| Message ID | 20201129004548.1619714-4-namit@vmware.com (mailing list archive) |
|---|---|
| State | New, archived |
| Headers | show |
| Series | fs/userfaultfd: support iouring and polling | expand |
On Sat, Nov 28, 2020 at 04:45:38PM -0800, Nadav Amit wrote: > From: Nadav Amit <namit@vmware.com> > > When userfaultfd copy-ioctl fails since the PTE already exists, an > -EEXIST error is returned and the faulting thread is not woken. The > current userfaultfd test does not wake the faulting thread in such case. > The assumption is presumably that another thread set the PTE through > copy/wp ioctl and would wake the faulting thread or that alternatively > the fault handler would realize there is no need to "must_wait" and > continue. This is not necessarily true. > > There is an assumption that the "must_wait" tests in handle_userfault() > are sufficient to provide definitive answer whether the offending PTE is > populated or not. However, userfaultfd_must_wait() test is lockless. > Consequently, concurrent calls to ptep_modify_prot_start(), for > instance, can clear the PTE and can cause userfaultfd_must_wait() > to wrongly assume it is not populated and a wait is needed. Yes userfaultfd_must_wait() is lockless, however my understanding is that we'll enqueue before reading the page table, which seems to me that we'll always get notified even the race happens. Should apply to either UFFDIO_WRITEPROTECT or UFFDIO_COPY, iiuc, as long as we follow the order of (1) modify pgtable (2) wake sleeping threads. Then it also means that when must_wait() returned true, it should always get waked up when fault resolved. Taking UFFDIO_COPY as example, even if UFFDIO_COPY happen right before must_wait() calls: worker thread uffd thread ------------- ----------- handle_userfault spin_lock(fault_pending_wqh) enqueue() set_current_state(INTERRUPTIBLE) spin_unlock(fault_pending_wqh) must_wait() lockless walk page table UFFDIO_COPY fill in the hole wake up threads (this will wake up worker thread too?) schedule() (which may return immediately?) While here fault_pending_wqh is lock protected. I just feel like there's some other reason to cause the thread to stall. Or did I miss something? Thanks,
> On Dec 21, 2020, at 11:28 AM, Peter Xu <peterx@redhat.com> wrote: > > On Sat, Nov 28, 2020 at 04:45:38PM -0800, Nadav Amit wrote: >> From: Nadav Amit <namit@vmware.com> >> >> When userfaultfd copy-ioctl fails since the PTE already exists, an >> -EEXIST error is returned and the faulting thread is not woken. The >> current userfaultfd test does not wake the faulting thread in such case. >> The assumption is presumably that another thread set the PTE through >> copy/wp ioctl and would wake the faulting thread or that alternatively >> the fault handler would realize there is no need to "must_wait" and >> continue. This is not necessarily true. >> >> There is an assumption that the "must_wait" tests in handle_userfault() >> are sufficient to provide definitive answer whether the offending PTE is >> populated or not. However, userfaultfd_must_wait() test is lockless. >> Consequently, concurrent calls to ptep_modify_prot_start(), for >> instance, can clear the PTE and can cause userfaultfd_must_wait() >> to wrongly assume it is not populated and a wait is needed. > > Yes userfaultfd_must_wait() is lockless, however my understanding is that we'll > enqueue before reading the page table, which seems to me that we'll always get > notified even the race happens. Should apply to either UFFDIO_WRITEPROTECT or > UFFDIO_COPY, iiuc, as long as we follow the order of (1) modify pgtable (2) > wake sleeping threads. Then it also means that when must_wait() returned true, > it should always get waked up when fault resolved. > > Taking UFFDIO_COPY as example, even if UFFDIO_COPY happen right before > must_wait() calls: > > worker thread uffd thread > ------------- ----------- > > handle_userfault > spin_lock(fault_pending_wqh) > enqueue() > set_current_state(INTERRUPTIBLE) > spin_unlock(fault_pending_wqh) > must_wait() > lockless walk page table > UFFDIO_COPY > fill in the hole > wake up threads > (this will wake up worker thread too?) > schedule() > (which may return immediately?) > > While here fault_pending_wqh is lock protected. I just feel like there's some > other reason to cause the thread to stall. Or did I miss something? But what happens if the copy completed before the enqueuing? Assume the page is write-protected during UFFDIO_COPY: cpu0 cpu1 ---- ---- handle_userfault UFFDIO_COPY [ write-protected ] fill in the hole wake up threads [nothing to wake] UFFD_WP (unprotect) logically marks as unprotected [nothing to wake] spin_lock(fault_pending_wqh) enqueue() set_current_state(INTERRUPTIBLE) spin_unlock(fault_pending_wqh) must_wait() [ #PF on the same PTE due to write-protection ] ... wp_page_copy() ptep_clear_flush_notify() [ PTE is clear ] lockless walk page table pte_none(*pte) -> must wait Note that additional scenarios are possible. For instance, instead of wp_page_copy(), we can have other change_pte_range() (due to worker’s mprotect() or NUMA balancing), calling ptep_modify_prot_start() and clearing the PTE. Am I missing something?
