(RpcAttribute.AllowTargetOverride):
allowTargetOverride = attrField.Argument.Type == typeSystem.Boolean && (bool)attrField.Argument.Value;
break;
}
}
var paramCount = methodDefinition.Parameters.Count;
var hasRpcParams =
paramCount > 0 &&
((isServerRpc && methodDefinition.Parameters[paramCount - 1].ParameterType.FullName == CodeGenHelpers.ServerRpcParams_FullName) ||
(isClientRpc && methodDefinition.Parameters[paramCount - 1].ParameterType.FullName == CodeGenHelpers.ClientRpcParams_FullName) ||
(isGenericRpc && methodDefinition.Parameters[paramCount - 1].ParameterType.FullName == CodeGenHelpers.RpcParams_FullName));
if (isGenericRpc && defaultTarget == SendTo.SpecifiedInParams)
{
if (!hasRpcParams)
{
m_Diagnostics.AddError($"{methodDefinition}: {nameof(SendTo)}.{nameof(SendTo.SpecifiedInParams)} cannot be used without a final parameter of type {CodeGenHelpers.RpcParams_FullName}.");
}
foreach (var attrField in rpcAttribute.Fields)
{
switch (attrField.Name)
{
case nameof(RpcAttribute.AllowTargetOverride):
m_Diagnostics.AddWarning($"{methodDefinition}: {nameof(RpcAttribute.AllowTargetOverride)} is ignored with {nameof(SendTo)}.{nameof(SendTo.SpecifiedInParams)}");
break;
}
}
}
if (isGenericRpc && allowTargetOverride)
{
if (!hasRpcParams)
{
m_Diagnostics.AddError($"{methodDefinition}: {nameof(RpcAttribute.AllowTargetOverride)} cannot be used without a final parameter of type {CodeGenHelpers.RpcParams_FullName}.");
}
}
methodDefinition.Body.InitLocals = true;
// NetworkManager networkManager;
methodDefinition.Body.Variables.Add(new VariableDefinition(m_NetworkManager_TypeRef));
int netManLocIdx = methodDefinition.Body.Variables.Count - 1;
// FastBufferWriter bufferWriter;
methodDefinition.Body.Variables.Add(new VariableDefinition(m_FastBufferWriter_TypeRef));
int bufWriterLocIdx = methodDefinition.Body.Variables.Count - 1;
// XXXRpcParams
if (!hasRpcParams)
{
methodDefinition.Body.Variables.Add(new VariableDefinition(isServerRpc ? m_ServerRpcParams_TypeRef : (isClientRpc ? m_ClientRpcParams_TypeRef : m_UniversalRpcParams_TypeRef)));
}
int rpcParamsIdx = !hasRpcParams ? methodDefinition.Body.Variables.Count - 1 : -1;
if (isGenericRpc)
{
methodDefinition.Body.Variables.Add(new VariableDefinition(m_AttributeParamsType_TypeRef));
}
int rpcAttributeParamsIdx = isGenericRpc ? methodDefinition.Body.Variables.Count - 1 : -1;
{
var returnInstr = processor.Create(OpCodes.Ret);
var lastInstr = processor.Create(OpCodes.Nop);
// networkManager = this.NetworkManager;
instructions.Add(processor.Create(OpCodes.Ldarg_0));
instructions.Add(processor.Create(OpCodes.Call, m_NetworkBehaviour_getNetworkManager_MethodRef));
instructions.Add(processor.Create(OpCodes.Stloc, netManLocIdx));
// if (networkManager == null || !networkManager.IsListening) return;
instructions.Add(processor.Create(OpCodes.Ldloc, netManLocIdx));
instructions.Add(processor.Create(OpCodes.Brfalse, returnInstr));
instructions.Add(processor.Create(OpCodes.Ldloc, netManLocIdx));
instructions.Add(processor.Create(OpCodes.Callvirt, m_NetworkManager_getIsListening_MethodRef));
instructions.Add(processor.Create(OpCodes.Brtrue, lastInstr));
instructions.Add(returnInstr);
instructions.Add(lastInstr);
}
{
var beginInstr = processor.Create(OpCodes.Nop);
var endInstr = processor.Create(OpCodes.Nop);
var lastInstr = processor.Create(OpCodes.Nop);
// if (__rpc_exec_stage != __RpcExecStage.Server) -> ServerRpc
// if (__rpc_exec_stage != __RpcExecStage.Client) -> ClientRpc
instructions.Add(processor.Create(OpCodes.Ldarg_0));
instructions.Add(processor.Create(OpCodes.Ldfld, m_NetworkBehaviour_rpc_exec_stage_FieldRef));
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)NetworkBehaviour.__RpcExecStage.Execute));
instructions.Add(processor.Create(OpCodes.Ceq));
instructions.Add(processor.Create(OpCodes.Ldc_I4, 0));
instructions.Add(processor.Create(OpCodes.Ceq));
instructions.Add(processor.Create(OpCodes.Brfalse, lastInstr));
if (!isGenericRpc)
{
// if (networkManager.IsClient || networkManager.IsHost) { ... } -> ServerRpc
// if (networkManager.IsServer || networkManager.IsHost) { ... } -> ClientRpc
instructions.Add(processor.Create(OpCodes.Ldloc, netManLocIdx));
instructions.Add(processor.Create(OpCodes.Callvirt, isServerRpc ? m_NetworkManager_getIsClient_MethodRef : m_NetworkManager_getIsServer_MethodRef));
instructions.Add(processor.Create(OpCodes.Brtrue, beginInstr));
instructions.Add(processor.Create(OpCodes.Ldloc, netManLocIdx));
instructions.Add(processor.Create(OpCodes.Callvirt, m_NetworkManager_getIsHost_MethodRef));
instructions.Add(processor.Create(OpCodes.Brfalse, lastInstr));
}
instructions.Add(beginInstr);
// var bufferWriter = __beginSendServerRpc(rpcMethodId, serverRpcParams, rpcDelivery) -> ServerRpc
// var bufferWriter = __beginSendClientRpc(rpcMethodId, clientRpcParams, rpcDelivery) -> ClientRpc
if (isServerRpc)
{
// ServerRpc
if (requireOwnership)
{
var roReturnInstr = processor.Create(OpCodes.Ret);
var roLastInstr = processor.Create(OpCodes.Nop);
