public void compile(Clazz clazz) throws IOException { reset(); File llFile = config.getLlFile(clazz); File bcFile = config.getBcFile(clazz); File sFile = config.getSFile(clazz); File oFile = config.getOFile(clazz); llFile.getParentFile().mkdirs(); bcFile.getParentFile().mkdirs(); sFile.getParentFile().mkdirs(); oFile.getParentFile().mkdirs(); OutputStream out = null; try { config.getLogger().debug("Compiling %s", clazz); out = new FileOutputStream(llFile); compile(clazz, out); } catch (Throwable t) { FileUtils.deleteQuietly(llFile); if (t instanceof IOException) { throw (IOException) t; } if (t instanceof RuntimeException) { throw (RuntimeException) t; } throw new RuntimeException(t); } finally { IOUtils.closeQuietly(out); } config.getLogger().debug("Optimizing %s", clazz); CompilerUtil.opt(config, llFile, bcFile, "-mem2reg", "-always-inline"); config.getLogger().debug("Generating %s assembly for %s", config.getArch(), clazz); CompilerUtil.llc(config, bcFile, sFile); patchAsmWithFunctionSizes(clazz, sFile); config.getLogger().debug("Assembling %s", clazz); CompilerUtil.assemble(config, sFile, oFile); }
private void compile(Clazz clazz, OutputStream out) throws IOException { sootClass = clazz.getSootClass(); mb = new ModuleBuilder(); trampolines = new HashSet<Trampoline>(); catches = new HashSet<String>(); classFields = getClassFields(sootClass); instanceFields = getInstanceFields(sootClass); classType = getClassType(sootClass); instanceType = getInstanceType(sootClass); attributesEncoder.encode(mb, sootClass); // Add a <clinit> method if the class has ConstantValueTags but no <clinit>. // This has to be done before createInfoStruct() is called otherwise the // ClassInfoHeader->initializer value will become NULL and constant static fields // will never be initialized. if (!sootClass.declaresMethodByName("<clinit>") && hasConstantValueTags(classFields)) { SootMethod clinit = new SootMethod("<clinit>", Collections.EMPTY_LIST, VoidType.v(), Modifier.STATIC); JimpleBody body = Jimple.v().newBody(clinit); clinit.setActiveBody(body); body.getUnits().add(new JReturnVoidStmt()); this.sootClass.addMethod(clinit); } if (isStruct(sootClass)) { if (!Modifier.isFinal(sootClass.getModifiers())) { throw new IllegalArgumentException("Struct class must be final"); } SootMethod _sizeOf = new SootMethod("_sizeOf", Collections.EMPTY_LIST, IntType.v(), Modifier.PROTECTED); sootClass.addMethod(_sizeOf); SootMethod sizeOf = new SootMethod( "sizeOf", Collections.EMPTY_LIST, IntType.v(), Modifier.PUBLIC | Modifier.STATIC); sootClass.addMethod(sizeOf); } mb.addInclude( getClass() .getClassLoader() .getResource( String.format("header-%s-%s.ll", config.getOs().getFamily(), config.getArch()))); mb.addInclude(getClass().getClassLoader().getResource("header.ll")); mb.addFunction(createInstanceof()); mb.addFunction(createCheckcast()); mb.addFunction(createLdcClass()); mb.addFunction(createLdcClassWrapper()); Function allocator = createAllocator(); mb.addFunction(allocator); mb.addFunction(createClassInitWrapperFunction(allocator.ref())); for (SootField f : sootClass.getFields()) { Function getter = createFieldGetter(f); Function setter = createFieldSetter(f); mb.addFunction(getter); mb.addFunction(setter); if (f.isStatic() && !f.isPrivate()) { mb.addFunction(createClassInitWrapperFunction(getter.ref())); if (!f.isFinal()) { mb.addFunction(createClassInitWrapperFunction(setter.ref())); } } } for (SootMethod method : sootClass.getMethods()) { String name = method.getName(); if (isBridge(method)) { bridgeMethod(method); } else if (isStruct(sootClass) && ("_sizeOf".equals(name) || "sizeOf".equals(name) || isStructMember(method))) { structMember(method); } else if (method.isNative()) { nativeMethod(method); } else if (!method.isAbstract()) { method(method); } if (!name.equals("<clinit>") && !name.equals("<init>") && !method.isPrivate() && !method.isStatic() && !Modifier.isFinal(method.getModifiers()) && !Modifier.isFinal(sootClass.getModifiers())) { createLookupFunction(method); } if (method.isStatic()) { String fnName = mangleMethod(method); if (method.isSynchronized()) { fnName += "_synchronized"; } FunctionRef fn = new FunctionRef(fnName, getFunctionType(method)); mb.addFunction(createClassInitWrapperFunction(fn)); } } Set<String> trampolineDependencies = new HashSet<String>(); for (Trampoline trampoline : trampolines) { trampolineResolver.compile(mb, trampoline); trampolineDependencies.addAll(trampolineResolver.getDependencies()); } Global classInfoStruct = null; StructureConstant classInfoErrorStruct = createClassInfoErrorStruct(); if (classInfoErrorStruct != null) { // The class cannot be loaded at runtime. Replace the ClassInfo struct // with a ClassInfoError struct with details of why. classInfoStruct = new Global(mangleClass(sootClass) + "_info_struct", classInfoErrorStruct); } else { classInfoStruct = new Global(mangleClass(sootClass) + "_info_struct", createClassInfoStruct()); } mb.addGlobal(classInfoStruct); Function infoFn = FunctionBuilder.infoStruct(sootClass); infoFn.add(new Ret(new ConstantBitcast(classInfoStruct.ref(), I8_PTR_PTR))); mb.addFunction(infoFn); out.write(mb.build().toString().getBytes("UTF-8")); clazz.clearDependencies(); clazz.addDependency( "java/lang/Object"); // Make sure no class or interface has zero dependencies if (sootClass.hasSuperclass() && !sootClass.isInterface()) { clazz.addDependency(getInternalName(sootClass.getSuperclass())); } for (SootClass iface : sootClass.getInterfaces()) { clazz.addDependency(getInternalName(iface)); } for (SootField f : sootClass.getFields()) { addDependencyIfNeeded(clazz, f.getType()); } for (SootMethod m : sootClass.getMethods()) { addDependencyIfNeeded(clazz, m.getReturnType()); @SuppressWarnings("unchecked") List<soot.Type> paramTypes = (List<soot.Type>) m.getParameterTypes(); for (soot.Type type : paramTypes) { addDependencyIfNeeded(clazz, type); } } clazz.addDependencies(attributesEncoder.getDependencies()); clazz.addDependencies(trampolineDependencies); clazz.addDependencies(catches); for (Trampoline t : trampolines) { if (!(t instanceof LdcString)) { String desc = t.getTarget(); if (desc.charAt(0) == 'L' || desc.charAt(0) == '[') { // Target is a descriptor addDependencyIfNeeded(clazz, desc); } else { clazz.addDependency(t.getTarget()); } } if (t instanceof FieldAccessor) { addDependencyIfNeeded(clazz, ((FieldAccessor) t).getFieldDesc()); } else if (t instanceof Invoke) { String methodDesc = ((Invoke) t).getMethodDesc(); addDependencyIfNeeded(clazz, getReturnTypeDescriptor(methodDesc)); for (String desc : getParameterDescriptors(methodDesc)) { addDependencyIfNeeded(clazz, desc); } } } clazz.saveDependencies(); }