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SubjectRe: [RFC PATCH v11 6/9] media: tegra: Add Tegra210 Video input driver
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On 5/2/20 9:14 AM, Sowjanya Komatineni wrote:
>
> On 5/2/20 9:03 AM, Sowjanya Komatineni wrote:
>>
>> On 5/2/20 8:38 AM, Sowjanya Komatineni wrote:
>>>
>>> On 5/2/20 8:16 AM, Dmitry Osipenko wrote:
>>>> 02.05.2020 06:55, Sowjanya Komatineni пишет:
>>>>> On 5/1/20 8:39 PM, Sowjanya Komatineni wrote:
>>>>>>
>>>>>> On 5/1/20 2:05 PM, Sowjanya Komatineni wrote:
>>>>>>>
>>>>>>> On 5/1/20 1:58 PM, Sowjanya Komatineni wrote:
>>>>>>>>
>>>>>>>> On 5/1/20 1:44 PM, Sowjanya Komatineni wrote:
>>>>>>>>>
>>>>>>>>> On 5/1/20 11:03 AM, Sowjanya Komatineni wrote:
>>>>>>>>>>
>>>>>>>>>> On 4/30/20 4:33 PM, Sowjanya Komatineni wrote:
>>>>>>>>>>>
>>>>>>>>>>> On 4/30/20 4:14 PM, Sowjanya Komatineni wrote:
>>>>>>>>>>>>>>>>>> And in this case synchronization between start/finish
>>>>>>>>>>>>>>>>>> threads should be
>>>>>>>>>>>>>>>>>> needed in regards to freezing.
>>>>>>>>>>>>>>>>> Was thinking to have counter to track outstanding frame
>>>>>>>>>>>>>>>>> w.r.t single shot issue b/w start and finish and allow to
>>>>>>>>>>>>>>>>> freeze only when no outstanding frames in process.
>>>>>>>>>>>>>>>>>
>>>>>>>>>>>>>>>>> This will make sure freeze will not happen when any
>>>>>>>>>>>>>>>>> buffers
>>>>>>>>>>>>>>>>> are in progress
>>>>>>>>>>>>>>>>>
>>>>>>>>>>>>>>>>>> Note that this could be a wrong assumption, I'm not
>>>>>>>>>>>>>>>>>> closely familiar
>>>>>>>>>>>>>>>>>> with how freezer works.
>>>>>>>>>>>>>>>> kthread_start can unconditionally allow try_to_freeze
>>>>>>>>>>>>>>>> before
>>>>>>>>>>>>>>>> start of frame capture
>>>>>>>>>>>>>>>>
>>>>>>>>>>>>>>>> We can compute captures inflight w.r.t single shot issued
>>>>>>>>>>>>>>>> during capture start and finished frames by kthread_finish
>>>>>>>>>>>>>>>> and allow kthread_finish to freeze only when captures
>>>>>>>>>>>>>>>> inflight is 0.
>>>>>>>>>>>>>>>>
>>>>>>>>>>>>>>>> This allows freeze to happen b/w frames but not in
>>>>>>>>>>>>>>>> middle of
>>>>>>>>>>>>>>>> frame
>>>>>>>>>>>>> will have caps inflight check in v12 to allow freeze finish
>>>>>>>>>>>>> thread only when no captures are in progress
>>>>>>>>>>>>
>>>>>>>>>>>> try_to_freeze() returns thread frozen state and looks like we
>>>>>>>>>>>> can use this in kthread finish to allow finish thread to
>>>>>>>>>>>> freeze
>>>>>>>>>>>> only when kthread_start is already frozen and no buffers in
>>>>>>>>>>>> progress/initiated for capture.
>>>>>>>>>>>>
>>>>>>>>>>> chan->capture_frozen holds frozen state returned from
>>>>>>>>>>> try_to_freeze() in start kthread
>>>>>>>>>>>
>>>>>>>>>>> chan->capture_reqs increments after every single shot issued.
>>>>>>>>>>>
>>>>>>>>>>>
>>>>>>>>>>> static int chan_capture_kthread_finish(void *data)
>>>>>>>>>>>
>>>>>>>>>>> {
>>>>>>>>>>>      struct tegra_vi_channel *chan = data;
>>>>>>>>>>>      struct tegra_channel_buffer *buf;
>>>>>>>>>>>      int caps_inflight;
>>>>>>>>>>>
>>>>>>>>>>>      set_freezable();
>>>>>>>>>>>
>>>>>>>>>>>      while (1) {
>>>>>>>>>>> wait_event_interruptible(chan->done_wait,
>>>>>>>>>>>  !list_empty(&chan->done) ||
>>>>>>>>>>>                       kthread_should_stop());
>>>>>>>>>>>
>>>>>>>>>>>          /* dequeue buffers and finish capture */
>>>>>>>>>>>          buf = dequeue_buf_done(chan);
>>>>>>>>>>>          while (buf) {
>>>>>>>>>>>              tegra_channel_capture_done(chan, buf);
>>>>>>>>>>>              buf = dequeue_buf_done(chan);
>>>>>>>>>>>          }
>>>>>>>>>>>
>>>>>>>>>>>          if (kthread_should_stop())
>>>>>>>>>>>              break;
>>>>>>>>>>>
>>>>>>>>>>>          caps_inflight = chan->capture_reqs - chan->sequence;
>>>>>>>>>>>          if (chan->capture_frozen && !caps_inflight)
>>>>>>>>>>>              try_to_freeze();
>>>>>>>>>>>      }
>>>>>>>>>>>
>>>>>>>>>>>      return 0;
>>>>>>>>>>> }
>>>>>>>>>>
>>>>>>>>>> Freezing happens prior to suspend() during suspend entry and
>>>>>>>>>> when
>>>>>>>>>> we implement suspend/resume during suspend we stop streaming
>>>>>>>>>> where
>>>>>>>>>> we stop threads anyway.
>>>>>>>>>>
>>>>>>>>>> So, was thinking why we need these threads freezable here?
>>>>>>>>>>
>>>>>>>>>>
>>>>>>>>> Hi Dmitry,
>>>>>>>>>
>>>>>>>>> Did some testing and below are latest observation and fix I
>>>>>>>>> tested.
>>>>>>>>>
>>>>>>>>> wait_event_interruptible() uses schedule() which blocks the
>>>>>>>>> freezer.
>>>>>>>>> When I do suspend while keeping streaming active in background, I
>>>>>>>>> see freezing of these threads fail and call trace shows
>>>>>>>>> __schedule
>>>>>>>>> -> __switch_to from these kthreads.
>>>>>>>>>
