> > However, fallocate() preallocates full guest memory before starting the guest. > With this behaviour guest memory is *not* demand pinned. Is there a way to > prevent fallocate() from reserving full guest memory?
Isn't the pinning being handled by the corresponding host memory backend with mmu > notifier and architecture support while doing the memory operations e.g page> migration and swapping/reclaim (not supported currently AFAIU). But yes, we need> to allocate entire guest memory with the new flags MEMFILE_F_{UNMOVABLE, UNRECLAIMABLE etc}.
That is correct, but the question is when does the memory allocated, as these flags are set, memory is neither moved nor reclaimed. In current scenario, if I start a 32GB guest, all 32GB is allocated.
I guess so if guest memory is private by default.
Other option would be to allocate memory as shared by default and handle on demand allocation and RMPUPDATE with page state change event. But still that would be done at guest boot time, IIUC.
Sorry! Don't want to hijack the other thread so replying here.
I thought the question is for SEV SNP. For SEV, maybe the hypercall with the page state information can be used to allocate memory as we use it or something like quota based memory allocation (just thinking).
But all this would have considerable performance overhead (if by default memory is shared) and used mostly at boot time.
So, preallocating memory (default memory private) seems better approach for both SEV & SEV SNP with later page management (pinning, reclaim) taken care by host memory backend & architecture together.
I am not sure how will pre-allocating memory help, even if guest would not use full memory it will be pre-allocated. Which if I understand correctly is not expected.
For SEV I am also not very sure what would be the best way. There could be a tradeoff between memory pinning and performance. As I was also thinking about "Async page fault" aspect of guest in my previous reply. Details needs to be figure out.
Quoting my previous reply here: "Or maybe later we can think of something like allowing direct page fault on host memory access for *SEV* guest as there is no strict requirement for memory integrity guarantee and the performance overhead."
Thanks, Pankaj