/** * Processes the fields of the given class. * * @param cf {@code non-null;} class being translated * @param out {@code non-null;} output class */ private static void processFields(DirectClassFile cf, ClassDefItem out) { CstType thisClass = cf.getThisClass(); FieldList fields = cf.getFields(); int sz = fields.size(); for (int i = 0; i < sz; i++) { Field one = fields.get(i); try { CstFieldRef field = new CstFieldRef(thisClass, one.getNat()); int accessFlags = one.getAccessFlags(); if (AccessFlags.isStatic(accessFlags)) { TypedConstant constVal = one.getConstantValue(); EncodedField fi = new EncodedField(field, accessFlags); if (constVal != null) { constVal = coerceConstant(constVal, field.getType()); } out.addStaticField(fi, constVal); } else { EncodedField fi = new EncodedField(field, accessFlags); out.addInstanceField(fi); } Annotations annotations = AttributeTranslator.getAnnotations(one.getAttributes()); if (annotations.size() != 0) { out.addFieldAnnotations(field, annotations); } } catch (RuntimeException ex) { String msg = "...while processing " + one.getName().toHuman() + " " + one.getDescriptor().toHuman(); throw ExceptionWithContext.withContext(ex, msg); } } }
/** * Performs the main act of translation. This method is separated from {@link #translate} just to * keep things a bit simpler in terms of exception handling. * * @param filePath {@code non-null;} the file path for the class, excluding any base directory * specification * @param bytes {@code non-null;} contents of the file * @param cfOptions options for class translation * @param dexOptions options for dex output * @return {@code non-null;} the translated class */ private static ClassDefItem translate0( String filePath, byte[] bytes, CfOptions cfOptions, DexOptions dexOptions) { DirectClassFile cf = new DirectClassFile(bytes, filePath, cfOptions.strictNameCheck); cf.setAttributeFactory(StdAttributeFactory.THE_ONE); cf.getMagic(); OptimizerOptions.loadOptimizeLists(cfOptions.optimizeListFile, cfOptions.dontOptimizeListFile); // Build up a class to output. CstType thisClass = cf.getThisClass(); int classAccessFlags = cf.getAccessFlags() & ~AccessFlags.ACC_SUPER; CstString sourceFile = (cfOptions.positionInfo == PositionList.NONE) ? null : cf.getSourceFile(); ClassDefItem out = new ClassDefItem( thisClass, classAccessFlags, cf.getSuperclass(), cf.getInterfaces(), sourceFile); Annotations classAnnotations = AttributeTranslator.getClassAnnotations(cf, cfOptions); if (classAnnotations.size() != 0) { out.setClassAnnotations(classAnnotations); } processFields(cf, out); processMethods(cf, cfOptions, dexOptions, out); return out; }
/** Does the dumping. */ public void dump() { byte[] bytes = getBytes(); ByteArray ba = new ByteArray(bytes); /* * First, parse the file completely, so we can safely refer to * attributes, etc. */ classFile = new DirectClassFile(ba, getFilePath(), getStrictParse()); classFile.setAttributeFactory(StdAttributeFactory.THE_ONE); classFile.getMagic(); // Force parsing to happen. // Next, reparse it and observe the process. DirectClassFile liveCf = new DirectClassFile(ba, getFilePath(), getStrictParse()); liveCf.setAttributeFactory(StdAttributeFactory.THE_ONE); liveCf.setObserver(this); liveCf.getMagic(); // Force parsing to happen. }
/** * Processes the methods of the given class. * * @param cf {@code non-null;} class being translated * @param cfOptions {@code non-null;} options for class translation * @param dexOptions {@code non-null;} options for dex output * @param out {@code non-null;} output class */ private static void processMethods( DirectClassFile cf, CfOptions cfOptions, DexOptions dexOptions, ClassDefItem out) { CstType thisClass = cf.getThisClass(); MethodList methods = cf.getMethods(); int sz = methods.size(); for (int i = 0; i < sz; i++) { Method one = methods.get(i); try { CstMethodRef meth = new CstMethodRef(thisClass, one.getNat()); int accessFlags = one.getAccessFlags(); boolean isStatic = AccessFlags.isStatic(accessFlags); boolean isPrivate = AccessFlags.isPrivate(accessFlags); boolean isNative = AccessFlags.isNative(accessFlags); boolean isAbstract = AccessFlags.isAbstract(accessFlags); boolean isConstructor = meth.isInstanceInit() || meth.isClassInit(); DalvCode code; if (isNative || isAbstract) { // There's no code for native or abstract methods. code = null; } else { ConcreteMethod concrete = new ConcreteMethod( one, cf, (cfOptions.positionInfo != PositionList.NONE), cfOptions.localInfo); TranslationAdvice advice; advice = DexTranslationAdvice.THE_ONE; RopMethod rmeth = Ropper.convert(concrete, advice); RopMethod nonOptRmeth = null; int paramSize; paramSize = meth.getParameterWordCount(isStatic); String canonicalName = thisClass.getClassType().getDescriptor() + "." + one.getName().getString(); if (cfOptions.optimize && OptimizerOptions.shouldOptimize(canonicalName)) { if (DEBUG) { System.err.println("Optimizing " + canonicalName); } nonOptRmeth = rmeth; rmeth = Optimizer.optimize(rmeth, paramSize, isStatic, cfOptions.localInfo, advice); if (DEBUG) { OptimizerOptions.compareOptimizerStep( nonOptRmeth, paramSize, isStatic, cfOptions, advice, rmeth); } if (cfOptions.statistics) { CodeStatistics.updateRopStatistics(nonOptRmeth, rmeth); } } LocalVariableInfo locals = null; if (cfOptions.localInfo) { locals = LocalVariableExtractor.extract(rmeth); } code = RopTranslator.translate(rmeth, cfOptions.positionInfo, locals, paramSize, dexOptions); if (cfOptions.statistics && nonOptRmeth != null) { updateDexStatistics( cfOptions, dexOptions, rmeth, nonOptRmeth, locals, paramSize, concrete.getCode().size()); } } // Preserve the synchronized flag as its "declared" variant... if (AccessFlags.isSynchronized(accessFlags)) { accessFlags |= AccessFlags.ACC_DECLARED_SYNCHRONIZED; /* * ...but only native methods are actually allowed to be * synchronized. */ if (!isNative) { accessFlags &= ~AccessFlags.ACC_SYNCHRONIZED; } } if (isConstructor) { accessFlags |= AccessFlags.ACC_CONSTRUCTOR; } TypeList exceptions = AttributeTranslator.getExceptions(one); EncodedMethod mi = new EncodedMethod(meth, accessFlags, code, exceptions); if (meth.isInstanceInit() || meth.isClassInit() || isStatic || isPrivate) { out.addDirectMethod(mi); } else { out.addVirtualMethod(mi); } Annotations annotations = AttributeTranslator.getMethodAnnotations(one); if (annotations.size() != 0) { out.addMethodAnnotations(meth, annotations); } AnnotationsList list = AttributeTranslator.getParameterAnnotations(one); if (list.size() != 0) { out.addParameterAnnotations(meth, list); } } catch (RuntimeException ex) { String msg = "...while processing " + one.getName().toHuman() + " " + one.getDescriptor().toHuman(); throw ExceptionWithContext.withContext(ex, msg); } } }