// if (this.OwnerClientId != networkManager.LocalClientId) { ... } return;
instructions.Add(processor.Create(OpCodes.Ldarg_0));
instructions.Add(processor.Create(OpCodes.Call, m_NetworkBehaviour_getOwnerClientId_MethodRef));
instructions.Add(processor.Create(OpCodes.Ldloc, netManLocIdx));
instructions.Add(processor.Create(OpCodes.Callvirt, m_NetworkManager_getLocalClientId_MethodRef));
instructions.Add(processor.Create(OpCodes.Ceq));
instructions.Add(processor.Create(OpCodes.Ldc_I4, 0));
instructions.Add(processor.Create(OpCodes.Ceq));
instructions.Add(processor.Create(OpCodes.Brfalse, roLastInstr));
var logNextInstr = processor.Create(OpCodes.Nop);
// if (LogLevel.Normal > networkManager.LogLevel)
instructions.Add(processor.Create(OpCodes.Ldloc, netManLocIdx));
instructions.Add(processor.Create(OpCodes.Ldfld, m_NetworkManager_LogLevel_FieldRef));
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)LogLevel.Normal));
instructions.Add(processor.Create(OpCodes.Cgt));
instructions.Add(processor.Create(OpCodes.Ldc_I4, 0));
instructions.Add(processor.Create(OpCodes.Ceq));
instructions.Add(processor.Create(OpCodes.Brfalse, logNextInstr));
// Debug.LogError(...);
instructions.Add(processor.Create(OpCodes.Ldstr, "Only the owner can invoke a ServerRpc that requires ownership!"));
instructions.Add(processor.Create(OpCodes.Call, m_Debug_LogError_MethodRef));
instructions.Add(logNextInstr);
instructions.Add(roReturnInstr);
instructions.Add(roLastInstr);
}
// var bufferWriter = __beginSendServerRpc(rpcMethodId, serverRpcParams, rpcDelivery);
instructions.Add(processor.Create(OpCodes.Ldarg_0));
// rpcMethodId
instructions.Add(processor.Create(OpCodes.Ldc_I4, unchecked((int)rpcMethodId)));
// rpcParams
instructions.Add(hasRpcParams ? processor.Create(OpCodes.Ldarg, paramCount) : processor.Create(OpCodes.Ldloc, rpcParamsIdx));
// rpcDelivery
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)rpcDelivery));
// __beginSendServerRpc
instructions.Add(processor.Create(OpCodes.Call, m_NetworkBehaviour_beginSendServerRpc_MethodRef));
instructions.Add(processor.Create(OpCodes.Stloc, bufWriterLocIdx));
}
else if (isClientRpc)
{
// ClientRpc
// var bufferWriter = __beginSendClientRpc(rpcMethodId, clientRpcParams, rpcDelivery);
instructions.Add(processor.Create(OpCodes.Ldarg_0));
// rpcMethodId
instructions.Add(processor.Create(OpCodes.Ldc_I4, unchecked((int)rpcMethodId)));
// rpcParams
instructions.Add(hasRpcParams ? processor.Create(OpCodes.Ldarg, paramCount) : processor.Create(OpCodes.Ldloc, rpcParamsIdx));
// rpcDelivery
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)rpcDelivery));
// __beginSendClientRpc
instructions.Add(processor.Create(OpCodes.Call, m_NetworkBehaviour_beginSendClientRpc_MethodRef));
instructions.Add(processor.Create(OpCodes.Stloc, bufWriterLocIdx));
}
else
{
// Generic RPC
// var bufferWriter = __beginSendRpc(rpcMethodId, rpcParams, rpcAttributeParams, defaultTarget, rpcDelivery);
instructions.Add(processor.Create(OpCodes.Ldarg_0));
// rpcMethodId
instructions.Add(processor.Create(OpCodes.Ldc_I4, unchecked((int)rpcMethodId)));
// rpcParams
instructions.Add(hasRpcParams ? processor.Create(OpCodes.Ldarg, paramCount) : processor.Create(OpCodes.Ldloc, rpcParamsIdx));
// rpcAttributeParams
instructions.Add(processor.Create(OpCodes.Ldloca, rpcAttributeParamsIdx));
instructions.Add(processor.Create(OpCodes.Initobj, m_AttributeParamsType_TypeRef));
RpcAttribute.RpcAttributeParams dflt = default;
foreach (var field in rpcAttribute.Fields)
{
var found = false;
foreach (var attrField in m_AttributeParamsType_TypeRef.Resolve().Fields)
{
if (attrField.Name == field.Name)
{
found = true;
var value = field.Argument.Value;
var paramField = dflt.GetType().GetField(attrField.Name);
if (value != paramField.GetValue(dflt))
{
instructions.Add(processor.Create(OpCodes.Ldloca, rpcAttributeParamsIdx));
var type = value.GetType();
if (type == typeof(bool))
{
instructions.Add(processor.Create(OpCodes.Ldc_I4, (bool)value ? 1 : 0));
}
else if (type == typeof(short) || type == typeof(int) || type == typeof(ushort)
|| type == typeof(byte) || type == typeof(sbyte) || type == typeof(char))
{
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)value));
}
else if (type == typeof(long) || type == typeof(ulong))
{
instructions.Add(processor.Create(OpCodes.Ldc_I8, (long)value));
}
else if (type == typeof(float))
{
instructions.Add(processor.Create(OpCodes.Ldc_R8, (float)value));
}
else if (type == typeof(double))
{
instructions.Add(processor.Create(OpCodes.Ldc_R8, (double)value));
}
else
{
m_Diagnostics.AddError("Unsupported attribute parameter type.");
}
}
instructions.Add(processor.Create(OpCodes.Stfld, m_MainModule.ImportReference(attrField)));
break;
}
}
if (!found)
{
m_Diagnostics.AddError($"{nameof(RpcAttribute)} contains field {field} which is not present in {nameof(RpcAttribute.RpcAttributeParams)}.");
}
}
instructions.Add(processor.Create(OpCodes.Ldloc, rpcAttributeParamsIdx));
// defaultTarget
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)defaultTarget));
