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nvrl/fluxo-rs:main nvrl/fluxo-rs:feature/events nvrl/fluxo-rs:release/0.3.1
nvrl/fluxo-rs:v0.5.4 nvrl/fluxo-rs:v0.5.3 nvrl/fluxo-rs:v0.5.2 nvrl/fluxo-rs:v0.5.1 nvrl/fluxo-rs:v0.5.0 nvrl/fluxo-rs:v0.4.3 nvrl/fluxo-rs:v0.4.2 nvrl/fluxo-rs:v0.4.1 nvrl/fluxo-rs:v0.3.3 nvrl/fluxo-rs:v0.3.2 nvrl/fluxo-rs:v0.3.1 nvrl/fluxo-rs:v0.3.0 nvrl/fluxo-rs:v0.2.0
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compare: nvrl/fluxo-rs:v0.3.3
Branches Tags
nvrl/fluxo-rs:main nvrl/fluxo-rs:feature/events nvrl/fluxo-rs:release/0.3.1
nvrl/fluxo-rs:v0.5.4 nvrl/fluxo-rs:v0.5.3 nvrl/fluxo-rs:v0.5.2 nvrl/fluxo-rs:v0.5.1 nvrl/fluxo-rs:v0.5.0 nvrl/fluxo-rs:v0.4.3 nvrl/fluxo-rs:v0.4.2 nvrl/fluxo-rs:v0.4.1 nvrl/fluxo-rs:v0.3.3 nvrl/fluxo-rs:v0.3.2 nvrl/fluxo-rs:v0.3.1 nvrl/fluxo-rs:v0.3.0 nvrl/fluxo-rs:v0.2.0

7 Commits
c8a50d7b67 ... v0.3.3

Author SHA1 Message Date
nvrl d28e51de6d version bupm
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2026-04-02 18:46:33 +02:00
nvrl b18af49ac8 graceful shutdown
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2026-04-02 18:46:17 +02:00
nvrl 0617e53412 version bump
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2026-04-02 18:11:47 +02:00
nvrl bdbd6a8a40 added tokio shared states instead of monolithic state
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2026-04-02 18:11:21 +02:00
nvrl bb3f6e565d Merge pull request 'migrated daemon to tokio with seperate hardware threads + thiserror' (#1) from release/0.3.1 into main
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Reviewed-on: #1
 2026-04-01 18:16:24 +02:00
nvrl a932e6b422 updated documentation + readme and seperated bt modules
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2026-04-01 18:16:22 +02:00
nvrl 81c9b78cb3 improved robustness of pixel buds plugin 2026-04-01 17:54:16 +02:00
23 changed files with 1318 additions and 941 deletions
Expand all files Collapse all files
Cargo.lock
Generated
+2 -1
View File
@@ -353,7 +353,7 @@ checksum = "1d674e81391d1e1ab681a28d99df07927c6d4aa5b027d7da16ba32d1d21ecd99"
[[package]]
name = "fluxo-rs"
version = "0.3.0"
version = "0.3.2"
dependencies = [
"anyhow",
"bluer",
@@ -1270,6 +1270,7 @@ dependencies = [
"futures-core",
"futures-sink",
"pin-project-lite",
"slab",
"tokio",
]
Cargo.toml
+3 -3
View File
@@ -1,6 +1,6 @@
[package]
name = "fluxo-rs"
version = "0.3.1"
version = "0.3.3"
edition = "2024"
[dependencies]
@@ -17,8 +17,8 @@ tracing = "0.1.44"
tracing-subscriber = { version = "0.3.23", features = ["env-filter"] }
maestro = { git = "https://github.com/qzed/pbpctrl", package = "maestro" }
bluer = { version = "0.17", features = ["bluetoothd", "rfcomm", "id"] }
tokio = { version = "1", features = ["rt", "rt-multi-thread", "sync", "time", "macros", "signal"] }
tokio-util = { version = "0.7", features = ["codec"] }
tokio = { version = "1", features = ["rt", "rt-multi-thread", "sync", "time", "macros", "signal", "process"] }
tokio-util = { version = "0.7", features = ["codec", "time"] }
futures = "0.3"
libpulse-binding = "2.30"
nix = { version = "0.31", features = ["net"] }
README.md
+43 -72
View File
@@ -1,95 +1,66 @@
# fluxo-rs
fluxo-rs is a high-performance system metrics daemon and client designed specifically for waybar. It replaces standard shell scripts with a compiled rust binary that collects data via a background polling loop and serves it over a unix domain socket (`/tmp/fluxo.sock`).
fluxo-rs is a high-performance system metrics daemon and client designed specifically for Waybar. It replaces standard shell scripts with a compiled Rust binary that collects data via a background polling loop and serves it over a Unix socket.
