public static void RunStep1(DecompilerContext context, ILBlock method, List<ILExpression> listExpr, List<ILBlock> listBlock, Dictionary<ILLabel, int> labelRefCount)
{
if (!context.Settings.AsyncAwait)
return; // abort if async decompilation is disabled
var yrd = new AsyncDecompiler();
yrd.context = context;
if (!yrd.MatchTaskCreationPattern(method))
return;
#if DEBUG
if (Debugger.IsAttached) {
yrd.Run();
} else {
#endif
try {
yrd.Run();
} catch (SymbolicAnalysisFailedException) {
return;
}
#if DEBUG
}
#endif
context.CurrentMethodIsAsync = true;
method.Body.Clear();
method.EntryGoto = null;
method.Body.AddRange(yrd.newTopLevelBody);//TODO: Make sure that the removed ILRanges from Clear() above is saved in the new body
ILAstOptimizer.RemoveRedundantCode(context, method, listExpr, listBlock, labelRefCount);
}
public BlockStatement CreateMethodBody()
{
if (methodDef.Body == null) return null;
context.CancellationToken.ThrowIfCancellationRequested();
ILBlock ilMethod = new ILBlock();
ILAstBuilder astBuilder = new ILAstBuilder();
ilMethod.Body = astBuilder.Build(methodDef, true);
context.CancellationToken.ThrowIfCancellationRequested();
ILAstOptimizer bodyGraph = new ILAstOptimizer();
bodyGraph.Optimize(context, ilMethod);
context.CancellationToken.ThrowIfCancellationRequested();
var allVariables = ilMethod.GetSelfAndChildrenRecursive<ILExpression>().Select(e => e.Operand as ILVariable).Where(v => v != null && !v.IsGenerated).Distinct();
NameVariables.AssignNamesToVariables(methodDef.Parameters.Select(p => p.Name), allVariables, ilMethod);
context.CancellationToken.ThrowIfCancellationRequested();
Ast.BlockStatement astBlock = TransformBlock(ilMethod);
CommentStatement.ReplaceAll(astBlock); // convert CommentStatements to Comments
foreach (ILVariable v in localVariablesToDefine) {
DeclareVariableInSmallestScope.DeclareVariable(astBlock, AstBuilder.ConvertType(v.Type), v.Name);
}
return astBlock;
}
public BlockStatement CreateMethodBody(IEnumerable<ParameterDeclaration> parameters,
ConcurrentDictionary<int, IEnumerable<ILVariable>> localVariables)
{
if (methodDef.Body == null) return null;
if (localVariables == null)
throw new ArgumentException("localVariables must be instantiated");
context.CancellationToken.ThrowIfCancellationRequested();
ILBlock ilMethod = new ILBlock();
ILAstBuilder astBuilder = new ILAstBuilder();
ilMethod.Body = astBuilder.Build(methodDef, true);
context.CancellationToken.ThrowIfCancellationRequested();
ILAstOptimizer bodyGraph = new ILAstOptimizer();
bodyGraph.Optimize(context, ilMethod);
context.CancellationToken.ThrowIfCancellationRequested();
var allVariables = ilMethod.GetSelfAndChildrenRecursive<ILExpression>().Select(e => e.Operand as ILVariable)
.Where(v => v != null && !v.IsParameter).Distinct();
Debug.Assert(context.CurrentMethod == methodDef);
NameVariables.AssignNamesToVariables(context, astBuilder.Parameters, allVariables, ilMethod);
if (parameters != null) {
foreach (var pair in (from p in parameters
join v in astBuilder.Parameters on p.Annotation<ParameterDefinition>() equals v.OriginalParameter
select new { p, v.Name }))
{
pair.p.Name = pair.Name;
}
}
context.CancellationToken.ThrowIfCancellationRequested();
Ast.BlockStatement astBlock = TransformBlock(ilMethod);
CommentStatement.ReplaceAll(astBlock); // convert CommentStatements to Comments
Statement insertionPoint = astBlock.Statements.FirstOrDefault();
foreach (ILVariable v in localVariablesToDefine) {
AstType type;
if (v.Type.ContainsAnonymousType())
type = new SimpleType("var");
else
type = AstBuilder.ConvertType(v.Type);
var newVarDecl = new VariableDeclarationStatement(type, v.Name);
astBlock.Statements.InsertBefore(insertionPoint, newVarDecl);
}
// store the variables - used for debugger
int token = methodDef.MetadataToken.ToInt32();
localVariables.AddOrUpdate(token, allVariables, (key, oldValue) => allVariables);
return astBlock;
}
public static void RunStep2(DecompilerContext context, ILBlock method, List<ILExpression> listExpr, List<ILBlock> listBlock, Dictionary<ILLabel, int> labelRefCount, List<ILNode> list_ILNode, Func<ILBlock, ILInlining> getILInlining)
{
if (context.CurrentMethodIsAsync) {
Step2(method.Body);
ILAstOptimizer.RemoveRedundantCode(context, method, listExpr, listBlock, labelRefCount);
// Repeat the inlining/copy propagation optimization because the conversion of field access
// to local variables can open up additional inlining possibilities.
