But in addition we'd need to agree on what an 'active BE' is. Why can't we connect a second stream while the first one is already in HW_PARAMS or PAUSED or STOP? It's perfectly legal in ALSA/ASoC to have multiple HW_PARAMS calls, and when we reach STOP we have to do a prepare again.
And more fundamentally, the ability to add a second FE on a 'active' BE in START state is a basic requirement for a mixer, e.g. to play a notification on one FE while listening to music on another. What needs to happen is only to make sure that the FE and BE are compatible in terms of HW_PARAMS and not sending a second TRIGGER_STOP, only checking the BE NEW or CLOSE state is way too restrictive.
Sorry for the trouble to your system.
Idea was to avoid reconfiguration of the same BE DAI again, but not to stop the provision to add a subsequent FE. In fact I had tested mixing of streams coming from 10 different FEs.
Can you describe the sequence that you used to start them? That may be useful to understand the criteria you used?
In your case, because of this patch, looks like the subsequent FE is not finding a BE DAI since it is already active due to a prior FE. The reason it works at my end is because the mixer input and output DAIs are separated. Any new FE would just configure the mixer input DAI to which it is attached and skip already running/configured output DAI.
If you want to visualize the topology we're using in our 'nocodec' tests, see
https://sof-ci.01.org/linuxpr/PR3177/build6440/devicetest/?model=ADLP_RVP_NO...
and use the sof-adl-nocodec.
it's a bog-standard topology with processing entities connected by buffers.
I don't fully understand the notion of mixer input DAI, in our case we have a bunch of PCM devices connected to a mixer. The mixer is not directly connected to a DAI.
The problem as I see is that with this patch one can not connect a new FE to a BE which is _not_ in NEW or CLOSE state.
The FE and BE needs to be connected to have DPCM working and this patch makes the code to skip the dpcm_be_connect().
Consider this simple setup:
FE1 -->| | --> BE --> FE2- ->|
First we start FE1, dpcm_be_connect(FE1, BE, stream) is made.
Later FE2 is started but dpcm_be_connect(FE2, BE, stream) would be not made because BE is no longer in NEW/CLOSE state.
I share Peter's analysis, there cannot be any restrictions on connections - at any time. A mixer input might become active and be added to the mix. We might have a temporary lock to delay new connections but cannot not reject them outright based on BE state.
I am just curious to know, if originally you were reconfiguring the BE DAI again with same parameters (for a second FE) or some additional configuration is done?
That's a different question - and a good one.
In the case of a mixer, the propagation of hw_params is a broken concept. It leads to the first FE configuring the BE to define its preferred parameters, e.g. S16_LE format. If later on a second FE is started which could play S24_LE, the mixer and BE are already configured to a lower resolution. A mixer should really have its own parameters and be the start of a new 'domain' - as Lars described it several years ago at the audio miniconference.
For now, the only restriction that we could enforce is that the BE cannot be reconfigured after the prepare step.
Note that our DAIs tolerate multiple calls to hw_params. If you have a case where the hw_params allocates resources, maybe you should consider moving that allocation to the prepare step, or free them if you detect a reconfiguration. That would be something needed even outside of the DPCM scope. Similarly you need to support the case where the DAI hw_free is called without hw_params ever being called, it's a known sequence that can happen if the FE hw-params fails.
I can send a revert with the explanations in the commit message if there is a consensus that this patch needs to be revisited.
May be this can be revisited since it appears to be a critical problem for your system. But I hope this discussion can be alive on following points for a better fix.
- The original issue at my end was not just a configuration redundancy.
I realize now that with more stream addition following error print is seen. "ASoC: too many users playback at open 4"
This is because the max DPCM users is capped at 8. Increasing this may help (need to see what number is better), but does not address the redundancy problem.
we haven't used more than 2 users, but it's already broken at 2 with race conditions left and right. I am really surprised you managed to have more than 2 without hitting inconsistent states - our automated play/stop/pause monkey tests reliably break DPCM in less than 20s.
- If reconfiguration of the same BE is not necessary for a subsequent
FE run, shouldn't we avoid the reconfig itself and somehow avoid FE failure?
I'm not sure, but it might be possible to just skip the dpcm_set_be_update_state(be, stream, SND_SOC_DPCM_UPDATE_BE); call at the end of the loop, but the question is under which condition? Can a BE asked to be reconfigured when STOP/OPEN/HW_PARAMS?
Skipping the connect does not sound right for a new FE-BE connection.
The reconfiguration is one problem, but what also happens is that the BE dailink will see multiple triggers. I've been playing with refcounts to force consistency and make sure there is only one TRIGGER_START send to the dailink, and conversely there are cases where the TRIGGER_STOP is never sent...