/** * Returns a <code>ThrowableSet</code> representing the set of exceptions included in <code> * include</code> minus the set of exceptions included in <code>exclude</code>. Creates a new * <code>ThrowableSet</code> only if there was not already one whose contents correspond to * <code>include</code> - <code>exclude</code>. * * @param include A set of {@link RefLikeType} objects representing exception types included in * the result; may be <code>null</code> if there are no included types. * @param exclude A set of {@link AnySubType} objects representing exception types excluded from * the result; may be <code>null</code> if there are no excluded types. * @return a <code>ThrowableSet</code> representing the set of exceptions corresponding to * <code>include</code> - <code>exclude</code>. */ private ThrowableSet registerSetIfNew(Set include, Set exclude) { if (INSTRUMENTING) { registrationCalls++; } if (include == null) { include = Collections.EMPTY_SET; } if (exclude == null) { exclude = Collections.EMPTY_SET; } int size = include.size() + exclude.size(); Integer sizeKey = new Integer(size); List sizeList = (List) sizeToSets.get(sizeKey); if (sizeList == null) { sizeList = new LinkedList(); sizeToSets.put(sizeKey, sizeList); } for (Iterator i = sizeList.iterator(); i.hasNext(); ) { ThrowableSet set = (ThrowableSet) i.next(); if (set.exceptionsIncluded.equals(include) && set.exceptionsExcluded.equals(exclude)) { return set; } } if (INSTRUMENTING) { registeredSets++; } ThrowableSet result = new ThrowableSet(include, exclude); sizeList.add(result); return result; }
/** * Indicates whether this ThrowableSet includes some exception that might be caught by a handler * argument of the type <code>catcher</code>. * * @param catcher type of the handler parameter to be tested. * @return <code>true</code> if this set contains an exception type that might be caught by <code> * catcher</code>, false if it does not. */ public boolean catchableAs(RefType catcher) { if (INSTRUMENTING) { Manager.v().catchableAsQueries++; } FastHierarchy h = Scene.v().getOrMakeFastHierarchy(); if (exceptionsExcluded.size() > 0) { if (INSTRUMENTING) { Manager.v().catchableAsFromSearch++; } for (Iterator i = exceptionsExcluded.iterator(); i.hasNext(); ) { AnySubType exclusion = (AnySubType) i.next(); if (h.canStoreType(catcher, exclusion.getBase())) { return false; } } } if (exceptionsIncluded.contains(catcher)) { if (INSTRUMENTING) { if (exceptionsExcluded.size() == 0) { Manager.v().catchableAsFromMap++; } else { Manager.v().catchableAsFromSearch++; } } return true; } else { if (INSTRUMENTING) { if (exceptionsExcluded.size() == 0) { Manager.v().catchableAsFromSearch++; } } for (Iterator i = exceptionsIncluded.iterator(); i.hasNext(); ) { RefLikeType thrownType = (RefLikeType) i.next(); if (thrownType instanceof RefType) { if (thrownType == catcher) { // assertion failure. throw new IllegalStateException( "ThrowableSet.catchableAs(RefType): exceptions.contains() failed to match contained RefType " + catcher); } else if (h.canStoreType(thrownType, catcher)) { return true; } } else { RefType thrownBase = ((AnySubType) thrownType).getBase(); // At runtime, thrownType might be instantiated by any // of thrownBase's subtypes, so: if (h.canStoreType(thrownBase, catcher) || h.canStoreType(catcher, thrownBase)) { return true; } } } return false; } }
