/* * Copyright (C) 2012 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.tools.layoutlib.create; import com.android.tools.layoutlib.annotations.VisibleForTesting; import com.android.tools.layoutlib.annotations.VisibleForTesting.Visibility; import org.objectweb.asm.AnnotationVisitor; import org.objectweb.asm.Attribute; import org.objectweb.asm.ClassReader; import org.objectweb.asm.ClassVisitor; import org.objectweb.asm.FieldVisitor; import org.objectweb.asm.Label; import org.objectweb.asm.MethodVisitor; import org.objectweb.asm.Opcodes; import org.objectweb.asm.Type; import org.objectweb.asm.signature.SignatureReader; import org.objectweb.asm.signature.SignatureVisitor; import java.io.IOException; import java.util.ArrayList; import java.util.Enumeration; import java.util.List; import java.util.Map; import java.util.Map.Entry; import java.util.Set; import java.util.TreeMap; import java.util.TreeSet; import java.util.zip.ZipEntry; import java.util.zip.ZipFile; /** * Analyzes the input JAR using the ASM java bytecode manipulation library * to list the classes and their dependencies. A "dependency" is a class * used by another class. */ public class DependencyFinder { // Note: a bunch of stuff has package-level access for unit tests. Consider it private. /** Output logger. */ private final Log mLog; /** * Creates a new analyzer. * * @param log The log output. */ public DependencyFinder(Log log) { mLog = log; } /** * Starts the analysis using parameters from the constructor. * * @param osJarPath The input source JARs to parse. * @return A pair: [0]: map { class FQCN => set of FQCN class dependencies }. * [1]: map { missing class FQCN => set of FQCN class that uses it. } */ public List>> findDeps(List osJarPath) throws IOException { Map zipClasses = parseZip(osJarPath); mLog.info("Found %d classes in input JAR%s.", zipClasses.size(), osJarPath.size() > 1 ? "s" : ""); Map> deps = findClassesDeps(zipClasses); Map> missing = findMissingClasses(deps, zipClasses.keySet()); List>> result = new ArrayList>>(2); result.add(deps); result.add(missing); return result; } /** * Prints dependencies to the current logger, found stuff and missing stuff. */ public void printAllDeps(List>> result) { assert result.size() == 2; Map> deps = result.get(0); Map> missing = result.get(1); // Print all dependences found in the format: // +Found: // uses: FQCN mLog.info("++++++ %d Entries found in source JARs", deps.size()); mLog.info(""); for (Entry> entry : deps.entrySet()) { mLog.info( "+Found : %s", entry.getKey()); for (String dep : entry.getValue()) { mLog.info(" uses: %s", dep); } mLog.info(""); } // Now print all missing dependences in the format: // -Missing : // used by: mLog.info(""); mLog.info("------ %d Entries missing from source JARs", missing.size()); mLog.info(""); for (Entry> entry : missing.entrySet()) { mLog.info( "-Missing : %s", entry.getKey()); for (String dep : entry.getValue()) { mLog.info(" used by: %s", dep); } mLog.info(""); } } /** * Prints only a summary of the missing dependencies to the current logger. */ public void printMissingDeps(List>> result) { assert result.size() == 2; @SuppressWarnings("unused") Map> deps = result.get(0); Map> missing = result.get(1); for (String fqcn : missing.keySet()) { mLog.info("%s", fqcn); } } // ---------------- /** * Parses a JAR file and returns a list of all classes founds using a map * class name => ASM ClassReader. Class names are in the form "android.view.View". */ Map parseZip(List jarPathList) throws IOException { TreeMap classes = new TreeMap(); for (String jarPath : jarPathList) { ZipFile zip = new ZipFile(jarPath); Enumeration entries = zip.entries(); ZipEntry entry; while (entries.hasMoreElements()) { entry = entries.nextElement(); if (entry.getName().endsWith(".class")) { ClassReader cr = new ClassReader(zip.getInputStream(entry)); String className = classReaderToClassName(cr); classes.put(className, cr); } } } return classes; } /** * Utility that returns the fully qualified binary class name for a ClassReader. * E.g. it returns something like android.view.View. */ static String classReaderToClassName(ClassReader classReader) { if (classReader == null) { return null; } else { return classReader.getClassName().replace('/', '.'); } } /** * Utility that returns the fully qualified binary class name from a path-like FQCN. * E.g. it returns android.view.View from android/view/View. */ static String internalToBinaryClassName(String className) { if (className == null) { return