ILInlining inlining = getILInlining(method);
inlining.InlineAllVariables();
inlining.CopyPropagation(list_ILNode);
}
}
public static void RunStep2(DecompilerContext context, ILBlock method)
{
if (context.CurrentMethodIsAsync)
{
Step2(method.Body);
ILAstOptimizer.RemoveRedundantCode(method);
// Repeat the inlining/copy propagation optimization because the conversion of field access
// to local variables can open up additional inlining possibilities.
ILInlining inlining = new ILInlining(method);
inlining.InlineAllVariables();
inlining.CopyPropagation();
}
}
/// <summary>
/// Creates ILAst for the specified method, optimized up to before the 'YieldReturn' step.
/// </summary>
ILBlock CreateILAst(MethodDefinition method)
{
if (method == null || !method.HasBody)
{
throw new SymbolicAnalysisFailedException();
}
ILBlock ilMethod = new ILBlock();
ILAstBuilder astBuilder = new ILAstBuilder();
ilMethod.Body = astBuilder.Build(method, true, context);
ILAstOptimizer optimizer = new ILAstOptimizer();
optimizer.Optimize(context, ilMethod, ILAstOptimizationStep.YieldReturn);
return(ilMethod);
}
public Dictionary<int, EventRegistration[]> DecompileEventMappings(string fullTypeName)
{
var result = new Dictionary<int, EventRegistration[]>();
TypeDefinition type = this.assembly.MainModule.GetType(fullTypeName);
if (type == null)
return result;
MethodDefinition def = null;
foreach (var method in type.Methods) {
if (method.Name == "System.Windows.Markup.IComponentConnector.Connect") {
def = method;
break;
}
}
if (def == null)
return result;
// decompile method and optimize the switch
ILBlock ilMethod = new ILBlock();
ILAstBuilder astBuilder = new ILAstBuilder();
ILAstOptimizer optimizer = new ILAstOptimizer();
var context = new DecompilerContext(type.Module) { CurrentMethod = def, CurrentType = type };
ilMethod.Body = astBuilder.Build(def, true, context);
optimizer.Optimize(context, ilMethod, ILAstOptimizationStep.RemoveRedundantCode3);
ILSwitch ilSwitch = ilMethod.Body.OfType<ILSwitch>().FirstOrDefault();
ILCondition condition = ilMethod.Body.OfType<ILCondition>().FirstOrDefault();
if (ilSwitch != null) {
foreach (var caseBlock in ilSwitch.CaseBlocks) {
if (caseBlock.Values == null)
continue;
var events = FindEvents(caseBlock);
foreach (int id in caseBlock.Values)
result.Add(id, events);
}
} else if (condition != null) {
result.Add(1, FindEvents(condition.FalseBlock));
}
return result;
}
public BlockStatement CreateMethodBody(IEnumerable<ParameterDeclaration> parameters)
{
if (methodDef.Body == null) return null;
context.CancellationToken.ThrowIfCancellationRequested();
ILBlock ilMethod = new ILBlock();
ILAstBuilder astBuilder = new ILAstBuilder();
ilMethod.Body = astBuilder.Build(methodDef, true);
context.CancellationToken.ThrowIfCancellationRequested();
ILAstOptimizer bodyGraph = new ILAstOptimizer();
bodyGraph.Optimize(context, ilMethod);
context.CancellationToken.ThrowIfCancellationRequested();
var allVariables = ilMethod.GetSelfAndChildrenRecursive<ILExpression>().Select(e => e.Operand as ILVariable)
.Where(v => v != null && !v.IsParameter).Distinct();
Debug.Assert(context.CurrentMethod == methodDef);
NameVariables.AssignNamesToVariables(context, astBuilder.Parameters, allVariables, ilMethod);