/** * Returns a <code>ThrowableSet</code> which contains all the exceptions in <code>s</code> in * addition to those in this <code>ThrowableSet</code>. * * @param s set of exceptions to add to this set. * @return the union of this set with <code>s</code> * @throws ThrowableSet.AlreadyHasExclusionsException if this <code>ThrowableSet</code> or <code>s * </code> is the result of a {@link #whichCatchableAs(RefType)} operation, so that it is not * possible to represent the addition of <code>s</code> to this <code>ThrowableSet</code>. */ public ThrowableSet add(ThrowableSet s) throws ThrowableSet.AlreadyHasExclusionsException { if (INSTRUMENTING) { Manager.v().addsOfSet++; } if (exceptionsExcluded.size() > 0 || s.exceptionsExcluded.size() > 0) { throw new AlreadyHasExclusionsException( "ThrowableSet.Add(ThrowableSet): attempt to add to [" + this.toString() + "] after removals recorded."); } ThrowableSet result = getMemoizedAdds(s); if (result == null) { if (INSTRUMENTING) { Manager.v().addsInclusionFromSearch++; Manager.v().addsExclusionWithoutSearch++; } result = this.add(s.exceptionsIncluded); memoizedAdds.put(s, result); } else if (INSTRUMENTING) { Manager.v().addsInclusionFromMemo++; Manager.v().addsExclusionWithoutSearch++; } return result; }
/** * Returns a <code>ThrowableSet</code> which contains <code>e</code> and all of its subclasses as * well as the exceptions in this set. * * <p><code>e</code> should be an instance of {@link AnySubType} if you know that the compile-time * type of the exception you are representing is <code>e</code>, but the exception may be * instantiated at run-time by a subclass of <code>e</code>. * * <p>For example, if you were recording the type of the exception thrown by * * <pre> * catch (IOException e) { * throw e; * } * </pre> * * you would call * * <pre> * <code>add(AnySubtype.v(Scene.v().getRefType("java.lang.Exception.IOException")))</code> * </pre> * * since the handler might rethrow any subclass of <code>IOException</code>. * * @param e represents a subtree of the exception class hierarchy to add to this set. * @return a set containing <code>e</code> and all its subclasses, as well as the exceptions * represented by this set. * @throws ThrowableSet.AlreadyHasExclusionsException if this <code>ThrowableSet</code> is the * result of a {@link #whichCatchableAs(RefType)} operation and, thus, unable to represent the * addition of <code>e</code>. */ public ThrowableSet add(AnySubType e) throws ThrowableSet.AlreadyHasExclusionsException { if (INSTRUMENTING) { Manager.v().addsOfAnySubType++; } ThrowableSet result = getMemoizedAdds(e); if (result != null) { if (INSTRUMENTING) { Manager.v().addsInclusionFromMemo++; Manager.v().addsExclusionWithoutSearch++; } return result; } else { FastHierarchy hierarchy = Scene.v().getOrMakeFastHierarchy(); RefType newBase = e.getBase(); if (INSTRUMENTING) { if (exceptionsExcluded.size() != 0) { Manager.v().addsExclusionWithSearch++; } else { Manager.v().addsExclusionWithoutSearch++; } } for (Iterator i = exceptionsExcluded.iterator(); i.hasNext(); ) { RefType exclusionBase = ((AnySubType) i.next()).getBase(); if (hierarchy.canStoreType(newBase, exclusionBase) || hierarchy.canStoreType(exclusionBase, newBase)) { if (INSTRUMENTING) { // To ensure that the subcategories total properly: Manager.v().addsInclusionInterrupted++; } throw new AlreadyHasExclusionsException( "ThrowableSet.add(" + e.toString() + ") to the set [ " + this.toString() + "] where " + exclusionBase.toString() + " is excluded."); } } if (this.exceptionsIncluded.contains(e)) { if (INSTRUMENTING) { Manager.v().addsInclusionFromMap++; } return this; } else { if (INSTRUMENTING) { Manager.v().addsInclusionFromSearch++; } int changes = 0; boolean addNewException = true; Set resultSet = new HashSet(); for (Iterator i = this.exceptionsIncluded.iterator(); i.hasNext(); ) { RefLikeType incumbent = (RefLikeType) i.next(); if (incumbent instanceof RefType) { if (hierarchy.canStoreType(incumbent, newBase)) { // Omit incumbent from result. changes++; } else { resultSet.add(incumbent); } } else if (incumbent instanceof AnySubType) { RefType incumbentBase = ((AnySubType) incumbent).getBase(); // We have to use the base types in these hierarchy calls // because we want to know if _all_ possible // types represented by e can be represented by // the incumbent, or vice versa. if (hierarchy.canStoreType(newBase, incumbentBase)) { addNewException = false; resultSet.add(incumbent); } else if (hierarchy.canStoreType(incumbentBase, newBase)) { // Omit incumbent from result; changes++; } else { resultSet.add(incumbent); } } else { // assertion failure. throw new IllegalStateException( "ThrowableSet.add(AnySubType): Set element " + incumbent.toString() + " is neither a RefType nor an AnySubType."); } } if (addNewException) { resultSet.add(e); changes++; } if (changes > 0) { result = Manager.v().registerSetIfNew(resultSet, this.exceptionsExcluded); } else { result = this; } memoizedAdds.put(e, result); return result; } } }
