On Wed, Apr 07, 2010 at 05:11:25PM +0200, Daniel Mack wrote:
On Wed, Apr 07, 2010 at 10:59:47AM -0400, Alan Stern wrote:
On Wed, 7 Apr 2010, Daniel Mack wrote:
Depending on the condition of the memory management, things might work or not, and especially right after a reboot, there's a better chance to get lower memory.
The fix is to use usb_buffer_alloc() for that purpose which ensures memory that is suitable for DMA. And on x86_64, this also means that the upper 32 bits of the address returned are all 0's.
That is not a good fix. usb_buffer_alloc() provides coherent memory, which is not what we want. I believe the correct fix is to specify the GFP_DMA32 flag in the kzalloc() call.
Of course, some EHCI hardware _is_ capable of using 64-bit addresses. But not all, and other controller types aren't. In principle we could create a new allocation routine, which would take a pointer to the USB bus as an additional argument and use it to decide whether the memory needs to lie below 4 GB. I'm not sure adding this extra complexity would be worthwhile.
Well, I thought this is exactly what the usb_buffer_alloc() abstraction functions are there for. We already pass a pointer to a struct usb_device, so the routine knows which host controller it operates on. So we can safely dispatch all the magic inside this function, no?
Hm, yeah, I thought that is what it was for too. If not, why can't we use it like this?
If not, I would rather introduce a new function than adding GFP_ flags to all existing drivers.
I agree.
I vote for a clean solution, a fixup of existing implementations and a clear note about how to allocate buffers for USB drivers. I believe faulty allocations of this kind can explain quite a lot of problems on x86_64 machines.
Yeah, I really don't want to have to change every driver in different ways just depending on if someone thinks it is going to need to run on this wierd hardware.
Alan, any objection to just using usb_buffer_alloc() for every driver? Or is that too much overhead?
thanks,
greg k-h