Merge pull request #443 from ashthespy/maped_mixer

[alsa] Implement cubic mapping for hardware mixers
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Sasha Hilton 2020-07-29 16:21:37 +01:00 committed by GitHub
commit 7626a70036
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3 changed files with 169 additions and 21 deletions

View file

@ -1,44 +1,184 @@
use super::AudioFilter;
use super::{Mixer, MixerConfig};
use std;
use std::error::Error;
use alsa;
const SND_CTL_TLV_DB_GAIN_MUTE: i64 = -9999999;
#[derive(Clone)]
struct AlsaMixerVolumeParams {
min: i64,
max: i64,
range: f64,
min_db: alsa::mixer::MilliBel,
max_db: alsa::mixer::MilliBel,
has_switch: bool,
}
#[derive(Clone)]
pub struct AlsaMixer {
config: MixerConfig,
params: AlsaMixerVolumeParams,
}
impl AlsaMixer {
fn map_volume(&self, set_volume: Option<u16>) -> Result<(u16), Box<dyn Error>> {
let mixer = alsa::mixer::Mixer::new(&self.config.card, false)?;
let sid = alsa::mixer::SelemId::new(&*self.config.mixer, self.config.index);
fn pvol<T>(&self, vol: T, min: T, max: T) -> f64
where
T: std::ops::Sub + Copy,
f64: std::convert::From<<T as std::ops::Sub>::Output>,
{
f64::from(vol - min) / f64::from(max - min)
}
fn init_mixer(mut config: MixerConfig) -> Result<AlsaMixer, Box<dyn Error>> {
let mixer = alsa::mixer::Mixer::new(&config.card, false)?;
let sid = alsa::mixer::SelemId::new(&config.mixer, config.index);
let selem = mixer.find_selem(&sid).expect(
format!(
"Couldn't find simple mixer control for {}",
self.config.mixer
"Couldn't find simple mixer control for {},{}",
&config.mixer, &config.index,
)
.as_str(),
);
let (min, max) = selem.get_playback_volume_range();
let range = (max - min) as f64;
let (min_db, max_db) = selem.get_playback_db_range();
let hw_mix = selem
.get_playback_vol_db(alsa::mixer::SelemChannelId::mono())
.is_ok();
let has_switch = selem.has_playback_switch();
if min_db != alsa::mixer::MilliBel(SND_CTL_TLV_DB_GAIN_MUTE) {
warn!("Alsa min-db is not SND_CTL_TLV_DB_GAIN_MUTE!!");
}
info!(
"Alsa Mixer info min: {} ({:?}[dB]) -- max: {} ({:?}[dB]) HW: {:?}",
min, min_db, max, max_db, hw_mix
);
let new_vol: u16;
if config.mapped_volume && (max_db - min_db <= alsa::mixer::MilliBel(24)) {
warn!(
"Switching to linear volume mapping, control range: {:?}",
max_db - min_db
);
config.mapped_volume = false;
} else if !config.mapped_volume {
info!("Using Alsa linear volume");
}
if let Some(vol) = set_volume {
let alsa_volume: i64 = ((vol as f64 / 0xFFFF as f64) * range) as i64 + min;
debug!("Mapping volume {:?} ->> alsa {:?}", vol, alsa_volume);
selem
.set_playback_volume_all(alsa_volume)
.expect("Couldn't set alsa volume");
new_vol = vol;
} else {
if min_db != alsa::mixer::MilliBel(SND_CTL_TLV_DB_GAIN_MUTE) {
debug!("Alsa min-db is not SND_CTL_TLV_DB_GAIN_MUTE!!");
}
Ok(AlsaMixer {
config: config,
params: AlsaMixerVolumeParams {
min: min,
max: max,
range: (max - min) as f64,
min_db: min_db,
max_db: max_db,
has_switch: has_switch,
},
})
}
fn map_volume(&self, set_volume: Option<u16>) -> Result<u16, Box<dyn Error>> {
let mixer = alsa::mixer::Mixer::new(&self.config.card, false)?;
let sid = alsa::mixer::SelemId::new(&*self.config.mixer, self.config.index);
let selem = mixer.find_selem(&sid).unwrap();
let cur_vol = selem
.get_playback_volume(alsa::mixer::SelemChannelId::mono())
.expect("Couldn't get current volume");
new_vol = (((cur_vol - min) as f64 / range) * 0xFFFF as f64) as u16;
debug!("Mapping volume {:?} <<- alsa {:?}", new_vol, cur_vol);
let cur_vol_db = selem
.get_playback_vol_db(alsa::mixer::SelemChannelId::mono())
