Call for testing and review, busdma changes
jroberson at jroberson.net
Sun Dec 9 18:50:22 UTC 2012
On Sun, 9 Dec 2012, Ian Lepore wrote:
> On Sat, 2012-12-08 at 08:51 -1000, Jeff Roberson wrote:
>> I have a relative large patch that reforms the busdma API so that new
>> types may be added without modifying every architecture's
>> busdma_machdep.c. It does this by unifying the bus_dmamap_load_buffer()
>> routines so that they may be called from MI code. The MD busdma is then
>> given a chance to do any final processing in the complete() callback.
>> This patch also contains cam changes to unify the bus_dmamap_load*
>> handling in cam drivers.
>> The arm and mips implementations saw the largest changes since they have
>> to track virtual addresses for sync(). Previously this was done in a type
>> specific way. Now it is done in a generic way by recording the list of
>> virtuals in the map.
>> I have verified that this patch passes make universe which includes
>> several kernel builds from each architecture. I suspect that if I broke
>> anything your machine simply won't boot or will throw I/O errors. There
>> is little subtlety, it is mostly refactoring.
> Testing on armv4/v5 platforms, the patches applied and compiled cleanly,
> but fault-abort with a NULL deref on what appears to be the first call
> to bus_dmamap_load(). I'll dig deeper into debugging that after
> browsing the new code so I can figure out where to start debugging.
Can you give me the file and line of the fault?
> Just from an initial quick browsing of the new code for armv4, I notice
> these things...
> The new routine __bus_dmamap_mayblock() does (*flags) |= BUS_DMA_WAITOK;
> which is a no-op because BUS_DMA_WAITOK is zero. I'm not sure what the
> intent was, but I think any modification of the WAIT-related flags would
> be conceptually wrong because it overrides the caller's instructions on
> whether or not to do a deferred load when resources aren't available.
The intent of the original load function seems to be that it is always
blocking. Most architectures force the flag. The mbuf and uio load
routines don't support blocking at all because the callback lacks the
information needed to restart the operation.
> The way you've refactored the mbuf-related load routines, the MD code is
> no longer able to tell that it's an mbuf operation. This comes back to
> what I said a few days ago... when you look at the current code on
> various platforms you see a lot of false similarities. The code isn't
> nearly identical because it really all needs to be the same, it's
> because it was all copied from the same source, and it doesn't currently
> work correctly on arm and mips. With your changes, the ability to
> correct the implementation on those platforms is now gone. Perhaps this
> can be fixed easily by defining some new flags that the MI routines can
> OR-in to give the MD routines more info on what's happening. (Correcting
> the mbuf sync handling on arm and mips requires that we know at sync
> time that the buffers involved are mbufs, which means we need to know at
> map-load time so we can set a flag or a type code or something in the
> map that we can examine at sync time.)
Why do you need to know it is an mbuf if you have a record of the virtual
addresses? The only type specific information was used to find the
addresses. See how arm's busdma_machdep-v6 ws implemented.
>> The next step is to allow for dma loading of physical addresses. This
>> will permit unmapped I/O. Which is a significant performance optimization
>> targeted for 10.0.
> This sounds scary for arm and mips, or more specifically for VIVT cache
> platforms that can only do a sync based on virtual addresses. Can you
> talk some more about the plans for this?
It will be for addresses which were never mapped into kva. To support
unmaapped io. There will only be a need for bounce pages, no syncing.
> -- Ian
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