void handleClassAnnotation(ClassDef classDef) { Set<? extends Annotation> aSet = classDef.getAnnotations(); if (aSet == null || aSet.isEmpty()) return; List<Tag> tags = handleAnnotation(aSet, classDef.getType()); if (tags == null) return; InnerClassAttribute ica = null; for (Tag t : tags) if (t != null) { if (t instanceof InnerClassTag) { if (ica == null) { // Do we already have an InnerClassAttribute? ica = (InnerClassAttribute) clazz.getTag("InnerClassAttribute"); // If not, create one if (ica == null) { ica = new InnerClassAttribute(); clazz.addTag(ica); } } ica.add((InnerClassTag) t); } else if (t instanceof VisibilityAnnotationTag) { // If a dalvik/annotation/AnnotationDefault tag is present // in a class, its AnnotationElements must be propagated // to methods through the creation of new AnnotationDefaultTag. VisibilityAnnotationTag vt = (VisibilityAnnotationTag) t; for (AnnotationTag a : vt.getAnnotations()) { if (a.getType().equals("Ldalvik/annotation/AnnotationDefault;")) { for (AnnotationElem ae : a.getElems()) { if (ae instanceof AnnotationAnnotationElem) { AnnotationAnnotationElem aae = (AnnotationAnnotationElem) ae; AnnotationTag at = aae.getValue(); // extract default elements Map<String, AnnotationElem> defaults = new HashMap<String, AnnotationElem>(); for (AnnotationElem aelem : at.getElems()) { defaults.put(aelem.getName(), aelem); } // create default tags containing default elements // and add tags on methods for (SootMethod sm : clazz.getMethods()) { String methodName = sm.getName(); if (defaults.containsKey(methodName)) { AnnotationElem e = defaults.get(methodName); // Okay, the name is the same, but is it actually the same type? Type annotationType = getSootType(e); boolean isCorrectType = false; if (annotationType == null) { // we do not know the type of the annotation, so we guess it's the correct // type. isCorrectType = true; } else { if (annotationType.equals(sm.getReturnType())) { isCorrectType = true; } else if (annotationType.equals(ARRAY_TYPE)) { if (sm.getReturnType() instanceof ArrayType) isCorrectType = true; } } if (isCorrectType && sm.getParameterCount() == 0) { e.setName("default"); AnnotationDefaultTag d = new AnnotationDefaultTag(e); sm.addTag(d); // In case there is more than one matching method, we only use the first one defaults.remove(sm.getName()); } } } for (Entry<String, AnnotationElem> leftOverEntry : defaults.entrySet()) { // We were not able to find a matching method for the tag, because the return // signature // does not match SootMethod found = clazz.getMethodByNameUnsafe(leftOverEntry.getKey()); AnnotationElem element = leftOverEntry.getValue(); if (found != null) { element.setName("default"); AnnotationDefaultTag d = new AnnotationDefaultTag(element); found.addTag(d); } } } } } } if (!(vt.getVisibility() == AnnotationConstants.RUNTIME_INVISIBLE)) clazz.addTag(vt); } else { clazz.addTag(t); } Debug.printDbg("add class annotation: ", t, " type: ", t.getClass()); } }
private ArrayList<AnnotationElem> handleAnnotationElement( AnnotationElement ae, List<? extends EncodedValue> evList) { ArrayList<AnnotationElem> aelemList = new ArrayList<AnnotationElem>(); for (EncodedValue ev : evList) { int type = ev.getValueType(); AnnotationElem elem = null; Debug.printDbg("encoded value type: ", type); switch (type) { case 0x00: // BYTE { ByteEncodedValue v = (ByteEncodedValue) ev; elem = new AnnotationIntElem(v.getValue(), 'B', ae.getName()); break; } case 0x02: // SHORT { ShortEncodedValue v = (ShortEncodedValue) ev; elem = new