I'm writing a PCIe driver for a device that will DMA data directly in to RAM. I need to supply the device with a target PCIe address which has been set up for writing into RAM (i.e. using pci_map_single() or similar).
A well-known trick in device drivers is to pass the kernel a "mem=XXXX" argument, telling the kernel there is less physical memory than the system actually has. Then, you can grab a pointer to the remaining (unused) memory by doing:
ptr = ioremap(XXXX, size);
As far as I know, in general the addresses returned from
ioremap() are not suitable for DMA (as they could represent some sort of memory-mapped peripheral sitting on the bus). However, in this case, we know that ptr points to real, physically-contiguous RAM, so it should be possible to direct my device to DMA data into that location.
However, I can't figure out how I should call
pci_map_single() on the pointer returned from
ioremap(). I've tried a few different approaches, but they've either not worked (I couldn't see the data appear in my buffer), or crashed the machine.
I was able to do something similar using a page-oriented API (i.e. allocating pages with
alloc_page() and then mapping those with
pci_map_page()), which worked great. Unfortunately, I'd like to grab a large buffer (maybe 10s or hundreds of megabytes), and
alloc_page() can't allocate anything larger than 4MB (normally). The device doesn't support scatter/gather (yet).
How can I perform a
dma_map_single() on this "specially-reserved" RAM.