03edb17180
The profile schema accepted `[compressor] enabled = false` (and the
`transparent` and `bypass-all` profiles set it) but the flag was
parsed and dropped — `build_compressor_config()` never threaded
it through to `CompressorConfig`, and `Compressor::process_frame`
had no enable branch. Result: the "compressor and AGC bypassed"
claim in `transparent.toml`'s description was a lie; the
compressor ran on every sample regardless of the profile knob.
Surfaced by Codex's review of the project.
Changes
- `headroom_dsp::CompressorConfig` gains `pub enabled: bool`
(default true). `Compressor::process_frame` early-returns
`(left, right)` and resets `last_gr_db = 0.0` when disabled,
so bus meters / `gain_reduction_db()` report the truthful
"compressor off" state instead of the stale last value.
- `headroom_core::profile::Profile::build_compressor_config`
threads `self.compressor.enabled` into the materialised
`CompressorConfig`. Live profile reload picks this up
automatically — the next `set_config` push from
`setting.set` / `profile.use` flips the audio thread.
- Regression unit test `disabled_compressor_passes_signal_through_unchanged`:
drive a -6 dBFS sine that would compress hard with enabled +
aggressive thresholds, assert output equals input exactly and
GR is zero.
What this does NOT change
- **Limiter has no `enabled` flag** and intentionally remains
always-on. It is the daemon's hard contract (the -0.1 dBTP
ceiling on the processed route, advertised in the README and
in PLAN §3). Users who don't want limiting should route
bypass; the `bypass-all.toml` profile's own comment confirms
the limiter is "still configured as a fail-safe in case a
stream lands on the processed sink anyway."
Verified
186 tests pass (+1 for the disable path); clippy clean at
-D warnings --all-targets.
Live A/B against `pw-cat /tmp/sine` (-6 dBFS sine into
processed): default profile compresses at -4.5 dB GR;
`headroom profile use transparent` flips to 0.00 dB GR
exactly on the next meter tick.
|
||
|---|---|---|
| contrib/systemd | ||
| crates | ||
| docs | ||
| nix | ||
| profiles | ||
| .gitignore | ||
| Cargo.lock | ||
| Cargo.toml | ||
| flake.lock | ||
| flake.nix | ||
| IPC.md | ||
| PLAN.md | ||
| README.md | ||
| rust-toolchain.toml | ||
headroom
AGC + compressor + true-peak limiter daemon for PipeWire, in Rust.
Headroom puts a per-application audio safety net between noisy sources (browsers, voice chat, random video) and your speakers, while leaving the things you don't want compressed (music players, games, DAWs) untouched.
- Hard −0.1 dBTP ceiling on the processed route, with proper
inter-sample-peak handling, enforced inline so the contract holds
regardless of control-plane state. Streams routed
bypassride the real sink directly and are not in scope of the contract — that's the trade-off that makes the per-app exclusion useful. - Per-app exclusion with profile-driven rules.
- Layer A per-app level control (peak + RMS detector → smoothed
channelVolumeswrites) for taming individual streams without touching the bus path. Zero added signal-path latency; safe to use on bypass-routed streams. - Single binary daemon + CLI, controlled over a Unix-domain socket
with a documented JSON wire protocol (see
IPC.md). - First-party Rust crate (
headroom-client) for programmatic use; third-party clients (Qt panels, status bars, …) target the wire protocol directly. - Live profile reload — edit a TOML file in
$XDG_CONFIG_HOME/headroom/profiles/and the daemon picks up changes within ~500 ms; the audio thread doesn't glitch.
See PLAN.md for the full design and roadmap.
Status
Alpha. The signal chain (AGC, compressor, two-tier limiter, Layer A
per-app), the routing engine (explicit-link enforcement, sink hotplug,
sticky default sink), the IPC server with topic subscriptions, the
headroom monitor TUI, and live profile reload all work end-to-end.
Packaging exposes a systemd user unit and Nix modules. What's missing
is real-world soak time on multi-rate / Bluetooth setups and other
distros' init systems.
Installing
Nix (flake)
This repo is a flake; the daemon plus its systemd user unit and the canonical profiles are exposed as a package.
nix run github:amaanq/headroom -- daemon # one-shot run
nix profile install github:amaanq/headroom # add to $PATH
For Home Manager, add the flake as an input and enable the module:
{
inputs.headroom.url = "github:amaanq/headroom";
# In your Home Manager configuration:
imports = [ inputs.headroom.homeModules.default ];
services.headroom.enable = true;
}
The module symlinks the shipped profiles into
$XDG_CONFIG_HOME/headroom/profiles/, drops the systemd user unit
into the user's services dir, and the unit starts after PipeWire and
WirePlumber come up. services.headroom.extraProfiles lets you add
your own.
For NixOS (system-wide binary install + systemd-user discovery):
{
inputs.headroom.url = "github:amaanq/headroom";
# In your NixOS configuration:
imports = [ inputs.headroom.nixosModules.default ];
programs.headroom.enable = true;
}
Then any user can systemctl --user enable --now headroom.
Other distros (manual)
cargo install --path crates/headroom-cli # or: cargo build --release
# Profiles
mkdir -p ~/.config/headroom/profiles
cp profiles/*.toml ~/.config/headroom/profiles/
# systemd user unit (edit the ExecStart path to point at your binary)
install -Dm644 contrib/systemd/headroom.service \
~/.config/systemd/user/headroom.service
sed -i "s|@bindir@|$(dirname "$(command -v headroom)")|" \
~/.config/systemd/user/headroom.service
systemctl --user daemon-reload
systemctl --user enable --now headroom
Usage
Once the daemon is running:
headroom status # JSON snapshot — sinks, streams, active profile
headroom profile list # available profiles
headroom profile use night # activate one
headroom monitor # full-screen TUI (bus gauges + per-stream)
headroom monitor --json meters # line-delimited JSON, for scripting
headroom route set firefox processed
headroom set compressor.threshold_db -28
headroom bypass on # kill switch — straight to the real sink
See headroom --help for the full surface.
Building
nix develop # toolchain + pipewire dev libs + helpers
cargo build # iterate
cargo test --workspace
nix build # final packaged headroom binary
License
GPL-3.0-or-later for the daemon and CLI. headroom-dsp and headroom-ipc
are MPL-2.0 so they can be reused by non-GPL plugin hosts and clients.