/** * Returns a <code>ThrowableSet</code> which contains <code>e</code> in addition to the exceptions * in this <code>ThrowableSet</code>. * * <p>Add <code>e</code> as a {@link RefType} when you know that the run-time class of the * exception you are representing is necessarily <code>e</code> and cannot be a subclass of <code> * e</code>. * * <p>For example, if you were recording the type of the exception thrown by * * <pre> * throw new IOException("Permission denied"); * </pre> * * you would call * * <pre> * <code>add(Scene.v().getRefType("java.lang.Exception.IOException"))</code> * </pre> * * since the class of the exception is necessarily <code>IOException</code>. * * @param e the exception class * @return a set containing <code>e</code> as well as the exceptions in this set. * @throws {@link ThrowableSet.IllegalStateException} if this <code>ThrowableSet</code> is the * result of a {@link #whichCatchableAs(RefType)} operation and, thus, unable to represent the * addition of <code>e</code>. */ public ThrowableSet add(RefType e) throws ThrowableSet.AlreadyHasExclusionsException { if (INSTRUMENTING) { Manager.v().addsOfRefType++; } if (this.exceptionsIncluded.contains(e)) { if (INSTRUMENTING) { Manager.v().addsInclusionFromMap++; Manager.v().addsExclusionWithoutSearch++; } return this; } else { ThrowableSet result = getMemoizedAdds(e); if (result != null) { if (INSTRUMENTING) { Manager.v().addsInclusionFromMemo++; Manager.v().addsExclusionWithoutSearch++; } return result; } else { if (INSTRUMENTING) { Manager.v().addsInclusionFromSearch++; if (exceptionsExcluded.size() != 0) { Manager.v().addsExclusionWithSearch++; } else { Manager.v().addsExclusionWithoutSearch++; } } FastHierarchy hierarchy = Scene.v().getOrMakeFastHierarchy(); for (Iterator i = exceptionsExcluded.iterator(); i.hasNext(); ) { RefType exclusionBase = ((AnySubType) i.next()).getBase(); if (hierarchy.canStoreType(e, exclusionBase)) { throw new AlreadyHasExclusionsException( "ThrowableSet.add(RefType): adding" + e.toString() + " to the set [ " + this.toString() + "] where " + exclusionBase.toString() + " is excluded."); } } for (Iterator i = exceptionsIncluded.iterator(); i.hasNext(); ) { RefLikeType incumbent = (RefLikeType) i.next(); if (incumbent instanceof AnySubType) { // Need to use incumbent.getBase() because // hierarchy.canStoreType() assumes that parent // is not an AnySubType. RefType incumbentBase = ((AnySubType) incumbent).getBase(); if (hierarchy.canStoreType(e, incumbentBase)) { memoizedAdds.put(e, this); return this; } } else if (!(incumbent instanceof RefType)) { // assertion failure. throw new IllegalStateException( "ThrowableSet.add(RefType): Set element " + incumbent.toString() + " is neither a RefType nor an AnySubType."); } } Set resultSet = new HashSet(this.exceptionsIncluded); resultSet.add(e); result = Manager.v().registerSetIfNew(resultSet, this.exceptionsExcluded); memoizedAdds.put(e, result); return result; } } }