null; } else { return className.replace('/', '.'); } } /** * Finds all dependencies for all classes in keepClasses which are also * listed in zipClasses. Returns a map of all the dependencies found. */ Map> findClassesDeps(Map zipClasses) { // The dependencies that we'll collect. // It's a map Class name => uses class names. Map> dependencyMap = new TreeMap>(); DependencyVisitor visitor = getVisitor(); int count = 0; try { for (Entry entry : zipClasses.entrySet()) { String name = entry.getKey(); TreeSet set = new TreeSet(); dependencyMap.put(name, set); visitor.setDependencySet(set); ClassReader cr = entry.getValue(); cr.accept(visitor, 0 /* flags */); visitor.setDependencySet(null); mLog.debugNoln("Visited %d classes\r", ++count); } } finally { mLog.debugNoln("\n"); } return dependencyMap; } /** * Computes which classes FQCN were found as dependencies that are NOT listed * in the original JAR classes. * * @param deps The map { FQCN => dependencies[] } returned by {@link #findClassesDeps(Map)}. * @param zipClasses The set of all classes FQCN found in the JAR files. * @return A map { FQCN not found in the zipClasses => classes using it } */ private Map> findMissingClasses( Map> deps, Set zipClasses) { Map> missing = new TreeMap>(); for (Entry> entry : deps.entrySet()) { String name = entry.getKey(); for (String dep : entry.getValue()) { if (!zipClasses.contains(dep)) { // This dependency doesn't exist in the zip classes. Set set = missing.get(dep); if (set == null) { set = new TreeSet(); missing.put(dep, set); } set.add(name); } } } return missing; } // ---------------------------------- /** * Instantiates a new DependencyVisitor. Useful for unit tests. */ @VisibleForTesting(visibility=Visibility.PRIVATE) DependencyVisitor getVisitor() { return new DependencyVisitor(); } /** * Visitor to collect all the type dependencies from a class. */ public class DependencyVisitor extends ClassVisitor { private Set mCurrentDepSet; /** * Creates a new visitor that will find all the dependencies for the visited class. */ public DependencyVisitor() { super(Opcodes.ASM4); } /** * Sets the {@link Set} where to record direct dependencies for this class. * This will change before each {@link ClassReader#accept(ClassVisitor, int)} call. */ public void setDependencySet(Set set) { mCurrentDepSet = set; } /** * Considers the given class name as a dependency. */ public void considerName(String className) { if (className == null) { return; } className = internalToBinaryClassName(className); try { // exclude classes that are part of the default JRE (the one executing this program) if (getClass().getClassLoader().loadClass(className) != null) { return; } } catch (ClassNotFoundException e) { // ignore } // Add it to the dependency set for the currently visited class, as needed. assert mCurrentDepSet != null; if (mCurrentDepSet != null) { mCurrentDepSet.add(className); } } /** * Considers this array of names using considerName(). */ public void considerNames(String[] classNames) { if (classNames != null) { for (String className : classNames) { considerName(className); } } } /** * Considers this signature or type signature by invoking the {@link SignatureVisitor} * on it. */ public void considerSignature(String signature) { if (signature != null) { SignatureReader sr = new SignatureReader(signature); // SignatureReader.accept will call accessType so we don't really have // to differentiate where the signature comes from. sr.accept(new MySignatureVisitor()); } } /** * Considers this {@link Type}. For arrays, the element type is considered. * If the type is an object, it's internal name is considered. */ public void considerType(Type t) { if (t != null) { if (t.getSort() == Type.ARRAY) { t = t.getElementType(); } if (t.getSort() == Type.OBJECT) { considerName(t.getInternalName()); } } } /** * Considers a descriptor string. The descriptor is converted to a {@link Type} * and then considerType() is invoked. */ public boolean considerDesc(String desc) { if (desc != null) { try { if (desc.length() > 0 && desc.charAt(0) == '(') { // This is a method descriptor with arguments and a return type. Type t = Type.getReturnType(desc); considerType(t); for (Type arg : Type.getArgumentTypes(desc)) { considerType(arg); } } else { Type t = Type.getType(desc); considerType(t); } return true; } catch (ArrayIndexOutOfBoundsException e) { // ignore, not a valid type. } } return false; } // --------------------------------------------------- // --- ClassVisitor, FieldVisitor // --------------------------------------------------- // Visits a class header @Override public void visit(int version, int access, String name, String signature, String superName, String[] interfaces) { // signature is the signature of this class. May be null if the class is not a generic // one, and does not extend or implement generic classes or interfaces. if (signature != null) { considerSignature(signature); } // superName is the internal of name of the super class (see getInternalName). // For interfaces, the super class is Object. May be null but only for the Object class. considerName(superName); // interfaces is the internal names of the class's interfaces (see getInternalName). // May be null. considerNames(interfaces); } @Override public AnnotationVisitor visitAnnotation(String desc, boolean visible) { // desc is the class descriptor of the annotation class. considerDesc(desc); return new MyAnnotationVisitor(); } @Override public void visitAttribute(Attribute attr) { // pass } // Visits the end of a class @Override public void visitEnd() { // pass } private class MyFieldVisitor extends FieldVisitor { public MyFieldVisitor() { super(Opcodes.ASM4); } @Override public AnnotationVisitor visitAnnotation(String desc, boolean visible) { // desc is the class descriptor of the annotation class. considerDesc(desc); return new MyAnnotationVisitor(); } @Override public void visitAttribute(Attribute attr) { // pass } // Visits the end of a class @Override public void visitEnd() { // pass } } @Override public FieldVisitor visitField(int access, String name, String desc, String signature, Object value) { // desc is the field's descriptor (see Type). considerDesc(desc); // signature is the field's signature. May be null if the field's type does not use // generic types. considerSignature(signature); return new MyFieldVisitor(); } @Override public void visitInnerClass(String name, String outerName, String innerName, int access) { // name is the internal name of an inner class (see getInternalName). // Note: outerName/innerName seems to be null when we're reading the // _Original_ClassName classes generated by layoutlib_create. if (outerName != null) { considerName(name); } } @Override public MethodVisitor visitMethod(int access, String name, String desc, String signature, String[] exceptions) { // desc is the method's descriptor (see Type). considerDesc(desc); // signature is the method's signature. May be null if the method parameters, return // type and exceptions do not use generic types. considerSignature(signature); return new MyMethodVisitor(); } @Override public void visitOuterClass(String owner, String name, String desc) { // pass } @Override public void visitSource(String source, String debug) { // pass } // --------------------------------------------------- // --- MethodVisitor // --------------------------------------------------- private class MyMethodVisitor extends MethodVisitor { public MyMethodVisitor() { super(Opcodes.ASM4); } @Override public AnnotationVisitor visitAnnotationDefault() { return new MyAnnotationVisitor(); } @Override public void visitCode() { // pass } // field instruction @Override public void visitFieldInsn(int opcode, String owner, String name, String desc) { // owner is the class that declares the field. considerName(owner); // desc is the field's descriptor (see Type). considerDesc(desc); } @Override public void visitFrame(int type, int local, Object[] local2, int stack, Object[] stack2) { // pass } @Override public void visitIincInsn(int var, int increment) { // pass -- an IINC instruction } @Override public void visitInsn(int opcode) { // pass -- a zero operand instruction } @Override public void visitIntInsn(int opcode, int operand) { // pass -- a single int operand instruction } @Override public void visitJumpInsn(int opcode, Label label) { // pass -- a jump instruction } @Override public void visitLabel(Label label) { // pass -- a label target } // instruction to load a constant from the stack @Override public void visitLdcInsn(Object cst) { if (cst instanceof Type) { considerType((Type) cst); } } @Override public void visitLineNumber(int line, Label start) { // pass } @Override public void visitLocalVariable(String name, String desc, String signature, Label start, Label end, int index) { // desc is the type descriptor of this local variable. considerDesc(desc); // signature is the type signature of this local variable. May be null if the local // variable