// rpcDelivery
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)rpcDelivery));
// __beginSendRpc
instructions.Add(processor.Create(OpCodes.Call, m_NetworkBehaviour_beginSendRpc_MethodRef));
instructions.Add(processor.Create(OpCodes.Stloc, bufWriterLocIdx));
}
// write method parameters into stream
for (int paramIndex = 0; paramIndex < paramCount; ++paramIndex)
{
var paramDef = methodDefinition.Parameters[paramIndex];
var paramType = paramDef.ParameterType;
if (paramType.FullName == CodeGenHelpers.ClientRpcSendParams_FullName ||
paramType.FullName == CodeGenHelpers.ClientRpcReceiveParams_FullName)
{
m_Diagnostics.AddError($"Rpcs may not accept {paramType.FullName} as a parameter. Use {nameof(ClientRpcParams)} instead.");
continue;
}
if (paramType.FullName == CodeGenHelpers.ServerRpcSendParams_FullName ||
paramType.FullName == CodeGenHelpers.ServerRpcReceiveParams_FullName)
{
m_Diagnostics.AddError($"Rpcs may not accept {paramType.FullName} as a parameter. Use {nameof(ServerRpcParams)} instead.");
continue;
}
// ServerRpcParams
if (paramType.FullName == CodeGenHelpers.ServerRpcParams_FullName)
{
if (paramIndex != paramCount - 1)
{
m_Diagnostics.AddError(methodDefinition, $"{nameof(ServerRpcParams)} must be the last parameter in a ServerRpc.");
}
if (!isServerRpc)
{
m_Diagnostics.AddError($"Only ServerRpcs may accept {nameof(ServerRpcParams)} as a parameter.");
}
continue;
}
// ClientRpcParams
if (paramType.FullName == CodeGenHelpers.ClientRpcParams_FullName)
{
if (paramIndex != paramCount - 1)
{
m_Diagnostics.AddError(methodDefinition, $"{nameof(ClientRpcParams)} must be the last parameter in a ClientRpc.");
}
if (!isClientRpc)
{
m_Diagnostics.AddError($"Only clientRpcs may accept {nameof(ClientRpcParams)} as a parameter.");
}
continue;
}
// RpcParams
if (paramType.FullName == CodeGenHelpers.RpcParams_FullName)
{
if (paramIndex != paramCount - 1)
{
m_Diagnostics.AddError(methodDefinition, $"{nameof(RpcParams)} must be the last parameter in a ClientRpc.");
}
if (!isGenericRpc)
{
m_Diagnostics.AddError($"Only Rpcs may accept {nameof(RpcParams)} as a parameter.");
}
continue;
}
Instruction jumpInstruction = null;
if (!paramType.IsValueType && paramType.Resolve() != null)
{
if (!GetWriteMethodForParameter(typeSystem.Boolean, out var boolMethodRef))
{
m_Diagnostics.AddError(methodDefinition, $"Couldn't find boolean serializer! Something's wrong!");
return;
}
methodDefinition.Body.Variables.Add(new VariableDefinition(typeSystem.Boolean));
int isSetLocalIndex = methodDefinition.Body.Variables.Count - 1;
// bool isSet = (param != null);
instructions.Add(processor.Create(OpCodes.Ldarg, paramIndex + 1));
instructions.Add(processor.Create(OpCodes.Ldnull));
instructions.Add(processor.Create(OpCodes.Cgt_Un));
instructions.Add(processor.Create(OpCodes.Stloc, isSetLocalIndex));
// bufferWriter.WriteValueSafe(isSet);
instructions.Add(processor.Create(OpCodes.Ldloca, bufWriterLocIdx));
instructions.Add(processor.Create(OpCodes.Ldloca, isSetLocalIndex));
for (var i = 1; i < boolMethodRef.Parameters.Count; ++i)
{
var param = boolMethodRef.Parameters[i];
methodDefinition.Body.Variables.Add(new VariableDefinition(param.ParameterType));
int overloadParamLocalIdx = methodDefinition.Body.Variables.Count - 1;
instructions.Add(processor.Create(OpCodes.Ldloca, overloadParamLocalIdx));
instructions.Add(processor.Create(OpCodes.Initobj, param.ParameterType));
instructions.Add(processor.Create(OpCodes.Ldloc, overloadParamLocalIdx));
}
instructions.Add(processor.Create(OpCodes.Call, boolMethodRef));
// if(isSet) {
jumpInstruction = processor.Create(OpCodes.Nop);
instructions.Add(processor.Create(OpCodes.Ldloc, isSetLocalIndex));
instructions.Add(processor.Create(OpCodes.Brfalse, jumpInstruction));
}
var foundMethodRef = GetWriteMethodForParameter(paramType, out var methodRef);
if (foundMethodRef)
{
// bufferWriter.WriteNetworkSerializable(param) for INetworkSerializable, OR
// bufferWriter.WriteNetworkSerializable(param, -1, 0) for INetworkSerializable arrays, OR
// bufferWriter.WriteValueSafe(param) for value types, OR
// bufferWriter.WriteValueSafe(param, -1, 0) for arrays of value types, OR
// bufferWriter.WriteValueSafe(param, false) for strings
var method = methodRef.Resolve();
var checkParameter = method.Parameters[0];
var isExtensionMethod = false;
if (methodRef.Resolve().DeclaringType != m_FastBufferWriter_TypeRef.Resolve())
{
isExtensionMethod = true;
checkParameter = method.Parameters[1];
}
if (!isExtensionMethod || method.Parameters[0].ParameterType.IsByReference)
{
instructions.Add(processor.Create(OpCodes.Ldloca, bufWriterLocIdx));
}
else
{
instructions.Add(processor.Create(OpCodes.Ldloc, bufWriterLocIdx));
}
if (checkParameter.IsIn || checkParameter.IsOut || checkParameter.ParameterType.IsByReference)
{
instructions.Add(processor.Create(OpCodes.Ldarga, paramIndex + 1));
}
else
{
instructions.Add(processor.Create(OpCodes.Ldarg, paramIndex + 1));
}
// Special handling for WriteValue() on arrays and strings since they have additional arguments.
