Am 01.06.22 um 19:07 schrieb Felix Kuehling:
Am 2022-06-01 um 12:29 schrieb Christian König:
Am 01.06.22 um 17:05 schrieb Felix Kuehling:
Am 2022-06-01 um 08:40 schrieb Christian König:
Hey guys,
so today Bas came up with a new requirement regarding the explicit
synchronization to VM updates and a bunch of prototype patches.
I've been thinking about that stuff for quite some time before, but
to be honest it's one of the most trickiest parts of the driver.
So my current thinking is that we could potentially handle those
requirements like this:
1. We add some new EXPLICIT flag to context (or CS?) and VM IOCTL.
This way we either get the new behavior for the whole CS+VM or the
old one, but never both mixed.
2. When memory is unmapped we keep around the last unmap operation
inside the bo_va.
3. When memory is freed we add all the CS fences which could access
that memory + the last unmap operation as BOOKKEEP fences to the BO
and as mandatory sync fence to the VM.
Memory freed either because of an eviction or because of userspace
closing the handle will be seen as a combination of unmap+free.
The result is the following semantic for userspace to avoid
implicit synchronization as much as possible:
1. When you allocate and map memory it is mandatory to either wait
for the mapping operation to complete or to add it as dependency
for your CS.
If this isn't followed the application will run into CS faults
(that's what we pretty much already implemented).
This makes sense.
2. When memory is freed you must unmap that memory first and then
wait for this unmap operation to complete before freeing the memory.
If this isn't followed the kernel will add a forcefully wait to
the next CS to block until the unmap is completed.
This would work for now, but it won't work for user mode submission
in the future. I find it weird that user mode needs to wait for the
unmap. For user mode, unmap and free should always be asynchronous.
I can't think of any good reasons to make user mode wait for the
driver to clean up its stuff.
Could the waiting be done in kernel mode instead? TTM already does
delayed freeing if there are fences outstanding on a BO being freed.
This should make it easy to delay freeing until the unmap is done
without blocking the user mode thread.
This is not about blocking, but synchronization dependencies.
Then I must have misunderstood this sentence: "When memory is freed
you must unmap that memory first and then wait for this unmap
operation to complete before freeing the memory." If the pronoun "you"
is the user mode driver, it means user mode must wait for kernel mode
to finish unmapping memory before freeing it. Was that not what you
meant?
Ah, yes. The UMD must wait for the kernel to finish unmapping all the
maps from the BO before it drops the handle of the BO and with that
frees it.
In other words the free is not waiting for the unmap to complete, but
causes command submissions through the kernel to depend on the unmap.
I guess I don't understand that dependency. The next command
submission obviously cannot use the memory that was unmapped. But why
does it need to synchronize with the unmap operation?
Because of the necessary TLB flush, only after that one is executed we
can be sure that nobody has access to the memory any more and actually
free it.
User mode submissions are completely unrelated to that.
I mention user mode command submission because there is no way to
enforce the synchronization you describe here on a user mode queue. So
this approach is not very future proof.
With user mode queues you need to wait for the work on the queue to
finish anyway or otherwise you run into VM faults if you just unmap or
free the memory.
The signal that TLB flush is completed comes from the MES in this case.
Regards,
Christian.
Regards,
Felix
Regards,
Christian.
Regards,
Felix
3. All VM operations requested by userspace will still be executed
in order, e.g. we can't run unmap + map in parallel or something
like this.
Is that something you guys can live with? As far as I can see it
should give you the maximum freedom possible, but is still doable.
Regards,
Christian.
