using Microsoft.CodeAnalysis; using Microsoft.CodeAnalysis.CSharp; using Microsoft.CodeAnalysis.CSharp.Syntax; using System.Collections.Generic; using System.Linq; namespace Ryujinx.Horizon.Generators.Hipc { [Generator] class HipcGenerator : ISourceGenerator { private const string ArgVariablePrefix = "arg"; private const string ResultVariableName = "result"; private const string IsBufferMapAliasVariableName = "isBufferMapAlias"; private const string InObjectsVariableName = "inObjects"; private const string OutObjectsVariableName = "outObjects"; private const string ResponseVariableName = "response"; private const string OutRawDataVariableName = "outRawData"; private const string TypeSystemReadOnlySpan = "System.ReadOnlySpan"; private const string TypeSystemSpan = "System.Span"; private const string TypeStructLayoutAttribute = "System.Runtime.InteropServices.StructLayoutAttribute"; public const string CommandAttributeName = "CmifCommandAttribute"; private const string TypeResult = "Ryujinx.Horizon.Common.Result"; private const string TypeBufferAttribute = "Ryujinx.Horizon.Sdk.Sf.BufferAttribute"; private const string TypeCopyHandleAttribute = "Ryujinx.Horizon.Sdk.Sf.CopyHandleAttribute"; private const string TypeMoveHandleAttribute = "Ryujinx.Horizon.Sdk.Sf.MoveHandleAttribute"; private const string TypeClientProcessIdAttribute = "Ryujinx.Horizon.Sdk.Sf.ClientProcessIdAttribute"; private const string TypeCommandAttribute = "Ryujinx.Horizon.Sdk.Sf." + CommandAttributeName; private const string TypeIServiceObject = "Ryujinx.Horizon.Sdk.Sf.IServiceObject"; private enum Modifier { None, Ref, Out, In } private struct OutParameter { public readonly string Name; public readonly string TypeName; public readonly int Index; public readonly CommandArgType Type; public OutParameter(string name, string typeName, int index, CommandArgType type) { Name = name; TypeName = typeName; Index = index; Type = type; } } public void Execute(GeneratorExecutionContext context) { HipcSyntaxReceiver syntaxReceiver = (HipcSyntaxReceiver)context.SyntaxReceiver; foreach (var commandInterface in syntaxReceiver.CommandInterfaces) { if (!NeedsIServiceObjectImplementation(context.Compilation, commandInterface.ClassDeclarationSyntax)) { continue; } CodeGenerator generator = new CodeGenerator(); string className = commandInterface.ClassDeclarationSyntax.Identifier.ToString(); generator.AppendLine("using Ryujinx.Horizon.Common;"); generator.AppendLine("using Ryujinx.Horizon.Sdk.Sf;"); generator.AppendLine("using Ryujinx.Horizon.Sdk.Sf.Cmif;"); generator.AppendLine("using Ryujinx.Horizon.Sdk.Sf.Hipc;"); generator.AppendLine("using System;"); generator.AppendLine("using System.Collections.Generic;"); generator.AppendLine("using System.Runtime.CompilerServices;"); generator.AppendLine("using System.Runtime.InteropServices;"); generator.AppendLine(); generator.EnterScope($"namespace {GetNamespaceName(commandInterface.ClassDeclarationSyntax)}"); generator.EnterScope($"partial class {className}"); GenerateMethodTable(generator, context.Compilation, commandInterface); foreach (var method in commandInterface.CommandImplementations) { generator.AppendLine(); GenerateMethod(generator, context.Compilation, method); } generator.LeaveScope(); generator.LeaveScope(); context.AddSource($"{className}.g.cs", generator.ToString()); } } private static string GetNamespaceName(SyntaxNode syntaxNode) { while (syntaxNode != null && !