Am 2021-03-01 um 3:46 a.m. schrieb Thomas Hellström (Intel):
On 3/1/21 9:32 AM, Daniel Vetter wrote:
On Wed, Jan 06, 2021 at 10:01:09PM -0500, Felix Kuehling wrote:
From: Philip Yang Philip.Yang@amd.com
Register vram memory as MEMORY_DEVICE_PRIVATE type resource, to allocate vram backing pages for page migration.
Signed-off-by: Philip Yang Philip.Yang@amd.com Signed-off-by: Felix Kuehling Felix.Kuehling@amd.com
So maybe I'm getting this all wrong, but I think that the current ttm fault code relies on devmap pte entries (especially for hugepte entries) to stop get_user_pages. But this only works if the pte happens to not point at a range with devmap pages.
I don't think that's in TTM yet, but the proposed fix, yes (see email I just sent in another thread), but only for huge ptes.
This patch here changes that, and so probably breaks this devmap pte hack ttm is using?
If I'm not wrong here then I think we need to first fix up the ttm code to not use the devmap hack anymore, before a ttm based driver can register a dev_pagemap. Also adding Thomas since that just came up in another discussion.
It doesn't break the ttm devmap hack per se, but it indeed allows gup to the range registered, but here's where my lack of understanding why we can't allow gup-ing TTM ptes if there indeed is a backing struct-page? Because registering MEMORY_DEVICE_PRIVATE implies that, right?
I wasn't aware that TTM used devmap at all. If it does, what type of memory does it use?
MEMORY_DEVICE_PRIVATE is like swapped out memory. It cannot be mapped in the CPU page table. GUP would cause a page fault to swap it back into system memory. We are looking into use MEMORY_DEVICE_GENERIC for a future coherent memory architecture, where device memory can be coherently accessed by the CPU and GPU.
As I understand it, our DEVICE_PRIVATE registration is not tied to an actual physical address. Thus your devmap registration and our devmap registration could probably coexist without any conflict. You'll just have the overhead of two sets of struct pages for the same memory.
Regards, Felix
/Thomas
-Daniel