// This method adds the monitorenter/exit statements into whichever pegChain contains the // corresponding node statement protected void addMonitorStmt() { // System.out.println("====entering addMonitorStmt"); if (synch.size() > 0) { // System.out.println("synch: "+synch); Iterator<List> it = synch.iterator(); while (it.hasNext()) { List list = it.next(); JPegStmt node = (JPegStmt) list.get(0); JPegStmt enter = (JPegStmt) list.get(1); JPegStmt exit = (JPegStmt) list.get(2); // System.out.println("monitor node: "+node); // System.out.println("monitor enter: "+enter); // System.out.println("monitor exit: "+exit); // add for test // System.out.println("allNodes contains node: "+allNodes.contains(node)); // end add for test { if (!mainPegChain.contains(node)) { boolean find = false; // System.out.println("main chain does not contain node"); Set maps = startToThread.entrySet(); // System.out.println("size of startToThread: "+startToThread.size()); for (Iterator iter = maps.iterator(); iter.hasNext(); ) { Map.Entry entry = (Map.Entry) iter.next(); Object startNode = entry.getKey(); Iterator runIt = ((List) entry.getValue()).iterator(); while (runIt.hasNext()) { Chain chain = (Chain) runIt.next(); // testPegChain(chain); if (chain.contains(node)) { find = true; // System.out.println("---find it---"); chain.add(enter); chain.add(exit); break; } } } if (find == false) { System.err.println("fail to find stmt: " + node + " in chains!"); System.exit(1); } // this.toString(); } else { mainPegChain.add(enter); mainPegChain.add(exit); } } allNodes.add(enter); allNodes.add(exit); insertBefore(node, enter); insertAfter(node, exit); } } // add for test /* { // System.out.println("===main peg chain==="); //testPegChain(mainPegChain); //System.out.println("===end main peg chain==="); Set maps = startToThread.entrySet(); for(Iterator iter=maps.iterator(); iter.hasNext();){ Map.Entry entry = (Map.Entry)iter.next(); Object startNode = entry.getKey(); Iterator runIt = ((List)entry.getValue()).iterator(); while (runIt.hasNext()){ Chain chain=(Chain)runIt.next(); testPegChain(chain); } } } */ // System.out.println(this.toString()); // end add for test }
/** * @param annotations * @return */ private List<Tag> handleAnnotation( Set<? extends org.jf.dexlib2.iface.Annotation> annotations, String classType) { if (annotations == null || annotations.size() == 0) return null; List<Tag> tags = new ArrayList<Tag>(); VisibilityAnnotationTag[] vatg = new VisibilityAnnotationTag[3]; // RUNTIME_VISIBLE, RUNTIME_INVISIBLE, SOURCE_VISIBLE, see // soot.tagkit.AnnotationConstants for (Annotation a : annotations) { int v = getVisibility(a.getVisibility()); Tag t = null; Type atype = DexType.toSoot(a.getType()); String atypes = atype.toString(); int eSize = a.getElements().size(); Debug.printDbg("annotation type: ", atypes, " elements: ", eSize); if (atypes.equals("dalvik.annotation.AnnotationDefault")) { if (eSize != 1) throw new RuntimeException( "error: expected 1 element for annotation Default. Got " + eSize + " instead."); // get element AnnotationElem e = getElements(a.getElements()).get(0); AnnotationTag adt = new AnnotationTag(a.getType()); adt.addElem(e); if (vatg[v] == null) vatg[v] = new VisibilityAnnotationTag(v); vatg[v].addAnnotation(adt); } else if (atypes.equals("dalvik.annotation.EnclosingClass")) { if (eSize != 1) throw new RuntimeException( "error: expected 1 element for annotation EnclosingClass. Got " + eSize + " instead."); for (AnnotationElement elem : a.getElements()) { String outerClass = ((TypeEncodedValue) elem.getValue()).getValue(); outerClass = Util.dottedClassName(outerClass); deps.typesToSignature.add(RefType.v(outerClass)); clazz.setOuterClass(SootResolver.v().makeClassRef(outerClass)); assert clazz.getOuterClass() != clazz; } // EnclosingClass comes in pair with InnerClass. // Those are generated from a single InnerClassTag, // that is re-constructed only for the InnerClass Dalvik // annotation. continue; } else if (atypes.equals("dalvik.annotation.EnclosingMethod")) { if (eSize != 1) throw new RuntimeException( "error: expected 1 element for annotation EnclosingMethod. Got " + eSize + " instead."); AnnotationStringElem e = (AnnotationStringElem) getElements(a.getElements()).get(0); String[] split1 = e.getValue().split("\\ \\|"); String classString = split1[0]; String methodString = split1[1]; String parameters = split1[2]; String returnType = split1[3]; String methodSigString = "(" + parameters + ")" + returnType; t = new EnclosingMethodTag(classString, methodString, methodSigString); String outerClass = classString.replace("/", "."); deps.typesToSignature.add(RefType.v(outerClass)); clazz.setOuterClass(SootResolver.v().makeClassRef(outerClass)); assert clazz.getOuterClass() != clazz; } else if (atypes.equals("dalvik.annotation.InnerClass")) { int accessFlags = -1; // access flags of the inner class String name = null; // name of the inner class for (AnnotationElem ele : getElements(a.getElements())) { if (ele instanceof AnnotationIntElem && ele.getName().equals("accessFlags")) accessFlags = ((AnnotationIntElem) ele).getValue(); else if (ele instanceof AnnotationStringElem && ele.getName().equals("name")) name = ((AnnotationStringElem) ele).getValue(); else throw new RuntimeException("Unexpected inner class annotation element"); } String outerClass; // outer class name if (name == null) outerClass = classType.replaceAll("\\$[0-9,a-z,A-Z]*;$", ";"); else outerClass = classType.replaceFirst("\\$" + name + ";$", ";"); // Make sure that no funny business is going on if the // annotation is broken and does not end in $nn. if (outerClass.equals(classType)) { outerClass = null; } Tag innerTag = new InnerClassTag( DexType.toSootICAT(classType), outerClass == null ? null : DexType.toSootICAT(outerClass), name, accessFlags); tags.add(innerTag); if (outerClass != null && !clazz.hasOuterClass()) { String sootOuterClass = Util.dottedClassName(outerClass); deps.typesToSignature.add(RefType.v(sootOuterClass)); clazz.setOuterClass(SootResolver.v().makeClassRef(sootOuterClass)); assert clazz.getOuterClass() != clazz; } continue; } else if (atypes.equals("dalvik.annotation.MemberClasses")) { AnnotationArrayElem e = (AnnotationArrayElem) getElements(a.getElements()).get(0); for (AnnotationElem ae : e.getValues()) { AnnotationClassElem c = (AnnotationClassElem) ae; String innerClass = c.getDesc(); String outerClass = innerClass.replaceAll("\\$[^\\$]*$", ""); String name = innerClass.replaceAll("^.*\\$", "").replaceAll(";$", ""); if (name.replaceAll("[0-9].*", "").equals("")) { // anonymous or local inner classes name = null; } int accessFlags = 0; // seems like this information is lost during the .class -- dx --> .dex process. Tag innerTag = new InnerClassTag( DexType.toSootICAT(innerClass), DexType.toSootICAT(outerClass), name, accessFlags); tags.add(innerTag); } continue; } else if (atypes.equals("dalvik.annotation.Signature")) { if (eSize != 1) throw new RuntimeException( "error: expected 1 element for annotation Signature. Got " + eSize + " instead."); AnnotationArrayElem e = (AnnotationArrayElem) getElements(a.getElements()).get(0); String sig = ""; for (AnnotationElem ae : e.getValues()) { AnnotationStringElem s = (AnnotationStringElem) ae; sig += s.getValue(); } t = new SignatureTag(sig); } else if (atypes.equals("dalvik.annotation.Throws")) { // this is handled in soot.dexpler.DexMethod continue; } else if (atypes.equals("java.lang.Deprecated")) { if (eSize != 0) throw new RuntimeException( "error: expected 1 element for annotation Deprecated. Got " + eSize + " instead."); t = new DeprecatedTag(); AnnotationTag adt = new AnnotationTag("Ljava/lang/Deprecated;"); if (vatg[v] == null) vatg[v] = new VisibilityAnnotationTag(v); vatg[v].addAnnotation(adt); } else { Debug.printDbg("read visibility tag: ", a.getType()); if (vatg[v] == null) vatg[v] = new VisibilityAnnotationTag(v); AnnotationTag tag = new AnnotationTag(a.getType()); for (AnnotationElem e : getElements(a.getElements())) tag.addElem(e); vatg[v].addAnnotation(tag); } tags.add(t); } for (VisibilityAnnotationTag vat : vatg) if (vat != null) tags.add(vat); return tags; }