(syntaxNode is NamespaceDeclarationSyntax)) { syntaxNode = syntaxNode.Parent; } if (syntaxNode == null) { return string.Empty; } return ((NamespaceDeclarationSyntax)syntaxNode).Name.ToString(); } private static void GenerateMethodTable(CodeGenerator generator, Compilation compilation, CommandInterface commandInterface) { generator.EnterScope($"public IReadOnlyDictionary GetCommandHandlers()"); generator.EnterScope($"return new Dictionary()"); foreach (var method in commandInterface.CommandImplementations) { foreach (var commandId in GetAttributeAguments(compilation, method, TypeCommandAttribute, 0)) { string[] args = new string[method.ParameterList.Parameters.Count]; if (args.Length == 0) { generator.AppendLine($"{{ {commandId}, new CommandHandler({method.Identifier.Text}, Array.Empty()) }},"); } else { int index = 0; foreach (var parameter in method.ParameterList.Parameters) { string canonicalTypeName = GetCanonicalTypeNameWithGenericArguments(compilation, parameter.Type); CommandArgType argType = GetCommandArgType(compilation, parameter); string arg; if (argType == CommandArgType.Buffer) { string bufferFlags = GetFirstAttributeAgument(compilation, parameter, TypeBufferAttribute, 0); string bufferFixedSize = GetFirstAttributeAgument(compilation, parameter, TypeBufferAttribute, 1); if (bufferFixedSize != null) { arg = $"new CommandArg({bufferFlags} | HipcBufferFlags.FixedSize, {bufferFixedSize})"; } else { arg = $"new CommandArg({bufferFlags})"; } } else if (argType == CommandArgType.InArgument || argType == CommandArgType.OutArgument) { string alignment = GetTypeAlignmentExpression(compilation, parameter.Type); arg = $"new CommandArg(CommandArgType.{argType}, Unsafe.SizeOf<{canonicalTypeName}>(), {alignment})"; } else { arg = $"new CommandArg(CommandArgType.{argType})"; } args[index++] = arg; } generator.AppendLine($"{{ {commandId}, new CommandHandler({method.Identifier.Text}, {string.Join(", ", args)}) }},"); } } } generator.LeaveScope(";"); generator.LeaveScope(); } private static IEnumerable GetAttributeAguments(Compilation compilation, SyntaxNode syntaxNode, string attributeName, int argIndex) { ISymbol symbol = compilation.GetSemanticModel(syntaxNode.SyntaxTree).GetDeclaredSymbol(syntaxNode); foreach (var attribute in symbol.GetAttributes()) { if (attribute.AttributeClass.ToDisplayString() == attributeName && (uint)argIndex < (uint)attribute.ConstructorArguments.Length) { yield return attribute.ConstructorArguments[argIndex].ToCSharpString(); } } } private static string GetFirstAttributeAgument(Compilation compilation, SyntaxNode syntaxNode, string attributeName, int argIndex) { return GetAttributeAguments(compilation, syntaxNode, attributeName, argIndex).FirstOrDefault(); } private static void GenerateMethod(CodeGenerator generator, Compilation compilation, MethodDeclarationSyntax method) { int inObjectsCount = 0; int outObjectsCount = 0; int buffersCount = 0; foreach (var parameter in method.ParameterList.Parameters) { if (IsObject(compilation, parameter)) { if (IsIn(parameter)) { inObjectsCount++; } else { outObjectsCount++; } } else if (IsBuffer(compilation, parameter)) { buffersCount++; } } generator.EnterScope($"private Result {method.Identifier.Text}(" + "ref ServiceDispatchContext context, " + "HipcCommandProcessor processor, " + "ServerMessageRuntimeMetadata runtimeMetadata, " + "ReadOnlySpan inRawData, " + "ref Span outHeader)"); bool returnsResult = method.ReturnType != null && GetCanonicalTypeName(compilation, method.ReturnType) == TypeResult; if (returnsResult || buffersCount != 0 || inObjectsCount != 0) { generator.AppendLine($"Result {ResultVariableName};"); if (buffersCount != 0) { generator.AppendLine($"bool[] {IsBufferMapAliasVariableName} = new bool[{method.ParameterList.Parameters.Count}];"); generator.AppendLine(); generator.AppendLine($"{ResultVariableName} = processor.ProcessBuffers(ref context, {IsBufferMapAliasVariableName}, runtimeMetadata);"); generator.EnterScope($"if ({ResultVariableName}.IsFailure)"); generator.AppendLine($"return {ResultVariableName};"); generator.LeaveScope(); } generator.AppendLine(); } List outParameters = new