ALSA's OSSEmulation layer (module snd-mixer-oss) is able to map OSS mixer controls to the native ALSA mixer. For example, by default, the OSS mixer's VOLUME control is mapped to the ALSA mixer element called Master, OSS's PCM mixer control is mapped to ALSA's PCM and so on. Unfortunately, this static mapping fails for some cards.
Recently(?), there was introduced a feature to modify that mapping
dynamically via the
/proc interface. (Thanks!) It is described by
Takashi Iwai \<firstname.lastname@example.org> in the document
"alsa-kernel/Documentation/OSS-Emulation.txt", section "Mixer Elements",
of the alsa-driver distribution:
Mixer Elements ============== Since ALSA has completely different mixer interface, the emulation of OSS mixer is relatively complicated. ALSA builds up a mixer element from several different ALSA (mixer) controls based on the name string. For example, the volume element SOUND_MIXER_PCM is composed from "PCM Playback Volume" and "PCM Playback Switch" controls for the playback direction and from "PCM Capture Volume" and "PCM Capture Switch" for the capture directory (if exists). When the PCM volume of OSS is changed, all the volume and switch controls above are adjusted automatically. As default, ALSA uses the following control for OSS volumes: OSS volume ALSA control Index ----------------------------------------------------- SOUND_MIXER_VOLUME Master 0 SOUND_MIXER_BASS Tone Control - Bass 0 SOUND_MIXER_TREBLE Tone Control - Treble 0 SOUND_MIXER_SYNTH Synth 0 SOUND_MIXER_PCM PCM 0 SOUND_MIXER_SPEAKER PC Speaker 0 SOUND_MIXER_LINE Line 0 SOUND_MIXER_MIC Mic 0 SOUND_MIXER_CD CD 0 SOUND_MIXER_IMIX Monitor Mix 0 SOUND_MIXER_ALTPCM PCM 1 SOUND_MIXER_RECLEV (not assigned) SOUND_MIXER_IGAIN Capture 0 SOUND_MIXER_OGAIN Playback 0 SOUND_MIXER_LINE1 Aux 0 SOUND_MIXER_LINE2 Aux 1 SOUND_MIXER_LINE3 Aux 2 SOUND_MIXER_DIGITAL1 Digital 0 SOUND_MIXER_DIGITAL2 Digital 1 SOUND_MIXER_DIGITAL3 Digital 2 SOUND_MIXER_PHONEIN Phone 0 SOUND_MIXER_PHONEOUT Phone 1 SOUND_MIXER_VIDEO Video 0 SOUND_MIXER_RADIO Radio 0 SOUND_MIXER_MONITOR Monitor 0 The second column is the base-string of the corresponding ALSA control. In fact, the controls with "XXX [Playback|Capture] [Volume|Switch]" will be checked in addition. The current assignment of these mixer elements is listed in the proc file, /proc/asound/cardX/oss_mixer (Note: prior to ALSA 1.0 this file is named /proc/asound/cardX/mixer_oss), which will be like the following VOLUME "Master" 0 BASS "" 0 TREBLE "" 0 SYNTH "" 0 PCM "PCM" 0 ... where the first column is the OSS volume element, the second column the base-string of the corresponding ALSA control, and the third the control index. When the string is empty, it means that the corresponding OSS control is not available. For changing the assignment, you can write the configuration to this proc file. For example, to map "Wave Playback" to the PCM volume, send the command like the following: % echo 'VOLUME "Wave Playback" 0' > /proc/asound/card0/mixer_oss The command is exactly as same as listed in the proc file. You can change one or more elements, one volume per line. In the last example, both "Wave Playback Volume" and "Wave Playback Switch" will be affected when PCM volume is changed. Like the case of PCM proc file, the permission of proc files depend on the module options of snd. you'll likely need to be superuser for sending the command above. As well as in the case of PCM proc file, you can save and restore the current mixer configuration by reading and writing the whole file image.
Well, it does... kind of. Unfortunately, it is limited to a 1:1 mapping, i.e. one OSS mixer control can affect only one alsa mixer control. For envy24 (ice1712), there are two ways of adjusting the playback volume of pcm sound:
Let's examine way 1). The channels' mixer controls are numbered "Multi 1", "Multi 2" and so on. Each of these controls a stereo channel (left + right channels). One can easily map it to the OSS mixer:
echo 'PCM "Multi" 0' > /proc/asound/card0/oss_mixer
... maps OSS PCM control to the digital mixer's _first_ (id 0) stereo channel.
echo 'VOLUME "Multi" 2' > /proc/asound/card0/oss_mixer
... maps OSS VOLUME control to the digital mixer's _third_ (id 2) stereo channel.
This solution has some drawbacks: You have to use the digital mixer and thus cannot omit it (via direct routing of pcm out to hw out, see "patchbar" in envy24control). I prefer _not_ using the mixer, because it seems to affect sound quality. Another problem is that the mixer control does not work linearly. Typically, only a small range of the control actually affects the sound level. Thus, the control becomes imprecise.
The second solution mentioned above: the DAC level control. (Obviously, this does only work for analog output). The envy24-based card has completely separate controls for the left and right channels. Thus, a mapping does only control either the left channel or the right channel:
echo 'PCM "DAC" 0' > /proc/asound/card0/oss_mixer
... for the left channel
This is fairly useless (unless you use your card as a mono source
*g*), since there is no way to lock DAC0 to DAC1 or vice versa. Seems
like there is no solution without changes to ALSA. I did a quick and
dirty one line hack to my local alsa source, which adjusts DAC1 whenever
DAC0 is changed via the oss-mixer. Actually, when OSS PCM volume is
being changed, a second (normally unused) OSS mixer control is triggered
with the same value. This second mixer control is mapped to DAC1 the
same way PCM is. (The source file is
\ Technical details and terms used may not be adequate. Feel free to add comments and corrections. (tb, 20030319)
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