.unwrap_or(alsa::mixer::MilliBel(-SND_CTL_TLV_DB_GAIN_MUTE));
let mut new_vol: u16 = 0;
trace!("Current alsa volume: {}{:?}", cur_vol, cur_vol_db);
match set_volume {
Some(vol) => {
if self.params.has_switch {
let is_muted = selem
.get_playback_switch(alsa::mixer::SelemChannelId::mono())
.map(|b| b == 0)
.unwrap_or(false);
if vol == 0 {
debug!("Toggling mute::True");
selem.set_playback_switch_all(0).expect("Can't switch mute");
return Ok(vol);
} else if is_muted {
debug!("Toggling mute::False");
selem.set_playback_switch_all(1).expect("Can't reset mute");
}
}
if self.config.mapped_volume {
// Cubic mapping ala alsamixer
// https://linux.die.net/man/1/alsamixer
// In alsamixer, the volume is mapped to a value that is more natural for a
// human ear. The mapping is designed so that the position in the interval is
// proportional to the volume as a human ear would perceive it, i.e. the
// position is the cubic root of the linear sample multiplication factor. For
// controls with a small range (24 dB or less), the mapping is linear in the dB
// values so that each step has the same size visually. TODO
// TODO: Check if min is not mute!
let vol_db = (self.pvol(vol, 0x0000, 0xFFFF).log10() * 6000.0).floor() as i64
+ self.params.max_db.0;
selem
.set_playback_db_all(alsa::mixer::MilliBel(vol_db), alsa::Round::Floor)
.expect("Couldn't set alsa dB volume");
debug!(
"Mapping volume [{:.3}%] {:?} [u16] ->> Alsa [{:.3}%] {:?} [dB] - {} [i64]",
self.pvol(vol, 0x0000, 0xFFFF) * 100.0,
vol,
self.pvol(
vol_db as f64,
self.params.min as f64,
self.params.max as f64
) * 100.0,
vol_db as f64 / 100.0,
vol_db
);
} else {
// Linear mapping
let alsa_volume =
((vol as f64 / 0xFFFF as f64) * self.params.range) as i64 + self.params.min;
selem
.set_playback_volume_all(alsa_volume)
.expect("Couldn't set alsa raw volume");
debug!(
"Mapping volume [{:.3}%] {:?} [u16] ->> Alsa [{:.3}%] {:?} [i64]",
self.pvol(vol, 0x0000, 0xFFFF) * 100.0,
vol,
self.pvol(
alsa_volume as f64,
self.params.min as f64,
self.params.max as f64
) * 100.0,
alsa_volume
);
};
}
None => {
new_vol = (((cur_vol - self.params.min) as f64 / self.params.range) * 0xFFFF as f64)
as u16;
debug!(
"Mapping volume [{:.3}%] {:?} [u16] <<- Alsa [{:.3}%] {:?} [i64]",
self.pvol(new_vol, 0x0000, 0xFFFF),
new_vol,
self.pvol(
cur_vol as f64,
self.params.min as f64,
self.params.max as f64
),
cur_vol
);
}
}
Ok(new_vol)
@ -52,7 +192,7 @@ impl Mixer for AlsaMixer {
"Setting up new mixer: card:{} mixer:{} index:{}",
config.card, config.mixer, config.index
);
AlsaMixer { config: config }
AlsaMixer::init_mixer(config).expect("Error setting up mixer!")
}
fn start(&self) {}

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@ -25,6 +25,7 @@ pub struct MixerConfig {
pub card: String,
pub mixer: String,
pub index: u32,
pub mapped_volume: bool,
}
impl Default for MixerConfig {
@ -33,6 +34,7 @@ impl Default for MixerConfig {
card: String::from("default"),
mixer: String::from("PCM"),
index: 0,
mapped_volume: true,
}
}
}

View file

@ -150,6 +150,11 @@ fn setup(args: &[String]) -> Setup {
"Alsa mixer index, Index of the cards mixer. Defaults to 0",
"MIXER_INDEX",
)
.optflag(
"",
"mixer-linear-volume",
"Disable alsa's mapped volume scale (cubic). Default false",
)
.optopt(
"",
"initial-volume",
@ -241,6 +246,7 @@ fn setup(args: &[String]) -> Setup {
.opt_str("mixer-index")
.map(|index| index.parse::<u32>().unwrap())
.unwrap_or(0),
mapped_volume: !matches.opt_present("mixer-linear-volume"),
};
let use_audio_cache = !matches.opt_present("disable-audio-cache");