On Mon, Dec 21, 2020 at 07:51:52PM +0000, Nadav Amit wrote: > > On Dec 21, 2020, at 11:28 AM, Peter Xu <peterx@redhat.com> wrote: > > > > On Sat, Nov 28, 2020 at 04:45:38PM -0800, Nadav Amit wrote: > >> From: Nadav Amit <namit@vmware.com> > >> > >> When userfaultfd copy-ioctl fails since the PTE already exists, an > >> -EEXIST error is returned and the faulting thread is not woken. The > >> current userfaultfd test does not wake the faulting thread in such case. > >> The assumption is presumably that another thread set the PTE through > >> copy/wp ioctl and would wake the faulting thread or that alternatively > >> the fault handler would realize there is no need to "must_wait" and > >> continue. This is not necessarily true. > >> > >> There is an assumption that the "must_wait" tests in handle_userfault() > >> are sufficient to provide definitive answer whether the offending PTE is > >> populated or not. However, userfaultfd_must_wait() test is lockless. > >> Consequently, concurrent calls to ptep_modify_prot_start(), for > >> instance, can clear the PTE and can cause userfaultfd_must_wait() > >> to wrongly assume it is not populated and a wait is needed. > > > > Yes userfaultfd_must_wait() is lockless, however my understanding is that we'll > > enqueue before reading the page table, which seems to me that we'll always get > > notified even the race happens. Should apply to either UFFDIO_WRITEPROTECT or > > UFFDIO_COPY, iiuc, as long as we follow the order of (1) modify pgtable (2) > > wake sleeping threads. Then it also means that when must_wait() returned true, > > it should always get waked up when fault resolved. > > > > Taking UFFDIO_COPY as example, even if UFFDIO_COPY happen right before > > must_wait() calls: > > > > worker thread uffd thread > > ------------- ----------- > > > > handle_userfault > > spin_lock(fault_pending_wqh) > > enqueue() > > set_current_state(INTERRUPTIBLE) > > spin_unlock(fault_pending_wqh) > > must_wait() > > lockless walk page table > > UFFDIO_COPY > > fill in the hole > > wake up threads > > (this will wake up worker thread too?) > > schedule() > > (which may return immediately?) > > > > While here fault_pending_wqh is lock protected. I just feel like there's some > > other reason to cause the thread to stall. Or did I miss something? > > But what happens if the copy completed before the enqueuing? Assume > the page is write-protected during UFFDIO_COPY: > > > cpu0 cpu1 > ---- ---- > handle_userfault > UFFDIO_COPY > [ write-protected ] > fill in the hole > wake up threads > [nothing to wake] > > UFFD_WP (unprotect) > logically marks as unprotected > [nothing to wake] > > spin_lock(fault_pending_wqh) > enqueue() > set_current_state(INTERRUPTIBLE) > spin_unlock(fault_pending_wqh) > must_wait() > > [ #PF on the same PTE > due to write-protection ] > > ... > wp_page_copy() > ptep_clear_flush_notify() > [ PTE is clear ] > > lockless walk page table > pte_none(*pte) -> must wait > > Note that additional scenarios are possible. For instance, instead of > wp_page_copy(), we can have other change_pte_range() (due to worker’s > mprotect() or NUMA balancing), calling ptep_modify_prot_start() and clearing > the PTE. > > Am I missing something? Ah I see your point, thanks. I think you're right: Reviewed-by: Peter Xu <peterx@redhat.com> Would you mind adding something like above into the commit message if you're going to repost? IMHO it would even be nicer to mention why UFFDIO_WRITEPROTECT does not need this extra wakeup (I think it's because it'll do the wakeup unconditionally anyway).