## Description
## Key Features
The project follows a client-server architecture:
- **Daemon**: Handles heavy lifting (polling cpu, memory, network, gpu) and stores state in memory.
- **Client**: A thin cli wrapper that connects to the daemon's socket to retrieve formatted json for waybar.
This approach eliminates process spawning overhead and temporary file locking, resulting in near-zero cpu usage for custom modules.
## Features
- **Ultra-lightweight**: Background polling is highly optimized (e.g., O(1) process counting).
- **Jitter-free**: Uses zero-width sentinels and figure spaces to prevent waybar from trimming padding.
- **Configurable**: Fully customizable output formats via toml config.
- **Interactive Menus**: Integrated support for selecting items (like Bluetooth devices) via external menus (e.g., Rofi, Wofi, Fuzzel).
- **Live Reload**: Configuration can be reloaded without restarting the daemon.
- **Multi-vendor GPU**: Native support for intel (igpu), amd, and nvidia.
- **Asynchronous Architecture**: Built on **Tokio**, the daemon handles concurrent IPC requests and background tasks with zero latency and minimal CPU overhead.
- **Native Library Integrations**:
- **Audio**: Direct `libpulse` integration for event-driven, instant volume and device updates.
- **Bluetooth**: Native `bluer` integration for robust device monitoring.
- **Pixel Buds Pro**: Custom native RPC implementation for real-time battery and ANC control.
- **Network**: Native `nix` and `/proc` inspection for high-speed interface monitoring.
- **Hyprland**: Direct IPC Unix socket communication for gamemode and animation status.
- **Circuit Breaker (Failsafe)**: Automatically detects failing modules and enters a "Cool down" state to prevent resource waste and log spam.
- **Multi-threaded Polling**: Decoupled subsystem threads ensure that a hang in one system (e.g., a slow GPU probe) never freezes your entire bar.
## Modules
| Command | Description | Tokens |
| :--- | :--- | :--- |
| `net` | Network speed (rx/tx) | `{interface}`, `{ip}`, `{rx}`, `{tx}` |
| `cpu` | CPU usage and temp | `{usage}`, `{temp}` |
| `cpu` | CPU usage and temperature | `{usage}`, `{temp}`, `{model}` |
| `mem` | Memory usage | `{used}`, `{total}` |
| `gpu` | GPU utilization | `{usage}`, `{vram_used}`, `{vram_total}`, `{temp}` |
| `sys` | System load and uptime | `{uptime}`, `{load1}`, `{load5}`, `{load15}` |
| `disk` | Disk usage (default: /) | `{mount}`, `{used}`, `{total}` |
| `pool` | Aggregate storage (btrfs) | `{used}`, `{total}` |
| `vol` | Audio output volume | `{name}`, `{volume}`, `{icon}` |
| `mic` | Audio input volume | `{name}`, `{volume}`, `{icon}` |
| `net` | Network status & speeds | `{interface}`, `{ip}`, `{rx}`, `{tx}` |
| `sys` | System load and uptime | `{uptime}`, `{load1}`, `{load5}`, `{load15}`, `{procs}` |
| `disk` | Disk usage | `{mount}`, `{used}`, `{total}` |
| `pool` | Btrfs aggregate storage | `{used}`, `{total}` |
| `vol` | Audio output (sink) | `{name}`, `{volume}`, `{icon}` |
| `mic` | Audio input (source) | `{name}`, `{volume}`, `{icon}` |
| `bt` | Bluetooth status & plugins | `{alias}`, `{mac}`, `{left}`, `{right}`, `{anc}` |
| `power` | Battery and AC status | `{percentage}`, `{icon}` |
| `game` | Hyprland gamemode status | active/inactive icon strings |
| `game` | Hyprland status | active/inactive icons |
## Setup
1. Build the project:
```bash
cd fluxo-rs
cargo build --release
```
1. **Build**: `cargo build --release`
2. **Configure**: Create `~/.config/fluxo/config.toml` (see `example.config.toml`).
3. **Daemon**: Start `fluxo-rs daemon`. It's recommended to run this as a systemd user service.
2. Start the daemon:
```bash
# Starts the daemon using the default config path (~/.config/fluxo/config.toml)
./target/release/fluxo-rs daemon &
# Or provide a custom path
./target/release/fluxo-rs daemon --config /path/to/your/config.toml &
```
## Waybar Configuration
3. Configuration:
Create `~/.config/fluxo/config.toml` (see `example.config.toml` for all default options).
