On Wed, 29 Apr 2020 17:47:47 +0200, Alex Deucher wrote:
On Wed, Apr 29, 2020 at 11:27 AM Nicholas Johnson nicholas.johnson-opensource@outlook.com.au wrote:
On Wed, Apr 29, 2020 at 09:37:41AM +0200, Takashi Iwai wrote:
On Tue, 28 Apr 2020 16:48:45 +0200, Nicholas Johnson wrote:
> > > > FWIW, I have a fiji board in a desktop system and it worked fine when > > this code was enabled. > > Is the new DC code used for Fiji boards? IIRC, the audio component > binding from amdgpu is enabled only for DC, and without the audio > component binding the runtime PM won't be linked up, hence you can't > power up GPU from the audio side access automatically. >
Yes, DC is enabled by default for all cards with runtime pm enabled.
OK, thanks, I found that amdgpu got bound via component in the dmesg output, too:
[ 21.294927] snd_hda_intel 0000:08:00.1: bound 0000:08:00.0 (ops amdgpu_dm_audio_component_bind_ops [amdgpu])
This is the place soon after amdgpu driver gets initialized. Then we see later another initialization phase:
[ 26.904127] rfkill: input handler enabled [ 37.264152] [drm] PCIE GART of 1024M enabled (table at 0x000000F400000000).
here shows 10 seconds between them. Then, it complained something:
[ 37.363287] [drm] UVD initialized successfully. [ 37.473340] [drm] VCE initialized successfully. [ 37.477942] amdgpu 0000:08:00.0: [drm] Cannot find any crtc or sizes
The above would be me hitting WindowsKey+P to change screens, but with no DisplayPort attached to Fiji, hence it unable to find crtc.
... and go further, and hitting HD-audio error:
That would be me having attached the DisplayPort and done WindowsKey+P again.
[ 38.936624] [drm] fb mappable at 0x4B0696000 [ 38.936626] [drm] vram apper at 0x4B0000000 [ 38.936626] [drm] size 33177600 [ 38.936627] [drm] fb depth is 24 [ 38.936627] [drm] pitch is 15360 [ 38.936673] amdgpu 0000:08:00.0: fb1: amdgpudrmfb frame buffer device [ 40.092223] snd_hda_intel 0000:08:00.1: azx_get_response timeout, switching to polling mode: last cmd=0x00170500
After this point, HD-audio communication was screwed up.
This lastcmd in the above message is AC_SET_POWER_STATE verb for the root node to D0, so the very first command to power up the codec. The rest commands are also about the power up of each node, so the whole error indicate that the power up at runtime resume failed.
So, this looks to me as if the device gets runtime-resumed at the bad moment?
It does. However, this is not going to be easy to pin down.
I moved from Arch to Ubuntu, and it behaves differently. I cannot trigger the bug in Ubuntu. Plus, it puts the GPUs asleep, even if attached at boot, unlike Arch. I will continue to try to trigger it. But even if this is a problem with the Linux distribution, it should not be able to trigger a kernel mode bug, so we should persist with finding it.
Sure, that's a bug to be fixed.
This made me thinking what happens if we load the HD-audio driver very late. Could you try to blacklist snd-hda-intel module, then load it manually after plugging the DP monitor and activating it?
Attached dmesg-blacklist-*
It is interesting. If I enable the monitor with the module unloaded, and then load the module, I cannot trigger the bug, even if disabling the monitor, waiting for GPU to sleep, and then waking again.
Even if I wake monitor up, put to sleep again, and then insmod when sleeping, it does not cause bug when waking again.
Is there anything special about the first time the monitor is used?
What do you mean by used? Do you mean plugged in to the GPU or used in the GUI? It might be easier to debug this without a GUI involved. Can you try this at runlevel 3 or something equivalent for your distro?
When the GPU is powered up, the driver gets an interrupt when a display is hotplugged and generates an event and userspace applications can listen for these events. When the GPU is powered down, there's no interrupt. I think most GUIs poll GPUs periodically to handle this case so they can detect a new display even when the GPU is off. Maybe we are getting some sort of race here. GUI queries GPU driver, causes GPU to wake up, checks attached displays, GPU driver resets runtime pm timer. GPU goes back to sleep. The detection updates the ELD data which causes the HDA driver to wake up. It assumes the hw is on and tries to query it. In the meantime, the GPU has already powered everything down again.
Well, but the code path there is the runtime PM resume of the audio device and it means that GPU must have been runtime-resumed again beforehand via the device link. So, it should have worked from the beginning but in reality not -- that is, apparently some inconsistency is found in the initial attempt of the runtime resume...
Takashi