List(); string[] args = new string[method.ParameterList.Parameters.Count]; if (inObjectsCount != 0) { generator.AppendLine($"var {InObjectsVariableName} = new IServiceObject[{inObjectsCount}];"); generator.AppendLine(); generator.AppendLine($"{ResultVariableName} = processor.GetInObjects(context.Processor, {InObjectsVariableName});"); generator.EnterScope($"if ({ResultVariableName}.IsFailure)"); generator.AppendLine($"return {ResultVariableName};"); generator.LeaveScope(); generator.AppendLine(); } if (outObjectsCount != 0) { generator.AppendLine($"var {OutObjectsVariableName} = new IServiceObject[{outObjectsCount}];"); } int index = 0; int inArgIndex = 0; int outArgIndex = 0; int inCopyHandleIndex = 0; int inMoveHandleIndex = 0; int inObjectIndex = 0; foreach (var parameter in method.ParameterList.Parameters) { string name = parameter.Identifier.Text; string argName = GetPrefixedArgName(name); string canonicalTypeName = GetCanonicalTypeNameWithGenericArguments(compilation, parameter.Type); CommandArgType argType = GetCommandArgType(compilation, parameter); Modifier modifier = GetModifier(parameter); bool isNonSpanBuffer = false; if (modifier == Modifier.Out) { if (IsNonSpanOutBuffer(compilation, parameter)) { generator.AppendLine($"using var {argName} = CommandSerialization.GetWritableRegion(processor.GetBufferRange({outArgIndex++}));"); argName = $"out {GenerateSpanCastElement0(canonicalTypeName, $"{argName}.Memory.Span")}"; } else { outParameters.Add(new OutParameter(argName, canonicalTypeName, index, argType)); argName = $"out {canonicalTypeName} {argName}"; } } else { string value = $"default({canonicalTypeName})"; switch (argType) { case CommandArgType.InArgument: value = $"CommandSerialization.DeserializeArg<{canonicalTypeName}>(inRawData, processor.GetInArgOffset({inArgIndex++}))"; break; case CommandArgType.InCopyHandle: value = $"CommandSerialization.DeserializeCopyHandle(ref context, {inCopyHandleIndex++})"; break; case CommandArgType.InMoveHandle: value = $"CommandSerialization.DeserializeMoveHandle(ref context, {inMoveHandleIndex++})"; break; case CommandArgType.ProcessId: value = "CommandSerialization.DeserializeClientProcessId(ref context)"; break; case CommandArgType.InObject: value = $"{InObjectsVariableName}[{inObjectIndex++}]"; break; case CommandArgType.Buffer: if (IsReadOnlySpan(compilation, parameter)) { string spanGenericTypeName = GetCanonicalTypeNameOfGenericArgument(compilation, parameter.Type, 0); value = GenerateSpanCast(spanGenericTypeName, $"CommandSerialization.GetReadOnlySpan(processor.GetBufferRange({index}))"); } else if (IsSpan(compilation, parameter)) { value = $"CommandSerialization.GetWritableRegion(processor.GetBufferRange({index}))"; } else { value = $"CommandSerialization.GetRef<{canonicalTypeName}>(processor.GetBufferRange({index}))"; isNonSpanBuffer = true; } break; } if (IsSpan(compilation, parameter)) { generator.AppendLine($"using var {argName} = {value};"); string spanGenericTypeName = GetCanonicalTypeNameOfGenericArgument(compilation, parameter.Type, 0); argName = GenerateSpanCast(spanGenericTypeName, $"{argName}.Memory.Span"); ; } else if (isNonSpanBuffer) { generator.AppendLine($"ref var {argName} = ref {value};"); } else if (argType == CommandArgType.InObject) { generator.EnterScope($"if (!