>>>>>>>>> wait_event_freezable() uses freezable_schedule() which should not
>>>>>>>>> block the freezer but we can't use this here as we need
>>>>>>>>> conditional
>>>>>>>>> try_to_freeze().
>>>>>>>>>
>>>>>>>>>
>>>>>>>>> So, doing below sequence works where we set PF_FREEZER_SKIP flag
>>>>>>>>> thru freezer_not_count() before wait_event which calls schedule()
>>>>>>>>> and remove PF_FREEZER_SKIP after schedule allows try_to_freeze to
>>>>>>>>> work and also conditional try_to_freeze below prevents freezing
>>>>>>>>> thread in middle of capture.
>>>>>>>>>
>>>>>>>>> while (1) {
>>>>>>>>>      freezer_not_count()
>>>>>>>>>      wait_event_interruptible()
>>>>>>>>>      freezer_count()
>>>>>>>>>      ...
>>>>>>>>>      ...
>>>>>>>>>      if (chan->capture_frozen && !caps_inflight)
>>>>>>>>>          try_to_freeze()
>>>>>>>>> }
>>>>>>>>>
>>>>>>>>> Please comment if you agree with above sequence. Will include
>>>>>>>>> this
>>>>>>>>> in v12.
>>>>>>>>>
>>>>>>> sorry, freezer_count() does try_to_freeze after clearing skip flag.
>>>>>>> So, dont think we can use this as we need conditional
>>>>>>> try_to_freeze.
>>>>>>> Please ignore above sequence.
>>>>>>>> Or probably we can take closer look on this later when we add
>>>>>>>> suspend/resume support as it need more testing as well.
>>>>>>>>
>>>>>>>> As this is initial series which has TPG only I think we shouldn't
>>>>>>>> get blocked on this now. Series-2 and 3 will be for sensor support
>>>>>>>> and on next series when we add suspend/resume will look into this.
>>>>>>>>
>>>>>>>>
>>>>>> When freeze activity starts and in case if finish thread freezes
>>>>>> prior
>>>>>> to start thread issuing capture, its the VI hardware writes data to
>>>>>> the allocated buffer address.
>>>>>>
>>>>>> finish thread just checks for the event from the hardware and we
>>>>>> don't
>>>>>> handle/process directly on memory in this driver.
>>>>>>
>>>>>> So even we freeze done thread when single shot is issued frame
>>>>>> buffer
>>>>>> gets updated.
>>>>>>
>>>>>> In case if capture thread is frozen there will not buffers queued to
>>>>>> process by finish thread. So, this will not be an issue.
>>>>>>
>>>>>> So, probably we don't need to do conditional try_to_freeze and
>>>>>> what we
>>>>>> have should work good in this corner case.
>>>>>>
>>>>> I still need to change wait_event_interruptible() to
>>>>> wait_event_freezable() but no need to synchronize finish thread
>>>>> freeze
>>>>> with start thread as even on issuing capture start its vi hardware
>>>>> that
>>>>> does frame buffer update and finish thread just checks for mw_ack
>>>>> event
>>>>> and returns buffer to application.
>>>> The problem we are primarily trying to avoid is to have suspending
>>>> being
>>>> done in the middle of IO.
>>>>
>>>> IIUC, even if system will be suspended in the middle of VI IO, it
>>>> won't
>>>> be fatal. In worst case the buffer capture should fail on resume from
>>>> suspend. Could you please try to simulate this potential issue and see
>>>> what result will be on suspending in the middle of VI IO?
>>>>
>>>> We don't want to suspend system / stop streaming in the middle of
>>>> IO, so
>>>> this problem of a proper threads tear-down still exists. It should
>>>> become easier to resolve the problem in a case of a proper suspending
>>>> callback because the "start" thread could be turned down at any
>>>> time, so
>>>> it should be easier to maintain a proper tear-down order when threads
>>>> are fully controlled by the driver, i.e. the "start" thread goes down
>>>> first and the "finish" is second, blocking until the capture is
>>>> completed.
>>
>> I don't see issue of tear-down threads in case of suspend as we do
>> stop streaming where thread stop happens on both threads and are
>> stopped only after processing all outstanding buffers.
>>
>> Regarding freezing activity during suspend, If done thread freezes
>> prior to processing buffers for finish, vi hardware is still active
>> by this time which will update the frame buffer for initiated
>> capture. Driver is not directly involved in this frame buffer update.
>>
>> Finish thread only checks for completion to return buffers back to
>> the application when done.
>
> when done thread freeze happens after start thread initiated capture,
> vi hardware continues to update frame buffer for ongoing capture till
> it hits driver suspend callback. Yes worst case this frame data may
> not be valid data if invoking of this driver suspend happens immediate
> after this thread freeze during system suspend.
>
> But driver will still hold buffers to return which will be returned
> back on resume when threads are out from frozen state.