if (parameters != null) {
foreach (var pair in (from p in parameters
join v in astBuilder.Parameters on p.Annotation<ParameterDefinition>() equals v.OriginalParameter
select new { p, v.Name }))
{
pair.p.Name = pair.Name;
}
}
context.CancellationToken.ThrowIfCancellationRequested();
Ast.BlockStatement astBlock = TransformBlock(ilMethod);
CommentStatement.ReplaceAll(astBlock); // convert CommentStatements to Comments
Statement insertionPoint = astBlock.Statements.FirstOrDefault();
foreach (ILVariable v in localVariablesToDefine) {
var newVarDecl = new VariableDeclarationStatement(AstBuilder.ConvertType(v.Type), v.Name);
astBlock.Statements.InsertBefore(insertionPoint, newVarDecl);
}
return astBlock;
}
public static void RunStep1(DecompilerContext context, ILBlock method)
{
if (!context.Settings.AsyncAwait)
{
return; // abort if async decompilation is disabled
}
var yrd = new AsyncDecompiler();
yrd.context = context;
if (!yrd.MatchTaskCreationPattern(method))
{
return;
}
#if DEBUG
if (Debugger.IsAttached)
{
yrd.Run();
}
else
{
#endif
try
{
yrd.Run();
}
catch (SymbolicAnalysisFailedException)
{
return;
}
#if DEBUG
}
#endif
context.CurrentMethodIsAsync = true;
method.Body.Clear();
method.EntryGoto = null;
method.Body.AddRange(yrd.newTopLevelBody);
ILAstOptimizer.RemoveRedundantCode(method);
}
/// <summary>
/// Creates ILAst for the specified method, optimized up to before the 'YieldReturn' step.
/// </summary>
ILBlock CreateILAst(MethodDefinition method)
{
if (method == null || !method.HasBody)
throw new SymbolicAnalysisFailedException();
ILBlock ilMethod = new ILBlock();
ILAstBuilder astBuilder = new ILAstBuilder();
ilMethod.Body = astBuilder.Build(method, true, context);
ILAstOptimizer optimizer = new ILAstOptimizer();
optimizer.Optimize(context, ilMethod, ILAstOptimizationStep.YieldReturn);
return ilMethod;
}
BlockStatement CreateMethodBody(IEnumerable<ParameterDeclaration> parameters, out MemberMapping mm)
{
if (methodDef.Body == null) {
mm = null;
return null;
}
context.CancellationToken.ThrowIfCancellationRequested();
ILBlock ilMethod = new ILBlock();
ILAstBuilder astBuilder = new ILAstBuilder();
ilMethod.Body = astBuilder.Build(methodDef, true, context);
context.CancellationToken.ThrowIfCancellationRequested();
ILAstOptimizer bodyGraph = new ILAstOptimizer();
bodyGraph.Optimize(context, ilMethod);
context.CancellationToken.ThrowIfCancellationRequested();
var localVariables = ilMethod.GetSelfAndChildrenRecursive<ILExpression>().Select(e => e.Operand as ILVariable)
.Where(v => v != null && !v.IsParameter).Distinct();
Debug.Assert(context.CurrentMethod == methodDef);
NameVariables.AssignNamesToVariables(context, astBuilder.Parameters, localVariables, ilMethod);
if (parameters != null) {
foreach (var pair in (from p in parameters
join v in astBuilder.Parameters on p.Annotation<Parameter>() equals v.OriginalParameter
select new { p, v.Name }))
{
pair.p.NameToken = Identifier.Create(pair.Name).WithAnnotation(TextTokenType.Parameter);
}
}
context.CancellationToken.ThrowIfCancellationRequested();
Ast.BlockStatement astBlock = TransformBlock(ilMethod);
CommentStatement.ReplaceAll(astBlock); // convert CommentStatements to Comments
Statement insertionPoint = astBlock.Statements.FirstOrDefault();
