On Sat, 13 Jul 2013 01:02:50 +0900
HATAYAMA Daisuke <d.hatayama@xxxxxxxxxxxxxx> wrote:
(2013/07/10 20:00), Michael Holzheu wrote:On Wed, 10 Jul 2013 18:50:18 +0900
HATAYAMA Daisuke <d.hatayama@xxxxxxxxxxxxxx> wrote:
[snip]
(2013/07/10 17:42), Michael Holzheu wrote:My suggestion is to add the WARN_ONCE() for #ifndef CONFIG_S390. This has the same
effect as your suggestion for all architectures besides of s390. And for s390 we
take the risk that a programming error would result in poor /proc/vmcore
performance.
If you want to avoid looking up vmcore_list that takes linear time w.r.t. the number
of the elements, you can still calculate the range of offsets in /proc/vmcore
corresponding to HSA during /proc/vmcore initialization.
Also, could you tell me how often and how much the HSA region is during crash dumping?
I guess the read to HSA is done mainly during early part of crash dumping process only.
According to the code, it appears at most 64MiB only. Then, I feel performance is not
a big issue.
Currently it is 32 MiB and normally it is read only once.
Also, cost of WARN_ONCE() is one memory access only in the 2nd and later calls. I don't
think it too much overhead...
I was more concerned about in_valid_fault_range(). But I was most concerned the additional
interface that introduces more complexity to the code. And that just to implement a
sanity check that in our opinion we don't really need.
And what makes it even worse:
What you think the sanity check is unnecessary is perfectly wrong. You design page faults
always happens on HSA region. If page fault happens on the other parts, i.e. some point
of mmap()ed region, it means somehow page table on the address has not been created. This
is bug, possibly caused by mmap() itself, page table creation, other components in kernel,
bit-flip due to broken hardware, etc. Anyway, program cannot detect what kind of bug occurs
now. There's no guarantee that program runs safely, of course for page cache creation, too.
We cannot and must expect such buggy process to behave in invalid states just as our design.
It results in undefined behaviour. The only thing we can do is to kill the buggy process
as soon as possible.
I don't quite get this point, please bear with me. If you compare the situation before and
after the introduction of the fault handler the possible error scenarios are not almost
identical:
1) If an access is made outside of the mapped memory region the first level fault handler
(do_exception for s390, __do_page_fault for x86) won't find a vma and force a SIGSEGV
right away, independent of the existance of a hole and the vmcore fault handler.
2) If there is a hardware bug that corrupts a page table the behaviour depends on how the
entries are corrupted. If the outcome is a valid pte an incorrect memory area will be
accessed, the same with or without the vmcore fault handler. If the corrupted pte is
an invalid pte it can come out as swap pte, file pte, or as empty pte. The behaviour
does not change for swap and file ptes, you will get funny results in both cases.
For empty ptes the new behaviour will call the vmcore fault handler for the address
in question. If the read() function can satisfy the request we will get a page cache
copy of the missing page, if the read function can not satisfy the request it returns
an error which is translated to a SIGBUS.
This new behaviour is IMHO better than the old one, it successfully recovers from at
least one type of corruption. For x86 that would be the case if the page table is
overwritten with zeroes, for s390 a specific bit pattern in the pte is required.
3) In the case of a programming error in regard to remap_pfn_range the new behaviour will
provide page cache copies and the dump will technically be correct. The performance
might suffer a little bit as the CPU will have to create the page cache copies but
compared to the I/O that is involved with writing a dump this is negligible, no?
It seems to me that the warning message you want to see in the fault handler would be
a debugging aid for the developer to see if the mmap() and the remap_pfn_range() calls
match up. Something similar to a single VM_WARN_ON() messages would be appropriate, no?