// Copyright (c) 2018 Siegfried Pammer // // Permission is hereby granted, free of charge, to any person obtaining a copy of this // software and associated documentation files (the "Software"), to deal in the Software // without restriction, including without limitation the rights to use, copy, modify, merge, // publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons // to whom the Software is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all copies or // substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, // INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR // PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE // FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER // DEALINGS IN THE SOFTWARE. // #define STRESS using System; using System.Collections.Generic; using System.ComponentModel.Composition; using System.Diagnostics; using System.Linq; using System.Reflection.Metadata; using System.Reflection.PortableExecutable; using System.Runtime.CompilerServices; using ICSharpCode.AvalonEdit.Highlighting; using ICSharpCode.Decompiler; using ICSharpCode.Decompiler.Disassembler; using ICSharpCode.Decompiler.Metadata; using ICSharpCode.Decompiler.Solution; using ICSharpCode.Decompiler.TypeSystem; using ICSharpCode.ILSpyX; using ILCompiler.Reflection.ReadyToRun; namespace ICSharpCode.ILSpy.ReadyToRun { #if STRESS class DummyOutput : ITextOutput { public string IndentationString { get => throw new NotImplementedException(); set => throw new NotImplementedException(); } public void Indent() { } public void MarkFoldEnd() { } public void MarkFoldStart(string collapsedText = "...", bool defaultCollapsed = false, bool isDefinition = false) { } public void Unindent() { } public void Write(char ch) { } public void Write(string text) { } public void WriteLine() { } public void WriteLocalReference(string text, object reference, bool isDefinition = false) { } public void WriteReference(OpCodeInfo opCode, bool omitSuffix = false) { } public void WriteReference(PEFile module, Handle handle, string text, string protocol = "decompile", bool isDefinition = false) { } public void WriteReference(IType type, string text, bool isDefinition = false) { } public void WriteReference(IMember member, string text, bool isDefinition = false) { } } #endif [Export(typeof(Language))] internal class ReadyToRunLanguage : Language { private static readonly ConditionalWeakTable readyToRunReaders = new ConditionalWeakTable(); public override string Name => "ReadyToRun"; public override string FileExtension { get { return ".asm"; } } public override void WriteCommentLine(ITextOutput output, string comment) { output.WriteLine("; " + comment); } public override ProjectId DecompileAssembly(LoadedAssembly assembly, ITextOutput output, DecompilationOptions options) { PEFile module = assembly.GetPEFileAsync().GetAwaiter().GetResult(); ReadyToRunReaderCacheEntry cacheEntry = GetReader(assembly, module); if (cacheEntry.readyToRunReader == null) { WriteCommentLine(output, cacheEntry.failureReason); } else { ReadyToRunReader reader = cacheEntry.readyToRunReader; WriteCommentLine(output, reader.Machine.ToString()); WriteCommentLine(output, reader.OperatingSystem.ToString()); WriteCommentLine(output, reader.CompilerIdentifier); WriteCommentLine(output, "TODO - display more header information"); } return base.DecompileAssembly(assembly, output, options); } public override void DecompileMethod(IMethod method, ITextOutput output, DecompilationOptions options) { PEFile module = method.ParentModule.PEFile; ReadyToRunReaderCacheEntry cacheEntry = GetReader(module.GetLoadedAssembly(), module); if (cacheEntry.readyToRunReader == null) { WriteCommentLine(output, cacheEntry.failureReason); } else { ReadyToRunReader reader = cacheEntry.readyToRunReader; int bitness = -1; if (reader.Machine == Machine.Amd64) { bitness = 64; } else { Debug.Assert(reader.Machine == Machine.I386); bitness = 32; } if (cacheEntry.methodMap == null) { cacheEntry.methodMap = reader.Methods.ToList() .GroupBy(m => m.MethodHandle) .ToDictionary(g => g.Key, g => g.ToArray()); } bool showMetadataTokens = ILSpy.Options.DisplaySettingsPanel.CurrentDisplaySettings.ShowMetadataTokens; bool showMetadataTokensInBase10 = ILSpy.Options.DisplaySettingsPanel.CurrentDisplaySettings.ShowMetadataTokensInBase10; #if STRESS ITextOutput originalOutput = output; output = new DummyOutput(); { foreach (var readyToRunMethod in reader.Methods) { #else if (cacheEntry.methodMap.TryGetValue(method.MetadataToken, out var methods)) { foreach (var readyToRunMethod in methods) { #endif foreach (RuntimeFunction runtimeFunction in readyToRunMethod.RuntimeFunctions) { new ReadyToRunDisassembler(output, reader, runtimeFunction).Disassemble(method.ParentModule.PEFile, bitness, (ulong)runtimeFunction.StartAddress, showMetadataTokens, showMetadataTokensInBase10); } } } #if STRESS output = originalOutput; output.WriteLine("Passed"); #endif } } public override RichText GetRichTextTooltip(IEntity entity) { return Languages.ILLanguage.GetRichTextTooltip(entity); } private ReadyToRunReaderCacheEntry GetReader(LoadedAssembly assembly, PEFile module) { ReadyToRunReaderCacheEntry result; lock (readyToRunReaders) { if (!readyToRunReaders.TryGetValue(module, out result)) { result = new ReadyToRunReaderCacheEntry(); try { result.readyToRunReader = new ReadyToRunReader(new ReadyToRunAssemblyResolver(assembly), new StandaloneAssemblyMetadata(module.Reader), module.Reader, module.FileName); if (result.readyToRunReader.Machine != Machine.Amd64 && result.readyToRunReader.Machine != Machine.I386) { result.failureReason = $"Architecture {result.readyToRunReader.Machine} is not currently supported."; result.readyToRunReader = null; } } catch (BadImageFormatException e) { result.failureReason = e.Message; } readyToRunReaders.Add(module, result); } } return result; } private class ReadyToRunAssemblyResolver : ILCompiler.Reflection.ReadyToRun.IAssemblyResolver { private Decompiler.Metadata.IAssemblyResolver assemblyResolver; public ReadyToRunAssemblyResolver(LoadedAssembly loadedAssembly) { assemblyResolver = loadedAssembly.GetAssemblyResolver(); } public IAssemblyMetadata FindAssembly(MetadataReader metadataReader, AssemblyReferenceHandle assemblyReferenceHandle, string parentFile) { PEFile module = assemblyResolver.Resolve(new Decompiler.Metadata.AssemblyReference(metadataReader, assemblyReferenceHandle)); PEReader reader = module?.Reader; return reader == null ? null : new StandaloneAssemblyMetadata(reader); } public IAssemblyMetadata FindAssembly(string simpleName, string parentFile) { // This is called only for the composite R2R scenario, // So it will never be called before the feature is released. throw new NotSupportedException("Composite R2R format is not currently supported"); } } private class ReadyToRunReaderCacheEntry { public ReadyToRunReader readyToRunReader; public string failureReason; public Dictionary methodMap; } } }