To achieve zero-latency updates, use **Waybar Signals**:
4. Waybar configuration (`config.jsonc`):
```json
"custom/cpu": {
"exec": "~/path/to/fluxo-rs cpu",
"return-type": "json"
}
```
## Development
### Architecture
- `src/main.rs`: Entry point, CLI parsing, interactive GUI spawns (menus), and client-side formatting logic.
- `src/daemon.rs`: UDS listener, configuration management, and polling orchestration.
- `src/ipc.rs`: Unix domain socket communication logic.
- `src/utils.rs`: Generic GUI utilities (like the menu spawner).
- `src/modules/`: Individual metric implementations.
- `src/state.rs`: Shared thread-safe data structures.
### Adding a Module
1. Add the required config block to `src/config.rs`.
2. Add the required state fields to `src/state.rs`.
3. Implement the `WaybarModule` trait in a new file in `src/modules/`.
4. Add polling logic to `src/modules/hardware.rs` or `src/daemon.rs`.
5. Register the new subcommand in `src/main.rs` and the router in `src/daemon.rs`.
### Configuration Reload
The daemon can reload its configuration live:
```bash
fluxo-rs reload
```jsonc
"custom/audio": {
"exec": "fluxo vol",
"return-type": "json",
"interval": 5,
"signal": 8,
"on-click": "fluxo audio cycle sink && pkill -RTMIN+8 waybar"
},
"custom/bluetooth": {
"exec": "fluxo bt",
"return-type": "json",
"interval": 5,
"signal": 9,
"on-click": "fluxo bt menu && pkill -RTMIN+9 waybar",
"on-click-right": "fluxo bt cycle_mode && pkill -RTMIN+9 waybar"
}
```
### Logging & Debugging
`fluxo-rs` uses the `tracing` ecosystem. If a module isn't behaving properly or your configuration isn't applying, start the daemon with debug logging enabled in the foreground:
## Debugging
Start the daemon with `RUST_LOG=debug` to see detailed logs of library interactions and circuit breaker status:
```bash
RUST_LOG=debug fluxo-rs daemon
```
This will print verbose information regarding config parsing errors, subprocess failures, and IPC requests.
src/config.rs
+13 -13
View File
@@ -5,7 +5,7 @@ use std::path::PathBuf;
use std::sync::LazyLock;
use tracing::{debug, info, warn};
#[derive(Deserialize, Default)]
#[derive(Deserialize, Default, Clone)]
pub struct Config {
#[serde(default)]
pub general: GeneralConfig,
@@ -33,7 +33,7 @@ pub struct Config {
pub game: GameConfig,
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct GeneralConfig {
pub menu_command: String,
}
@@ -46,7 +46,7 @@ impl Default for GeneralConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct NetworkConfig {
pub format: String,
}
@@ -59,7 +59,7 @@ impl Default for NetworkConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct CpuConfig {
pub format: String,
}
@@ -72,7 +72,7 @@ impl Default for CpuConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct MemoryConfig {
pub format: String,
}
@@ -85,7 +85,7 @@ impl Default for MemoryConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct GpuConfig {
pub format_amd: String,
pub format_intel: String,
@@ -104,7 +104,7 @@ impl Default for GpuConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct SysConfig {
pub format: String,
}
@@ -117,7 +117,7 @@ impl Default for SysConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct DiskConfig {
pub format: String,
}
@@ -130,7 +130,7 @@ impl Default for DiskConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct PoolConfig {
pub format: String,
}
@@ -143,7 +143,7 @@ impl Default for PoolConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct PowerConfig {
pub format: String,
}
@@ -156,7 +156,7 @@ impl Default for PowerConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct AudioConfig {
pub format_sink_unmuted: String,
pub format_sink_muted: String,
@@ -175,7 +175,7 @@ impl Default for AudioConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct BtConfig {
pub format_connected: String,
pub format_plugin: String,
@@ -194,7 +194,7 @@ impl Default for BtConfig {
}
}
#[derive(Deserialize)]
#[derive(Deserialize, Clone)]
pub struct GameConfig {
pub format_active: String,
pub format_inactive: String,
src/daemon.rs
+140 -28
View File
@@ -6,15 +6,17 @@ use crate::modules::audio::AudioDaemon;
