//----------------------------------------------------------------------------- // // Copyright (C) Microsoft Corporation. All Rights Reserved. // //----------------------------------------------------------------------------- using System; using System.Diagnostics.Contracts; using System.Collections.Generic; using Microsoft.Boogie; using Microsoft.Boogie.VCExprAST; using VC; using System.Collections; using System.IO; using Microsoft.Boogie.GraphUtil; using System.Linq; using System.Diagnostics; namespace Microsoft.Boogie.Houdini { internal class ReadOnlyDictionary { private Dictionary dictionary; public ReadOnlyDictionary(Dictionary dictionary) { this.dictionary = dictionary; } public Dictionary.KeyCollection Keys { get { return this.dictionary.Keys; } } public bool TryGetValue(K k, out V v) { return this.dictionary.TryGetValue(k, out v); } public bool ContainsKey(K k) { return this.dictionary.ContainsKey(k); } } public abstract class HoudiniObserver { public virtual void UpdateStart(Program program, int numConstants) { } public virtual void UpdateIteration() { } public virtual void UpdateImplementation(Implementation implementation) { } public virtual void UpdateAssignment(Dictionary assignment) { } public virtual void UpdateOutcome(ProverInterface.Outcome outcome) { } public virtual void UpdateEnqueue(Implementation implementation) { } public virtual void UpdateDequeue() { } public virtual void UpdateConstant(string constantName) { } public virtual void UpdateEnd(bool isNormalEnd) { } public virtual void UpdateFlushStart() { } public virtual void UpdateFlushFinish() { } public virtual void SeeException(string msg) { } } public class IterationTimer { private Dictionary> times; public IterationTimer() { times = new Dictionary>(); } public void AddTime(K key, double timeMS) { List oldList; times.TryGetValue(key, out oldList); if (oldList == null) { oldList = new List(); } else { times.Remove(key); } oldList.Add(timeMS); times.Add(key, oldList); } public void PrintTimes(TextWriter wr) { wr.WriteLine("Total procedures: {0}", times.Count); double total = 0; int totalIters = 0; foreach (KeyValuePair> kv in times) { int curIter = 0; wr.WriteLine("Times for {0}:", kv.Key); foreach (double v in kv.Value) { wr.WriteLine(" ({0})\t{1}ms", curIter, v); total += v; curIter++; } totalIters += curIter; } total = total / 1000.0; wr.WriteLine("Total time: {0} (s)", total); wr.WriteLine("Avg: {0} (s/iter)", total / totalIters); } } public class HoudiniTimer : HoudiniObserver { private DateTime startT; private Implementation curImp; private IterationTimer times; private TextWriter wr; public HoudiniTimer(TextWriter wr) { this.wr = wr; times = new IterationTimer(); } public override void UpdateIteration() { startT = DateTime.UtcNow; } public override void UpdateImplementation(Implementation implementation) { curImp = implementation; } public override void UpdateOutcome(ProverInterface.Outcome o) { Contract.Assert(curImp != null); DateTime endT = DateTime.UtcNow; times.AddTime(curImp.Name, (endT - startT).TotalMilliseconds); // assuming names are unique } public void PrintTimes() { wr.WriteLine("-----------------------------------------"); wr.WriteLine("Times for each iteration for each procedure"); wr.WriteLine("-----------------------------------------"); times.PrintTimes(wr); } } public class HoudiniTextReporter : HoudiniObserver { private TextWriter wr; private int currentIteration = -1; public HoudiniTextReporter(TextWriter wr) { this.wr = wr; } public override void UpdateStart(Program program, int numConstants) { wr.WriteLine("Houdini started:" + program.ToString() + " #constants: " + numConstants.ToString()); currentIteration = -1; wr.Flush(); } public override void UpdateIteration() { currentIteration++; wr.WriteLine("---------------------------------------"); wr.WriteLine("Houdini iteration #" + currentIteration); wr.Flush(); } public override void UpdateImplementation(Implementation implementation) { wr.WriteLine("implementation under analysis :" + implementation.Name); wr.Flush(); } public override void UpdateAssignment(Dictionary assignment) { bool firstTime = true; wr.Write("assignment under analysis : axiom ("); foreach (KeyValuePair kv in assignment) { if (!firstTime) wr.Write(" && "); else firstTime = false; string valString; // ugliness to get it lower cased if (kv.Value) valString = "true"; else valString = "false"; wr.Write(kv.Key + " == " + valString); } wr.WriteLine(");"); wr.Flush(); } public override void UpdateOutcome(ProverInterface.Outcome outcome) { wr.WriteLine("analysis outcome :" + outcome); wr.Flush(); } public override void UpdateEnqueue(Implementation implementation) { wr.WriteLine("worklist enqueue :" + implementation.Name); wr.Flush(); } public override void UpdateDequeue() { wr.WriteLine("worklist dequeue"); wr.Flush(); } public override void UpdateConstant(string constantName) { wr.WriteLine("constant disabled : " + constantName); wr.Flush(); } public override void UpdateEnd(bool isNormalEnd) { wr.WriteLine("Houdini ended: " + (isNormalEnd ? "Normal" : "Abnormal")); wr.WriteLine("Number of iterations: " + (this.currentIteration + 1)); wr.Flush(); } public override void UpdateFlushStart() { wr.WriteLine("***************************************"); wr.WriteLine("Flushing remaining implementations"); wr.Flush(); } public override void