Hi Andrea,

Is there any new about this discussion? ;)

Will you plan to support 'only wrprotect fault' in the userfault API?

Thanks,
zhanghailiang

On 2014/10/30 19:31, zhanghailiang wrote:
On 2014/10/30 1:46, Andrea Arcangeli wrote:
Hi Zhanghailiang,

On Mon, Oct 27, 2014 at 05:32:51PM +0800, zhanghailiang wrote:
Hi Andrea,

Thanks for your hard work on userfault;)

This is really a useful API.

I want to confirm a question:
Can we support distinguishing between writing and reading memory for userfault?
That is, we can decide whether writing a page, reading a page or both trigger 
userfault.

I think this will help supporting vhost-scsi,ivshmem for migration,
we can trace dirty page in userspace.

Actually, i'm trying to relize live memory snapshot based on pre-copy and 
userfault,
but reading memory from migration thread will also trigger userfault.
It will be easy to implement live memory snapshot, if we support configuring
userfault for writing memory only.

Mail is going to be long enough already so I'll just assume tracking
dirty memory in userland (instead of doing it in kernel) is worthy
feature to have here.

After some chat during the KVMForum I've been already thinking it
could be beneficial for some usage to give userland the information
about the fault being read or write, combined with the ability of
mapping pages wrprotected to mcopy_atomic (that would work without
false positives only with MADV_DONTFORK also set, but it's already set
in qemu). That will require "vma->vm_flags & VM_USERFAULT" to be
checked also in the wrprotect faults, not just in the not present
faults, but it's not a massive change. Returning the read/write
information is also a not massive change. This will then payoff mostly
if there's also a way to remove the memory atomically (kind of
remap_anon_pages).

Would that be enough? I mean are you still ok if non present read
fault traps too (you'd be notified it's a read) and you get
notification for both wrprotect and non present faults?

Hi Andrea,

Thanks for your reply, and your patience;)

Er, maybe i didn't describe clearly. What i really need for live memory snapshot
is only wrprotect fault, like kvm's dirty tracing mechanism, *only tracing 
write action*.

My initial solution scheme for live memory snapshot is:
(1) pause VM
(2) using userfaultfd to mark all memory of VM is wrprotect (readonly)
(3) save deivce state to snapshot file
(4) resume VM
(5) snapshot thread begin to save page of memory to snapshot file
(6) VM is going to run, and it is OK for VM or other thread to read ram (no 
fault trap),
     but if VM try to write page (dirty the page), there will be
     a userfault trap notification.
(7) a fault-handle-thread reads the page request from userfaultfd,
     it will copy content of the page to some buffers, and then remove the 
page's
     wrprotect limit(still using the userfaultfd to tell kernel).
(8) after step (7), VM can continue to write the page which is now can be write.
(9) snapshot thread save the page cached in step (7)
(10) repeat step (5)~(9) until all VM's memory is saved to snapshot file.

So, what i need for userfault is supporting only wrprotect fault. i don't
want to get notification for non present reading faults, it will influence
VM's performance and the efficiency of doing snapshot.

Also, i think this feature will benefit for migration of ivshmem and vhost-scsi
which have no dirty-page-tracing now.

The question then is how you mark the memory readonly to let the
wrprotect faults trap if the memory already existed and you didn't map
it yourself in the guest with mcopy_atomic with a readonly flag.

