enricobuehler
a7daed5797
apple / swift (push) Successful in 55s
ci / web (push) Successful in 27s
ci / rust (push) Successful in 1m40s
android / android (push) Successful in 1m57s
ci / docs-site (push) Successful in 29s
deb / build-publish (push) Successful in 2m30s
decky / build-publish (push) Successful in 11s
docker / build-push (--build-arg FEDORA_VERSION=44, ci, ci/fedora-rpm.Dockerfile, punktfunk-fedora44-rpm) (push) Successful in 6s
docker / build-push (., web/Dockerfile, punktfunk-web) (push) Successful in 5s
docker / build-push (ci, ci/fedora-rpm.Dockerfile, punktfunk-fedora-rpm) (push) Successful in 4s
docker / build-push (ci, ci/rust-ci.Dockerfile, punktfunk-rust-ci) (push) Successful in 5s
docker / build-push (docs-site, docs-site/Dockerfile, punktfunk-docs) (push) Successful in 4s
ci / bench (push) Successful in 4m30s
rpm / build-publish (bazzite, punktfunk-fedora-rpm) (push) Successful in 8m12s
rpm / build-publish (fedora-44, punktfunk-fedora44-rpm) (push) Successful in 8m2s
docker / deploy-docs (push) Successful in 18s
The host received the client's mic uplink (0xCB Opus) but dropped it on Windows ("requires
Linux"). Windows has no user-mode way to CREATE a capture endpoint, so target an existing
virtual audio device and write the decoded mic PCM into its RENDER endpoint — the device's
CAPTURE endpoint then surfaces as a microphone host apps record from (the inverse of a
virtual cable). New audio::wasapi_mic::WasapiVirtualMic: finds the device by friendly-name
(Steam Streaming Microphone / VB-Audio CABLE Input / VoiceMeeter / "virtual", override with
PUNKTFUNK_MIC_DEVICE), opens a WASAPI shared event-driven RENDER client (48 kHz stereo f32,
autoconvert), and a dedicated COM thread writes a bounded (~80 ms drop-oldest) inject queue
with silence-fill. open_virtual_mic() gets a Windows arm; mic_service_thread (Opus decode →
push) now compiles for windows too (opus is already a windows dep). Clear error + install
guidance when no virtual device is present.
Linux/cross-platform side cargo-checks; the Windows path is built/validated when the box is
back (the wasapi render API was cross-checked against the docs + the existing capture path).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
94 lines
4.3 KiB
Rust
94 lines
4.3 KiB
Rust
//! Desktop audio capture for the GameStream audio stream. On Linux: a PipeWire stream that
|
|
//! records the default sink's monitor (i.e. everything playing out of the system), delivered
|
|
//! as interleaved `f32` PCM at 48 kHz in the requested channel count (stereo, 5.1 or 7.1 —
|
|
//! GameStream surround order FL FR FC LFE RL RR [SL SR]). The audio data plane
|
|
//! (`gamestream::audio`) reframes this into fixed Opus frames, encodes, and sends it.
|
|
|
|
use anyhow::Result;
|
|
|
|
/// Opus/GameStream audio is 48 kHz.
|
|
pub const SAMPLE_RATE: u32 = 48_000;
|
|
/// Stereo channel count — the default and the punktfunk/1 (M3) audio plane's fixed layout.
|
|
pub const CHANNELS: usize = 2;
|
|
|
|
/// Produces interleaved `f32` PCM at [`SAMPLE_RATE`] in the channel count it was opened
|
|
/// with. Lives on its own thread; never blocks the capture loop (drops if the consumer
|
|
/// falls behind).
|
|
pub trait AudioCapturer: Send {
|
|
/// Block until the next chunk of interleaved samples is available (variable size). The
|
|
/// caller reframes into fixed Opus frames. An **empty** chunk means "no samples right now"
|
|
/// (e.g. a quiet sink that hit the internal idle timeout) — NOT an error: the caller keeps the
|
|
/// capturer. `Err` is reserved for a genuinely dead capture thread, signalling the caller to
|
|
/// reopen.
|
|
fn next_chunk(&mut self) -> Result<Vec<f32>>;
|
|
|
|
/// The interleaved channel count this capturer delivers (what it was opened with).