if (paramType.IsArray && ((!isExtensionMethod && methodRef.Parameters.Count == 3) ||
(isExtensionMethod && methodRef.Parameters.Count == 4)))
{
instructions.Add(processor.Create(OpCodes.Ldc_I4_M1));
instructions.Add(processor.Create(OpCodes.Ldc_I4_0));
}
else if (paramType == typeSystem.String && ((!isExtensionMethod && methodRef.Parameters.Count == 2) ||
(isExtensionMethod && methodRef.Parameters.Count == 3)))
{
instructions.Add(processor.Create(OpCodes.Ldc_I4_0));
}
else
{
if (isExtensionMethod && methodRef.Parameters.Count > 2)
{
for (var i = 2; i < methodRef.Parameters.Count; ++i)
{
var param = methodRef.Parameters[i];
methodDefinition.Body.Variables.Add(new VariableDefinition(param.ParameterType));
int overloadParamLocalIdx = methodDefinition.Body.Variables.Count - 1;
instructions.Add(processor.Create(OpCodes.Ldloca, overloadParamLocalIdx));
instructions.Add(processor.Create(OpCodes.Initobj, param.ParameterType));
instructions.Add(processor.Create(OpCodes.Ldloc, overloadParamLocalIdx));
}
}
else if (!isExtensionMethod && methodRef.Parameters.Count > 1)
{
for (var i = 1; i < methodRef.Parameters.Count; ++i)
{
var param = methodRef.Parameters[i];
methodDefinition.Body.Variables.Add(new VariableDefinition(param.ParameterType));
int overloadParamLocalIdx = methodDefinition.Body.Variables.Count - 1;
instructions.Add(processor.Create(OpCodes.Ldloca, overloadParamLocalIdx));
instructions.Add(processor.Create(OpCodes.Initobj, param.ParameterType));
instructions.Add(processor.Create(OpCodes.Ldloc, overloadParamLocalIdx));
}
}
}
instructions.Add(processor.Create(OpCodes.Call, methodRef));
}
else
{
m_Diagnostics.AddError(methodDefinition, $"{methodDefinition.Name} - Don't know how to serialize {paramType}. RPC parameter types must either implement {nameof(INetworkSerializeByMemcpy)} or {nameof(INetworkSerializable)}. If this type is external and you are sure its memory layout makes it serializable by memcpy, you can replace {paramType} with {typeof(ForceNetworkSerializeByMemcpy<>).Name}<{paramType}>, or you can create extension methods for {nameof(FastBufferReader)}.{nameof(FastBufferReader.ReadValueSafe)}(this {nameof(FastBufferReader)}, out {paramType}) and {nameof(FastBufferWriter)}.{nameof(FastBufferWriter.WriteValueSafe)}(this {nameof(FastBufferWriter)}, in {paramType}) to define serialization for this type.");
continue;
}
if (jumpInstruction != null)
{
instructions.Add(jumpInstruction);
}
}
instructions.Add(endInstr);
// __endSendServerRpc(ref bufferWriter, rpcMethodId, serverRpcParams, rpcDelivery) -> ServerRpc
// __endSendClientRpc(ref bufferWriter, rpcMethodId, clientRpcParams, rpcDelivery) -> ClientRpc
if (isServerRpc)
{
// ServerRpc
// __endSendServerRpc(ref bufferWriter, rpcMethodId, serverRpcParams, rpcDelivery);
instructions.Add(processor.Create(OpCodes.Ldarg_0));
// bufferWriter
instructions.Add(processor.Create(OpCodes.Ldloca, bufWriterLocIdx));
// rpcMethodId
instructions.Add(processor.Create(OpCodes.Ldc_I4, unchecked((int)rpcMethodId)));
if (hasRpcParams)
{
// rpcParams
instructions.Add(processor.Create(OpCodes.Ldarg, paramCount));
}
else
{
// default
instructions.Add(processor.Create(OpCodes.Ldloc, rpcParamsIdx));
}
// rpcDelivery
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)rpcDelivery));
// __endSendServerRpc
instructions.Add(processor.Create(OpCodes.Call, m_NetworkBehaviour_endSendServerRpc_MethodRef));
}
else if (isClientRpc)
{
// ClientRpc
// __endSendClientRpc(ref bufferWriter, rpcMethodId, clientRpcParams, rpcDelivery);
instructions.Add(processor.Create(OpCodes.Ldarg_0));
// bufferWriter
instructions.Add(processor.Create(OpCodes.Ldloca, bufWriterLocIdx));
// rpcMethodId
instructions.Add(processor.Create(OpCodes.Ldc_I4, unchecked((int)rpcMethodId)));
if (hasRpcParams)
{
// rpcParams
instructions.Add(processor.Create(OpCodes.Ldarg, paramCount));
}
else
{
// default
instructions.Add(processor.Create(OpCodes.Ldloc, rpcParamsIdx));
}
// rpcDelivery
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)rpcDelivery));
