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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.

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"addresses returned from ioremap() are not suitable for DMA" -- That's because ioremap() returns a virtual address, and DMA usually requires physical addresses. But if the physical address used in the ioremap() call is contiguous physical RAM, then you should be able to use it for DMA buffers. When working with DMA, avoid saying/using the words "memory" and "address" without being very clear as to what kind of memory address (virtual or physical) that you mean. Otherwise you will be confused or do something wrong. –  sawdust Jan 17 at 2:07

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