Weakness In Linux Kernel's Binary Format

Goodfellas writes, "This document aims to demonstrate a design weakness found in the handling of simply linked lists used to register binary formats handled by the Linux kernel. It affects all the kernel families (2.0/2.2/2.4/2.6), allowing the insertion of infection modules in kernel space that can be used by malicious users to create infection tools, for example rootkits. Proof of concept, details, and proposed solution (in PDF form): English, Spanish.

And?

[ledow]

Although any auditing is welcome and they may be a problem here, the fact is that it's hardly news and not exploitable. The reports says itself that you have to be root to exploit it. It's already game-over. Yes, look for these sorts of things and find them but it's hardly worth the shock-factor of "Massive Hole Found In Linux" panic headlines.

This is so not serious

[Spikeles]

For those who won't read it..

Basically there is this table that contains a list of handlers for the various exes, if if a handler returns a failure the loop that parses the table will stop iterating. If you insert a kernel module first you can take control of all executable types b4 any other handles get to handle it.

BUT...It requires root access and wont work on SELinux. This is a serious how? I mean if you have root access, then the entire system is compromised already.

Probably none.

[SanityInAnarchy]

Depends on the friends and the distro, but let's see. Debian prompts you to set up an ordinary user/password, as well as a root password. Gentoo does the same, only via documentation, not an installer. And Ubuntu, the distro most friends would send noob-friends to, does not set up a root password at all -- all root access on Ubuntu has to go through sudo.

Most Windows/IE attacks don't require you to even have local access, let alone root.

Re:Probably none.

[smash]

Knowing about how linux works doesn't exclude you from the set of potential ubuntu users.

I've adminned Linux since 1996 (1996-2001 as an ISP sysadmin, 2001-2004 for corporate mail, proxy, IPSec gateway, etc), yet most of the time these days for a desktop I install/use/recommend Kubuntu. Why? Because it just works for the most part. I've been through the rolling my own distro from scratch, building all my stuff from source games and to be honest, I have more important things to do these days :)

Sure I'll muck around with that sort of thing from time to time, but when I just want to get work done, *ubuntu is quick and easy.

Mirror

[paulproteus]

I've mirrored the English PDF.

Re:What about other ELF systems?

[IWannaBeAnAC]

With the caveat that I cannot RTFA as it is slashdotted, if the summary is in any way accurate then it will not affect the BSD's or Solaris. SCO I don't care about, especially as it would only affect them if they stole the relevant code from Linux in the first place.

Linux has a feature that allows you to register a new binary format loader. Of the traditional formats, ELF is the most common, a.out is ancient, I don't think I've ever seen an a.out executable on a Linux machine). But on Linux, for example, if you wanted java programs to run automatically when you execute them then you could install a loader for java files that runs them through the interpreter/jvm.

I don't know which other unixes have this capability, but IIRC Linux was the first so it follows that any other implementation is architecturally independent, so shouldn't share the same implementation flaws.

Re:What about other ELF systems?

[Tyger]

I'd say this is just a specific case of inserting malicious code into a kernel level linked list. Most kernels have linked lists meant to be accessed by drivers. I've actually done something very similar in Solaris using the SVR4 STREAMS driver model. I created a STREAMS module that inserted itself into the TCP stack in such a way that it was totally invisible, but got all data and control commands passed through it. (Excpet I wasn't writing malicious code. In that case, I was hiding it from any potential hackers, as well as applications that might break if the STREAMS modules aren't loaded like they expect.) There are other places it could be inserted for malicious purposes aside from the network stack, though. (Not that the network stack isn't a bad place to be for someone who wants to do some damage, but it doesn't help with hiding rootkits. It would be more useful as a rootkit payload.)

I'm sure BSD has a linked list that could be similarly exploited. It won't have the same capabilities as the Linux binfmt one, but it will have it's own set of things it could be used for.

However, I agree with other users. In a monolithic kernel, once someone has root and can load kernel drivers, or even access kernel memory, all bets are off. The only possible system I can see not being exploitable in such a way would be a pure microkernel architecture with memory protection, none of which I can think of off the top of my head. Mach still has loadable modules. QNX is closer but even QNX lets you register code to be called as an ISR from the kernel, and at that point you have full access to the kernel memory, and you are even conveniently passed a pointed to some kernel data structures so you don't have to try and figure out kernel symbols.

The point is, once you have root, there are any number of ways to compromise the system and hide your exploits. It's good to have the information about as many different ways as possible out in the open, but it's hardly alarming news that there's yet another discovered.

Re:Too bad you have to be root.

[Lehk228]

that is more due to limitations on NTFS and FAT* than self protection

unix filesystems can delete an in-use file and only physically remove it when it is no longer in use, windows cannot do that. hence having to reboot for so many updates and some configuration changes (such as changing host name)

Re:simply

[Penguinoflight]

Most CS types would say that SLL is Singly Linked List. The construct allows for references to next, but not to previous.