use crate::modules::bt::BtDaemon;
use crate::modules::hardware::HardwareDaemon;
use crate::modules::network::NetworkDaemon;
use crate::state::{AppState, SharedState};
use crate::state::AppReceivers;
use anyhow::Result;
use std::collections::HashMap;
use std::fs;
use std::path::PathBuf;
use std::sync::Arc;
use tokio::io::{AsyncBufReadExt, AsyncWriteExt, BufReader};
use tokio::net::UnixListener;
use tokio::sync::RwLock;
use tokio::sync::{RwLock, watch};
use tokio::time::{Duration, Instant, sleep};
use tokio_util::sync::CancellationToken;
use tracing::{debug, error, info, warn};
struct SocketGuard {
@@ -36,83 +38,140 @@ pub async fn run_daemon(config_path: Option<PathBuf>) -> Result<()> {
fs::remove_file(&sock_path)?;
}
let state: SharedState = Arc::new(RwLock::new(AppState::default()));
let (net_tx, net_rx) = watch::channel(Default::default());
let (cpu_tx, cpu_rx) = watch::channel(Default::default());
let (mem_tx, mem_rx) = watch::channel(Default::default());
let (sys_tx, sys_rx) = watch::channel(Default::default());
let (gpu_tx, gpu_rx) = watch::channel(Default::default());
let (disks_tx, disks_rx) = watch::channel(Default::default());
let (bt_tx, bt_rx) = watch::channel(Default::default());
let (audio_tx, audio_rx) = watch::channel(Default::default());
let health = Arc::new(RwLock::new(HashMap::new()));
let receivers = AppReceivers {
network: net_rx,
cpu: cpu_rx,
memory: mem_rx,
sys: sys_rx,
gpu: gpu_rx,
disks: disks_rx,
bluetooth: bt_rx,
audio: audio_rx,
health: Arc::clone(&health),
};
let listener = UnixListener::bind(&sock_path)?;
let _guard = SocketGuard {
path: sock_path.clone(),
};
// Signal handling for graceful shutdown in async context
let running = Arc::new(tokio::sync::Notify::new());
let r_clone = Arc::clone(&running);
// Signal handling for graceful shutdown
let cancel_token = CancellationToken::new();
let token_clone = cancel_token.clone();
tokio::spawn(async move {
tokio::signal::ctrl_c().await.unwrap();
info!("Received shutdown signal, exiting...");
r_clone.notify_waiters();
token_clone.cancel();
});
let config_path_clone = config_path.clone();
let config = Arc::new(RwLock::new(crate::config::load_config(config_path)));
// 1. Network Task
let poll_state = Arc::clone(&state);
let token = cancel_token.clone();
let net_health = Arc::clone(&health);
tokio::spawn(async move {
info!("Starting Network polling task");
let mut daemon = NetworkDaemon::new();
loop {
daemon.poll(Arc::clone(&poll_state)).await;
sleep(Duration::from_secs(1)).await;
tokio::select! {
_ = token.cancelled() => break,
_ = sleep(Duration::from_secs(1)) => {
if !is_in_backoff("net", &net_health).await {
let res = daemon.poll(&net_tx).await;
handle_poll_result("net", res, &net_health).await;
}
}
}
}
info!("Network task shut down.");
});
// 2. Fast Hardware Task (CPU, Mem, Load)
let poll_state = Arc::clone(&state);
let token = cancel_token.clone();
let hw_health = Arc::clone(&health);
tokio::spawn(async move {
info!("Starting Fast Hardware polling task");
let mut daemon = HardwareDaemon::new();
loop {
daemon.poll_fast(Arc::clone(&poll_state)).await;
sleep(Duration::from_secs(1)).await;
tokio::select! {
_ = token.cancelled() => break,
_ = sleep(Duration::from_secs(1)) => {
if !is_in_backoff("cpu", &hw_health).await {
daemon.poll_fast(&cpu_tx, &mem_tx, &sys_tx).await;
}
}
}
}
info!("Fast Hardware task shut down.");
});
// 3. Slow Hardware Task (GPU, Disks)
let poll_state = Arc::clone(&state);
let token = cancel_token.clone();
let slow_health = Arc::clone(&health);
tokio::spawn(async move {
info!("Starting Slow Hardware polling task");
let mut daemon = HardwareDaemon::new();
loop {
daemon.poll_slow(Arc::clone(&poll_state)).await;
sleep(Duration::from_secs(1)).await;
tokio::select! {
_ = token.cancelled() => break,
_ = sleep(Duration::from_secs(5)) => {
if !is_in_backoff("gpu", &slow_health).await {
daemon.poll_slow(&gpu_tx, &disks_tx).await;
}
}
}
}
info!("Slow Hardware task shut down.");
});
// 4. Bluetooth Task
let poll_state = Arc::clone(&state);
let token = cancel_token.clone();
let bt_health = Arc::clone(&health);
