librespot/playback/src/audio_backend/rodio.rs
2021-12-03 12:51:41 -06:00

232 lines
6.9 KiB
Rust

use std::process::exit;
use std::thread;
use std::time::Duration;
use cpal::traits::{DeviceTrait, HostTrait};
use thiserror::Error;
use super::{Sink, SinkError, SinkResult};
use crate::config::AudioFormat;
use crate::convert::Converter;
use crate::decoder::AudioPacket;
use crate::{NUM_CHANNELS, SAMPLE_RATE};
#[cfg(all(
feature = "rodiojack-backend",
not(any(target_os = "linux", target_os = "dragonfly", target_os = "freebsd"))
))]
compile_error!("Rodio JACK backend is currently only supported on linux.");
#[cfg(feature = "rodio-backend")]
pub fn mk_rodio(device: Option<String>, format: AudioFormat) -> Box<dyn Sink> {
Box::new(open(cpal::default_host(), device, format))
}
#[cfg(feature = "rodiojack-backend")]
pub fn mk_rodiojack(device: Option<String>, format: AudioFormat) -> Box<dyn Sink> {
Box::new(open(
cpal::host_from_id(cpal::HostId::Jack).unwrap(),
device,
format,
))
}
#[derive(Debug, Error)]
pub enum RodioError {
#[error("<RodioSink> No Device Available")]
NoDeviceAvailable,
#[error("<RodioSink> device \"{0}\" is Not Available")]
DeviceNotAvailable(String),
#[error("<RodioSink> Play Error: {0}")]
PlayError(#[from] rodio::PlayError),
#[error("<RodioSink> Stream Error: {0}")]
StreamError(#[from] rodio::StreamError),
#[error("<RodioSink> Cannot Get Audio Devices: {0}")]
DevicesError(#[from] cpal::DevicesError),
#[error("<RodioSink> {0}")]
Samples(String),
}
impl From<RodioError> for SinkError {
fn from(e: RodioError) -> SinkError {
use RodioError::*;
let es = e.to_string();
match e {
StreamError(_) | PlayError(_) | Samples(_) => SinkError::OnWrite(es),
NoDeviceAvailable | DeviceNotAvailable(_) => SinkError::ConnectionRefused(es),
DevicesError(_) => SinkError::InvalidParams(es),
}
}
}
pub struct RodioSink {
rodio_sink: rodio::Sink,
format: AudioFormat,
_stream: rodio::OutputStream,
}
fn list_formats(device: &rodio::Device) {
match device.default_output_config() {
Ok(cfg) => {
debug!(" Default config:");
debug!(" {:?}", cfg);
}
Err(e) => {
// Use loglevel debug, since even the output is only debug
debug!("Error getting default rodio::Sink config: {}", e);
}
};
match device.supported_output_configs() {
Ok(mut cfgs) => {
if let Some(first) = cfgs.next() {
debug!(" Available configs:");
debug!(" {:?}", first);
} else {
return;
}
for cfg in cfgs {
debug!(" {:?}", cfg);
}
}
Err(e) => {
debug!("Error getting supported rodio::Sink configs: {}", e);
}
}
}
fn list_outputs(host: &cpal::Host) -> Result<(), cpal::DevicesError> {
let mut default_device_name = None;
if let Some(default_device) = host.default_output_device() {
default_device_name = default_device.name().ok();
println!(
"Default Audio Device:\n {}",
default_device_name.as_deref().unwrap_or("[unknown name]")
);
list_formats(&default_device);
println!("Other Available Audio Devices:");
} else {
warn!("No default device was found");
}
for device in host.output_devices()? {
match device.name() {
Ok(name) if Some(&name) == default_device_name.as_ref() => (),
Ok(name) => {
println!(" {}", name);
list_formats(&device);
}
Err(e) => {
warn!("Cannot get device name: {}", e);
println!(" [unknown name]");
list_formats(&device);
}
}
}
Ok(())
}
fn create_sink(
host: &cpal::Host,
device: Option<String>,
) -> Result<(rodio::Sink, rodio::OutputStream), RodioError> {
let rodio_device = match device {
Some(ask) if &ask == "?" => {
let exit_code = match list_outputs(host) {
Ok(()) => 0,
Err(e) => {
error!("{}", e);
1
}
};
exit(exit_code)
}
Some(device_name) => {
host.output_devices()?
.find(|d| d.name().ok().map_or(false, |name| name == device_name)) // Ignore devices for which getting name fails
.ok_or(RodioError::DeviceNotAvailable(device_name))?
}
None => host
.default_output_device()
.ok_or(RodioError::NoDeviceAvailable)?,
};
let name = rodio_device.name().ok();
info!(
"Using audio device: {}",
name.as_deref().unwrap_or("[unknown name]")
);
let (stream, handle) = rodio::OutputStream::try_from_device(&rodio_device)?;
let sink = rodio::Sink::try_new(&handle)?;
Ok((sink, stream))
}
pub fn open(host: cpal::Host, device: Option<String>, format: AudioFormat) -> RodioSink {
info!(
"Using Rodio sink with format {:?} and cpal host: {}",
format,
host.id().name()
);
if format != AudioFormat::S16 && format != AudioFormat::F32 {
unimplemented!("Rodio currently only supports F32 and S16 formats");
}
let (sink, stream) = create_sink(&host, device).unwrap();
debug!("Rodio sink was created");
RodioSink {
rodio_sink: sink,
format,
_stream: stream,
}
}
impl Sink for RodioSink {
fn write(&mut self, packet: &AudioPacket, converter: &mut Converter) -> SinkResult<()> {
let samples = packet
.samples()
.map_err(|e| RodioError::Samples(e.to_string()))?;
match self.format {
AudioFormat::F32 => {
let samples_f32: &[f32] = &converter.f64_to_f32(samples);
let source = rodio::buffer::SamplesBuffer::new(
NUM_CHANNELS as u16,
SAMPLE_RATE,
samples_f32,
);
self.rodio_sink.append(source);
}
AudioFormat::S16 => {
let samples_s16: &[i16] = &converter.f64_to_s16(samples);
let source = rodio::buffer::SamplesBuffer::new(
NUM_CHANNELS as u16,
SAMPLE_RATE,
samples_s16,
);
self.rodio_sink.append(source);
}
_ => unreachable!(),
};
// Chunk sizes seem to be about 256 to 3000 ish items long.
// Assuming they're on average 1628 then a half second buffer is:
// 44100 elements --> about 27 chunks
while self.rodio_sink.len() > 26 {
// sleep and wait for rodio to drain a bit
thread::sleep(Duration::from_millis(10));
}
Ok(())
}
}
impl RodioSink {
#[allow(dead_code)]
pub const NAME: &'static str = "rodio";
}