// __endSendClientRpc
instructions.Add(processor.Create(OpCodes.Call, m_NetworkBehaviour_endSendClientRpc_MethodRef));
}
else
{
// Generic Rpc
// __endSendRpc(ref bufferWriter, rpcMethodId, rpcParams, rpcAttributeParams, defaultTarget, rpcDelivery);
instructions.Add(processor.Create(OpCodes.Ldarg_0));
// bufferWriter
instructions.Add(processor.Create(OpCodes.Ldloca, bufWriterLocIdx));
// rpcMethodId
instructions.Add(processor.Create(OpCodes.Ldc_I4, unchecked((int)rpcMethodId)));
if (hasRpcParams)
{
// rpcParams
instructions.Add(processor.Create(OpCodes.Ldarg, paramCount));
}
else
{
// default
instructions.Add(processor.Create(OpCodes.Ldloc, rpcParamsIdx));
}
// rpcAttributeParams
instructions.Add(processor.Create(OpCodes.Ldloc, rpcAttributeParamsIdx));
// defaultTarget
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)defaultTarget));
// rpcDelivery
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)rpcDelivery));
// __endSendClientRpc
instructions.Add(processor.Create(OpCodes.Call, m_NetworkBehaviour_endSendRpc_MethodRef));
}
instructions.Add(lastInstr);
}
{
var returnInstr = processor.Create(OpCodes.Ret);
var lastInstr = processor.Create(OpCodes.Nop);
if (!isGenericRpc)
{
// if (__rpc_exec_stage == __RpcExecStage.Execute)
instructions.Add(processor.Create(OpCodes.Ldarg_0));
instructions.Add(processor.Create(OpCodes.Ldfld, m_NetworkBehaviour_rpc_exec_stage_FieldRef));
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)NetworkBehaviour.__RpcExecStage.Execute));
instructions.Add(processor.Create(OpCodes.Ceq));
instructions.Add(processor.Create(OpCodes.Brfalse, returnInstr));
// if (networkManager.IsServer || networkManager.IsHost) -> ServerRpc
// if (networkManager.IsClient || networkManager.IsHost) -> ClientRpc
instructions.Add(processor.Create(OpCodes.Ldloc, netManLocIdx));
instructions.Add(processor.Create(OpCodes.Callvirt, isServerRpc ? m_NetworkManager_getIsServer_MethodRef : m_NetworkManager_getIsClient_MethodRef));
instructions.Add(processor.Create(OpCodes.Brtrue, lastInstr));
instructions.Add(processor.Create(OpCodes.Ldloc, netManLocIdx));
instructions.Add(processor.Create(OpCodes.Callvirt, m_NetworkManager_getIsHost_MethodRef));
instructions.Add(processor.Create(OpCodes.Brtrue, lastInstr));
instructions.Add(returnInstr);
instructions.Add(lastInstr);
// This needs to be set back before executing the callback or else sending another RPC
// from within an RPC will not work.
// __rpc_exec_stage = __RpcExecStage.Send
instructions.Add(processor.Create(OpCodes.Ldarg_0));
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)NetworkBehaviour.__RpcExecStage.Send));
instructions.Add(processor.Create(OpCodes.Stfld, m_NetworkBehaviour_rpc_exec_stage_FieldRef));
}
else
{
// if (__rpc_exec_stage == __RpcExecStage.Execute)
instructions.Add(processor.Create(OpCodes.Ldarg_0));
instructions.Add(processor.Create(OpCodes.Ldfld, m_NetworkBehaviour_rpc_exec_stage_FieldRef));
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)NetworkBehaviour.__RpcExecStage.Execute));
instructions.Add(processor.Create(OpCodes.Ceq));
instructions.Add(processor.Create(OpCodes.Brtrue, lastInstr));
instructions.Add(returnInstr);
instructions.Add(lastInstr);
// This needs to be set back before executing the callback or else sending another RPC
// from within an RPC will not work.
// __rpc_exec_stage = __RpcExecStage.Send
instructions.Add(processor.Create(OpCodes.Ldarg_0));
instructions.Add(processor.Create(OpCodes.Ldc_I4, (int)NetworkBehaviour.__RpcExecStage.Send));
instructions.Add(processor.Create(OpCodes.Stfld, m_NetworkBehaviour_rpc_exec_stage_FieldRef));
}
}
instructions.Reverse();
instructions.ForEach(instruction => processor.Body.Instructions.Insert(0, instruction));
}
private void GenerateVariableInitialization(TypeDefinition type)
{
foreach (var methodDefinition in type.Methods)
{
if (methodDefinition.Name == k_NetworkBehaviour___initializeVariables)
{
// If this hits, we've already generated the method for this class because a child class got processed first.