let poll_config = Arc::clone(&config);
let poll_receivers = receivers.clone();
tokio::spawn(async move {
info!("Starting Bluetooth polling task");
let mut daemon = BtDaemon::new();
loop {
daemon.poll(Arc::clone(&poll_state)).await;
sleep(Duration::from_secs(1)).await;
tokio::select! {
_ = token.cancelled() => break,
_ = sleep(Duration::from_secs(2)) => {
if !is_in_backoff("bt", &bt_health).await {
let config = poll_config.read().await;
daemon.poll(&bt_tx, &poll_receivers, &config).await;
}
}
}
}
info!("Bluetooth task shut down.");
});
// 5. Audio Thread (Event driven - pulse usually needs its own thread)
// 5. Audio Thread (Event driven)
let audio_daemon = AudioDaemon::new();
audio_daemon.start(Arc::clone(&state));
audio_daemon.start(&audio_tx);
info!("Fluxo daemon successfully bound to socket: {}", sock_path);
loop {
tokio::select! {
_ = running.notified() => {
_ = cancel_token.cancelled() => {
break;
}
res = listener.accept() => {
match res {
Ok((mut stream, _)) => {
let state_clone = Arc::clone(&state);
let state_clone = receivers.clone();
let config_clone = Arc::clone(&config);
let cp_clone = config_path_clone.clone();
tokio::spawn(async move {
@@ -169,16 +228,69 @@ pub async fn run_daemon(config_path: Option<PathBuf>) -> Result<()> {
Ok(())
}
async fn handle_poll_result(
module_name: &str,
result: crate::error::Result<()>,
health_lock: &Arc<RwLock<HashMap<String, crate::state::ModuleHealth>>>,
) {
let mut lock = health_lock.write().await;
let health = lock.entry(module_name.to_string()).or_default();
match result {
Ok(_) => {
if health.consecutive_failures > 0 {
info!(
module = module_name,
"Module recovered after {} failures", health.consecutive_failures
);
}
health.consecutive_failures = 0;
health.backoff_until = None;
}
Err(e) => {
health.consecutive_failures += 1;
health.last_failure = Some(Instant::now());
if !e.is_transient() {
// Fatal errors trigger immediate long backoff
health.backoff_until = Some(Instant::now() + Duration::from_secs(60));
error!(module = module_name, error = %e, "Fatal module error, entering long cooldown");
} else if health.consecutive_failures >= 3 {
// Exponential backoff for transient errors: 30s, 60s, 120s...
let backoff_secs = 30 * (2u64.pow(health.consecutive_failures.saturating_sub(3)));
let backoff_secs = backoff_secs.min(3600); // Cap at 1 hour
health.backoff_until = Some(Instant::now() + Duration::from_secs(backoff_secs));
warn!(module = module_name, error = %e, backoff = backoff_secs, "Repeated transient failures, entering backoff");
} else {
debug!(module = module_name, error = %e, "Transient module failure (attempt {})", health.consecutive_failures);
}
}
}
}
async fn is_in_backoff(
module_name: &str,
health_lock: &Arc<RwLock<HashMap<String, crate::state::ModuleHealth>>>,
) -> bool {
let lock = health_lock.read().await;
if let Some(health) = lock.get(module_name)
&& let Some(until) = health.backoff_until
{
return Instant::now() < until;
}
false
}
async fn handle_request(
module_name: &str,
args: &[&str],
state: &SharedState,
state: &AppReceivers,
config_lock: &Arc<RwLock<Config>>,
) -> String {
// 1. Check Circuit Breaker status
let is_in_backoff = {
let lock = state.read().await;
if let Some(health) = lock.health.get(module_name) {
let lock = state.health.read().await;
if let Some(health) = lock.get(module_name) {
if let Some(until) = health.backoff_until {
Instant::now() < until
} else {
@@ -263,8 +375,8 @@ async fn handle_request(
// 2. Update Health based on result
{
let mut lock = state.write().await;
let health = lock.health.entry(module_name.to_string()).or_default();
let mut lock = state.health.write().await;
let health = lock.entry(module_name.to_string()).or_default();
match &result {
Ok(_) => {
health.consecutive_failures = 0;
src/error.rs
+23
View File
@@ -18,6 +18,15 @@ pub enum FluxoError {
#[error("External system error: {0}")]
System(String),
#[error("Bluetooth error: {0}")]
Bluetooth(String),
#[error("Network error: {0}")]
Network(String),
#[error("Hardware error: {0}")]
Hardware(String),
#[error("IO error: {0}")]
Io(#[from] std::io::Error),
