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SubjectRe: Oops in minixfs_statfs
On Wed, Aug 17, 2011 at 03:18:20AM +0100, Al Viro wrote:
> On Tue, Aug 16, 2011 at 12:48:09PM -0400, Josh Boyer wrote:
> > We've had a bug open in Fedora for a while[1] where it's fairly easy to
> > generate an oops on a MinixV3 filesystem. I've looked at it a bit and
> > it seems we're getting a negative number in this particular calculation
> > in fs/minix/bitmap.c, count_free:
> >
> > i = ((numbits - (numblocks-1) * bh->b_size * 8) / 16) * 2;
> >
> > which causes the loop below it to access bh->b_data outside it's bounds.
> >
> > I installed minix 3.1.8 (shoot me now) in a KVM guest today, and two out
> > of the three filesystems work fine. / and /home are both relatively
> > small, and a df seems to return fairly accurate numbers. However, a df
> > on /usr (which is ~768M) causes the oops.
> >
> > I'm not familiar enough with minixfs to know what the above is trying to
> > actually accomplish. I instrumented that function a bit and here is
> > some data from the 3 filesytems in question:
> >
> > [ 49.114984] imap_blocks 2 zmap_blocks 1 firstdatazone 205
> > log_zone_size 0 max_size 7fffffff magic 4d5a nzones 4000 blocksize: 1000
> >
> > [ 66.380824] imap_blocks 2 zmap_blocks 2 firstdatazone 2a2
> > log_zone_size 0 max_size 7fffffff magic 4d5a nzones a700 blocksize: 1000
> >
> > [ 516.859103] imap_blocks 7 zmap_blocks 7 firstdatazone c11
> > log_zone_size 0 max_size 7fffffff magic 4d5a nzones 3001c blocksize:
> > 1000
> >
> > The calculation of i on line 38 results in fffffe80 for the last
> > filesytem when minix_count_free_blocks is called for it.
> >
> > Does anyone have an idea of what that particular section is trying to
> > count? (As an aside, the numbits variable is slightly confusing because
> > it seems to be a number of blocks, not bits). I'd be happy to continue
> > to poke at this, but I'm a bit stumped at the moment.
>
> The arguments of that function are redundant and it smells like we have
> numbits < numblocks * bits_per_block. Could you print both on that fs?

In the failing case, numblocks is 7 and numbits is 0x2f40c. So given we
have a 4k block size, numbits is definitely smaller than numblocks *
bits_per_block.

> FWIW, it looks like this thing actually tries to be something like
>
> /* count zero bits in bitmap; bitmap itself is an array of host-endian 16bit */
>
> u32 count_free(struct super_block *sb, struct buffer_head *map[], u32 bits)
> {
> size_t size = sb->s_blocksize;
> u32 sum = 0;
>
> while (bits) {
> struct buffer_head *bh = *map++;
> __u16 *p = bh->b_data;
> if (bits >= size * 8) { /* full block */
> __u16 *end = bh->b_data + size;
> while (p < end)
> sum += hweight16(~*p++);
> bits -= size * 8;
> } else { /* bitmap takes only part of it */
> __u16 *end = p + bits / 16;
> /* full 16bit words */
> while (p < end)
> sum += hweight16(~*p++);
> bits %= 16;
> if (bits) { /* partial word, only lower bits matter */
> sum += hweight16(~*p++ & ((1 << bits) - 1));
> bits = 0;
> }
> }
> }
>
> return sum;
> }
>
> Note that this needs update of callers (both have the superblock ready)
> *and* minix_fill_super() needs to verify that
> a) sbi->s_ninodes < sbi->s_imap_blocks * sb->s_blocksize * 8
> b) (sbi->s_nzones - sbi->s_firstdatazone + 1) <=
> sbi->s_zmap_blocks * sb->s_blocksize * 8
> and scream if it isn't.

Making it scream is easy to do, but should it fail to mount, or fix
things up?

An alternative would be to have minix_statfs pass
minix_count_free_{inodes,blocks} the superblock, and have those two
functions calculate a and b above, respectively. Then you could do
something like (for the free blocks case):

struct minix_sb_info *sbi = minix_sb(sb);
int blocks = sbi->s_zmap_blocks;
u32 bits = sbi->s_nzones - sbi->s_firstdatazone + 1;

/* Make sure minix didn't allocate more blocks than needed
* for the amount of bits
*/
if (bits < blocks * sb->s_blocksize * 8)
blocks--;

and pass blocks and bits to count_free.

That's untested, and it really doesn't fully check how many extra blocks
were allocated, but it illustrates the point. The benefit is the fix
here is localized to the two functions. Although, I have no idea why
minix would allocate an extra block so I have no idea if simply ignoring
it during the counting is a viable solution or not.

> I *think* that what's happening in your case is that we have more blocks
> for block bitmap than we would need to hold all bits. That would explode
> in exactly such a way, but I'd like to see confirmation; what arguments
> does your count_free() actually get? The last two arguments, that is...

Yeah, seems so. Bob provided the math in his email.

As I said, I don't know why minix decided to allocate an extra zmap block,
but there isn't really anything we can do about that.

> NOTE: the above is not even compile-testeed. It also needs an update to
> deal with an atrocious kludge on several architectures - minix bitmaps
> are *not* always host-endian on Linux and the things get really ugly
> when we go into it; see CONFIG_MINIX_FS_.*_ENDIAN for gory details.

Ugh.

josh


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