memblock_reserve or memblock_remove to reserve a page
Arun Sudhilal
getarunks at gmail.com
Mon Oct 3 08:32:24 EDT 2016
Hello Nikhil,
On Wed, Sep 28, 2016 at 6:55 PM, Nikhil Utane
<nikhil.subscribed at gmail.com> wrote:
> base1 = 0xA4D000; size1=0x1000;
> memblock_reserve (base1, size1);
>
> (In a separate static driver code)
> request_mem_region_exclusive (0x00A4D000, 4096, "csSIGILL")
Thanks for details. Looks strange.
One possible case I can think of is, when you use
request_mem_region_exclusive, user space cannot access it using
/dev/mem. May be any of your user space task is corrupting this region
before. now he is not able to access this location because you have
marked it as EXCLUSIVE for kernel.
>
> If a driver requests for a memory region, shouldn't the kernel then not
> allocate it for any other purpose?
To remove pages from kernel allocation, you need to have only
successful invocation of memblock_reserve() function.
Regards,
Arun
>
> -Regards
> Nikhil
>
> On Wed, Sep 28, 2016 at 3:12 PM, Arun Sudhilal <getarunks at gmail.com> wrote:
>>
>> Hello Nikhil,
>>
>> On Wed, Sep 28, 2016 at 2:41 PM, Nikhil Utane
>> <nikhil.subscribed at gmail.com> wrote:
>> > Arun,
>> >
>> > What seems to have done the trick is calling memblock_remove() followed
>> > by a
>> > call to request_mem_region(). This creates a hole which can be confirmed
>> > in
>> > the output of /proc/iomem.
>> >
>> > Do you see any issue with this approach?
>>
>> I really don't know how it works for you. Marking address of a page as
>> iomem. How buddy allocator ignores this page?
>> request_mem_region() is a way of managing IO resource memory, to avoid
>> two drivers using same IO memory. It has not relation with buddy
>> allocator.
>>
>> Can you post code snippet?
>>
>> Regards,
>> Arun
>>
>> >
>> > -Thanks
>> > Nikhil
>> >
>> > On Tue, Sep 27, 2016 at 4:14 PM, Arun Sudhilal <getarunks at gmail.com>
>> > wrote:
>> >>
>> >> Hello Nikhil,
>> >>
>> >> On Fri, Sep 9, 2016 at 7:01 AM, Nikhil Utane
>> >> <nikhil.subscribed at gmail.com> wrote:
>> >> > I want to reserve a physical memory page with a fixed PFN. I do not
>> >> > want
>> >> > this page to be used by anyone else. I am calling memblock_reserve()
>> >> > to
>> >> > supposedly reserve the page. I am writing some content into this
>> >> > page.
>> >> > What
>> >> > I see is that during some runs the content of this page is modified
>> >> > (either
>> >> > fully or sometimes partially). In few runs, I see it as intact. Is it
>> >> > expected that even after calling memblock_reserve() the kernel can
>> >> > allocate
>> >> > this physical page for any other purpose? How is memblock_remove()
>> >> > different
>> >> > from memblock_reserve? I tried reading up but didn't see any useful
>> >> > information. What I understood is memblock_remove will completely
>> >> > remove
>> >> > from kernel's allocation mechanism. Should I then be using remove
>> >> > instead of
>> >> > reserve?
>> >>
>> >> when a DT entry is added to #reserved-memory node, what
>> >> drivers/of/fdt.c does is to call memblock_remove() and
>> >> memblock_reserve().
>> >> This happens after the memblock driver is initialized but before buddy
>> >> allocator up. Did you try this approach? This should work for you.
>> >>
>> >> Only option once the kernel boot is complete is to try out the
>> >> technique what mm/memory_hotplug.c does while offline memory.
>> >> isolate_page_range and then migrate.
>> >>
>> >> Regards,
>> >> Arun
>> >>
>> >>
>> >> >
>> >> > -Thanks
>> >> > Nikhil
>> >> >
>> >> > _______________________________________________
>> >> > Kernelnewbies mailing list
>> >> > Kernelnewbies at kernelnewbies.org
>> >> > https://lists.kernelnewbies.org/mailman/listinfo/kernelnewbies
>> >> >
>> >
>> >
>
>
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