> On Dec 21, 2020, at 12:52 PM, Peter Xu <peterx@redhat.com> wrote: > > On Mon, Dec 21, 2020 at 07:51:52PM +0000, Nadav Amit wrote: >>> On Dec 21, 2020, at 11:28 AM, Peter Xu <peterx@redhat.com> wrote: >>> >>> On Sat, Nov 28, 2020 at 04:45:38PM -0800, Nadav Amit wrote: >>>> From: Nadav Amit <namit@vmware.com> >>>> >>>> When userfaultfd copy-ioctl fails since the PTE already exists, an >>>> -EEXIST error is returned and the faulting thread is not woken. The >>>> current userfaultfd test does not wake the faulting thread in such case. >>>> The assumption is presumably that another thread set the PTE through >>>> copy/wp ioctl and would wake the faulting thread or that alternatively >>>> the fault handler would realize there is no need to "must_wait" and >>>> continue. This is not necessarily true. >>>> >>>> There is an assumption that the "must_wait" tests in handle_userfault() >>>> are sufficient to provide definitive answer whether the offending PTE is >>>> populated or not. However, userfaultfd_must_wait() test is lockless. >>>> Consequently, concurrent calls to ptep_modify_prot_start(), for >>>> instance, can clear the PTE and can cause userfaultfd_must_wait() >>>> to wrongly assume it is not populated and a wait is needed. >>> >>> Yes userfaultfd_must_wait() is lockless, however my understanding is that we'll >>> enqueue before reading the page table, which seems to me that we'll always get >>> notified even the race happens. Should apply to either UFFDIO_WRITEPROTECT or >>> UFFDIO_COPY, iiuc, as long as we follow the order of (1) modify pgtable (2) >>> wake sleeping threads. Then it also means that when must_wait() returned true, >>> it should always get waked up when fault resolved. >>> >>> Taking UFFDIO_COPY as example, even if UFFDIO_COPY happen right before >>> must_wait() calls: >>> >>> worker thread uffd thread >>> ------------- ----------- >>> >>> handle_userfault >>> spin_lock(fault_pending_wqh) >>> enqueue() >>> set_current_state(INTERRUPTIBLE) >>> spin_unlock(fault_pending_wqh) >>> must_wait() >>> lockless walk page table >>> UFFDIO_COPY >>> fill in the hole >>> wake up threads >>> (this will wake up worker thread too?) >>> schedule() >>> (which may return immediately?) >>> >>> While here fault_pending_wqh is lock protected. I just feel like there's some >>> other reason to cause the thread to stall. Or did I miss something? >> >> But what happens if the copy completed before the enqueuing? Assume >> the page is write-protected during UFFDIO_COPY: >> >> >> cpu0 cpu1 >> ---- ---- >> handle_userfault >> UFFDIO_COPY >> [ write-protected ] >> fill in the hole >> wake up threads >> [nothing to wake] >> >> UFFD_WP (unprotect) >> logically marks as unprotected >> [nothing to wake] >> >> spin_lock(fault_pending_wqh) >> enqueue() >> set_current_state(INTERRUPTIBLE) >> spin_unlock(fault_pending_wqh) >> must_wait() >> >> [ #PF on the same PTE >> due to write-protection ] >> >> ... >> wp_page_copy() >> ptep_clear_flush_notify() >> [ PTE is clear ] >> >> lockless walk page table >> pte_none(*pte) -> must wait >> >> Note that additional scenarios are possible. For instance, instead of >> wp_page_copy(), we can have other change_pte_range() (due to worker’s >> mprotect() or NUMA balancing), calling ptep_modify_prot_start() and clearing >> the PTE. >> >> Am I missing something? > > Ah I see your point, thanks. I think you're right: > > Reviewed-by: Peter Xu <peterx@redhat.com> > > Would you mind adding something like above into the commit message if you're > going to repost? IMHO it would even be nicer to mention why > UFFDIO_WRITEPROTECT does not need this extra wakeup (I think it's because it'll > do the wakeup unconditionally anyway). Yes, the commit log needs to be fixed. I will update it based on your feedback on RFC-v2. Thanks, Nadav
diff --git a/tools/testing/selftests/vm/userfaultfd.c b/tools/testing/selftests/vm/userfaultfd.c index 9b0912a01777..f7e6cf43db71 100644 --- a/tools/testing/selftests/vm/userfaultfd.c +++ b/tools/testing/selftests/vm/userfaultfd.c @@ -484,6 +484,18 @@ static void retry_copy_page(int ufd, struct uffdio_copy *uffdio_copy, } } +static void wake_range(int ufd, unsigned long addr, unsigned long len) +{ + struct uffdio_range uffdio_wake; + + uffdio_wake.start = addr; + uffdio_wake.len = len; + + if (ioctl(ufd, UFFDIO_WAKE, &uffdio_wake)) + fprintf(stderr, "error waking %lu\n", + addr), exit(1); +} + static int __copy_page(int ufd, unsigned long offset, bool retry) { struct uffdio_copy uffdio_copy; @@ -507,6 +519,7 @@ static int __copy_page(int ufd, unsigned long offset, bool retry) uffdio_copy.copy); exit(1); } + wake_range(ufd, uffdio_copy.dst, page_size); } else if (uffdio_copy.copy != page_size) { fprintf(stderr, "UFFDIO_COPY unexpected copy %Ld\n", uffdio_copy.copy); exit(1);