using Cosmos.Build.Common; using Cosmos.IL2CPU; using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Reflection; using System.Text; using Cosmos.Debug.Common; using Cosmos.System; namespace Cosmos.IL2CPU { // http://blogs.msdn.com/b/visualstudio/archive/2010/07/06/debugging-msbuild-script-with-visual-studio.aspx public class CompilerEngine { const string FULLASSEMBLYNAME_KERNEL = "Cosmos.System.Kernel"; public Action OnLogMessage; public Action OnLogError; public Action OnLogWarning; public Action OnLogException; protected static Action mStaticLog = null; public string DebugMode { get; set; } public string TraceAssemblies { get; set; } public byte DebugCom { get; set; } public bool UseNAsm { get; set; } public string[] References { get; set; } public string OutputFilename { get; set; } public bool EnableLogging { get; set; } public bool EmitDebugSymbols { get; set; } public bool IgnoreDebugStubAttribute { get; set; } protected void LogMessage(string aMsg) { if (OnLogMessage != null) { OnLogMessage(aMsg); } } protected void LogWarning(string aMsg) { if (OnLogWarning != null) { OnLogWarning(aMsg); } } protected void LogError(string aMsg) { if (OnLogError != null) { OnLogError(aMsg); } } protected void LogException(Exception e) { if (OnLogException != null) { OnLogException(e); } } protected static List mSearchDirs = new List(); static Assembly CurrentDomain_AssemblyResolve(object sender, ResolveEventArgs args) { var xShortName = args.Name; if (xShortName.Contains(',')) { xShortName = xShortName.Substring(0, xShortName.IndexOf(',')); } foreach (var xDir in mSearchDirs) { var xPath = Path.Combine(xDir, xShortName + ".dll"); if (File.Exists(xPath)) { return Assembly.LoadFrom(xPath); } xPath = Path.Combine(xDir, xShortName + ".exe"); if (File.Exists(xPath)) { return Assembly.LoadFrom(xPath); } } // check for path in as requested dll is stored, this makes refrenced dll project working var xPathAsRequested = Path.Combine(Path.GetDirectoryName(args.RequestingAssembly.Location), xShortName + ".dll"); if (File.Exists(xPathAsRequested)) { return Assembly.LoadFrom(xPathAsRequested); } if (mStaticLog != null) { mStaticLog(string.Format("Assembly '{0}' not resolved!", args.Name)); } return null; } private bool EnsureCosmosPathsInitialization() { try { CosmosPaths.Initialize(); return true; } catch (Exception e) { StringBuilder builder = new StringBuilder(); builder.Append("Error while initializing Cosmos paths"); for (Exception scannedException = e; null != scannedException; scannedException = scannedException.InnerException) { builder.Append(" | " + scannedException.Message); } LogError(builder.ToString()); return false; } } protected bool Initialize() { // Add UserKit dirs for asms to load from. mSearchDirs.Add(Path.GetDirectoryName(typeof(CompilerEngine).Assembly.Location)); if (!EnsureCosmosPathsInitialization()) { return false; } mSearchDirs.Add(CosmosPaths.UserKit); mSearchDirs.Add(CosmosPaths.Kernel); AppDomain.CurrentDomain.AssemblyResolve += new ResolveEventHandler(CurrentDomain_AssemblyResolve); // This seems to be to try to load plugs on demand from their own dirs, but // it often just causes load conflicts, and weird errors like "implementation not found" // for a method, even when both the output user kit dir and local bin dir have up to date // and same assemblies. // So its removed for now and we should find a better way to dynamically load plugs in // future. // Furthermore, it only scanned plugs/asms reffed from the boot proj, not the kernel proj // so it was bugged there too. //if (References != null) { // foreach (var xRef in References) { // if (xRef.MetadataNames.OfType().Contains("FullPath")) { // var xName = xRef.GetMetadata("FullPath"); // var xDir = Path.GetDirectoryName(xName); // if (!mSearchPaths.Contains(xDir)) { // mSearchPaths.Insert(0, xDir); // } // } // } //} mDebugMode = (DebugMode)Enum.Parse(typeof(DebugMode), DebugMode); if (String.IsNullOrEmpty(TraceAssemblies)) { mTraceAssemblies = Cosmos.Build.Common.TraceAssemblies.User; } else { if (!Enum.GetNames(typeof(TraceAssemblies)).Contains(TraceAssemblies, StringComparer.InvariantCultureIgnoreCase)) { LogError("Invalid TraceAssemblies specified"); return false; } mTraceAssemblies = (TraceAssemblies)Enum.Parse(typeof(TraceAssemblies), TraceAssemblies); } return true; } public bool DebugEnabled = false; public bool StackCorruptionDetectionEnabled = false; protected DebugMode mDebugMode = Cosmos.Build.Common.DebugMode.Source; protected TraceAssemblies mTraceAssemblies = Cosmos.Build.Common.TraceAssemblies.All; public string AssemblerLog = "Cosmos.Assembler.log"; protected void LogTime(string message) { } public bool Execute() { try { LogMessage("Executing IL2CPU on assembly"); if (!Initialize()) { return false; } LogTime("Engine execute started"); // Find the kernel's entry point. We are looking for a public class Kernel, with public static void Boot() var xInitMethod = LoadAssemblies(); if (xInitMethod == null) { return false; } var