UpdateFlushFinish() { wr.WriteLine("***************************************"); wr.WriteLine("Flushing finished"); wr.Flush(); } public override void SeeException(string msg) { wr.WriteLine("Caught exception: " + msg); wr.Flush(); } } public abstract class ObservableHoudini { private List observers = new List(); public void AddObserver(HoudiniObserver observer) { if (!observers.Contains(observer)) observers.Add(observer); } private delegate void NotifyDelegate(HoudiniObserver observer); private void Notify(NotifyDelegate notifyDelegate) { foreach (HoudiniObserver observer in observers) { notifyDelegate(observer); } } protected void NotifyStart(Program program, int numConstants) { NotifyDelegate notifyDelegate = (NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateStart(program, numConstants); }; Notify(notifyDelegate); } protected void NotifyIteration() { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateIteration(); }); } protected void NotifyImplementation(Implementation implementation) { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateImplementation(implementation); }); } protected void NotifyAssignment(Dictionary assignment) { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateAssignment(assignment); }); } protected void NotifyOutcome(ProverInterface.Outcome outcome) { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateOutcome(outcome); }); } protected void NotifyEnqueue(Implementation implementation) { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateEnqueue(implementation); }); } protected void NotifyDequeue() { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateDequeue(); }); } protected void NotifyConstant(string constantName) { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateConstant(constantName); }); } protected void NotifyEnd(bool isNormalEnd) { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateEnd(isNormalEnd); }); } protected void NotifyFlushStart() { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateFlushStart(); }); } protected void NotifyFlushFinish() { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.UpdateFlushFinish(); }); } protected void NotifyException(string msg) { Notify((NotifyDelegate)delegate(HoudiniObserver r) { r.SeeException(msg); }); } } public class InlineRequiresVisitor : StandardVisitor { public override List VisitCmdSeq(List cmdSeq) { List newCmdSeq = new List(); for (int i = 0, n = cmdSeq.Count; i < n; i++) { Cmd cmd = cmdSeq[i]; CallCmd callCmd = cmd as CallCmd; if (callCmd != null) { newCmdSeq.AddRange(InlineRequiresForCallCmd(callCmd)); } else { newCmdSeq.Add((Cmd)this.Visit(cmd)); } } return newCmdSeq; } private List InlineRequiresForCallCmd(CallCmd node) { Dictionary substMap = new Dictionary(); for (int i = 0; i < node.Proc.InParams.Count; i++) { substMap.Add(node.Proc.InParams[i], node.Ins[i]); } Substitution substitution = Substituter.SubstitutionFromHashtable(substMap); List cmds = new List(); foreach (Requires requires in node.Proc.Requires) { if (requires.Free) continue; Requires requiresCopy = new Requires(false, Substituter.Apply(substitution, requires.Condition)); cmds.Add(new AssertRequiresCmd(node, requiresCopy)); } cmds.Add(node); return cmds; } } public class FreeRequiresVisitor : StandardVisitor { public override Requires VisitRequires(Requires requires) { if (requires.Free) return base.VisitRequires(requires); else return new Requires(true, requires.Condition); } public override Cmd VisitAssertRequiresCmd(AssertRequiresCmd node) { node.Requires = base.VisitRequires(node.Requires); node.Expr = this.VisitExpr(node.Expr); return node; } } public class InlineEnsuresVisitor : ReadOnlyVisitor { public override Ensures VisitEnsures(Ensures ensures) { ensures.Attributes = new QKeyValue(Token.NoToken, "HoudiniAssume", new List(), ensures.Attributes); return base.VisitEnsures(ensures); } } public class Houdini : ObservableHoudini { protected Program program; protected HashSet houdiniConstants; protected VCGen vcgen; protected ProverInterface proverInterface; protected Graph callGraph; protected HashSet vcgenFailures; protected HoudiniState currentHoudiniState; protected CrossDependencies crossDependencies; internal ReadOnlyDictionary houdiniSessions; protected string cexTraceFile; public HoudiniState CurrentHoudiniState { get { return currentHoudiniState; } } public static TextWriter explainHoudiniDottyFile; protected Houdini() { } public Houdini(Program program, HoudiniSession.HoudiniStatistics stats, string cexTraceFile = "houdiniCexTrace.bpl") { this.program = program; this.cexTraceFile = cexTraceFile; Initialize(program, stats); } protected void Initialize(Program program, HoudiniSession.HoudiniStatistics stats) { if (CommandLineOptions.Clo.Trace) Console.WriteLine("Collecting existential constants..."); this.houdiniConstants = CollectExistentialConstants(); if (CommandLineOptions.Clo.Trace) Console.WriteLine("Building call graph..."); this.callGraph = Program.BuildCallGraph(program); if (CommandLineOptions.Clo.Trace) Console.WriteLine("Number of implementations = {0}", callGraph.Nodes.Count); if (CommandLineOptions.Clo.HoudiniUseCrossDependencies) { if (CommandLineOptions.Clo.Trace) Console.WriteLine("Computing procedure cross dependencies ..."); this.crossDependencies = new CrossDependencies(this.houdiniConstants); this.crossDependencies.Visit(program); } Inline(); /* { int