Add more coverage to our standard test cases:
- 8kHz mono and stereo to verify that the most common mono format is
clocked correctly.
- 44.1kHz stereo to verify that this different clock base is generated
accurately.
- 48kHz 6 channel to verify that 6 channel is clocked correctly.
- 96kHz stereo since that is a common audiophile rate.
Reviewed-by: Jaroslav Kysela <perex@perex.cz>
Signed-off-by: Mark Brown <broonie@kernel.org>
Link: https://lore.kernel.org/r/20221208-alsa-pcm-test-hacks-v4-7-5a152e65b1e1@kernel.org
Signed-off-by: Takashi Iwai <tiwai@suse.de>
pcm.test.time1 {
+ description "8kHz mono large periods"
+ format S16_LE
+ alt_formats [ S32_LE ]
+ rate 8000
+ channels 1
+ period_size 8000
+ buffer_size 32000
+}
+pcm.test.time2 {
+ description "8kHz stereo large periods"
+ format S16_LE
+ alt_formats [ S32_LE ]
+ rate 8000
+ channels 2
+ period_size 8000
+ buffer_size 32000
+}
+pcm.test.time3 {
+ description "44.1kHz stereo large periods"
+ format S16_LE
+ alt_formats [ S32_LE ]
+ rate 44100
+ channels 2
+ period_size 22500
+ buffer_size 192000
+}
+pcm.test.time4 {
description "48kHz stereo small periods"
format S16_LE
alt_formats [ S32_LE ]
period_size 512
buffer_size 4096
}
-pcm.test.time2 {
+pcm.test.time5 {
description "48kHz stereo large periods"
format S16_LE
alt_formats [ S32_LE ]
period_size 24000
buffer_size 192000
}
+pcm.test.time6 {
+ description "48kHz 6 channel large periods"
+ format S16_LE
+ alt_formats [ S32_LE ]
+ rate 48000
+ channels 2
+ period_size 48000
+ buffer_size 576000
+}
+pcm.test.time7 {
+ description "96kHz stereo large periods"
+ format S16_LE
+ alt_formats [ S32_LE ]
+ rate 96000
+ channels 2
+ period_size 48000
+ buffer_size 192000
+}