foreach (ILVariable v in localVariablesToDefine) {
AstType type;
if (v.Type.ContainsAnonymousType())
type = new SimpleType("var").WithAnnotation(TextTokenType.Keyword);
else
type = AstBuilder.ConvertType(v.Type);
var newVarDecl = new VariableDeclarationStatement(v.IsParameter ? TextTokenType.Parameter : TextTokenType.Local, type, v.Name);
newVarDecl.Variables.Single().AddAnnotation(v);
astBlock.Statements.InsertBefore(insertionPoint, newVarDecl);
}
mm = new MemberMapping(methodDef) { LocalVariables = localVariables.ToList() };
return astBlock;
}
public void WalkMethod(MethodReference methodReference, TypeReference targetType = null, bool virt = false)
{
if (!AddMethod(methodReference, targetType, virt)) {
return;
}
var method = methodReference.Resolve();
var context = new DecompilerContext(method.Module)
{
Settings =
{
AnonymousMethods = true,
AsyncAwait = false,
YieldReturn = false,
QueryExpressions = false,
LockStatement = false,
FullyQualifyAmbiguousTypeNames = true,
ForEachStatement = false,
ExpressionTrees = false,
ObjectOrCollectionInitializers = false,
},
CurrentModule = method.Module,
CurrentMethod = method,
CurrentType = method.DeclaringType
};
List<Instruction> foundInstructions = (from instruction in method.Body.Instructions
where method.HasBody && method.Body.Instructions != null && instruction.Operand != null
select instruction).ToList();
IEnumerable<TypeReference> typesFound = from instruction in foundInstructions
let tRef = instruction.Operand as TypeReference
where tRef != null
select tRef;
IEnumerable<FieldReference> fieldsFound = from instruction in foundInstructions
let fRef = instruction.Operand as FieldReference
where fRef != null && fRef.FieldType != null
select fRef;
foreach (TypeReference typeDefinition in typesFound) {
AddType(typeDefinition);
}
foreach (FieldReference fieldDefinition in fieldsFound)
{
AddField(fieldDefinition);
}
ILBlock ilb = null;
bool useSimpleMethodWalk = Configuration.NonAggressiveVirtualMethodElimination;
if (!useSimpleMethodWalk) {
var virtCalls = from instruction in foundInstructions
let mRef = instruction.Operand as MethodReference
where (instruction.OpCode == OpCodes.Callvirt || instruction.OpCode == OpCodes.Ldvirtftn) &&
mRef.Resolve().IsVirtual
select instruction;
if (virtCalls.Any()) {
try {
var decompiler = new ILAstBuilder();
var optimizer = new ILAstOptimizer();
ilb = new ILBlock(decompiler.Build(method, false, context));
optimizer.Optimize(context, ilb);
}
catch (Exception) {
useSimpleMethodWalk = true;
}
}
else {
useSimpleMethodWalk = true;
}
}
if (!useSimpleMethodWalk) {
var expressions = ilb.GetSelfAndChildrenRecursive<ILExpression>();
foreach (var ilExpression in expressions) {
var mRef = ilExpression.Operand as MethodReference;
if (mRef != null && mRef.DeclaringType != null) {
bool isVirtual = false;
TypeReference thisArg = null;
switch (ilExpression.Code)
{
case ILCode.Ldftn:
case ILCode.Newobj:
case ILCode.Jmp:
case ILCode.Call:
case ILCode.CallGetter:
case ILCode.CallSetter:
break;
case ILCode.CallvirtGetter:
case ILCode.CallvirtSetter:
case ILCode.Callvirt:
case ILCode.Ldvirtftn:
isVirtual = true;
thisArg = ilExpression.Arguments.Count >0 ? ilExpression.Arguments[0].InferredType : null;