AnnotationIntElem(v.getValue(), 'S', ae.getName()); break; } case 0x03: // CHAR { CharEncodedValue v = (CharEncodedValue) ev; elem = new AnnotationIntElem(v.getValue(), 'C', ae.getName()); break; } case 0x04: // INT { IntEncodedValue v = (IntEncodedValue) ev; elem = new AnnotationIntElem(v.getValue(), 'I', ae.getName()); break; } case 0x06: // LONG { LongEncodedValue v = (LongEncodedValue) ev; elem = new AnnotationLongElem(v.getValue(), 'J', ae.getName()); break; } case 0x10: // FLOAT { FloatEncodedValue v = (FloatEncodedValue) ev; elem = new AnnotationFloatElem(v.getValue(), 'F', ae.getName()); break; } case 0x11: // DOUBLE { DoubleEncodedValue v = (DoubleEncodedValue) ev; elem = new AnnotationDoubleElem(v.getValue(), 'D', ae.getName()); break; } case 0x17: // STRING { StringEncodedValue v = (StringEncodedValue) ev; elem = new AnnotationStringElem(v.getValue(), 's', ae.getName()); Debug.printDbg("value for string: ", v.getValue()); break; } case 0x18: // TYPE { TypeEncodedValue v = (TypeEncodedValue) ev; elem = new AnnotationClassElem(DexType.toSootAT(v.getValue()), 'c', ae.getName()); break; } case 0x19: // FIELD (Dalvik specific?) { FieldEncodedValue v = (FieldEncodedValue) ev; FieldReference fr = v.getValue(); String fieldSig = ""; fieldSig += DexType.toSootAT(fr.getDefiningClass()) + ": "; fieldSig += DexType.toSootAT(fr.getType()) + " "; fieldSig += fr.getName(); Debug.printDbg("FIELD: ", fieldSig); elem = new AnnotationStringElem(fieldSig, 'f', ae.getName()); break; } case 0x1a: // METHOD (Dalvik specific?) { MethodEncodedValue v = (MethodEncodedValue) ev; MethodReference mr = v.getValue(); String className = DexType.toSootICAT(mr.getDefiningClass()); String returnType = DexType.toSootAT(mr.getReturnType()); String methodName = mr.getName(); String parameters = ""; for (CharSequence p : mr.getParameterTypes()) { parameters += DexType.toSootAT(p.toString()); } String mSig = className + " |" + methodName + " |" + parameters + " |" + returnType; elem = new AnnotationStringElem(mSig, 'M', ae.getName()); break; } case 0x1b: // ENUM : Warning -> encoding Dalvik specific! { EnumEncodedValue v = (EnumEncodedValue) ev; FieldReference fr = v.getValue(); elem = new AnnotationEnumElem( DexType.toSootAT(fr.getType()).toString(), fr.getName(), 'e', ae.getName()); break; } case 0x1c: // ARRAY { ArrayEncodedValue v = (ArrayEncodedValue) ev; ArrayList<AnnotationElem> l = handleAnnotationElement(ae, v.getValue()); if (l != null) elem = new AnnotationArrayElem(l, '[', ae.getName()); break; } case 0x1d: // ANNOTATION { AnnotationEncodedValue v = (AnnotationEncodedValue) ev; AnnotationTag t = new AnnotationTag(DexType.toSootAT(v.getType()).toString()); for (AnnotationElement newElem : v.getElements()) { List<EncodedValue> l = new ArrayList<EncodedValue>(); l.add(newElem.getValue()); List<AnnotationElem> aList = handleAnnotationElement(newElem, l); if (aList != null) for (AnnotationElem e : aList) t.addElem(e); } elem = new AnnotationAnnotationElem(t, '@', ae.getName()); break; } case 0x1e: // NULL (Dalvik specific?) { elem = new AnnotationStringElem(null, 'N', ae.getName()); break; } case 0x1f: // BOOLEAN { BooleanEncodedValue v = (BooleanEncodedValue) ev; elem = new AnnotationBooleanElem(v.getValue(), 'Z', ae.getName()); break; } default: { throw new RuntimeException("Unknown annotation element 0x" + Integer.toHexString(type)); } } // switch (type) if (elem != null) aelemList.add(elem); } // for (EncodedValue) return aelemList; }
/** * @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; }