On Sat, Feb 22, 2020 at 12:37 AM Scott Branden firstname.lastname@example.org wrote:
On 2020-02-21 12:44 a.m., Arnd Bergmann wrote:
On Fri, Feb 21, 2020 at 1:11 AM Scott Branden email@example.com wrote:
On 2019-10-11 6:31 a.m., Luis Chamberlain wrote:
On Tue, Aug 27, 2019 at 12:40:02PM +0200, Takashi Iwai wrote:
On Mon, 26 Aug 2019 19:24:22 +0200, Scott Branden wrote:
I will admit I am not familiar with every subtlety of PCI accesses. Any comments to the Valkyrie driver in this patch series are appreciated. But not all drivers need to work on all architectures. I can add a depends on x86 64bit architectures to the driver to limit it to such.
But it's an individual board on PCIe, and should work no matter which architecture is? Or is this really exclusive to x86?
Yes, this is exclusive to x86. In particular, 64-bit x86 server class machines with PCIe gen3 support. There is no reason for these PCIe boards to run in other lower end machines or architectures.
It doesn't really matter that much what you expect your customers to do with your product, or what works a particular machine today, drivers should generally be written in a portable manner anyway and use the documented APIs. memcpy() into an __iomem pointer is not portable and while it probably works on any x86 machine today, please just don't do it. If you use 'sparse' to check your code, that would normally result in an address space warning, unless you add __force and a long comment explaining why you cannot just use memcpy_to_io() instead. At that point, you are already better off usingn memcpy_to_io() ;-)
I am a not performing a memcpy at all right now. I am calling a request_firmware_into_buf call and do not need to make a copy. This function eventually calls kernel_read_file, which then makes at indirect call in __vfs_read to perform the read to memory.
Well, that comes down to a memcpy() in the end, even if you don't spell it like that in your driver. It may be a copy_from_user(), but clearly not a memcpy_to_io().
From there I am lost as to what operation happens to achieve this. The read function would need to detect the buf is in io space and perform the necessary operation. Anyone with any knowledge on how to make this read to io space would be appreciated?
I don't think modifying the common code is helpful in this case: any access to PCI MMIO space is inevitably going to be slow, so an extra memcpy() in your driver is not going to cause any noticeable overhead, but the generic functions are meant to be fast for the normal use case and not gain any other features.