return;
}
}
var method = new MethodDefinition(
k_NetworkBehaviour___initializeVariables,
MethodAttributes.Family | MethodAttributes.Virtual | MethodAttributes.HideBySig,
m_MainModule.TypeSystem.Void);
var processor = method.Body.GetILProcessor();
method.Body.Variables.Add(new VariableDefinition(m_MainModule.TypeSystem.Boolean));
processor.Emit(OpCodes.Nop);
foreach (var fieldDefinition in type.Fields)
{
FieldReference field = fieldDefinition;
if (type.HasGenericParameters)
{
var genericType = new GenericInstanceType(fieldDefinition.DeclaringType);
foreach (var parameter in fieldDefinition.DeclaringType.GenericParameters)
{
genericType.GenericArguments.Add(parameter);
}
field = new FieldReference(fieldDefinition.Name, fieldDefinition.FieldType, genericType);
}
if (field.FieldType.Resolve() == null)
{
continue;
}
if (!field.FieldType.IsArray && !field.FieldType.Resolve().IsArray && field.FieldType.IsSubclassOf(m_NetworkVariableBase_TypeRef))
{
// if({variable} == null) {
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Ldfld, field);
processor.Emit(OpCodes.Ldnull);
processor.Emit(OpCodes.Ceq);
processor.Emit(OpCodes.Stloc_0);
processor.Emit(OpCodes.Ldloc_0);
var afterThrowInstruction = processor.Create(OpCodes.Nop);
processor.Emit(OpCodes.Brfalse, afterThrowInstruction);
// throw new Exception("...");
processor.Emit(OpCodes.Nop);
processor.Emit(OpCodes.Ldstr, $"{type.Name}.{field.Name} cannot be null. All {nameof(NetworkVariableBase)} instances must be initialized.");
processor.Emit(OpCodes.Newobj, m_ExceptionCtorMethodReference);
processor.Emit(OpCodes.Throw);
// }
processor.Append(afterThrowInstruction);
// {variable}.Initialize(this);
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Ldfld, field);
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Callvirt, m_NetworkVariableBase_Initialize_MethodRef);
// __nameNetworkVariable({variable}, "{variable}");
processor.Emit(OpCodes.Nop);
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Ldfld, field);
processor.Emit(OpCodes.Ldstr, field.Name.Replace("<", string.Empty).Replace(">k__BackingField", string.Empty));
processor.Emit(OpCodes.Call, m_NetworkBehaviour___nameNetworkVariable_MethodRef);
// NetworkVariableFields.Add({variable});
processor.Emit(OpCodes.Nop);
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Ldfld, m_NetworkBehaviour_NetworkVariableFields_FieldRef);
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Ldfld, field);
processor.Emit(OpCodes.Callvirt, m_List_NetworkVariableBase_Add);
}
}
// Find the base method...
MethodReference initializeVariablesBaseReference = null;
foreach (var methodDefinition in type.BaseType.Resolve().Methods)
{
if (methodDefinition.Name == k_NetworkBehaviour___initializeVariables)
{
initializeVariablesBaseReference = m_MainModule.ImportReference(methodDefinition);
break;
}
}
if (initializeVariablesBaseReference == null)
{
// If we couldn't find it, we have to go ahead and add it.
// The base class could be in another assembly... that's ok, this won't
// actually save but it'll generate the same method the same way later,
// so this at least allows us to reference it.
GenerateVariableInitialization(type.BaseType.Resolve());
foreach (var methodDefinition in type.BaseType.Resolve().Methods)
{
if (methodDefinition.Name == k_NetworkBehaviour___initializeVariables)
{
initializeVariablesBaseReference = m_MainModule.ImportReference(methodDefinition);
break;
}
}
}
if (type.BaseType.Resolve().HasGenericParameters)
{
var baseTypeInstance = (GenericInstanceType)type.BaseType;
initializeVariablesBaseReference = initializeVariablesBaseReference.MakeGeneric(baseTypeInstance.GenericArguments.ToArray());
}
// base.__initializeVariables();
processor.Emit(OpCodes.Nop);
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Call, initializeVariablesBaseReference);
processor.Emit(OpCodes.Nop);
processor.Emit(OpCodes.Ret);
type.Methods.Add(method);
}
private MethodDefinition GenerateStaticHandler(MethodDefinition methodDefinition, CustomAttribute rpcAttribute, uint rpcMethodId)
{
var typeSystem = methodDefinition.Module.TypeSystem;
var rpcHandler = new MethodDefinition(
$"__rpc_handler_{rpcMethodId}",
MethodAttributes.Private | MethodAttributes.Static | MethodAttributes.HideBySig,
methodDefinition.Module.TypeSystem.Void);
rpcHandler.Parameters.Add(new ParameterDefinition("target", ParameterAttributes.None, m_NetworkBehaviour_TypeRef));
rpcHandler.Parameters.Add(new ParameterDefinition("reader", ParameterAttributes.None, m_FastBufferReader_TypeRef));
rpcHandler.Parameters.Add(new ParameterDefinition("rpcParams", ParameterAttributes.None, m_RpcParams_TypeRef));
var processor = rpcHandler.Body.GetILProcessor();
var isServerRpc = rpcAttribute.AttributeType.FullName == CodeGenHelpers.ServerRpcAttribute_FullName;
var isCientRpc = rpcAttribute.AttributeType.FullName == CodeGenHelpers.ClientRpcAttribute_FullName;
var isGenericRpc = rpcAttribute.AttributeType.FullName == CodeGenHelpers.RpcAttribute_FullName;
var requireOwnership = true; // default value MUST be == `ServerRpcAttribute.RequireOwnership`
foreach (var attrField in rpcAttribute.Fields)
{
switch (attrField.Name)
{
case k_ServerRpcAttribute_RequireOwnership:
