Dne 09. 08. 20 v 9:05 Pavel Hofman napsal(a):
Dne 03. 08. 20 v 12:48 Pavel Hofman napsal(a):
Dne 03. 08. 20 v 9:22 Jaroslav Kysela napsal(a):
Dne 03. 08. 20 v 8:17 Takashi Iwai napsal(a):
On Sun, 02 Aug 2020 19:50:44 +0200,
Optionally the second case could be handled just like the first case by resetting s16->old, assuming the boundary wrap occurs very infrequently.
The following patch is tested to work OK, no CPU peaks and no meter output glitches when the size < 0 condition occurs:
diff --git a/src/pcm/pcm_meter.c b/src/pcm/pcm_meter.c index 20b41876..48df5945 100644 --- a/src/pcm/pcm_meter.c +++ b/src/pcm/pcm_meter.c @@ -1098,8 +1098,15 @@ static void s16_update(snd_pcm_scope_t *scope) snd_pcm_sframes_t size; snd_pcm_uframes_t offset; size = meter->now - s16->old; - if (size < 0) - size += spcm->boundary; + if (size < 0) { + /** + * Application pointer adjusted for delay (meter->now) has dropped compared + * to the previous update cycle. Either spcm->boundary wraparound, pcm rewinding, + * or pcm restart without s16->old properly reset. + * In any case the safest solution is skipping this conversion cycle. + */ + size = 0; + } offset = s16->old % meter->buf_size; while (size > 0) { snd_pcm_uframes_t frames = size;
Please will you accept this (workaround) bugfix? If so, I would send a proper patch.
It looks OK, at least this must be safe. So yes, I'll happily apply if you submit a proper patch.
It would be probably better to check against the boundary / 2 value to check correctly the boundary wrap instead to drop all negative size values:
if (size < 0) { if (size < -(spcm->boundary / 2)) size += spcm->boundary; else size = 0; }
Is there a reliable way to detect the boundary wraparound, at best using some dedicated API? I could find any, IMO the wraparound does not create any notification. The check is OK for a rewind, half of boundary is usually a very large number too. I am not sure what would happen at reset when application pointer was already past the boundary half - see below.
Yes, it's a good argument. In this case, the s16->old value is not properly synced during the reset operation, otherwise the boundary / 2 threshold (change limit) is sufficient to detect the boundary wrap.
The "hidden" pcm restart referred in the comment should not occur, otherwise it's another bug somewhere.
I do not know the exact moments when plugin API methods are called. The fact is Takashi's suggestion to call s16 reset explicitely in snd_pcm_meter_reset created this order:
snd_pcm_meter_reset -> s16->reset s16_update: meter->now 22751, s16->old 22751, size 0 s16_update: meter->now 839, s16->old 22751, size -21912
I.e. AFTER resetting meter/s16 the variable meter->now was still at the original large 22751 (with s16->old equal to its value due to s16->reset). The value of meter->now was reset to 839 (= app pointer - delay) only in the next call of s16_update (when s16->old was still the previous old value => size < 0 => huge size => high CPU load). From this I kind of conclude that the reset is buggy. Maybe the reset code should re-calculate meter->now = appl.pointer - delay before aligning s16->old = meter->now.
Nevertheless all this (except for the boundary wraparound) would result in the same size = 0, thus skipping samples from the last cycle, just like what the proposed patch does.
Please can we reach a decision and close the problem so that affected use cases do not have to be patched with the next the alsa-lib version?
I think that this problem should be fixed for reset and rewind separately. The meter->reset should be set in snd_pcm_meter_reset() inside the running_mutex lock to serialize correctly the update operations in the snd_pcm_meter_thread(). And perhaps, we can follow this logic for the rewind.
I mean, we should ensure to call the s16->reset at the proper time to avoid broken old/now combinations inside the scope "clients".
Your proposed solution is just a workaround.
Jaroslav
Thanks a lot in advance,
Pavel.