Re: [tip:x86/core 1/1] arch/x86/um/../lib/csum-partial_64.c:98:12: error: implicit declaration of function 'load_unaligned_zeropad'

From: Noah Goldstein
Date: Wed Nov 24 2021 - 22:43:35 EST


On Wed, Nov 24, 2021 at 8:56 PM Eric Dumazet <edumazet@xxxxxxxxxx> wrote:
>
> On Wed, Nov 24, 2021 at 5:59 PM Noah Goldstein <goldstein.w.n@xxxxxxxxx> wrote:
> >
>
> >
> > Hi, I'm not sure if this is intentional or not, but I noticed that the output
> > of 'csum_partial' is different after this patch. I figured that the checksum
> > algorithm is fixed so just wanted mention it incase its a bug. If not sorry
> > for the spam.
> >
> > Example on x86_64:
> >
> > Buff: [ 87, b3, 92, b7, 8b, 53, 96, db, cd, 0f, 7e, 7e ]
> > len : 11
> > sum : 0
> >
> > csum_partial new : 2480936615
> > csum_partial HEAD: 2472089390
>
> No worries.
>
> skb->csum is 32bit, but really what matters is the 16bit folded value.
>
> So make sure to apply csum_fold() before comparing the results.
>
> A minimal C and generic version of csum_fold() would be something like
>
> static unsigned short csum_fold(u32 csum)
> {
> u32 sum = csum;
> sum = (sum & 0xffff) + (sum >> 16);
> sum = (sum & 0xffff) + (sum >> 16);
> return ~sum;
> }
>
> I bet that csum_fold(2480936615) == csum_fold(2472089390)
>

Correct :)

The outputs seem to match if `buff` is aligned to 64-bit. Still see
difference with `csum_fold(csum_partial())` if `buff` is not 64-bit aligned.

The comment at the top says it's "best" to have `buff` 64-bit aligned but
the code logic seems meant to support the misaligned case so not
sure if it's an issue.

Example:

csum_fold(csum_partial) new : 0x3764
csum_fold(csum_partial) HEAD: 0x3a61

buff : [ 11, ea, 75, 76, e9, ab, 86, 48 ]
buff addr : ffff88eaf5fb0001
len : 8
sum_in : 25

> It would be nice if we had a csum test suite, hint, hint ;)

Where in the kernel would that belong?

>
> Thanks !