break;
case ILCode.Ldtoken:
isVirtual = true;
break;
}
WalkMethod(mRef, thisArg, isVirtual);
}
}
}
else {
IEnumerable<MethodReference> methodsFound = from instruction in foundInstructions
let mRef = instruction.Operand as MethodReference
where mRef != null && mRef.DeclaringType != null
select mRef;
foreach (MethodReference methodDefinition in methodsFound) {
if (methodDefinition != method) {
WalkMethod(methodDefinition, null, true);
}
}
}
}
internal JSFunctionExpression TranslateMethodExpression(DecompilerContext context, MethodReference method, MethodDefinition methodDef)
{
var oldMethod = context.CurrentMethod;
try {
if (method == null)
throw new ArgumentNullException("method");
if (methodDef == null)
throw new ArgumentNullException("methodDef");
var methodInfo = TypeInfoProvider.GetMemberInformation<JSIL.Internal.MethodInfo>(methodDef);
var identifier = new QualifiedMemberIdentifier(
methodInfo.DeclaringType.Identifier, methodInfo.Identifier
);
JSFunctionExpression function = null;
if (FunctionCache.TryGetExpression(identifier, out function))
return function;
if (methodInfo.IsExternal) {
FunctionCache.CreateNull(methodInfo, method, identifier);
return null;
}
var bodyDef = methodDef;
if (methodInfo.IsFromProxy && methodInfo.Member.HasBody)
bodyDef = methodInfo.Member;
var pr = new ProgressReporter();
context.CurrentMethod = methodDef;
if ((methodDef.Body.Instructions.Count > LargeMethodThreshold) && (this.DecompilingMethod != null))
this.DecompilingMethod(method.FullName, pr);
ILBlock ilb;
var decompiler = new ILAstBuilder();
var optimizer = new ILAstOptimizer();
try {
ilb = new ILBlock(decompiler.Build(bodyDef, true));
optimizer.Optimize(context, ilb);
} catch (Exception exception) {
if (CouldNotDecompileMethod != null)
CouldNotDecompileMethod(bodyDef.FullName, exception);
FunctionCache.CreateNull(methodInfo, method, identifier);
pr.OnFinished();
return null;
}
var allVariables = ilb.GetSelfAndChildrenRecursive<ILExpression>().Select(e => e.Operand as ILVariable)
.Where(v => v != null && !v.IsParameter).Distinct();
foreach (var v in allVariables) {
if (ILBlockTranslator.IsIgnoredType(v.Type)) {
FunctionCache.CreateNull(methodInfo, method, identifier);
pr.OnFinished();
return null;
}
}
NameVariables.AssignNamesToVariables(context, decompiler.Parameters, allVariables, ilb);
var translator = new ILBlockTranslator(
this, context, method, methodDef,
ilb, decompiler.Parameters, allVariables
);
var body = translator.Translate();
if (body == null) {
FunctionCache.CreateNull(methodInfo, method, identifier);
pr.OnFinished();
return null;
}
var parameters = from p in translator.ParameterNames select translator.Variables[p];
if (method.HasGenericParameters) {
var type = new TypeReference("System", "Type", context.CurrentModule.TypeSystem.Object.Module, context.CurrentModule.TypeSystem.Object.Scope);
parameters = (from gp in method.GenericParameters select new JSVariable(gp.Name, type, method)).Concat(parameters);
}
function = FunctionCache.Create(
methodInfo, methodDef, method, identifier,
translator, parameters, body
);
pr.OnFinished();
return function;
} finally {
context.CurrentMethod = oldMethod;
}
}
public void Return(ILAstOptimizer opt)
{
ilAstOptimizerPool.Free(opt);
}