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JavaPayload4Metasploit - Single payload loader class to be used in the Metasploit project

© 2010 Michael 'mihi' Schierl, <schierlm at users dot sourceforge dot net>

Introduction

The JavaPayloads contain useful payloads written in pure Java. But they assume that the attacker has a Java VM on their machine, as the builders and stage handlers are written in Java. In addition, when creating a new payload class that should reside in a signed jar, the jar has to be re-signed as classes have changed.

In contrast, this package contains a single metasploit.Payload class which is configured by a property file in the classpath (i. e. in the same jar). As it is possible to add unsigned resources to a jar without requiring to re-sign it, and as it is easy to manipulate zip/jar files from Ruby, this makes it possible to leverage the powers of JavaPayload from Metasploit which is written in Ruby and not in Java.

System requirements

Same as JavaPayload. JRE 1.2 on the victim machine is enough :-)

On the attacker machine, no Java at all is required.

How to use the Payload class.

The Payload class is a standard java main class (i. e. it has a public static void main(String[]) method), so the most obvious way to invoke it is putting it into a Jar file whose manifest's Main-Class attribute is metasploit.Payload. The resuling jar can be started using java -jar jarfile.jar. There are 3 example jars available that use this technique; they are described later.

Alternatively, the main class can of course be called from other classes, like metasploit.Payload.main(null);, as the arguments parameter is ignored. Note that in a sandboxed environment the caller needs to have all permissions, and also the Payload class has to be loaded with all permissions. In case there is untrusted code in the stack trace (but the direct caller has all permissions), the call has to be wrapped in a doPrivileged call (like it is done in the several well known public exploits for CVE-2008-5353).

Once loaded, the class will lookup a file called /metasploit.dat from the class path and load it as a Property file (basically a text file with Name=value lines, but note that some special characters need escaping). If the file cannot be found, default values are used.

Depending on the property values (see below), the class will then optionally write itself to disk and spawn a sub-process (once or several times) to disconnect the payload from the calling process. All temporary files will be deleted afterwards. (Even on Windows it is possible to delete a running class file as technically, not the class file but the Java VM is running).

After that, it will either listen on a port and accept a socket, connect to an URL (using a protocol like HTTP or HTTPS), create an active socket connection, or (for debugging purposes) just uses standard input and standard output; in any case, the resulting input/output streams are used for the staging

Once the stage is loaded, the streams are handed to the stage. Stages may require optional parameters (a string) which can be given in the property file.

When the stage quits, the payload class terminates and cleans up after itself if needed.

Supported properties (and their default values)

Spawn(=0)

The number of java processes that should be spawned. 0 will run the payload inside the original process, 1 will spawn once (to continue running when the original process terminates), and 2 will spawn twice (on certain popular operating systems it is impossible to obtain parent process information if the parent process has already died).

Executable(=)

Points to an executable in the class path (next to metasploit.dat), which will be extracted to a temporary directory (with original filename), made executable (if needed by the OS) and executed. When this option is present, no staging will be performed and all options documented below are ignored.

StageParameters(=)

Additional parameters to be used by the stage, regardless whether it was embedded or not. Only few stages support/require parameters.

URL(=)

Load the stage from this URL. The URL will be requested and the resulting stream will be used for loading the stage classes from. As the stage's output stream will discard all input, this is only useful with stages (like Meterpreter) that can communicate via some other means back to the attacker.

Note: If this option is given, LHOST and LPORT are ignored.

LPORT(=4444)

Port to listen on or to connect to (if LHOST is also set). If explicitly set to 0, no connection will be made, but standard input/output streams will be used instead.

LHOST(=)

Host to connect to. If not set, the payload will listen instead.

Staging protocol

The staging protocol is quite simple. All classes are sent uncompressed (as they are inside the .jar file). Each class is prefixed by a 32-bit big-endian size. After the last class, a size of 0 is sent. The classes will be defined in the order they are sent (i. e. they can only refer to classes defined before), and the last sent class will be loaded as a stage.

In case of an embedded stage, no staging is used - the stream is directly passed to the stage.

Supported stages (in alphabetical order)

The stages are original JavaPayload stages to make updates easier. All stages listed here can be used without special "Java" tricks (like serialization or JDWP protocol), to easily use them from Ruby.

Meterpreter

  • Stage classes javapayload.stage.Stage, com.metasploit.meterpreter.MemoryBufferURLConnection, com.metasploit.meterpreter.MemoryBufferURLStreamHandler, javapayload.stage.Meterpreter

  • Parameters Optional parameter NoRedirect for debugging.

  • Stage protocol Meterpreter protocol

Loader to load the Java version of Metasploit's own post-exploitation toolkit.

Shell

  • Stage classes javapayload.stage.Stage, javapayload.stage.StreamForwarder, javapayload.stage.Shell

  • Parameters Not supported

  • Stage protocol Plain text

This stager loads /bin/sh on Unix systems and cmd.exe on Windows systems, and else just behaves like the Exec stage.