On 21.10.24 18:51, Lorenzo Stoakes wrote:
On Mon, Oct 21, 2024 at 06:44:04PM +0200, David Hildenbrand wrote:
On 21.10.24 18:23, Lorenzo Stoakes wrote:
On Mon, Oct 21, 2024 at 06:00:20PM +0200, David Hildenbrand wrote: [snip]
To summarise for on-list:
MADV_FREE, while ostensibly being a 'lazy free' mechanism, has the ability to be 'cancelled' if you write to the memory. Also, after the freeing is complete, you can write to the memory to reuse it, the mapping is still there.
For hardware poison markers it makes sense to drop them as you're effectively saying 'I am done with this range that is now unbacked and expect to get an empty page should I use it now'. UFFD WP I am not sure about but presumably also fine.
However, guard pages are different - if you 'cancel' and you are left with a block of memory allocated to you by a pthread or userland allocator implementation, you don't want to then no longer be protected from overrunning into other thread memory.
Agreed. What happens on MADV_DONTNEED/MADV_FREE on guard pages? Ignored or error? It sounds like a usage "error" to me (in contrast to munmap()).
It's ignored, no errror. On MADV_DONTNEED we already left the guard pages in place, from v3 we will do the same for MADV_FREE.
I'm not sure I'd say it's an error per se, as somebody might have a use case where they want to zap over a range but keep guard pages, perhaps an allocator or something?
Hm, not sure I see use for that.
Staring at madvise_walk_vmas(), we return ENOMEM on VMA holes, but would process PROT_NONE. So current behavior is at least consistent with PROT_NONE handling (where something could be mapped, though).
Err, the handling of holes is terrible, yes we return ENOMEM, but we _carry out the whole procedure_ then return an error, an error _indistinguishable from an error arising from any of the individual parts_.
Which is just, awful.
Yes, absolutely. I don't know why we decided to continue. And why we return ENOMEM ...
No strong opinion.
Well you used up your strong opinion on the naming ;)
He, and I am out of energy for this year ;)
In retrospective, "install or remove a guard PTE" is just much better than anything else ...
So I should never have been mislead to suggest poison/unpoison as a replacement for poison/remedy :P
Also the existing logic is that existing markers (HW poison, uffd-simulated HW poison, uffd wp marker) are retained and no error raised on MADV_DONTNEED, and no error on MADV_FREE either, so it'd be consistent with existing behaviour.
HW poison / uffd-simulated HW poison are expected to be zapped: it's just like a mapped page with HWPOISON. So that is correct.
Well, poison is _not_ zapped on MADV_DONTNEED but _is_ on MADV_FREE :) anyway, I
Huh?
madvise_dontneed_single_vma()->zap_page_range_single(details=NULL)->unmap_single_vma(details=NULL) ... zap_pte_range()
} else if (is_hwpoison_entry(entry) || is_poisoned_swp_entry(entry)) { if (!should_zap_cows(details)) continue; ...
Should just zap them.
What am I missing?
mean the MADV flags are a confusing mess generally, as per Vlasta's comments which to begin with I strongly disagreed with then, discussing further, realsed that no this is just a bit insane and had driven _me_ insane.
UFFD-WP behavior is ... weird. Would not expect MADV_DONTNEED to zap uffd-wp entries.
Also semantically you are achieving what the calls expect you are freeing the ranges since the guard page regions are unbacked so are already freed... so yeah I don't think an error really makes sense here.
I you compare it to a VMA hole, it make sense to fail. If we treat it like PROT_NONE, it make sense to skip them.
We might also be limiting use cases by assuming they might _only_ be used for allocators and such.
I don't buy that as an argument, sorry :)
"Let's map the kernel writable into all user space because otherwise we might be limiting use cases"
That's a great idea! Patch series incoming, 1st April 2025... :>)
:) Just flip the bit on x86 and we're done!
:P
-- Cheers,
David / dhildenb
Overall I think just always leaving in place except on remedy err sorry sorry unpoison and munmap and not returning an error if encountered elsewhere (other than, of course, GUP) is the right way forward and most in line with user expectation and practical usage.
Fine with me, make sure to document that is behaves like a PROT_NONE VMA, not like a memory hole, except when something would trigger a fault (GUP etc).