Also stop stream ioctl request happens during suspend where both threads
will be stopped properly. done thread stop happens only after finishing
all outstanding buffers.

Stop stream request happens from streaming applications so even without
driver suspend/resume implementation currently, streaming will be
stopped prior to system  suspend where both threads will be stopped
properly (after finishing out standing buffers) and will be resumed by
application on system resume

Also tested suspending while streaming with this unconditional freeze, I
don't see any issue as application stops stream where v4l_streamoff gets
executed during suspend and on resume streaming starts where
v4l_streamon happens.

So, I don't see any issue with existing implementation of unconditional
freeze.

>
>>
>>
>>>> I think yours suggestion about dropping the freezing from the threads
>>>> for now and returning back to it later on (once a proper
>>>> suspend/resume
>>>> support will be added) sounds reasonable.
>>>>
>>>> But if you'd want to keep the freezing, then the easy solution
>>>> could be
>>>> like that:
>>>>
>>>>    1. "start" thread could freeze at any time
>>>>    2. "finish" thread could freeze only when the "start" thread is
>>>> frozen
>>>> and capture isn't in-progress. Use frozen(kthread_start_capture) to
>>>> check the freezing state.
>>>>
>>>> https://elixir.bootlin.com/linux/v5.7-rc3/source/include/linux/freezer.h#L25
>>>>
>>>
>>> That's exactly what I tried, below is the snippet.
>>>
>>> But as mentioned I am seeing freezing fail when I
>>> wait_event_interruptible() in either of the threads.
>>>
>>>    60.368709] Call trace:
>>> [   60.371216] __switch_to+0xec/0x140
>>> [   60.374768] __schedule+0x32c/0x668
>>> [   60.378315] schedule+0x78/0x118
>>> [   60.381606]  chan_capture_kthread_finish+0x244/0x2a0 [tegra_video]
>>> [   60.387865] kthread+0x124/0x150
>>> [   60.391150] ret_from_fork+0x10/0x1c
>>>
>>> wait_event_interruptible() API uses schedule() which blocks freezer
>>> while wait_event_freezable APIs uses freezable_schedule() which
>>> allows to skip freezer during schedule and then clears skip and
>>> calls try_to_freeze()
>>>
>>> But we can't use wait_event_freezable() here as we need conditional
>>> freeze.
>>>
>>>
>>>     while (1) {
>>>         caps_inflight = chan->capture_reqs - chan->sequence;
>>>         if (frozen(chan->kthread_start_capture) && !caps_inflight)
>>>             wait_event_freezable(chan->done_wait,
>>>                          !list_empty(&chan->done) ||
>>>                          kthread_should_stop());
>>>         else
>>>             wait_event_interruptible(chan->done_wait,
>>>                          !list_empty(&chan->done) ||
>>>                          kthread_should_stop());
>>>
>>>         /* dequeue buffers and finish capture */
>>>
>>>         ...
>>>
>>>         ...
>>>
>>>
>>>         if (kthread_should_stop())
>>>             break;
>>>     }
>>>

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