oldPrintUnstructured = CommandLineOptions.Clo.PrintUnstructured; CommandLineOptions.Clo.PrintUnstructured = 1; using (TokenTextWriter stream = new TokenTextWriter("houdini_inline.bpl")) { program.Emit(stream); } CommandLineOptions.Clo.PrintUnstructured = oldPrintUnstructured; } */ this.vcgen = new VCGen(program, CommandLineOptions.Clo.SimplifyLogFilePath, CommandLineOptions.Clo.SimplifyLogFileAppend, new List()); this.proverInterface = ProverInterface.CreateProver(program, CommandLineOptions.Clo.SimplifyLogFilePath, CommandLineOptions.Clo.SimplifyLogFileAppend, CommandLineOptions.Clo.ProverKillTime, taskID: GetTaskID()); vcgenFailures = new HashSet(); Dictionary houdiniSessions = new Dictionary(); if (CommandLineOptions.Clo.Trace) Console.WriteLine("Beginning VC generation for Houdini..."); foreach (Implementation impl in callGraph.Nodes) { try { if (CommandLineOptions.Clo.Trace) Console.WriteLine("Generating VC for {0}", impl.Name); HoudiniSession session = new HoudiniSession(this, vcgen, proverInterface, program, impl, stats, taskID: GetTaskID()); houdiniSessions.Add(impl, session); } catch (VCGenException) { if (CommandLineOptions.Clo.Trace) Console.WriteLine("VC generation failed"); vcgenFailures.Add(impl); } } this.houdiniSessions = new ReadOnlyDictionary(houdiniSessions); if (CommandLineOptions.Clo.ExplainHoudini) { // Print results of ExplainHoudini to a dotty file explainHoudiniDottyFile = new StreamWriter("explainHoudini.dot"); explainHoudiniDottyFile.WriteLine("digraph explainHoudini {"); foreach (var constant in houdiniConstants) explainHoudiniDottyFile.WriteLine("{0} [ label = \"{0}\" color=black ];", constant.Name); explainHoudiniDottyFile.WriteLine("TimeOut [label = \"TimeOut\" color=red ];"); } } protected void Inline() { if (CommandLineOptions.Clo.InlineDepth < 0) return; foreach (Implementation impl in callGraph.Nodes) { InlineRequiresVisitor inlineRequiresVisitor = new InlineRequiresVisitor(); inlineRequiresVisitor.Visit(impl); } foreach (Implementation impl in callGraph.Nodes) { FreeRequiresVisitor freeRequiresVisitor = new FreeRequiresVisitor(); freeRequiresVisitor.Visit(impl); } foreach (Implementation impl in callGraph.Nodes) { InlineEnsuresVisitor inlineEnsuresVisitor = new InlineEnsuresVisitor(); inlineEnsuresVisitor.Visit(impl); } foreach (Implementation impl in callGraph.Nodes) { impl.OriginalBlocks = impl.Blocks; impl.OriginalLocVars = impl.LocVars; } foreach (Implementation impl in callGraph.Nodes) { CommandLineOptions.Inlining savedOption = CommandLineOptions.Clo.ProcedureInlining; CommandLineOptions.Clo.ProcedureInlining = CommandLineOptions.Inlining.Spec; Inliner.ProcessImplementationForHoudini(program, impl); CommandLineOptions.Clo.ProcedureInlining = savedOption; } foreach (Implementation impl in callGraph.Nodes) { impl.OriginalBlocks = null; impl.OriginalLocVars = null; } Graph oldCallGraph = callGraph; callGraph = new Graph(); foreach (Implementation impl in oldCallGraph.Nodes) { callGraph.AddSource(impl); } foreach (Tuple edge in oldCallGraph.Edges) { callGraph.AddEdge(edge.Item1, edge.Item2); } int count = CommandLineOptions.Clo.InlineDepth; while (count > 0) { foreach (Implementation impl in oldCallGraph.Nodes) { List newNodes = new List(); foreach (Implementation succ in callGraph.Successors(impl)) { newNodes.AddRange(oldCallGraph.Successors(succ)); } foreach (Implementation newNode in newNodes) { callGraph.AddEdge(impl, newNode); } } count--; } } protected HashSet CollectExistentialConstants() { HashSet existentialConstants = new HashSet(); foreach (Declaration decl in program.TopLevelDeclarations) { Constant constant = decl as Constant; if (constant != null) { bool result = false; if (constant.CheckBooleanAttribute("existential", ref result)) { if (result == true) existentialConstants.Add(constant); } } } return existentialConstants; } // Compute dependencies between candidates public class CrossDependencies : ReadOnlyVisitor { public CrossDependencies(HashSet constants) { this.constants = constants; } public override Program VisitProgram(Program node) { assumedInImpl = new Dictionary>(); return base.VisitProgram(node); } public override Implementation VisitImplementation(Implementation node) { curImpl = node; return base.VisitImplementation(node); } public override Cmd VisitAssumeCmd(AssumeCmd node) { return base.VisitAssumeCmd(node); } public override Variable VisitVariable(Variable node) { if (node is Constant) { var constant = node as Constant; if (constants.Contains(constant)) { if (!assumedInImpl.ContainsKey(constant.Name)) assumedInImpl[constant.Name] = new HashSet(); assumedInImpl[constant.Name].Add(curImpl); } } return base.VisitVariable(node); } HashSet constants; Implementation curImpl; // contant -> set of implementations that have an assume command with that constant public Dictionary> assumedInImpl { get; private set; } } protected WorkQueue BuildWorkList(Program program) { // adding implementations to the workqueue from the bottom of the call graph upwards WorkQueue queue = new WorkQueue(); StronglyConnectedComponents sccs = new StronglyConnectedComponents(callGraph.Nodes, new Adjacency(callGraph.Predecessors), new Adjacency(callGraph.Successors)); sccs.Compute(); foreach (SCC scc in sccs) { foreach (Implementation impl in scc) { if (vcgenFailures.Contains(impl)) continue; queue.Enqueue(impl); } } if (CommandLineOptions.Clo.ReverseHoudiniWorklist) queue = queue.Reverse(); return queue; /* Queue queue = new Queue(); foreach (Declaration decl in program.TopLevelDeclarations) { Implementation impl = decl as Implementation; if (impl == null || impl.SkipVerification) continue; queue.Enqueue(impl); } return queue; */ } public static bool MatchCandidate(Expr boogieExpr, IEnumerable candidates, out string candidateConstant) { candidateConstant = null; NAryExpr e = boogieExpr as NAryExpr; if (e != null && e.Fun is BinaryOperator && ((BinaryOperator)e.Fun).Op == BinaryOperator.Opcode.Imp) { Expr antecedent = e.Args[0]; Expr consequent = e.Args[1]; IdentifierExpr id = antecedent as IdentifierExpr; if (id != null && id.Decl is Constant && candidates.Contains(id.Decl.Name)) { candidateConstant = id.Decl.Name; return true; } if (MatchCandidate(consequent, candidates, out candidateConstant)) return true; } return false; } public static bool GetCandidateWithoutConstant(Expr boogieExpr, IEnumerable candidates, out string candidateConstant, out Expr exprWithoutConstant) { candidateConstant = null; exprWithoutConstant = null; NAryExpr e = boogieExpr as NAryExpr; if (e != null && e.Fun is BinaryOperator && ((BinaryOperator)e.Fun).Op == BinaryOperator.Opcode.Imp) { Expr antecedent = e.Args[0]; Expr consequent = e.Args[1]; IdentifierExpr id = antecedent as IdentifierExpr; if (id != null && id.Decl is Constant && candidates.Contains(id.Decl.Name)) { candidateConstant = id.Decl.Name; exprWithoutConstant = consequent; return true; } if (GetCandidateWithoutConstant(consequent, candidates, out candidateConstant, out exprWithoutConstant)) exprWithoutConstant = Expr.Imp(antecedent, exprWithoutConstant); return true; } return false; } private static Expr AddConditionToCandidateRec(Expr boogieExpr, Expr condition, string candidateConstant, List implicationStack) { NAryExpr e = boogieExpr as NAryExpr; if (e != null && e.Fun is BinaryOperator && ((BinaryOperator)e.Fun).Op == BinaryOperator.Opcode.Imp) { Expr antecedent = e.Args[0]; Expr consequent = e.Args[1]; IdentifierExpr id = antecedent as IdentifierExpr; if (id != null && id.Decl is Constant && id.Decl.Name.Equals(candidateConstant)) { Expr result = Expr.Imp(antecedent, Expr.Imp(condition, consequent)); implicationStack.Reverse(); foreach (var expr in implicationStack) { result = Expr.Imp(expr, result); } return result; } implicationStack.Add(antecedent); return AddConditionToCandidateRec(consequent, condition, candidateConstant, implicationStack); } return boogieExpr; } public static Expr AddConditionToCandidate(Expr boogieExpr, Expr condition, string candidateConstant) { return AddConditionToCandidateRec(boogieExpr, condition, candidateConstant, new List()); } public bool MatchCandidate(Expr boogieExpr, out Variable candidateConstant) { candidateConstant = null; string candidateString; if(MatchCandidate(boogieExpr, houdiniConstants.Select(item => item.Name), out candidateString)) { candidateConstant = houdiniConstants.Where(item => item.Name.Equals(candidateString)).ToList()[0]; return true; } return false; } public bool MatchCandidate(Expr boogieExpr, out string candidateConstant) { return MatchCandidate(boogieExpr, houdiniConstants.Select(item => item.Name), out candidateConstant); } // For Explain houdini: it decorates the condition \phi as (vpos && (\phi || \not vneg)) // Precondition: MatchCandidate returns true public Expr InsertCandidateControl(Expr boogieExpr, Variable vpos, Variable vneg) { Contract.Assert(CommandLineOptions.Clo.ExplainHoudini); NAryExpr e = boogieExpr as NAryExpr; if (e != null && e.Fun is BinaryOperator && ((BinaryOperator)e.Fun).Op == BinaryOperator.Opcode.Imp) { Expr antecedent = e.Args[0]; Expr consequent = e.Args[1]; IdentifierExpr id = antecedent as IdentifierExpr; if (id != null && id.Decl is Constant && houdiniConstants.Contains((Constant)id.Decl)) { return Expr.Imp(antecedent, Expr.And(Expr.Ident(vpos), Expr.Or(consequent, Expr.Not(Expr.Ident(vneg))))); } return Expr.Imp(antecedent, InsertCandidateControl(consequent, vpos, vneg)); } Contract.Assert(false); return null; } protected Dictionary BuildAssignment(HashSet constants) { Dictionary initial = new Dictionary(); foreach (var constant in constants) initial.Add(constant, true); return initial; } private bool IsOutcomeNotHoudini(ProverInterface.Outcome outcome, List errors) { switch (outcome) { case ProverInterface.Outcome.Valid: return false; case ProverInterface.Outcome.Invalid: Contract.Assume(errors != null); foreach (Counterexample error in errors) { if (ExtractRefutedAnnotation(error) == null) return true; } return false; default: return true; } } // Record most current non-candidate errors found // Return true if there was at least one non-candidate error protected bool UpdateHoudiniOutcome(HoudiniOutcome houdiniOutcome, Implementation implementation, ProverInterface.Outcome outcome, List errors) { string implName = implementation.Name; houdiniOutcome.implementationOutcomes.Remove(implName); List nonCandidateErrors = new List(); if (outcome == ProverInterface.Outcome.Invalid) { foreach (Counterexample error in errors) { if (ExtractRefutedAnnotation(error) == null) nonCandidateErrors.Add(error); } } houdiniOutcome.implementationOutcomes.Add(implName, new VCGenOutcome(outcome, nonCandidateErrors)); return