type does not use generic types. considerSignature(signature); } @Override public void visitLookupSwitchInsn(Label dflt, int[] keys, Label[] labels) { // pass -- a lookup switch instruction } @Override public void visitMaxs(int maxStack, int maxLocals) { // pass } // instruction that invokes a method @Override public void visitMethodInsn(int opcode, String owner, String name, String desc) { // owner is the internal name of the method's owner class if (!considerDesc(owner) && owner.indexOf('/') != -1) { considerName(owner); } // desc is the method's descriptor (see Type). considerDesc(desc); } // instruction multianewarray, whatever that is @Override public void visitMultiANewArrayInsn(String desc, int dims) { // desc an array type descriptor. considerDesc(desc); } @Override public AnnotationVisitor visitParameterAnnotation(int parameter, String desc, boolean visible) { // desc is the class descriptor of the annotation class. considerDesc(desc); return new MyAnnotationVisitor(); } @Override public void visitTableSwitchInsn(int min, int max, Label dflt, Label[] labels) { // pass -- table switch instruction } @Override public void visitTryCatchBlock(Label start, Label end, Label handler, String type) { // type is the internal name of the type of exceptions handled by the handler, // or null to catch any exceptions (for "finally" blocks). considerName(type); } // type instruction @Override public void visitTypeInsn(int opcode, String type) { // type is the operand of the instruction to be visited. This operand must be the // internal name of an object or array class. considerName(type); } @Override public void visitVarInsn(int opcode, int var) { // pass -- local variable instruction } } private class MySignatureVisitor extends SignatureVisitor { public MySignatureVisitor() { super(Opcodes.ASM4); } // --------------------------------------------------- // --- SignatureVisitor // --------------------------------------------------- private String mCurrentSignatureClass = null; // Starts the visit of a signature corresponding to a class or interface type @Override public void visitClassType(String name) { mCurrentSignatureClass = name; considerName(name); } // Visits an inner class @Override public void visitInnerClassType(String name) { if (mCurrentSignatureClass != null) { mCurrentSignatureClass += "$" + name; considerName(mCurrentSignatureClass); } } @Override public SignatureVisitor visitArrayType() { return new MySignatureVisitor(); } @Override public void visitBaseType(char descriptor) { // pass -- a primitive type, ignored } @Override public SignatureVisitor visitClassBound() { return new MySignatureVisitor(); } @Override public SignatureVisitor visitExceptionType() { return new MySignatureVisitor(); } @Override public void visitFormalTypeParameter(String name) { // pass } @Override public SignatureVisitor visitInterface() { return new MySignatureVisitor(); } @Override public SignatureVisitor visitInterfaceBound() { return new MySignatureVisitor(); } @Override public SignatureVisitor visitParameterType() { return new MySignatureVisitor(); } @Override public SignatureVisitor visitReturnType() { return new MySignatureVisitor(); } @Override public SignatureVisitor visitSuperclass() { return new MySignatureVisitor(); } @Override public SignatureVisitor visitTypeArgument(char wildcard) { return new MySignatureVisitor(); } @Override public void visitTypeVariable(String name) { // pass } @Override public void visitTypeArgument() { // pass } } // --------------------------------------------------- // --- AnnotationVisitor // --------------------------------------------------- private class MyAnnotationVisitor extends AnnotationVisitor { public MyAnnotationVisitor() { super(Opcodes.ASM4); } // Visits a primitive value of an annotation @Override public void visit(String name, Object value) { // value is the actual value, whose type must be Byte, Boolean, Character, Short, // Integer, Long, Float, Double, String or Type if (value instanceof Type) { considerType((Type) value); } } @Override public AnnotationVisitor visitAnnotation(String name, String desc) { // desc is the class descriptor of the nested annotation class. considerDesc(desc); return new MyAnnotationVisitor(); } @Override public AnnotationVisitor visitArray(String name) { return new MyAnnotationVisitor(); } @Override public void visitEnum(String name, String desc, String value) { // desc is the class descriptor of the enumeration class. considerDesc(desc); } } } }