requireOwnership = attrField.Argument.Type == typeSystem.Boolean && (bool)attrField.Argument.Value;
break;
}
}
rpcHandler.Body.InitLocals = true;
// NetworkManager networkManager;
rpcHandler.Body.Variables.Add(new VariableDefinition(m_NetworkManager_TypeRef));
int netManLocIdx = rpcHandler.Body.Variables.Count - 1;
{
var returnInstr = processor.Create(OpCodes.Ret);
var lastInstr = processor.Create(OpCodes.Nop);
// networkManager = this.NetworkManager;
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Call, m_NetworkBehaviour_getNetworkManager_MethodRef);
processor.Emit(OpCodes.Stloc, netManLocIdx);
// if (networkManager == null || !networkManager.IsListening) return;
processor.Emit(OpCodes.Ldloc, netManLocIdx);
processor.Emit(OpCodes.Brfalse, returnInstr);
processor.Emit(OpCodes.Ldloc, netManLocIdx);
processor.Emit(OpCodes.Callvirt, m_NetworkManager_getIsListening_MethodRef);
processor.Emit(OpCodes.Brtrue, lastInstr);
processor.Append(returnInstr);
processor.Append(lastInstr);
}
if (isServerRpc && requireOwnership)
{
var roReturnInstr = processor.Create(OpCodes.Ret);
var roLastInstr = processor.Create(OpCodes.Nop);
// if (rpcParams.Server.Receive.SenderClientId != target.OwnerClientId) { ... } return;
processor.Emit(OpCodes.Ldarg_2);
processor.Emit(OpCodes.Ldfld, m_RpcParams_Server_FieldRef);
processor.Emit(OpCodes.Ldfld, m_ServerRpcParams_Receive_FieldRef);
processor.Emit(OpCodes.Ldfld, m_ServerRpcParams_Receive_SenderClientId_FieldRef);
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Call, m_NetworkBehaviour_getOwnerClientId_MethodRef);
processor.Emit(OpCodes.Ceq);
processor.Emit(OpCodes.Ldc_I4, 0);
processor.Emit(OpCodes.Ceq);
processor.Emit(OpCodes.Brfalse, roLastInstr);
var logNextInstr = processor.Create(OpCodes.Nop);
// if (LogLevel.Normal > networkManager.LogLevel)
processor.Emit(OpCodes.Ldloc, netManLocIdx);
processor.Emit(OpCodes.Ldfld, m_NetworkManager_LogLevel_FieldRef);
processor.Emit(OpCodes.Ldc_I4, (int)LogLevel.Normal);
processor.Emit(OpCodes.Cgt);
processor.Emit(OpCodes.Ldc_I4, 0);
processor.Emit(OpCodes.Ceq);
processor.Emit(OpCodes.Brfalse, logNextInstr);
// Debug.LogError(...);
processor.Emit(OpCodes.Ldstr, "Only the owner can invoke a ServerRpc that requires ownership!");
processor.Emit(OpCodes.Call, m_Debug_LogError_MethodRef);
processor.Append(logNextInstr);
processor.Append(roReturnInstr);
processor.Append(roLastInstr);
}
// read method parameters from stream
int paramCount = methodDefinition.Parameters.Count;
int[] paramLocalMap = new int[paramCount];
for (int paramIndex = 0; paramIndex < paramCount; ++paramIndex)
{
var paramDef = methodDefinition.Parameters[paramIndex];
var paramType = paramDef.ParameterType;
// local variable
rpcHandler.Body.Variables.Add(new VariableDefinition(paramType));
int localIndex = rpcHandler.Body.Variables.Count - 1;
paramLocalMap[paramIndex] = localIndex;
// ServerRpcParams, ClientRpcParams
{
// ServerRpcParams
if (paramType.FullName == CodeGenHelpers.ServerRpcParams_FullName)
{
processor.Emit(OpCodes.Ldarg_2);
processor.Emit(OpCodes.Ldfld, m_RpcParams_Server_FieldRef);
processor.Emit(OpCodes.Stloc, localIndex);
continue;
}
// ClientRpcParams
if (paramType.FullName == CodeGenHelpers.ClientRpcParams_FullName)
{
processor.Emit(OpCodes.Ldarg_2);
processor.Emit(OpCodes.Ldfld, m_RpcParams_Client_FieldRef);
processor.Emit(OpCodes.Stloc, localIndex);
continue;
}
// RpcParams
if (paramType.FullName == CodeGenHelpers.RpcParams_FullName)
{
processor.Emit(OpCodes.Ldarg_2);
processor.Emit(OpCodes.Ldfld, m_RpcParams_Ext_FieldRef);
processor.Emit(OpCodes.Stloc, localIndex);
continue;
}
}
Instruction jumpInstruction = null;
if (!paramType.IsValueType && paramType.Resolve() != null)
{
if (!GetReadMethodForParameter(typeSystem.Boolean, out var boolMethodRef))
{
m_Diagnostics.AddError(methodDefinition, $"Couldn't find boolean deserializer! Something's wrong!");
}
// reader.ReadValueSafe(out bool isSet)
rpcHandler.Body.Variables.Add(new VariableDefinition(typeSystem.Boolean));
int isSetLocalIndex = rpcHandler.Body.Variables.Count - 1;
processor.Emit(OpCodes.Ldarga, 1);
processor.Emit(OpCodes.Ldloca, isSetLocalIndex);
for (var i = 1; i < boolMethodRef.Parameters.Count; ++i)
{
var param = boolMethodRef.Parameters[i];
rpcHandler.Body.Variables.Add(new VariableDefinition(param.ParameterType));
int overloadParamLocalIdx = rpcHandler.Body.Variables.Count - 1;
processor.Emit(OpCodes.Ldloca, overloadParamLocalIdx);
processor.Emit(OpCodes.Initobj, param.ParameterType);
processor.Emit(OpCodes.Ldloc, overloadParamLocalIdx);
}
processor.Emit(OpCodes.Call, boolMethodRef);
// paramType param = null;
processor.Emit(OpCodes.Ldnull);
processor.Emit(OpCodes.Stloc, localIndex);
// if(isSet) {
jumpInstruction = processor.Create(OpCodes.Nop);
processor.Emit(OpCodes.Ldloc, isSetLocalIndex);
processor.Emit(OpCodes.Brfalse, jumpInstruction);
}
#if UNITY_NETCODE_NATIVE_COLLECTION_SUPPORT
if (paramType.IsGenericInstance && paramType.Resolve().FullName == "Unity.Collections.NativeList`1")
{
// var list = NetworkBehaviour.__createNativeList<T>();
// This simplifies things - easier to call __createNativeList() and have the implementation in C#
// than to try to actually construct a NativeList in IL. This is also more future-proof.