xOutputFilename = Path.Combine(Path.GetDirectoryName(OutputFilename), Path.GetFileNameWithoutExtension(OutputFilename)); if (!DebugEnabled) { // Default of 1 is in Cosmos.Targets. Need to change to use proj props. DebugCom = 0; } using (var xAsm = GetAppAssembler()) { using (var xDebugInfo = new DebugInfo(xOutputFilename + ".cdb", true, false)) { xAsm.DebugInfo = xDebugInfo; xAsm.DebugEnabled = DebugEnabled; xAsm.StackCorruptionDetection = StackCorruptionDetectionEnabled; xAsm.DebugMode = mDebugMode; xAsm.TraceAssemblies = mTraceAssemblies; xAsm.IgnoreDebugStubAttribute = IgnoreDebugStubAttribute; if (DebugEnabled == false) { xAsm.ShouldOptimize = true; } xAsm.Assembler.Initialize(); using (var xScanner = new ILScanner(xAsm)) { xScanner.LogException = LogException; xScanner.TempDebug += x => LogMessage(x); if (EnableLogging) { var xLogFile = xOutputFilename + ".log.html"; if (false == xScanner.EnableLogging(xLogFile)) { // file creation not possible EnableLogging = false; LogWarning("Could not create the file \"" + xLogFile + "\"! No log will be created!"); } } xScanner.QueueMethod(xInitMethod.DeclaringType.BaseType.GetMethod("Start")); xScanner.Execute(xInitMethod); xScanner.SaveILInstructions(Path.ChangeExtension(OutputFilename, ".ilinstructions")); AppAssemblerRingsCheck.Execute(xScanner, xInitMethod.DeclaringType.Assembly); using (var xOut = new StreamWriter(OutputFilename, false, Encoding.ASCII , 128*1024)) { //if (EmitDebugSymbols) { xAsm.Assembler.FlushText(xOut); xAsm.FinalizeDebugInfo(); //// for now: write debug info to console //Console.WriteLine("Wrote {0} instructions and {1} datamembers", xAsm.Assembler.Instructions.Count, xAsm.Assembler.DataMembers.Count); //var dict = new Dictionary(StringComparer.OrdinalIgnoreCase); //foreach (var instr in xAsm.Assembler.Instructions) //{ // var mn = instr.Mnemonic ?? ""; // if (dict.ContainsKey(mn)) // { // dict[mn] = dict[mn] + 1; // } // else // { // dict[mn] = 1; // } //} //foreach (var entry in dict) //{ // Console.WriteLine("{0}|{1}", entry.Key, entry.Value); //} } } // If you want to uncomment this line make sure to enable PERSISTANCE_PROFILING symbol in // DebugInfo.cs file. //LogMessage(string.Format("DebugInfo flatening {0} seconds, persistance : {1} seconds", // (int)xDebugInfo.FlateningDuration.TotalSeconds, // (int)xDebugInfo.PersistanceDuration.TotalSeconds)); } } LogTime("Engine execute finished"); return true; } catch (Exception ex) { LogException(ex); LogMessage("Loaded assemblies: "); foreach (var xAsm in AppDomain.CurrentDomain.GetAssemblies()) { // HACK: find another way to skip dynamic assemblies (which belong to dynamic methods) if (xAsm.IsDynamic) { continue; } try { LogMessage(xAsm.Location); } catch { } } return false; } } private AppAssembler GetAppAssembler() { if (mLoadedExtensions == null) { throw new InvalidOperationException("Extensions have not been loaded!"); } foreach (var xExt in mLoadedExtensions) { AppAssembler xResult; if (xExt.TryCreateAppAssembler(DebugCom, AssemblerLog, out xResult)) { return xResult; } } return new AppAssembler(DebugCom, AssemblerLog); } /// Load every refernced assemblies that have an associated FullPath property and seek for /// the kernel default constructor. /// The kernel default constructor or a null reference if either none or several such /// constructor could be found. private MethodBase LoadAssemblies() { // Try to load explicit path references. // These are the references of our boot project. We dont actually ever load the boot // project asm. Instead the references will contain plugs, and the kernel. We load // them then find the entry point in the kernel. // // Plugs and refs in this list will be loaded absolute (or as proj refs) only. Asm resolution // will not be tried on them, but will on ASMs they reference. // // TODO - Update to use Load for Reflection only, but note that this wont load references // and we have to do it manually (Probably better for us anyways) Type xKernelType = null; mLoadedExtensions = new List(); foreach (var xRef in References) { if (File.Exists(xRef)) { var xAssembly = Assembly.LoadFrom(xRef); foreach (var xType in xAssembly.GetExportedTypes()) { if (!xType.IsGenericTypeDefinition && !xType.IsAbstract) { if (xType.IsSubclassOf(typeof(Kernel))) { // found kernel? if (xKernelType != null) { // already a kernel found, which is not supported. LogError(string.Format("Two kernels found! '{0}' and '{1}'", xType.AssemblyQualifiedName, xKernelType.AssemblyQualifiedName)); return null; } xKernelType = xType; } } } var xCompilerExtensionsMetas = xAssembly.GetCustomAttributes(); foreach (var xMeta in xCompilerExtensionsMetas) { mLoadedExtensions.Add((CompilerExtensionBase)Activator.CreateInstance(xMeta.Type)); } } } if (xKernelType == null) { LogError("No Kernel found!"); return null; } var xCtor = xKernelType.GetConstructor(Type.EmptyTypes); if (xCtor == null) { LogError("Kernel has no public default constructor"); return null; } return xCtor; } private List mLoadedExtensions; } }