This tool can help you escape from chroot environments. Even though chroot is not a security feature in any Unix systems, it is misused in a lot of setups. With this tool there is a chance that you can bypass this barrier.
Yes it was. Nobody cares. Chroot is not a security feature, so it should not be used as one. DragonFlyBSD already fixed the NULL pointer dereference bug. The tool does not work against NetBSD. It has a nice, but probably very slow check that helps defending against chroot bypasses.
Pretty simple. Black Magic. Seriously!
There are several scenarios where it can be useful to escape chroots, but most (not all) of them requires elevated privileges. However, most of the implemented techniques are based on the same technique.
All processes have two important properties when it comes to chroot: Current Working Directory (CWD) and Root. CWD can be changed easily, for example by the “cd” command. Changing root is much harder. One of the ways to change it is by calling the chroot() syscall or the chroot system tool, but both requires root privilege. When you have your root privilege, then you can call the chroot() syscall and change your process’ Root directory in the process’ property structure (all children processes inherit the Root and CWD properties). Let’s call this new root vnode the root barrier.
In order to escape the chrooted environment, the ultimate goal here is somehow to move your directory out of the chrooted environment, through the root barrier. Once your directory is out of the chrooted environment, your directory is above the process’ root (root barrier) in the filesystems tree structure, and you broke out of chroot. By addressing the directories relatively, the lookup() system function (which handles all the path-to-vnode translation) will find the original root because that is the last root barrier it can find (the process’ root barrier now is below your CWD in the tree).
NOTE: All techniques presume that you have the right privilege level and you are in the chrooted environment.
Root privilege: NEEDED
Well known technique, everybody knows, the one that everyone refers to.
The tool creates a new directory and calls the chroot() syscall on it. The kernel will not change the CWD (system tool does change), so the CWD will be above of the root barrier of the process.
- Bypasses: Linux, Solaris, Mac OS X
- DoS: DragonFlyBSD 4.0.5 and below tested
Root privilege: NEEDED
Same as the Classic technique, but before calling the chroot() syscall, the tool saves the file descriptor of the original CWD, just to make sure having it in case the syscall is changed and changes the CWD.
- Bypasses: Linux, Solaris, Mac OS X
Root privilege: NEEDED
The tool creates a directory then forks. The child process cd’ing into the new directory and calls the chroot() syscall. Now it has two separated chroots under each other. It then sets up a Unix Domain Socket that is capable for file descriptor passing. The parent process passes the parent root barrier (which is above of the root of the child) to the child. The child then has a file descriptor on a directory above of its root barrier. Calling fchdir() we are out of the chrooted environment.
On Linux there is a way to create anonymous UDSs, so there is no need touching the filesystem for passing the file descriptor. However FreeBSD/OpenBSD does not support anonymous UDSs.
While Linux and some other systems are using simple structures for storing these properties,
FreeBSD stores root barriers (resulted from chrooting/creating jails) in a linked list, this way it is only possible to bypass the latest barrier. To overcome FreeBSD’s solution, we need a UDS out of the chroot from the “real” environment.
The technique does not work at the moment on OpenBSD because of some mysterious problems.
- Bypasses: Linux, Solaris, Mac OS X
- Partly bypasses: FreeBSD (chroot and jail)
- DoS: DragonFlyBSD
Root privilege: NEEDED
The tool tries to mount proofs into a directory than crawls all the processes for a root or cwd entry.
- Bypasses: Linux, Solaris
Root privilege: NEEDED
WARNING: this feature can be dangerous on live systems, because it mounts
the root partition twice!
The tool crawls for all the possible block devices that can have useful data on it and tries to mount it. Hopefully the root partition is found and can be mounted.
- Bypasses: Linux
Root privilege: MIGHT needed
This technique was found by me, pretty easy and can be used without shell access (e.g. FTP, SCP, etc.).
The tool creates a directory then forks. The child process cd’ing into the new directory and calls the chroot() syscall. Now it has two separated chroots under each other. The child process creates a new directory under the child root barrier and cd’ing into that again. The parent process moves out the child CWD, above the child root barrier, then the child process escaped.
Remember? Linux and some others stores the properties in a struct. FreeBSD does store it in the linked list, so the child only escapes the child root barrier, but the parent root barrier. The tool does not leave the original chroot, but could leave it by external help from the original system by moving that directory above of the parent root barrier.
OpenBSD does not let to chroot() after escaping the root barrier, but filesystem operations are allowed (reading files, listing directories).
- Bypasses: Linux, OpenBSD, Solaris, Mac OS X
- Partly bypasses: FreeBSD (chroot and jail)
- DoS: DragonFlyBSD
Root privilege: NOT needed
Most fun technique ever. With the ptrace() syscall the tool attaches on a specified PID and replaces the running code with a bind shellcode, then connects to the port. A process is needed outside of the chroot.
- Bypasses: Linux, FreeBSD (chroot), OpenBSD
- Party bypasses: Ubuntu (only root can attach to other processes)
Root privilege: NEEDED
This feature is mostly for demo purposes. In case the attacker exploits a buffer overflow vulnerability to achieve remote code execution and that exploitable process is chrooted in a bad way, there can be some open file descriptors in the FD table that point out to directories above the root barrier. This feature tries to reveal that possibility. This is almost the same as the Classic FD and UDS technique.