On 12/22/2016 05:59 PM, Hannes Frederic Sowa wrote:
On Thu, 2016-12-22 at 08:07 -0800, Andy Lutomirski wrote:
On Thu, Dec 22, 2016 at 7:51 AM, Hannes Frederic Sowa
<han...@stressinduktion.org> wrote:
On Thu, 2016-12-22 at 16:41 +0100, Jason A. Donenfeld wrote:
On Thu, Dec 22, 2016 at 4:33 PM, Hannes Frederic Sowa
<han...@stressinduktion.org> wrote:
IPv6 you cannot touch anymore. The hashing algorithm is part of uAPI.
You don't want to give people new IPv6 addresses with the same stable
secret (across reboots) after a kernel upgrade. Maybe they lose
connectivity then and it is extra work?

Ahh, too bad. So it goes.

If no other users survive we can put it into the ipv6 module.

The bpf hash stuff can be changed during this merge window, as it is
not yet in a released kernel. Albeit I would probably have preferred
something like sha256 here, which can be easily replicated by user
space tools (minus the problem of patching out references to not
hashable data, which must be zeroed).

Oh, interesting, so time is of the essence then. Do you want to handle
changing the new eBPF code to something not-SHA1 before it's too late,
as part of a ne

w patchset that can fast track itself to David? And
then I can preserve my large series for the next merge window.

This algorithm should be a non-seeded algorithm, because the hashes
should be stable and verifiable by user space tooling. Thus this would
need a hashing algorithm that is hardened against pre-image
attacks/collision resistance, which siphash is not. I would prefer some
higher order SHA algorithm for that actually.


You mean:

commit 7bd509e311f408f7a5132fcdde2069af65fa05ae
Author: Daniel Borkmann <dan...@iogearbox.net>
Date:   Sun Dec 4 23:19:41 2016 +0100

     bpf: add prog_digest and expose it via fdinfo/netlink


Yes, please!  This actually matters for security -- imagine a
malicious program brute-forcing a collision so that it gets loaded
wrong.  And this is IMO a use case for SHA-256 or SHA-512/256
(preferably the latter).  Speed basically doesn't matter here and
Blake2 is both less stable (didn't they slightly change it recently?)
and much less well studied.

We don't prevent ebpf programs being loaded based on the digest but
just to uniquely identify loaded programs from user space and match up
with their source.

There have been talks about signing bpf programs, thus this would
probably need another digest algorithm additionally to that one,
wasting probably instructions. Probably going somewhere in direction of
PKCS#7 might be the thing to do (which leads to the problem to make
PKCS#7 attackable by ordinary unpriv users, hmpf).

My inclination would have been to seed them with something that isn't
exposed to userspace for the precise reason that it would prevent user
code from making assumptions about what's in the hash.  But if there's
a use case for why user code needs to be able to calculate the hash on
its own, then that's fine.  But perhaps the actual fdinfo string
should be "sha256:abcd1234..." to give some flexibility down the road.

Also:

+       result = (__force __be32 *)fp->digest;
+       for (i = 0; i < SHA_DIGEST_WORDS; i++)
+               result[i] = cpu_to_be32(fp->digest[i]);

Everyone, please, please, please don't open-code crypto primitives.
Is this and the code above it even correct?  It might be but on a very
brief glance it looks wrong to me.  If you're doing this to avoid
depending on crypto, then fix crypto so you can pull in the algorithm
without pulling in the whole crypto core.

The hashing is not a proper sha1 neither, unfortunately. I think that
is why it will have a custom implementation in iproute2?

Still trying to catch up on this admittedly bit confusing thread. I
did run automated tests over couple of days comparing the data I got
from fdinfo with the one from af_alg and found no mismatch on the test
cases varying from min to max possible program sizes. In the process
of testing, as you might have seen on netdev, I found couple of other
bugs in bpf code along the way and fixed them up as well. So my question,
do you or Andy or anyone participating in claiming this have any
concrete data or test cases that suggests something different? If yes,
I'm very curious to hear about it and willing fix it up, of course.
When I'm back from pto I'll prep and cook up my test suite to be
included into the selftests/bpf/, should have done this initially,
sorry about that. I'll also post something to expose the alg, that
sounds fine to me.

I wondered if bpf program loading should have used the module loading
infrastructure from the beginning...

At the very least, there should be a separate function that calculates
the hash of a buffer and that function should explicitly run itself
against test vectors of various lengths to make sure that it's
calculating what it claims to be calculating.  And it doesn't look
like the userspace code has landed, so, if this thing isn't
calculating SHA1 correctly, it's plausible that no one has noticed.

I hope this was known from the beginning, this is not sha1 unfortunately.

But ebpf elf programs also need preprocessing to get rid of some
embedded load-depending data, so maybe it was considered to be just
enough?

Bye,
Hannes


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