@@ -28,4 +37,18 @@ pub enum FluxoError {
Other(#[from] anyhow::Error),
}
impl FluxoError {
pub fn is_transient(&self) -> bool {
matches!(
self,
Self::Io(_)
| Self::System(_)
| Self::Bluetooth(_)
| Self::Network(_)
| Self::Hardware(_)
| Self::Module { .. }
)
}
}
pub type Result<T> = std::result::Result<T, FluxoError>;
src/modules/audio.rs
+45 -45
View File
@@ -2,24 +2,16 @@ use crate::config::Config;
use crate::error::{FluxoError, Result};
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::{AppReceivers, AudioState};
use crate::utils::{TokenValue, format_template};
use libpulse_binding::callbacks::ListResult;
use libpulse_binding::context::subscribe::{Facility, InterestMaskSet};
use libpulse_binding::context::{Context, FlagSet as ContextFlag};
use libpulse_binding::mainloop::threaded::Mainloop as ThreadedMainloop;
use libpulse_binding::volume::Volume;
use std::process::Command;
use std::sync::{Arc, LazyLock};
use tokio::sync::watch;
use tracing::error;
static RUNTIME: LazyLock<tokio::runtime::Runtime> = LazyLock::new(|| {
tokio::runtime::Builder::new_current_thread()
.enable_all()
.build()
.expect("Failed to create Audio tokio runtime")
});
pub struct AudioDaemon;
impl AudioDaemon {
@@ -27,8 +19,8 @@ impl AudioDaemon {
Self
}
pub fn start(&self, state: SharedState) {
let state_arc = Arc::clone(&state);
pub fn start(&self, state_tx: &watch::Sender<AudioState>) {
let state_tx = state_tx.clone();
std::thread::spawn(move || {
let mut mainloop =
@@ -64,7 +56,7 @@ impl AudioDaemon {
}
// Initial fetch
let _ = fetch_audio_data_sync(&mut context, &state_arc);
let _ = fetch_audio_data_sync(&mut context, &state_tx);
// Subscribe to events
let interest =
@@ -89,7 +81,7 @@ impl AudioDaemon {
let _ = rx.recv_timeout(Duration::from_secs(2));
{
mainloop.lock();
let _ = fetch_audio_data_sync(&mut context, &state_arc);
let _ = fetch_audio_data_sync(&mut context, &state_tx);
mainloop.unlock();
}
}
@@ -99,68 +91,72 @@ impl AudioDaemon {
use std::time::Duration;
fn fetch_audio_data_sync(context: &mut Context, state: &SharedState) -> Result<()> {
let state_inner = Arc::clone(state);
fn fetch_audio_data_sync(
context: &mut Context,
state_tx: &watch::Sender<AudioState>,
) -> Result<()> {
// We fetch all sinks and sources, and also server info to know defaults.
// The order doesn't strictly matter as long as we update correctly.
let st_server = Arc::clone(&state_inner);
let tx_server = state_tx.clone();
context.introspect().get_server_info(move |info| {
let mut lock = RUNTIME.block_on(st_server.write());
lock.audio.sink.name = info
let mut current = tx_server.borrow().clone();
current.sink.name = info
.default_sink_name
.as_ref()
.map(|s| s.to_string())
.unwrap_or_default();
lock.audio.source.name = info
current.source.name = info
.default_source_name
.as_ref()
.map(|s| s.to_string())
.unwrap_or_default();
let _ = tx_server.send(current);
});
let st_sink = Arc::clone(&state_inner);
let tx_sink = state_tx.clone();
context.introspect().get_sink_info_list(move |res| {
if let ListResult::Item(item) = res {
let mut lock = RUNTIME.block_on(st_sink.write());
let mut current = tx_sink.borrow().clone();
// If this matches our default sink name, or if we don't have details for any yet
let is_default = item
.name
.as_ref()
.map(|s| s.as_ref() == lock.audio.sink.name)
.map(|s| s.as_ref() == current.sink.name)
.unwrap_or(false);
if is_default {
lock.audio.sink.description = item
current.sink.description = item
.description
.as_ref()
.map(|s| s.to_string())
.unwrap_or_default();
lock.audio.sink.volume =
current.sink.volume =
((item.volume.avg().0 as f64 / Volume::NORMAL.0 as f64) * 100.0).round() as u8;
lock.audio.sink.muted = item.mute;
current.sink.muted = item.mute;
let _ = tx_sink.send(current);
}
}
});
let st_source = Arc::clone(&state_inner);
let tx_source = state_tx.clone();
context.introspect().get_source_info_list(move |res| {
if let ListResult::Item(item) = res {
let mut lock = RUNTIME.block_on(st_source.write());
let mut current = tx_source.borrow().clone();
let is_default = item
.name
.as_ref()
.map(|s| s.as_ref() == lock.audio.source.name)
