On 05/06/2018 15:14, Cornelia Huck wrote:
On Tue, 22 May 2018 17:10:44 +0200
Pierre Morel <pmorel@xxxxxxxxxxxxx> wrote:
On 22/05/2018 14:52, Cornelia Huck wrote:
On Wed, 16 May 2018 15:32:48 +0200
Pierre Morel <pmorel@xxxxxxxxxxxxx> wrote:
On 15/05/2018 18:10, Cornelia Huck wrote:
On Fri, 11 May 2018 11:33:35 +0200
Pierre Morel <pmorel@xxxxxxxxxxxxx> wrote:
On 09/05/2018 17:48, Cornelia Huck wrote:
@@ -126,7 +192,24 @@ static void fsm_io_request(struct vfio_ccw_private *private,
memcpy(scsw, io_region->scsw_area, sizeof(*scsw));
- if (scsw->cmd.fctl & SCSW_FCTL_START_FUNC) {
+ /*
+ * Start processing with the clear function, then halt, then start.
+ * We may still be start pending when the caller wants to clean
+ * up things via halt/clear.
+ */
hum. The scsw here does not reflect the hardware state but the
command passed from the user interface.
Can we and should we authorize multiple commands in one call?
If not, the comment is not appropriate and a switch on cmd.fctl
would be a clearer.
There may be multiple functions specified, but we need to process them
in precedence order (and clear wins over the others, so to speak).
Would adding a sentence like "we always process just one function" help?
Why should we allow multiple commands in a single call ?
It brings no added value.
Is there a use case?
Currently QEMU does not do this and since we only have the SCSH there
is no difference having the bit set alone or not alone.
I found this to be a very easy way to implement halt/clear. This still
holds true if we switch to some kind of capabilities for this (did not
have time to look at this further, though).
As we have the fctl field anyway, I'm in favour of processing this all
in one function.
[starting to look at this again]
Sorry, I do not understand if we agree or not.
I agree we have the fctl field and we must continue to use it
for backward compatibility.
It also mirrors the hardware, no?
No, in the hardware this is the result of the instruction in the SCSW.
Not the instruction itself.
I do not understand the "processing all in one function".
Since yo already have 3 function to process these three instructions.
Do you mean the if .. else if .. else if ?
Yes. There is a lot of common handling for each of these.
There are also differences and it breaks the FSM
Then I come back to what you said earlier on the precedence of the clear
instruction:
1) do we have a use case to have more than one bit set in the fctl field?
- if no, there is no need for precedence
It mirrors what the hardware does: you just set an additional bit if
processing has not yet finished.
I do not agree, this is true for the SCSW but not for instructions.
We receive instructions in VFIO and give back status.
The name used to provide the command is misleading.
- if yes, why should clear have precedence ?
Because it does on the hardware?
What you say is right if we would have a register inside the subchannel
where we write the commands.
But this is not what we handle we handle separate instructions coming
from an instruction stream.
We do never receive two instructions at the same time, but each after
the other.
If the sub-channel is busy on IO a clear or a cancel must be able to
stop the IO.
I agree upon this.
But we do not have any other command in the same call.
If we would construct the interface differently, for example using an
mmap() system
call and let the user ORing the command bitfield before using an ioctl
to inform
us from the change, or if we poll on the command bitfield we should
implement
it like you say.
But this is not what we do, and this is not what the architecture does.
does it?
How do QEMU set more than one bit in fctl?
why should we alter the order of the instructions given by the guest?
How can we know this order if there are multiple instructions at once?
In the future, we should return after we fired off the start etc.
request even if we did not receive an interrupt yet, so that the guest
might do a halt or clear before the start has finished.
This is already what is done here:
We fire off the start (go to BUSY state) and return
If the guest want to start another command it polls on
the vfio_write() untill the channel isn't BUSY anymore.
On interrupt we set the channel back to IDLE and the next
command shall be proceed.
(I must enhance the cover letter (already said))
IOW, make this
as asynchronous as the hardware. That's why I'd like to simply
accumulate the things. The architecture already specified what happens
in the response.
Do you think that is feasible?
Yes I think it is feasible and it is what we need to do.
CLEAR, CANCEL and HALT must be able to overtake the
START and really stop the IO transfer.
They just should be able to proceed in the BUSY state
on the opposite of the START.
This is easily done with new events in the FSM inside
both IDLE and BUSY states
May be I should try to integrate your patches so we have a better view.
Thanks.
Best regards,
Pierre
--
Pierre Morel
Linux/KVM/QEMU in Böblingen - Germany