Hugh Dickins wrote:
Oh, well, maybe, but what is the real problem?
Are you sure that copy-on-write doesn't come into it?
No, but I do know that my test case doesn't call fork(), so it's reproducible without
involving COW. Of course, I'm sure someone's going to tell me now that COW comes into
effect even without fork(). If so, please explain.
I haven't reread through the whole thread, but my recollection is
that you never quite said what the real problem is: you'd found some
time ago that get_user_pages sometimes failed to pin the pages for
your complex app, so were forced to mlock too; but couldn't provide
any simple test case for the failure (which can indeed be a lot of
work to devise), so we were all in the dark as to what went wrong.
The short answer: under "extreme" memory pressure, the data inside a page pinned by
get_user_pages() is swapped out, moved, or deleted (I'm not sure which). Some other data
is placed into that physical location.
By extreme memory pressure, I mean having the process allocate and touch as much memory as
possible. Something like this:
num_bytes = get_amount_of_physical_ram();
char *p = malloc(num_bytes);
for (i=0; i<num_bytes; i+=PAGE_SIZE)
p[i] = 0;
The above over-simplified code fails on earlier 2.6 kernels (or earlier versions of glibc
that accompany most distros the use the earlier 2.6 kernels). Either malloc() returns
NULL, or the p[i]=0 part causes a segfault. I haven't bothered to trace down why. But
when it does work, the page pinned by get_user_pages() changes.
But you've now found that 2.6.7 and later kernels allow your app to
work correctly without mlock, good. get_user_pages is certainly the
right tool to use for such pinning. (On the question of whether
mlock guarantees that user virtual addresses map to the same physical
addresses, I prefer Arjan's view that it does not; but accept that
there might prove to be difficulties in holding that position.)
My understanding is that mlock() could in theory allow the page to be moved, but that
currently nothing in the kernel would actually move it. However, that could change in the
future to allow hot-swapping of RAM.
So, it works now, you've exonerated today's get_user_pages, and you've
identified at least one get_user_pages fix which went in at that time:
do we really need to chase this further?
My driver needs to support all 2.4 and 2.6 kernel versions. My makefile scans the kernel
source tree with 'grep' to identify various characterists, and I use #ifdefs to
conditionally compile code depending on what features are present in the kernel. I can't
use the kernel version number, because that's not reliable - distros will incorporate
patches from future kernels without changing the version ID.
So I need to take into account distro vendors that use an earlier kernel, like 2.6.5, and
back-port the patch from 2.6.7. The distro vendor will keep the 2.6.5 version number,
which is why I can't rely on it.
I need to know exactly what the fix is, so that when I scan mm/rmap.c, I know what to look
for. Currently, I look for this regex:
try_to_unmap_one.*vm_area_struct
which seems to work. However, now I think it's just a coincidence.
By the way, please don't be worried when soon the try_to_unmap_one
comment and code that you identified above disappear. When I'm
back in patch submission mode, I'll be sending Andrew a patch which
removes it, instead reworking can_share_swap_page to rely on the
page_mapcount instead of page_count, which avoids the ironical
behaviour my comment refers to, and allows an awkward page migration
case to proceed (once unpinned). Andrea and I now both prefer this
page_mapcount approach.
Ugh, that means my regex is probably going to break. Not only that, but I don't
understand what you're saying either. Trying to understand the VM is really hard.
I guess in this specific case, it doesn't really matter, because calling mlock() when I
should be calling get_user_pages() is not a bad thing.
-
To unsubscribe from this list: send the line "unsubscribe linux-kernel" in
the body of a message to [email protected]
More majordomo info at http://vger.kernel.org/majordomo-info.html
Please read the FAQ at http://www.tux.org/lkml/
[Index of Archives]
[Kernel Newbies]
[Netfilter]
[Bugtraq]
[Photo]
[Stuff]
[Gimp]
[Yosemite News]
[MIPS Linux]
[ARM Linux]
[Linux Security]
[Linux RAID]
[Video 4 Linux]
[Linux for the blind]
[Linux Resources]