// Unlike other types, NativeList<> calls ReadValueSafeInPlace instead of ReadValueSafe.
// FastBufferReader doesn't support a non-in-place deserializer for NativeList in order to
// avoid users using it without realizing the allocation overhead that would cost. In-place
// is more efficient when an existing value exists, and when it doesn't, it's easy to create one,
// which is what we do here.
var method = new GenericInstanceMethod(m_NetworkBehaviour_createNativeList_MethodRef);
var genericParam = (GenericInstanceType)paramType;
method.GenericArguments.Add(genericParam.GenericArguments[0]);
processor.Emit(OpCodes.Call, method);
processor.Emit(OpCodes.Stloc, localIndex);
}
#endif
var foundMethodRef = GetReadMethodForParameter(paramType, out var methodRef);
if (foundMethodRef)
{
// reader.ReadValueSafe(out localVar);
var checkParameter = methodRef.Resolve().Parameters[0];
var isExtensionMethod = methodRef.Resolve().DeclaringType != m_FastBufferReader_TypeRef.Resolve();
if (!isExtensionMethod || checkParameter.ParameterType.IsByReference)
{
processor.Emit(OpCodes.Ldarga, 1);
}
else
{
processor.Emit(OpCodes.Ldarg, 1);
}
processor.Emit(OpCodes.Ldloca, localIndex);
if (paramType == typeSystem.String)
{
processor.Emit(OpCodes.Ldc_I4_0);
}
else
{
if (isExtensionMethod && methodRef.Parameters.Count > 2)
{
for (var i = 2; i < methodRef.Parameters.Count; ++i)
{
var param = methodRef.Parameters[i];
rpcHandler.Body.Variables.Add(new VariableDefinition(param.ParameterType));
int overloadParamLocalIdx = rpcHandler.Body.Variables.Count - 1;
processor.Emit(OpCodes.Ldloca, overloadParamLocalIdx);
processor.Emit(OpCodes.Initobj, param.ParameterType);
processor.Emit(OpCodes.Ldloc, overloadParamLocalIdx);
}
}
else if (!isExtensionMethod && methodRef.Parameters.Count > 1)
{
for (var i = 1; i < methodRef.Parameters.Count; ++i)
{
var param = methodRef.Parameters[i];
rpcHandler.Body.Variables.Add(new VariableDefinition(param.ParameterType));
int overloadParamLocalIdx = rpcHandler.Body.Variables.Count - 1;
processor.Emit(OpCodes.Ldloca, overloadParamLocalIdx);
processor.Emit(OpCodes.Initobj, param.ParameterType);
processor.Emit(OpCodes.Ldloc, overloadParamLocalIdx);
}
}
}
processor.Emit(OpCodes.Call, methodRef);
}
else
{
m_Diagnostics.AddError(methodDefinition, $"{methodDefinition.Name} - Don't know how to deserialize {paramType}. RPC parameter types must either implement {nameof(INetworkSerializeByMemcpy)} or {nameof(INetworkSerializable)}. If this type is external and you are sure its memory layout makes it serializable by memcpy, you can replace {paramType} with {typeof(ForceNetworkSerializeByMemcpy<>).Name}<{paramType}>, or you can create extension methods for {nameof(FastBufferReader)}.{nameof(FastBufferReader.ReadValueSafe)}(this {nameof(FastBufferReader)}, out {paramType}) and {nameof(FastBufferWriter)}.{nameof(FastBufferWriter.WriteValueSafe)}(this {nameof(FastBufferWriter)}, in {paramType}) to define serialization for this type.");
continue;
}
if (jumpInstruction != null)
{
processor.Append(jumpInstruction);
}
}
// NetworkBehaviour.__rpc_exec_stage = __RpcExecStage.Server; -> ServerRpc
// NetworkBehaviour.__rpc_exec_stage = __RpcExecStage.Client; -> ClientRpc
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Ldc_I4, (int)(NetworkBehaviour.__RpcExecStage.Execute));
processor.Emit(OpCodes.Stfld, m_NetworkBehaviour_rpc_exec_stage_FieldRef);
// NetworkBehaviour.XXXRpc(...);
processor.Emit(OpCodes.Ldarg_0);
var castType = (TypeReference)methodDefinition.DeclaringType;
var callMethod = (MethodReference)methodDefinition;
if (castType.HasGenericParameters)
{
var genericTypes = new List<TypeReference>();
foreach (var parameter in castType.GenericParameters)
{
genericTypes.Add(parameter);
}
castType = castType.MakeGenericInstanceType(genericTypes.ToArray());
callMethod = callMethod.MakeGeneric(genericTypes.ToArray());
}
processor.Emit(OpCodes.Castclass, castType);
Enumerable.Range(0, paramCount).ToList().ForEach(paramIndex => processor.Emit(OpCodes.Ldloc, paramLocalMap[paramIndex]));
processor.Emit(OpCodes.Callvirt, callMethod);
// NetworkBehaviour.__rpc_exec_stage = __RpcExecStage.None;
processor.Emit(OpCodes.Ldarg_0);
processor.Emit(OpCodes.Ldc_I4, (int)NetworkBehaviour.__RpcExecStage.Send);
processor.Emit(OpCodes.Stfld, m_NetworkBehaviour_rpc_exec_stage_FieldRef);
processor.Emit(OpCodes.Ret);
return rpcHandler;
}
}
}
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