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SubjectRe: [RFT][PATCH] generic device DMA implementation
I think you saw that patch to let the new 2.5.53 generic dma code
replace one of the two indirections USB needs. Here are some of
the key open issues I'm thinking of:

- DMA mapping calls still return no errors; so BUG() out instead?

Consider systems where DMA-able memory is limited (like SA-1111,
to 1 MByte); clearly it should be possible for these calls to
fail, when they can't allocate a bounce buffer. Or (see below)
when an invalid argument is provided to a dma mapping call.

Fix by defining fault returns for the current signatures,
starting with the api specs:

* dma_map_sg() returns negative errno (or zero?) when it
fails. (Those are illegal sglist lengths.)

* dma_map_single() returns an arch-specific value, like
DMA_ADDR_INVALID, when it fails. (DaveM's suggestion,
from a while back; it's seemingly arch-specific.)

Yes, the PCI dma calls would benefit from those bugfixes too.

- Implementation-wise, I'm rather surprised that the generic
version doesn't just add new bus driver methods rather than
still insisting everything be PCI underneath.

It's not clear to me how I'd make, for example, a USB device
or interface work with dma_map_sg() ... those "generic" calls
are going to fail (except on x86, where all memory is DMA-able)
since USB != PCI. Even when usb_buffer_map_sg() would succeed.
(The second indirection: the usb controller hardware does the
mapping, not the device or hcd. That's usually PCI.)

Hmm, I suppose there'd need to be a default implementation
of the mapping operations (for all non-pci busses) that'd
fail cleanly ... :)

- There's no analogue to pci_pool, and there's nothing like
"kmalloc" (likely built from N dma-coherent pools).

That forces drivers to write and maintain memory allocators,
is a waste of energy as well as being bug-prone. So in that
sense this API isn't a complete functional replacement of
the current PCI (has pools, ~= kmem_cache_t) or USB (with
simpler buffer_alloc ~= kmalloc) APIs for dma.

- The API says drivers "must" satisfy dma_get_cache_alignment(),
yet both implementations, asm-{i386,generic}/dma-mapping.h,
ignore that rule.

Are you certain of that rule, for all cache coherency models?
I thought only some machines (with dma-incoherent caches) had
that as a hard constraint. (Otherwise it's a soft one: even
if there's cacheline contention, the hardware won't lose data
when drivers use memory barriers correctly.)

I expect that combination is likely to be problematic, since the
previous rule has been (wrongly?) that kmalloc or kmem_cache
memory is fine for DMA mappings, no size restrictions. Yet for
one example on x86 dma_get_cache_alignment() returns 128 bytes,
but kmalloc has several smaller pool sizes ... and lately will
align to L1_CACHE_BYTES (wasting memory on small allocs?) even
when that's smaller than L1_CACHE_MAX (in the new dma calls).

All the more reason to have a drop-in kmalloc alternative for
dma-aware code to use, handling such details transparently!

- Isn't arch/i386/kernel/pci-dma.c handling DMA masks wrong?
It's passing GFP_DMA in cases where GFP_HIGHMEM is correct ...

I'm glad to see progress on making DMA more generic, thanks!

- Dave










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