nonCandidateErrors.Count > 0; } protected void FlushWorkList(int stage, IEnumerable completedStages) { this.NotifyFlushStart(); while (currentHoudiniState.WorkQueue.Count > 0) { this.NotifyIteration(); currentHoudiniState.Implementation = currentHoudiniState.WorkQueue.Peek(); this.NotifyImplementation(currentHoudiniState.Implementation); HoudiniSession session; houdiniSessions.TryGetValue(currentHoudiniState.Implementation, out session); List errors; ProverInterface.Outcome outcome = TryCatchVerify(session, stage, completedStages, out errors); UpdateHoudiniOutcome(currentHoudiniState.Outcome, currentHoudiniState.Implementation, outcome, errors); this.NotifyOutcome(outcome); currentHoudiniState.WorkQueue.Dequeue(); this.NotifyDequeue(); } this.NotifyFlushFinish(); } protected void UpdateAssignment(RefutedAnnotation refAnnot) { if (CommandLineOptions.Clo.Trace) { Console.WriteLine("Removing " + refAnnot.Constant); using (var cexWriter = new System.IO.StreamWriter(cexTraceFile, true)) cexWriter.WriteLine("Removing " + refAnnot.Constant); } currentHoudiniState.Assignment.Remove(refAnnot.Constant); currentHoudiniState.Assignment.Add(refAnnot.Constant, false); this.NotifyConstant(refAnnot.Constant.Name); } protected void AddRelatedToWorkList(RefutedAnnotation refutedAnnotation) { Contract.Assume(currentHoudiniState.Implementation != null); foreach (Implementation implementation in FindImplementationsToEnqueue(refutedAnnotation, refutedAnnotation.RefutationSite)) { if (!currentHoudiniState.isBlackListed(implementation.Name)) { currentHoudiniState.WorkQueue.Enqueue(implementation); this.NotifyEnqueue(implementation); } } } // Updates the worklist and current assignment // @return true if the current function is dequeued protected bool UpdateAssignmentWorkList(ProverInterface.Outcome outcome, List errors) { Contract.Assume(currentHoudiniState.Implementation != null); bool dequeue = true; switch (outcome) { case ProverInterface.Outcome.Valid: //yeah, dequeue break; case ProverInterface.Outcome.Invalid: Contract.Assume(errors != null); foreach (Counterexample error in errors) { RefutedAnnotation refutedAnnotation = ExtractRefutedAnnotation(error); if (refutedAnnotation != null) { // some candidate annotation removed ShareRefutedAnnotation(refutedAnnotation); AddRelatedToWorkList(refutedAnnotation); UpdateAssignment(refutedAnnotation); dequeue = false; #region Extra debugging output if (CommandLineOptions.Clo.Trace) { using (var cexWriter = new System.IO.StreamWriter(cexTraceFile, true)) { cexWriter.WriteLine("Counter example for " + refutedAnnotation.Constant); cexWriter.Write(error.ToString()); cexWriter.WriteLine(); using (var writer = new Microsoft.Boogie.TokenTextWriter(cexWriter, /*pretty=*/ false)) foreach (Microsoft.Boogie.Block blk in error.Trace) blk.Emit(writer, 15); //cexWriter.WriteLine(); } } #endregion } } if (ExchangeRefutedAnnotations()) dequeue = false; break; default: if (CommandLineOptions.Clo.Trace) { Console.WriteLine("Timeout/Spaceout while verifying " + currentHoudiniState.Implementation.Name); } HoudiniSession houdiniSession; houdiniSessions.TryGetValue(currentHoudiniState.Implementation, out houdiniSession); foreach (Variable v in houdiniSession.houdiniAssertConstants) { if (CommandLineOptions.Clo.Trace) { Console.WriteLine("Removing " + v); } currentHoudiniState.Assignment.Remove(v); currentHoudiniState.Assignment.Add(v, false); this.NotifyConstant(v.Name); } currentHoudiniState.addToBlackList(currentHoudiniState.Implementation.Name); break; } return dequeue; } // This method is a hook used by ConcurrentHoudini to // exchange refuted annotations with other Houdini engines. // If the method returns true, this indicates that at least // one new refutation was received from some other engine. // In the base class we thus return false. protected virtual bool ExchangeRefutedAnnotations() { return false; } // This method is a hook used by ConcurrentHoudini to // apply a set of existing refuted annotations at the // start of inference. protected virtual void ApplyRefutedSharedAnnotations() { // Empty in base class; can be overridden. } // This method is a hook used by ConcurrentHoudini to // broadcast to other Houdini engines the fact that an // annotation was refuted. protected virtual void ShareRefutedAnnotation(RefutedAnnotation refutedAnnotation) { // Empty in base class; can be overridden. } // Hook for ConcurrentHoudini, which requires a task id. // Non-concurrent Houdini has -1 as a task id protected virtual int GetTaskID() { return -1; } public class WorkQueue { private Queue queue; private HashSet set; public WorkQueue() { queue = new Queue(); set = new HashSet(); } public void Enqueue(Implementation impl) { if (set.Contains(impl)) return; queue.Enqueue(impl); set.Add(impl); } public Implementation Dequeue() { Implementation impl = queue.Dequeue(); set.Remove(impl); return impl; } public Implementation Peek() { return queue.Peek(); } public int Count { get { return queue.Count; } } public bool Contains(Implementation impl) { return set.Contains(impl); } public WorkQueue Reverse() { var ret = new WorkQueue(); foreach (var impl in queue.Reverse()) ret.Enqueue(impl); return ret; } } public class HoudiniState { public WorkQueue _workQueue; public HashSet blackList; public Dictionary _assignment; public Implementation _implementation; public