|
|
fn channels(&self) -> u32 {
|
|
CHANNELS as u32
|
|
}
|
|
|
|
/// Discard any buffered chunks (called when a persistent capturer is reused for a new
|
|
/// stream, so the client doesn't hear stale audio captured while idle). Default: no-op.
|
|
fn drain(&mut self) {}
|
|
}
|
|
|
|
/// Open a live capturer for the default sink monitor (system output) via PipeWire, asking
|
|
/// for `channels` interleaved channels. If the sink has fewer channels than requested,
|
|
/// PipeWire's channel-mixer fills the missing positions with silence (zero upmix).
|
|
#[cfg(target_os = "linux")]
|
|
pub fn open_audio_capture(channels: u32) -> Result<Box<dyn AudioCapturer>> {
|
|
linux::PwAudioCapturer::open(channels).map(|c| Box::new(c) as Box<dyn AudioCapturer>)
|
|
}
|
|
|
|
#[cfg(target_os = "windows")]
|
|
pub fn open_audio_capture(channels: u32) -> Result<Box<dyn AudioCapturer>> {
|
|
wasapi_cap::WasapiLoopbackCapturer::open(channels)
|
|
.map(|c| Box::new(c) as Box<dyn AudioCapturer>)
|
|
}
|
|
|
|
#[cfg(not(any(target_os = "linux", target_os = "windows")))]
|
|
pub fn open_audio_capture(_channels: u32) -> Result<Box<dyn AudioCapturer>> {
|
|
anyhow::bail!("audio capture requires Linux + PipeWire or Windows + WASAPI")
|
|
}
|
|
|
|
/// The inverse of [`AudioCapturer`]: a virtual microphone the host *produces*. It registers a
|
|
/// PipeWire `Audio/Source` node that host apps can record from; the host [`push`](Self::push)es
|
|
/// decoded client-mic PCM (interleaved `f32` at [`SAMPLE_RATE`]) into it, and PipeWire delivers
|
|
/// it to whichever app records the source — silence when no input is flowing. This is how the
|
|
/// client's microphone reaches host applications (mic passthrough).
|
|
pub trait VirtualMic: Send {
|
|
/// Push one chunk of interleaved `f32` PCM. Non-blocking — drops if PipeWire is behind
|
|
/// (mic audio is lossy/real-time; a stale chunk is worse than a dropped one).
|
|
fn push(&self, pcm: &[f32]);
|
|
|
|
/// The interleaved channel count the source was opened with.
|
|
fn channels(&self) -> u32 {
|
|
CHANNELS as u32
|
|
}
|
|
}
|
|
|
|
/// Open a virtual microphone with `channels` interleaved channels (1 or 2). Linux: a PipeWire
|
|
/// `Audio/Source`. Windows: writes into an existing virtual audio device's render endpoint (whose
|
|
/// capture endpoint apps see as a mic) — see [`wasapi_mic`].
|
|
#[cfg(target_os = "linux")]
|
|
pub fn open_virtual_mic(channels: u32) -> Result<Box<dyn VirtualMic>> {
|
|
linux::PwMicSource::open(channels).map(|m| Box::new(m) as Box<dyn VirtualMic>)
|
|
}
|
|
|
|
#[cfg(target_os = "windows")]
|
|
pub fn open_virtual_mic(channels: u32) -> Result<Box<dyn VirtualMic>> {
|
|
wasapi_mic::WasapiVirtualMic::open(channels).map(|m| Box::new(m) as Box<dyn VirtualMic>)
|
|
}
|
|
|
|
#[cfg(not(any(target_os = "linux", target_os = "windows")))]
|
|
pub fn open_virtual_mic(_channels: u32) -> Result<Box<dyn VirtualMic>> {
|
|
anyhow::bail!("virtual mic requires Linux + PipeWire or Windows + a virtual audio device")
|
|
}
|
|
|
|
#[cfg(target_os = "linux")]
|
|
mod linux;
|
|
#[cfg(target_os = "windows")]
|
|
mod wasapi_cap;
|
|
#[cfg(target_os = "windows")]
|
|
mod wasapi_mic;
|