.map(|s| s.as_ref() == current.source.name)
.unwrap_or(false);
if is_default {
lock.audio.source.description = item
current.source.description = item
.description
.as_ref()
.map(|s| s.to_string())
.unwrap_or_default();
lock.audio.source.volume =
current.source.volume =
((item.volume.avg().0 as f64 / Volume::NORMAL.0 as f64) * 100.0).round() as u8;
lock.audio.source.muted = item.mute;
current.source.muted = item.mute;
let _ = tx_source.send(current);
}
}
});
@@ -174,7 +170,7 @@ impl WaybarModule for AudioModule {
async fn run(
&self,
config: &Config,
state: &SharedState,
state: &AppReceivers,
args: &[&str],
) -> Result<WaybarOutput> {
let target_type = args.first().unwrap_or(&"sink");
@@ -182,7 +178,7 @@ impl WaybarModule for AudioModule {
match *action {
"cycle" => {
self.cycle_device(target_type)?;
self.cycle_device(target_type).await?;
Ok(WaybarOutput::default())
}
"show" => self.get_status(config, state, target_type).await,
@@ -198,13 +194,10 @@ impl AudioModule {
async fn get_status(
&self,
config: &Config,
state: &SharedState,
state: &AppReceivers,
target_type: &str,
) -> Result<WaybarOutput> {
let audio_state = {
let lock = state.read().await;
lock.audio.clone()
};
let audio_state = state.audio.borrow().clone();
let (name, description, volume, muted) = if target_type == "sink" {
(
@@ -287,7 +280,7 @@ impl AudioModule {
})
}
fn cycle_device(&self, target_type: &str) -> Result<()> {
async fn cycle_device(&self, target_type: &str) -> Result<()> {
// Keep using pactl for cycling for now as it's a rare action
// but we could also implement it natively later.
let set_cmd = if target_type == "sink" {
@@ -305,9 +298,10 @@ impl AudioModule {
} else {
"sources"
};
let output = Command::new("pactl")
let output = tokio::process::Command::new("pactl")
.args(["list", "short", list_cmd])
.output()?;
.output()
.await?;
let stdout = String::from_utf8_lossy(&output.stdout);
let devices: Vec<String> = stdout
@@ -331,7 +325,10 @@ impl AudioModule {
return Ok(());
}
let info_output = Command::new("pactl").args(["info"]).output()?;
let info_output = tokio::process::Command::new("pactl")
.args(["info"])
.output()
.await?;
let info_stdout = String::from_utf8_lossy(&info_output.stdout);
let search_key = if target_type == "sink" {
"Default Sink:"
@@ -349,7 +346,10 @@ impl AudioModule {
let next_index = (current_index + 1) % devices.len();
let next_dev = &devices[next_index];
Command::new("pactl").args([set_cmd, next_dev]).status()?;
tokio::process::Command::new("pactl")
.args([set_cmd, next_dev])
.status()
.await?;
Ok(())
}
}
src/modules/bt.rs
-606
View File
@@ -1,606 +0,0 @@
use crate::config::Config;
use crate::error::Result as FluxoResult;
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::{BtState, SharedState};
use crate::utils::{TokenValue, format_template};
use anyhow::{Context, Result};
use futures::StreamExt;
use std::collections::HashMap;
use std::process::Command;
use std::sync::{Arc, LazyLock, Mutex};
use tokio::sync::mpsc;
use tokio::time::{Duration, Instant};
use tracing::{debug, error, info, warn};
// Maestro imports
#[allow(unused_imports)]
use maestro::protocol::codec::Codec;
#[allow(unused_imports)]
use maestro::pwrpc::client::{Client, ClientHandle};
#[allow(unused_imports)]
use maestro::service::MaestroService;
#[allow(unused_imports)]
use maestro::service::settings::{self, Setting, SettingValue};
#[derive(Clone, Default)]
struct BudsStatus {
left_battery: Option<u8>,
right_battery: Option<u8>,
case_battery: Option<u8>,
anc_state: String,
#[allow(dead_code)]
last_update: Option<Instant>,
error: Option<String>,
}
enum BudsCommand {
SetAnc(String),
}
enum ManagerCommand {
EnsureTask(String),
SendCommand(String, BudsCommand),
}
struct MaestroManager {
statuses: Arc<Mutex<HashMap<String, BudsStatus>>>,
management_tx: mpsc::UnboundedSender<ManagerCommand>,
}
impl MaestroManager {
fn new() -> Self {
let (tx, mut rx) = mpsc::unbounded_channel::<ManagerCommand>();
let statuses = Arc::new(Mutex::new(HashMap::new()));
let statuses_clone = Arc::clone(&statuses);
// Start dedicated BT management thread