HoudiniOutcome _outcome; public HoudiniState(WorkQueue workQueue, Dictionary currentAssignment) { this._workQueue = workQueue; this._assignment = currentAssignment; this._implementation = null; this._outcome = new HoudiniOutcome(); this.blackList = new HashSet(); } public WorkQueue WorkQueue { get { return this._workQueue; } } public Dictionary Assignment { get { return this._assignment; } } public Implementation Implementation { get { return this._implementation; } set { this._implementation = value; } } public HoudiniOutcome Outcome { get { return this._outcome; } } public bool isBlackListed(string funcName) { return blackList.Contains(funcName); } public void addToBlackList(string funcName) { blackList.Add(funcName); } } public HoudiniOutcome PerformHoudiniInference(int stage = 0, IEnumerable completedStages = null, Dictionary initialAssignment = null) { this.NotifyStart(program, houdiniConstants.Count); currentHoudiniState = new HoudiniState(BuildWorkList(program), BuildAssignment(houdiniConstants)); if(initialAssignment != null) { foreach(var v in CurrentHoudiniState.Assignment.Keys.ToList()) { CurrentHoudiniState.Assignment[v] = initialAssignment[v.Name]; } } ApplyRefutedSharedAnnotations(); foreach (Implementation impl in vcgenFailures) { currentHoudiniState.addToBlackList(impl.Name); } while (currentHoudiniState.WorkQueue.Count > 0) { this.NotifyIteration(); currentHoudiniState.Implementation = currentHoudiniState.WorkQueue.Peek(); this.NotifyImplementation(currentHoudiniState.Implementation); HoudiniSession session; this.houdiniSessions.TryGetValue(currentHoudiniState.Implementation, out session); HoudiniVerifyCurrent(session, stage, completedStages); } this.NotifyEnd(true); Dictionary assignment = new Dictionary(); foreach (var x in currentHoudiniState.Assignment) assignment[x.Key.Name] = x.Value; currentHoudiniState.Outcome.assignment = assignment; return currentHoudiniState.Outcome; } public void Close() { vcgen.Close(); proverInterface.Close(); if (CommandLineOptions.Clo.ExplainHoudini) { explainHoudiniDottyFile.WriteLine("};"); explainHoudiniDottyFile.Close(); } } private int NumberOfStages() { int result = 1; foreach(var c in program.TopLevelDeclarations.OfType()) { result = Math.Max(result, 1 + QKeyValue.FindIntAttribute(c.Attributes, "stage_active", -1)); } return result; } private List FindImplementationsToEnqueue(RefutedAnnotation refutedAnnotation, Implementation currentImplementation) { HoudiniSession session; List implementations = new List(); switch (refutedAnnotation.Kind) { case RefutedAnnotationKind.REQUIRES: foreach (Implementation callee in callGraph.Successors(currentImplementation)) { if (vcgenFailures.Contains(callee)) continue; houdiniSessions.TryGetValue(callee, out session); Contract.Assume(callee.Proc != null); if (callee.Proc.Equals(refutedAnnotation.CalleeProc) && session.InUnsatCore(refutedAnnotation.Constant)) implementations.Add(callee); } break; case RefutedAnnotationKind.ENSURES: foreach (Implementation caller in callGraph.Predecessors(currentImplementation)) { if (vcgenFailures.Contains(caller)) continue; houdiniSessions.TryGetValue(caller, out session); if (session.InUnsatCore(refutedAnnotation.Constant)) implementations.Add(caller); } break; case RefutedAnnotationKind.ASSERT: //the implementation is already in queue if (CommandLineOptions.Clo.HoudiniUseCrossDependencies && crossDependencies.assumedInImpl.ContainsKey(refutedAnnotation.Constant.Name)) { foreach (var impl in crossDependencies.assumedInImpl[refutedAnnotation.Constant.Name]) { if (vcgenFailures.Contains(impl)) continue; houdiniSessions.TryGetValue(impl, out session); if (session.InUnsatCore(refutedAnnotation.Constant)) implementations.Add(impl); } } break; default: throw new Exception("Unknown Refuted annotation kind:" + refutedAnnotation.Kind); } return implementations; } public enum RefutedAnnotationKind { REQUIRES, ENSURES, ASSERT }; public class RefutedAnnotation { private Variable _constant; private RefutedAnnotationKind _kind; private Procedure _callee; private Implementation _refutationSite; private RefutedAnnotation(Variable constant, RefutedAnnotationKind kind, Procedure callee, Implementation refutationSite) { this._constant = constant; this._kind = kind; this._callee = callee; this._refutationSite = refutationSite; } public RefutedAnnotationKind Kind { get { return this._kind; } } public Variable Constant { get { return this._constant; } } public Procedure CalleeProc { get { return this._callee; } } public Implementation RefutationSite { get { return this._refutationSite; } } public static RefutedAnnotation BuildRefutedRequires(Variable constant, Procedure callee, Implementation refutationSite) { return new RefutedAnnotation(constant, RefutedAnnotationKind.REQUIRES, callee, refutationSite); } public static RefutedAnnotation BuildRefutedEnsures(Variable constant, Implementation refutationSite) { return new RefutedAnnotation(constant, RefutedAnnotationKind.ENSURES, null, refutationSite); } public static RefutedAnnotation BuildRefutedAssert(Variable constant, Implementation refutationSite) { return new RefutedAnnotation(constant, RefutedAnnotationKind.ASSERT, null, refutationSite); } public override int GetHashCode() { unchecked { int hash = 17; hash = hash * 23 + this.Constant.GetHashCode(); hash = hash * 23 + this.Kind.GetHashCode(); if (this.CalleeProc != null) hash = hash * 23 + this.CalleeProc.GetHashCode(); hash = hash * 23 + this.RefutationSite.GetHashCode(); return hash; } } public override bool Equals(object obj) { bool result = true; var other = obj as RefutedAnnotation; if (other == null) { result = false; } else { result = result && String.Equals(other.Constant, this.Constant); result = result && String.Equals(other.Kind, this.Kind); if (other.CalleeProc != null && this.CalleeProc != null) result = result && String.Equals(other.CalleeProc, this.CalleeProc); result = result && String.Equals(other.RefutationSite, this.RefutationSite); } return result; } } private void PrintRefutedCall(CallCounterexample err, XmlSink xmlOut) { Expr cond = err.FailingRequires.Condition; Variable houdiniConst; if (MatchCandidate(cond, out houdiniConst)) { xmlOut.WriteError("precondition violation", err.FailingCall.tok, err.FailingRequires.tok, err.Trace); } } private void PrintRefutedReturn(ReturnCounterexample err, XmlSink xmlOut) { Expr cond = err.FailingEnsures.Condition; Variable houdiniConst; if (MatchCandidate(cond, out houdiniConst)) { xmlOut.WriteError("postcondition violation", err.FailingReturn.tok, err.FailingEnsures.tok, err.Trace); } } private void PrintRefutedAssert(AssertCounterexample err, XmlSink xmlOut) { Expr cond = err.FailingAssert.OrigExpr; Variable houdiniConst; if (MatchCandidate(cond, out houdiniConst)) { xmlOut.WriteError("postcondition violation", err.FailingAssert.tok, err.FailingAssert.tok, err.Trace); } } protected void DebugRefutedCandidates(Implementation curFunc, List errors) { XmlSink xmlRefuted = CommandLineOptions.Clo.XmlRefuted; if (xmlRefuted != null && errors != null) { DateTime start = DateTime.UtcNow; xmlRefuted.WriteStartMethod(curFunc.ToString(), start); foreach (Counterexample error in errors) { CallCounterexample ce = error as CallCounterexample; if (ce != null) PrintRefutedCall(ce, xmlRefuted); ReturnCounterexample re = error as ReturnCounterexample; if (re != null) PrintRefutedReturn(re, xmlRefuted); AssertCounterexample ae = error as AssertCounterexample; if (ae != null) PrintRefutedAssert(ae, xmlRefuted); } DateTime end = DateTime.UtcNow; xmlRefuted.WriteEndMethod("errors", end, end.Subtract(start)); } } private RefutedAnnotation ExtractRefutedAnnotation(Counterexample error) { Variable houdiniConstant; CallCounterexample callCounterexample = error as CallCounterexample; if (callCounterexample != null) { Procedure failingProcedure = callCounterexample.FailingCall.Proc; Requires failingRequires = callCounterexample.FailingRequires; if (MatchCandidate(failingRequires.Condition, out houdiniConstant)) { Contract.Assert(houdiniConstant != null); return RefutedAnnotation.BuildRefutedRequires(houdiniConstant, failingProcedure, currentHoudiniState.Implementation); } } ReturnCounterexample returnCounterexample = error as ReturnCounterexample; if (returnCounterexample != null) { Ensures failingEnsures = returnCounterexample.FailingEnsures; if (MatchCandidate(failingEnsures.Condition, out houdiniConstant)) { Contract.Assert(houdiniConstant != null); return RefutedAnnotation.BuildRefutedEnsures(houdiniConstant, currentHoudiniState.Implementation); } } AssertCounterexample assertCounterexample = error as AssertCounterexample; if (assertCounterexample != null) { AssertCmd failingAssert = assertCounterexample.FailingAssert; if (MatchCandidate(failingAssert.OrigExpr, out houdiniConstant)) { Contract.Assert(houdiniConstant != null); return RefutedAnnotation.BuildRefutedAssert(houdiniConstant, currentHoudiniState.Implementation); } } return null; } private ProverInterface.Outcome TryCatchVerify(HoudiniSession session, int stage, IEnumerable completedStages, out List errors) { ProverInterface.Outcome outcome; try { outcome = session.Verify(proverInterface, GetAssignmentWithStages(stage, completedStages), out errors, taskID: GetTaskID()); } catch (UnexpectedProverOutputException upo) { Contract.Assume(upo != null); errors = null; outcome = ProverInterface.Outcome.Undetermined; } return outcome; } protected Dictionary GetAssignmentWithStages(int currentStage, IEnumerable completedStages) { Dictionary result = new Dictionary(currentHoudiniState.Assignment); foreach (var c in program.TopLevelDeclarations.OfType()) { int stageActive = QKeyValue.FindIntAttribute(c.Attributes, "stage_active", -1); if (stageActive != -1) { result[c] = (stageActive == currentStage); } int stageComplete = QKeyValue.FindIntAttribute(c.Attributes, "stage_complete", -1); if (stageComplete != -1) { result[c] = (completedStages.Contains(stageComplete)); } } return result; } private void HoudiniVerifyCurrent(HoudiniSession session, int stage, IEnumerable completedStages) { while (true) { this.NotifyAssignment(currentHoudiniState.Assignment); //check the VC with the current assignment List errors; ProverInterface.Outcome outcome = TryCatchVerify(session, stage, completedStages, out errors); this.NotifyOutcome(outcome); DebugRefutedCandidates(currentHoudiniState.Implementation, errors); #region Explain Houdini if (CommandLineOptions.Clo.ExplainHoudini && outcome == ProverInterface.Outcome.Invalid) { Contract.Assume(errors != null); // make a copy of this variable errors = new List(errors); var refutedAnnotations = new List(); foreach (Counterexample error in errors) { RefutedAnnotation