OpenFPGA/libs/EXTERNAL/capnproto/security-advisories/2015-03-02-2-all-cpu-amplif...

2.6 KiB

Problem

CPU usage amplification attack.

Discovered by

Ben Laurie <ben@links.org> using American Fuzzy Lop

Announced

2015-03-02

CVE

CVE-2015-2312

Impact

  • Remotely cause a peer to use excessive CPU time and other resources to process a very small message, possibly enabling a DoS attack.

Fixed in

Details

The Cap'n Proto list pointer format allows encoding a list whose elements are claimed each to have a size of zero. Such a list could claim to have up to 2^29-1 elements while only taking 8 or 16 bytes on the wire. The receiving application may expect, say, a list of structs. A zero-size struct is a perfectly legal (and, in fact, canonical) encoding for a struct whose fields are all set to their default values. Therefore, the application may notice nothing wrong and proceed to iterate through and handle each element in the list, potentially taking a lot of time and resources to do so.

Note that this kind of vulnerability is very common in other systems. Any system which accepts compressed input can allow an attacker to deliver an arbitrarily large uncompressed message using very little compressed bandwidth. Applications should do their own validation to ensure that lists and blobs inside a message have reasonable size. However, Cap'n Proto takes the philosophy that any security mistake that is likely to be common in naively-written application code is in fact a bug in Cap'n Proto -- we should provide defenses so that the application developer doesn't have to.

To fix the problem, this change institutes the policy that, for the purpose of the "message traversal limit", a list of zero-sized elements will be counted as if each element were instead one word wide. The message traversal limit is an existing anti-amplification measure implemented by Cap'n Proto; see:

https://capnproto.org/encoding.html#amplification-attack

Preventative measures

This problem was discovered through fuzz testing using American Fuzzy Lop, which identified the problem as a "hang", although in fact the test case just took a very long time to complete. We are incorporating testing with AFL into our release process going forward.