On Tue, Mar 16, 2021 at 7:12 PM Josef Bacik <josef@xxxxxxxxxxxxxx> wrote: > > > Yeah it's just a flag, we use it to tell that the page is part of a range that > has been allocated for IO. The lifetime of the page is independent of the page, > but is generally either dirty or under writeback, so either it goes through > truncate and we clear PagePrivate2 there, or it actually goes through IO and is > cleared before we drop the page in our endio. Ok, that's what it looked like from my very limited "looking at a couple of grep cases", but I didn't go any further than that. > We _always_ have PG_private set on the page as long as we own it, and > PG_private_2 is only set in this IO related context, so we're safe > there because of the rules around PG_dirty/PG_writeback. We don't need > it to have an extra ref for it being set. Perfect. That means that at least as far as btrfs is concerned, we could trivially remove PG_private_2 from that page_has_private() math - you'd always see the same result anyway, exactly because you have PG_private set. And as far as I can tell, fscache doesn't want that PG_private_2 bit to interact with the random VM lifetime or migration rules either, and should rely entirely on the page count. David? There's actually a fair number of page_has_private() users, so we'd better make sure that's the case. But it's simplified by this but really only being used by btrfs (which doesn't care) and fscache, so this cleanup would basically be entirely up to the whole fscache series. Hmm? Objections? Linus