({value} is {canonicalTypeName} {argName}))"); generator.AppendLine("return SfResult.InvalidInObject;"); generator.LeaveScope(); } else { generator.AppendLine($"var {argName} = {value};"); } } if (modifier == Modifier.Ref) { argName = $"ref {argName}"; } else if (modifier == Modifier.In) { argName = $"in {argName}"; } args[index++] = argName; } if (args.Length - outParameters.Count > 0) { generator.AppendLine(); } if (returnsResult) { generator.AppendLine($"{ResultVariableName} = {method.Identifier.Text}({string.Join(", ", args)});"); generator.AppendLine(); generator.AppendLine($"Span {OutRawDataVariableName};"); generator.AppendLine(); generator.EnterScope($"if ({ResultVariableName}.IsFailure)"); generator.AppendLine($"context.Processor.PrepareForErrorReply(ref context, out {OutRawDataVariableName}, runtimeMetadata);"); generator.AppendLine($"CommandHandler.GetCmifOutHeaderPointer(ref outHeader, ref {OutRawDataVariableName});"); generator.AppendLine($"return {ResultVariableName};"); generator.LeaveScope(); } else { generator.AppendLine($"{method.Identifier.Text}({string.Join(", ", args)});"); generator.AppendLine(); generator.AppendLine($"Span {OutRawDataVariableName};"); } generator.AppendLine(); generator.AppendLine($"var {ResponseVariableName} = context.Processor.PrepareForReply(ref context, out {OutRawDataVariableName}, runtimeMetadata);"); generator.AppendLine($"CommandHandler.GetCmifOutHeaderPointer(ref outHeader, ref {OutRawDataVariableName});"); generator.AppendLine(); generator.EnterScope($"if ({OutRawDataVariableName}.Length < processor.OutRawDataSize)"); generator.AppendLine("return SfResult.InvalidOutRawSize;"); generator.LeaveScope(); if (outParameters.Count != 0) { generator.AppendLine(); int outCopyHandleIndex = 0; int outMoveHandleIndex = outObjectsCount; int outObjectIndex = 0; for (int outIndex = 0; outIndex < outParameters.Count; outIndex++) { OutParameter outParameter = outParameters[outIndex]; switch (outParameter.Type) { case CommandArgType.OutArgument: generator.AppendLine($"CommandSerialization.SerializeArg<{outParameter.TypeName}>({OutRawDataVariableName}, processor.GetOutArgOffset({outParameter.Index}), {outParameter.Name});"); break; case CommandArgType.OutCopyHandle: generator.AppendLine($"CommandSerialization.SerializeCopyHandle({ResponseVariableName}, {outCopyHandleIndex++}, {outParameter.Name});"); break; case CommandArgType.OutMoveHandle: generator.AppendLine($"CommandSerialization.SerializeMoveHandle({ResponseVariableName}, {outMoveHandleIndex++}, {outParameter.Name});"); break; case CommandArgType.OutObject: generator.AppendLine($"{OutObjectsVariableName}[{outObjectIndex++}] = {outParameter.Name};"); break; } } } generator.AppendLine(); if (outObjectsCount != 0 || buffersCount != 0) { if (outObjectsCount != 0) { generator.AppendLine($"processor.SetOutObjects(ref context, {ResponseVariableName}, {OutObjectsVariableName});"); } if (buffersCount != 0) { generator.AppendLine($"processor.SetOutBuffers({ResponseVariableName}, {IsBufferMapAliasVariableName});"); } generator.AppendLine(); } generator.AppendLine("return Result.Success;"); generator.LeaveScope(); } private static string GetPrefixedArgName(string name) { return ArgVariablePrefix + name[0].ToString().ToUpperInvariant() + name.Substring(1); } private static string GetCanonicalTypeNameOfGenericArgument(Compilation compilation, SyntaxNode syntaxNode, int argIndex) { if (syntaxNode is GenericNameSyntax genericNameSyntax) { if ((uint)argIndex < (uint)genericNameSyntax.TypeArgumentList.Arguments.Count) { return GetCanonicalTypeNameWithGenericArguments(compilation, genericNameSyntax.TypeArgumentList.Arguments[argIndex]); } } return GetCanonicalTypeName(compilation, syntaxNode); } private static string GetCanonicalTypeNameWithGenericArguments(Compilation compilation, SyntaxNode syntaxNode) { TypeInfo typeInfo = compilation.GetSemanticModel(syntaxNode.SyntaxTree).GetTypeInfo(syntaxNode); return typeInfo.Type.ToDisplayString(); } private static string GetCanonicalTypeName(Compilation compilation, SyntaxNode syntaxNode) { TypeInfo typeInfo = compilation.GetSemanticModel(syntaxNode.SyntaxTree).GetTypeInfo(syntaxNode); string typeName = typeInfo.Type.ToDisplayString(); int genericArgsStartIndex = typeName.IndexOf('<'); if (genericArgsStartIndex >= 0) { return typeName.Substring(0, genericArgsStartIndex); } return typeName; } private static SpecialType GetSpecialTypeName(Compilation compilation, SyntaxNode syntaxNode) { TypeInfo typeInfo = compilation.GetSemanticModel(syntaxNode.SyntaxTree).GetTypeInfo(syntaxNode); return typeInfo.Type.SpecialType; } private static string GetTypeAlignmentExpression(Compilation compilation, SyntaxNode syntaxNode) { TypeInfo typeInfo = compilation.GetSemanticModel(syntaxNode.SyntaxTree).GetTypeInfo(syntaxNode); // Since there's no way to get the alignment for a arbitrary type here, let's assume that all // "special" types are primitive types aligned to their own length. // Otherwise, assume that the type is a custom struct, that either defines an explicit alignment // or has an alignment of 1 which is the lowest possible value. if (typeInfo.Type.SpecialType == SpecialType.None) { string pack = GetTypeFirstNamedAttributeAgument(compilation, syntaxNode, TypeStructLayoutAttribute, "Pack"); return pack ?? "1"; } else { return $"Unsafe.SizeOf<{typeInfo.Type.ToDisplayString()}>()"; } } private static string GetTypeFirstNamedAttributeAgument(Compilation compilation, SyntaxNode syntaxNode, string attributeName, string argName) { ISymbol symbol = compilation.GetSemanticModel(syntaxNode.SyntaxTree).GetTypeInfo(syntaxNode).Type; foreach (var attribute in symbol.GetAttributes()) { if (attribute.AttributeClass.ToDisplayString() == attributeName) { foreach (var kv in attribute.NamedArguments) { if (kv.Key == argName) { return kv.Value.ToCSharpString(); } } } } return null; } private static CommandArgType GetCommandArgType(Compilation compilation, ParameterSyntax parameter) { CommandArgType type = CommandArgType.Invalid; if (IsIn(parameter)) { if (IsArgument(compilation, parameter)) { type = CommandArgType.InArgument; } else if (IsBuffer(compilation, parameter)) { type = CommandArgType.Buffer; } else if (IsCopyHandle(compilation, parameter)) { type = CommandArgType.InCopyHandle; } else if (IsMoveHandle(compilation, parameter)) { type = CommandArgType.InMoveHandle; } else if (IsObject(compilation, parameter)) { type = CommandArgType.InObject; } else if (IsProcessId(compilation, parameter)) { type = CommandArgType.ProcessId; } } else if (IsOut(parameter)) { if (IsArgument(compilation, parameter)) { type = CommandArgType.OutArgument; } else if (IsNonSpanOutBuffer(compilation, parameter)) { type = CommandArgType.Buffer; } else if (IsCopyHandle(compilation, parameter)) { type = CommandArgType.OutCopyHandle; } else if (IsMoveHandle(compilation, parameter)) { type = CommandArgType.OutMoveHandle; } else if (IsObject(compilation, parameter)) { type = CommandArgType.OutObject; } } return type; } private static bool IsArgument(Compilation compilation,ParameterSyntax parameter) { return !IsBuffer(compilation, parameter) && !IsHandle(compilation, parameter) && !IsObject(compilation, parameter) && !IsProcessId(compilation, parameter) && IsUnmanagedType(compilation, parameter.Type); } private static bool IsBuffer(Compilation compilation, ParameterSyntax parameter) { return HasAttribute(compilation, parameter, TypeBufferAttribute) && IsValidTypeForBuffer(compilation, parameter); } private static bool IsNonSpanOutBuffer(Compilation compilation, ParameterSyntax parameter) { return HasAttribute(compilation, parameter, TypeBufferAttribute) && IsUnmanagedType(compilation, parameter.Type); } private static bool IsValidTypeForBuffer(Compilation compilation, ParameterSyntax parameter) { return IsReadOnlySpan(compilation, parameter) || IsSpan(compilation, parameter) || IsUnmanagedType(compilation, parameter.Type); } private static bool IsUnmanagedType(Compilation compilation, SyntaxNode syntaxNode) { TypeInfo typeInfo = compilation.GetSemanticModel(syntaxNode.SyntaxTree).GetTypeInfo(syntaxNode); return