[PATCH 5/9] PCI: host: brcmstb: add dma-ranges for inbound traffic
Jim Quinlan
jim2101024 at gmail.com
Tue Oct 24 11:08:12 PDT 2017
On Mon, Oct 23, 2017 at 5:06 AM, David Laight <David.Laight at aculab.com> wrote:
> From: Jim Quinlan
>> Sent: 20 October 2017 16:28
>> On Fri, Oct 20, 2017 at 10:57 AM, Christoph Hellwig <hch at lst.de> wrote:
>> > On Fri, Oct 20, 2017 at 10:41:56AM -0400, Jim Quinlan wrote:
>> >> I am not sure I understand your comment -- the size of the request
>> >> shouldn't be a factor. Let's look at your example of the DMA request
>> >> of 3fffff00 to 4000000f (physical memory). Lets say it is for 15
>> >> pages. If we block out the last page [0x3ffff000..0x3fffffff] from
>> >> what is available, there is no 15 page span that can happen across the
>> >> 0x40000000 boundary. For SG, there can be no merge that connects a
>> >> page from one region to another region. Can you give an example of
>> >> the scenario you are thinking of?
>> >
>> > What prevents a merge from say the regions of
>> > 0....3fffffff and 40000000....7fffffff?
>>
>> Huh? [0x3ffff000...x3ffffff] is not available to be used. Drawing from
>> the original example, we now have to tell Linux that these are now our
>> effective memory regions:
>>
>> memc0-a@[ 0....3fffefff] <=> pci@[ 0....3fffefff]
>> memc0-b@[100000000...13fffefff] <=> pci@[ 40000000....7fffefff]
>> memc1-a@[ 40000000....7fffefff] <=> pci@[ 80000000....bfffefff]
>> memc1-b@[300000000...33fffefff] <=> pci@[ c0000000....ffffefff]
>> memc2-a@[ 80000000....bfffefff] <=> pci@[100000000...13fffefff]
>> memc2-b@[c00000000...c3fffffff] <=> pci@[140000000...17fffffff]
>>
>> This leaves a one-page gap between phsyical memory regions which would
>> normally be contiguous. One cannot have a dma alloc that spans any two
>> regions. This is a drastic step, but I don't see an alternative.
>> Perhaps I may be missing what you are saying...
>
> Isn't this all unnecessary?
> Both kmalloc() and dma_alloc() are constrained to allocate memory
> that doesn't cross an address boundary that is larger than the size.
> So if you allocate 16k it won't cross a 16k physical address boundary.
>
> David
>
Hi David, Christoph was also concerned about this:
"For the block world take a look at __blk_segment_map_sg which does the merging
of contiguous pages into a single SG segment. You'd have to override
BIOVEC_PHYS_MERGEABLE to prevent this from happening in your supported
architectures for the block layer."
Do you consider this a non-issue as well or can this happen and span
memory regions?
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