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I'm evaluating to port a device driver I wrote several years ago from 32 to 64 bits. The physical device is a 32-bit PCI card. That is, the device is 32 bits but I need to access it from Win7x64. The device presents some registers to the Windows world and then performs heavy bus master data transferring into a chunk of driver-allocated memory.

I've read in the Microsoft documentation that you can signal whether the driver supports 64-bit DMA or not. If it doesn't, then the DMA is double buffered. However, I'm not sure if this is the case. My driver would/could be a full 64-bit one, so it could support 64-bit addresses in the processor address space, but the actual physical device WON'T support it. In fact, the device BARs must be mapped under 4 GB and the device must get a PC RAM address to perform bus master below 4 GB. Does this mean that my driver will go through double buffering always? This is a very performance-sensitive process and the double buffering could prevent the whole system from working.

Of course, designing a new 64-bit PCI (or PCI-E) board is out of question.

Anybody could give me some resources for this process (apart from MS pages)?

Thanks a lot!

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1 Answer 1

This is an old post, I hope the answer is still relevant...

There are two parts here, PCI target and PCI master access.

PCI target access: The driver maps PCI BARs to 64bit virtual address space and the driver just reads/writes through a pointer.

PCI master access: You need to create a DmaAdapter object by calling IoGetDmaAdapter(). When creating, you also describe your device is a 32bit (see DEVICE_DESCRIPTION parameter). Then you call DmaAdapter::AllocateCommonBuffer() method to allocate a contiguous DMA buffer in PC RAM.

I am not sure about double-buffering though. From my experience, double-buffering is not used, instead, DmaAdapter::AllocateCommonBuffer() simply fails if cannot allocate a buffer that satisfies the DEVICE_DESCRIPTION (in your case - 32bit dma addressing).

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