typeInfo.Type.IsUnmanagedType; } private static bool IsReadOnlySpan(Compilation compilation, ParameterSyntax parameter) { return GetCanonicalTypeName(compilation, parameter.Type) == TypeSystemReadOnlySpan; } private static bool IsSpan(Compilation compilation, ParameterSyntax parameter) { return GetCanonicalTypeName(compilation, parameter.Type) == TypeSystemSpan; } private static bool IsHandle(Compilation compilation, ParameterSyntax parameter) { return IsCopyHandle(compilation, parameter) || IsMoveHandle(compilation, parameter); } private static bool IsCopyHandle(Compilation compilation, ParameterSyntax parameter) { return HasAttribute(compilation, parameter, TypeCopyHandleAttribute) && GetSpecialTypeName(compilation, parameter.Type) == SpecialType.System_Int32; } private static bool IsMoveHandle(Compilation compilation, ParameterSyntax parameter) { return HasAttribute(compilation, parameter, TypeMoveHandleAttribute) && GetSpecialTypeName(compilation, parameter.Type) == SpecialType.System_Int32; } private static bool IsObject(Compilation compilation, ParameterSyntax parameter) { SyntaxNode syntaxNode = parameter.Type; TypeInfo typeInfo = compilation.GetSemanticModel(syntaxNode.SyntaxTree).GetTypeInfo(syntaxNode); return typeInfo.Type.ToDisplayString() == TypeIServiceObject || typeInfo.Type.AllInterfaces.Any(x => x.ToDisplayString() == TypeIServiceObject); } private static bool IsProcessId(Compilation compilation, ParameterSyntax parameter) { return HasAttribute(compilation, parameter, TypeClientProcessIdAttribute) && GetSpecialTypeName(compilation, parameter.Type) == SpecialType.System_UInt64; } private static bool IsIn(ParameterSyntax parameter) { return !IsOut(parameter); } private static bool IsOut(ParameterSyntax parameter) { return parameter.Modifiers.Any(SyntaxKind.OutKeyword); } private static Modifier GetModifier(ParameterSyntax parameter) { foreach (SyntaxToken syntaxToken in parameter.Modifiers) { if (syntaxToken.IsKind(SyntaxKind.RefKeyword)) { return Modifier.Ref; } else if (syntaxToken.IsKind(SyntaxKind.OutKeyword)) { return Modifier.Out; } else if (syntaxToken.IsKind(SyntaxKind.InKeyword)) { return Modifier.In; } } return Modifier.None; } private static string GenerateSpanCastElement0(string targetType, string input) { return $"{GenerateSpanCast(targetType, input)}[0]"; } private static string GenerateSpanCast(string targetType, string input) { return $"MemoryMarshal.Cast({input})"; } private static bool HasAttribute(Compilation compilation, ParameterSyntax parameterSyntax, string fullAttributeName) { foreach (var attributeList in parameterSyntax.AttributeLists) { foreach (var attribute in attributeList.Attributes) { if (GetCanonicalTypeName(compilation, attribute) == fullAttributeName) { return true; } } } return false; } private static bool NeedsIServiceObjectImplementation(Compilation compilation, ClassDeclarationSyntax classDeclarationSyntax) { ITypeSymbol type = compilation.GetSemanticModel(classDeclarationSyntax.SyntaxTree).GetDeclaredSymbol(classDeclarationSyntax); var serviceObjectInterface = type.AllInterfaces.FirstOrDefault(x => x.ToDisplayString() == TypeIServiceObject); var interfaceMember = serviceObjectInterface?.GetMembers().FirstOrDefault(x => x.Name == "GetCommandHandlers"); // Return true only if the class implements IServiceObject but does not actually implement the method // that the interface defines, since this is the only case we want to handle, if the method already exists // we have nothing to do. return serviceObjectInterface != null && type.FindImplementationForInterfaceMember(interfaceMember) == null; } public void Initialize(GeneratorInitializationContext context) { context.RegisterForSyntaxNotifications(() => new HipcSyntaxReceiver()); } } }