My current plan would be:

- keep MADV_USERFAULT|NOUSERFAULT just to set VM_USERFAULT for the
   fast path check in the not-present and wrprotect page fault

- if VM_USERFAULT is set, find if there's a userfaultfd registered
   into that vma too

     if yes engage userfaultfd protocol

     otherwise raise SIGBUS (single threaded apps should be fine with
     SIGBUS and it'll avoid them to spawn a thread in order to talk the
     userfaultfd protocol)

- if userfaultfd protocol is engaged, return read|write fault + fault
   address to read(ufd) syscalls

- leave the "userfault" resolution mechanism independent of the
   userfaultfd protocol so we keep the two problems separated and we
   don't mix them in the same API which makes it even harder to
   finalize it.

     add mcopy_atomic (with a flag to map the page readonly too)

     The alternative would be to hide mcopy_atomic (and even
     remap_anon_pages in order to "remove" the memory atomically for
     the externalization into the cloud) as userfaultfd commands to
     write into the fd. But then there would be no much point to keep
     MADV_USERFAULT around if I do so and I could just remove it
     too or it doesn't look clean having to open the userfaultfd just
     to issue an hidden mcopy_atomic.

     So it becomes a decision if the basic SIGBUS mode for single
     threaded apps should be supported or not. As long as we support
     SIGBUS too and we don't force to use userfaultfd as the only
     mechanism to be notified about userfaults, having a separate
     mcopy_atomic syscall sounds cleaner.

     Perhaps mcopy_atomic could be used in other cases that may arise
     later that may not be connected with the userfault.

Questions to double check the above plan is ok:

1) should I drop the SIGBUS behavior and MADV_USERFAULT?

2) should I hide mcopy_atomic as a write into the userfaultfd?

    NOTE: even if I hide mcopy_atomic as a userfaultfd command to write
    into the fd, the buffer pointer passed to write() syscall would
    still _not_ be pointing to the data like a regular write, but it
    would be a pointer to a command structure that points to the source
    and destination data of the "hidden" mcopy_atomic, the only
    advantage is that perhaps I could wakeup the blocked page faults
    without requiring an additional syscall.

    The standalone mcopy_atomic would still require a write into the
    userfaultfd as it happens now after remap_anon_pages returns, in
    order to wakeup the stopped page faults.

3) should I add a registration command to trap only write faults?


Sure, that is what i really need;)


Best Regards,
zhanghailiang

    The protocol can always be extended later anyway in a backwards
    compatible way but it's better if we get it fully featured from the
    start.

For completeness, some answers for other questions I've seen floating
around but that weren't posted on the list yet (you can skip reading
the below part if not interested):

- open("/dev/userfault") instead of sys_userfaultfd(), I don't see the
   benefit: userfaultfd is just like eventfd in terms of kernel API and
   registering a /dev/ device actually sounds trickier. userfault is a
   core VM feature and generally we prefer syscalls for core VM
   features instead of running ioctl on some chardev that may or may
   not exist. (like we did with /dev/ksm -> MADV_MERGEABLE)

- there was a suggestion during KVMForum about allowing an external
   program to attach to any MM. Like ptrace. So you could have a single
   process managing all userfaults for different processes. However
   because I cannot allow multiple userfaultfd to register into the
   same range, this doesn't look very reliable (ptrace is kind of an
   optional/debug feature while if userfault goes wrong and returns
   -EBUSY things go bad) and there may be other complications. If I'd
   allow multiple userfaultfd to register into the same range, I
   wouldn't even know who to deliver the userfault to. It is an erratic
   behavior. Currently it'd return -EBUSY if the app has a bug and does
   that, but maybe later this can be relaxed to allow higher
   scalability with a flag (userfaultfd gets flags as parameters), but
   it still would need to be the same logic that manages userfaults and
   the only point of allowing multiple ufd to map the same range would
   be SMP scalability. So I tend to see the userfaultfd as a MM local
   thing. The thread managing the userfaults can still talk with
   another process in the local machine using pipes or sockets if it
   needs to.

- the userfaultfd protocol version handshake was done this way because
   it looked more reliable.

   Of course we could pass the version of the protocol as parameter to
   userfaultfd too, but running the syscall multiple times until
   -EPROTO didn't return anymore doesn't seem any better than writing
   into the fd the wanted protocol until you read it back instead of
   -1ULL. It just looked more reliable not having to run the syscall
   again and again while depending on -EPROTO or some other
   -Esomething.

Thanks,
Andrea

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