refutedAnnotation = ExtractRefutedAnnotation(error); if (refutedAnnotation == null || refutedAnnotation.Kind == RefutedAnnotationKind.ASSERT) continue; refutedAnnotations.Add(refutedAnnotation); } foreach (var refutedAnnotation in refutedAnnotations) { session.Explain(proverInterface, currentHoudiniState.Assignment, refutedAnnotation.Constant); } } #endregion if (UpdateHoudiniOutcome(currentHoudiniState.Outcome, currentHoudiniState.Implementation, outcome, errors)) { // abort currentHoudiniState.WorkQueue.Dequeue(); this.NotifyDequeue(); FlushWorkList(stage, completedStages); return; } else if (UpdateAssignmentWorkList(outcome, errors)) { if (CommandLineOptions.Clo.UseUnsatCoreForContractInfer && outcome == ProverInterface.Outcome.Valid) session.UpdateUnsatCore(proverInterface, currentHoudiniState.Assignment); currentHoudiniState.WorkQueue.Dequeue(); this.NotifyDequeue(); return; } } } /// /// Transforms given program based on Houdini assignment. If a constant is assigned "true", /// any preconditions or postconditions guarded by the constant are made free, and any assertions /// guarded by the constant are replaced with assumptions. /// /// If a constant is assigned "false", any preconditions or postconditions /// guarded by the constant are replaced with "true", and assertions guarded by the constant /// are removed. /// /// In addition, all Houdini constants are removed. /// public void ApplyAssignment(Program prog) { // Treat all assertions // TODO: do we need to also consider assumptions? foreach (Block block in prog.TopLevelDeclarations.OfType().Select(item => item.Blocks).SelectMany(item => item)) { List newCmds = new List(); foreach (Cmd cmd in block.Cmds) { string c; AssertCmd assertCmd = cmd as AssertCmd; if (assertCmd != null && MatchCandidate(assertCmd.Expr, out c)) { var cVar = currentHoudiniState.Assignment.Keys.Where(item => item.Name.Equals(c)).ToList()[0]; if (currentHoudiniState.Assignment[cVar]) { Dictionary cToTrue = new Dictionary(); Variable cVarProg = prog.TopLevelDeclarations.OfType().Where(item => item.Name.Equals(c)).ToList()[0]; cToTrue[cVarProg] = Expr.True; newCmds.Add(new AssumeCmd(assertCmd.tok, Substituter.Apply(Substituter.SubstitutionFromHashtable(cToTrue), assertCmd.Expr), assertCmd.Attributes)); } } else { newCmds.Add(cmd); } } block.Cmds = newCmds; } foreach (var proc in prog.TopLevelDeclarations.OfType()) { List newRequires = new List(); foreach (Requires r in proc.Requires) { string c; if (MatchCandidate(r.Condition, out c)) { var cVar = currentHoudiniState.Assignment.Keys.Where(item => item.Name.Equals(c)).ToList()[0]; if (currentHoudiniState.Assignment[cVar]) { Variable cVarProg = prog.TopLevelDeclarations.OfType().Where(item => item.Name.Equals(c)).ToList()[0]; Dictionary subst = new Dictionary(); subst[cVarProg] = Expr.True; newRequires.Add(new Requires(Token.NoToken, true, Substituter.Apply(Substituter.SubstitutionFromHashtable(subst), r.Condition), r.Comment, r.Attributes)); } } else { newRequires.Add(r); } } proc.Requires = newRequires; List newEnsures = new List(); foreach (Ensures e in proc.Ensures) { string c; if (MatchCandidate(e.Condition, out c)) { var cVar = currentHoudiniState.Assignment.Keys.Where(item => item.Name.Equals(c)).ToList()[0]; if (currentHoudiniState.Assignment[cVar]) { Variable cVarProg = prog.TopLevelDeclarations.OfType().Where(item => item.Name.Equals(c)).ToList()[0]; Dictionary subst = new Dictionary(); subst[cVarProg] = Expr.True; newEnsures.Add(new Ensures(Token.NoToken, true, Substituter.Apply(Substituter.SubstitutionFromHashtable(subst), e.Condition), e.Comment, e.Attributes)); } } else { newEnsures.Add(e); } } proc.Ensures = newEnsures; } // Remove the existential constants prog.TopLevelDeclarations.RemoveAll(item => (item is Variable) && (houdiniConstants.Select(c => c.Name).Contains((item as Variable).Name))); } } public class VCGenOutcome { public VCGen.Outcome outcome; public List errors; public VCGenOutcome(ProverInterface.Outcome outcome, List errors) { this.outcome = ConditionGeneration.ProverInterfaceOutcomeToConditionGenerationOutcome(outcome); this.errors = errors; } } public class HoudiniOutcome { // final assignment public Dictionary assignment = new Dictionary(); // boogie errors public Dictionary implementationOutcomes = new Dictionary(); // statistics private int CountResults(VCGen.Outcome outcome) { int outcomeCount = 0; foreach (VCGenOutcome verifyOutcome in implementationOutcomes.Values) { if (verifyOutcome.outcome == outcome) outcomeCount++; } return outcomeCount; } private List ListOutcomeMatches(VCGen.Outcome outcome) { List result = new List(); foreach (KeyValuePair kvpair in implementationOutcomes) { if (kvpair.Value.outcome == outcome) result.Add(kvpair.Key); } return result; } public int ErrorCount { get { return CountResults(VCGen.Outcome.Errors); } } public int Verified { get { return CountResults(VCGen.Outcome.Correct); } } public int Inconclusives { get { return CountResults(VCGen.Outcome.Inconclusive); } } public int TimeOuts { get { return CountResults(VCGen.Outcome.TimedOut); } } public List ListOfTimeouts { get { return ListOutcomeMatches(VCGen.Outcome.TimedOut); } } public List ListOfInconclusives { get { return ListOutcomeMatches(VCGen.Outcome.Inconclusive); } } public List ListOfErrors { get { return ListOutcomeMatches(VCGen.Outcome.Errors); } } } }