New Approach To Malware Modifies Linux Kernel

Hugh Pickens writes "Professor Avishai Wool has unveiled a program to watch for malware on servers with a modification to the Linux kernel. 'We modified the kernel in the system's operating system so that it monitors and tracks the behavior of the programs installed on it,' says Wool. Essentially, Wool says, his software team has built a model that predicts how software running on a server should work (pdf). If the kernel senses abnormal activity, it stops the program from working before malicious actions occur. 'When we see a deviation, we know for sure there's something bad going on,' Wool explains. Wool cites problems with costly anti-virus protection. 'Our methods are much more efficient and don't chew up the computer's resources.'"

Re:selinux

[Kjella]

Well, from my basic reading of the paper it sounds like it won't have false positives but it also will miss many negatives. Essentially when you build it it'll make a map of what system calls can be made and in what sequence. If an application makes a system call it never calls or never can call in that order because it's been hijacked then this thing will stop it. If you manage to do your nasty business using the system calls it normally uses, it won't. Think of it as a auto-hardening system turning off any syscalls or combinations that the application doesn't use anyway. One of the downsides is that if you know this system is in place, you can probably add dummy syscall patterns to your exploit to match the application's behavior unless it's a syscall it never does. Still, there's little reason assuming an attacker is perfect and this is a worthwhile protection for the cases where it does work.

Re:selinux

[debatem1]

This is actually quite different from selinux, although they both hinge on controlling what syscalls a program can make. The major difference here is that this system automatically builds an equivalent to the selinux rules at compile time, and therefore avoids a lot of the problems caused by poorly written selinux rules. An associated advantage is the ability to track whether a chain of syscalls is legitimate. Such context analysis could be very powerful if used properly.

However, you've probably already spotted the major flaws with this approach: the first is that it only works on compiled programs, which strikes me as a serious problem when you're talking about webservers. The second is that it doesn't work on certain classes of programs whose execution pattern is extremely difficult to predict: self-modifying code, highly dynamic code (longjmp is not allowed), etc. Another limitation is that it only works on statically linked libraries. Finally, it is totally dependent on GCC and friends, which could be a problem for it moving forward, and in groups where the intel compiler is preferred.

As for false positives, the entire point of this is that inside of these admittedly limited confines, it has no possibility for false positives. This system is not statistical in nature. It depends entirely upon the program itself to determine correct syscall behavior.

All in all, while it is a long way from a practical security model, it does offer the promise of powerful, accurate protection from certain classes of attacks. When combined with selinux and pcap on a system with a slim attack profile it could help to narrow the gap between being a zero-day compromise and having full protection.

Re:Just trying to understand

[causality]

It creates (at compile time) an automaton representing the system call activity of the program

At compile time of the program? So in addition to a modified kernel you need a modified gcc and to compile everything from source or have a specialised distro? It doesn't surprise me that the summary should be lacking such details, but it would be nice if for once it gave a decent overview.

I agree that this was a poor summary but instead of complaining about the summary you could always do something crazy like read the article.

Re:What about plug-in based systems?

[Jerry+Smith]

How does this thing deal with plug-in/add-on based systems like Firefox or Eclipse, where new capabilities get added to the executable through dlls (or java classes, I guess, in the case of Eclipse? - Although, with regards to Java, I wonder if this system would work at all, since I think the kernel never exactly 'sees' Java programs or classes as executables, but only the JRE, which already has all the system calls built into it?)

It's about servers here, I personally think one should really think thrice before installing plug-ins and add-ons on a server, and rather go browsing on a desktop machine. Regarding Java, I can see your point.