std::thread::spawn(move || {
let rt = tokio::runtime::Builder::new_current_thread()
.enable_all()
.build()
.unwrap();
let local = tokio::task::LocalSet::new();
local.block_on(&rt, async move {
let mut command_txs: HashMap<String, mpsc::Sender<BudsCommand>> = HashMap::new();
loop {
tokio::select! {
Some(cmd) = rx.recv() => {
match cmd {
ManagerCommand::EnsureTask(mac) => {
if !command_txs.contains_key(&mac) {
let (tx, buds_rx) = mpsc::channel::<BudsCommand>(10);
command_txs.insert(mac.clone(), tx);
let mac_clone = mac.clone();
let st_clone = Arc::clone(&statuses_clone);
tokio::task::spawn_local(async move {
if let Err(e) = buds_task(&mac_clone, st_clone, buds_rx).await {
error!("Buds task for {} failed: {}", mac_clone, e);
}
});
}
}
ManagerCommand::SendCommand(mac, buds_cmd) => {
if let Some(tx) = command_txs.get(&mac) {
let _ = tx.try_send(buds_cmd);
}
}
}
}
_ = tokio::time::sleep(Duration::from_millis(100)) => {
// Cleanup dropped tasks if needed
}
}
}
});
});
Self {
statuses,
management_tx: tx,
}
}
fn get_status(&self, mac: &str) -> BudsStatus {
let statuses = self.statuses.lock().unwrap();
statuses.get(mac).cloned().unwrap_or_default()
}
fn ensure_task(&self, mac: &str) {
let _ = self
.management_tx
.send(ManagerCommand::EnsureTask(mac.to_string()));
}
fn send_command(&self, mac: &str, cmd: BudsCommand) -> Result<()> {
self.ensure_task(mac);
let _ = self
.management_tx
.send(ManagerCommand::SendCommand(mac.to_string(), cmd));
Ok(())
}
}
async fn buds_task(
mac: &str,
statuses: Arc<Mutex<HashMap<String, BudsStatus>>>,
mut rx: mpsc::Receiver<BudsCommand>,
) -> Result<()> {
info!("Starting native Maestro connection task for {}", mac);
loop {
let addr: bluer::Address = mac.parse().context("Failed to parse MAC address")?;
let session = bluer::Session::new()
.await
.context("Failed to create bluer session")?;
let adapter = session
.default_adapter()
.await
.context("Failed to get default adapter")?;
let device = adapter
.device(addr)
.context("Failed to get device handle")?;
if !device.is_connected().await.unwrap_or(false) {
debug!("Device {} not connected to BT, stopping maestro task", mac);
break;
}
// Connect to Maestro RFCOMM service
// We try channel 1 then 2, which covers most Pixel Buds variants.
let mut stream = None;
for channel in [1, 2] {
let socket = match bluer::rfcomm::Socket::new() {
Ok(s) => s,
Err(e) => {
error!("Failed to create RFCOMM socket: {}", e);
return Err(e.into());
}
};
let target = bluer::rfcomm::SocketAddr::new(addr, channel);
debug!(
"Trying to connect RFCOMM to {} on channel {}...",
mac, channel
);
match socket.connect(target).await {
Ok(s) => {
stream = Some(s);
break;
}
Err(e) => {
debug!("Failed to connect to channel {}: {}", channel, e);
}
}
}
let stream = match stream {
Some(s) => s,
None => {
warn!(
"Failed to connect RFCOMM to {} on any common channel. Retrying in 15s...",
mac
);
tokio::time::sleep(Duration::from_secs(15)).await;
continue;
}
};
info!("Connected Maestro RFCOMM to {} on channel", mac);
// Initialize Maestro communication stack
let codec = Codec::new();
let stream = codec.wrap(stream);
let mut client = Client::new(stream);
let handle = client.handle();
// Resolve Maestro channel (typically 1 or 2)
let channel = match maestro::protocol::utils::resolve_channel(&mut client).await {
Ok(c) => c,
Err(e) => {
error!("Failed to resolve Maestro channel for {}: {}", mac, e);
continue;
}
};
// Run client in background to handle RPC packets
tokio::spawn(async move {
if let Err(e) = client.run().await {
error!("Maestro client loop error: {}", e);
}
});
let mut service = MaestroService::new(handle, channel);
// Query initial ANC state
if let Ok(val) = service
.read_setting_var(settings::SettingId::CurrentAncrState)
.await
&& let SettingValue::CurrentAncrState(anc_state) = val
{
let mut status = MAESTRO.get_status(mac);
status.anc_state = anc_state_to_string(&anc_state);
statuses.lock().unwrap().insert(mac.to_string(), status);
}
// Subscribe to real-time status updates (battery, ANC, wear)
let mut call = match service.subscribe_to_runtime_info() {
Ok(c) => c,
Err(e) => {
error!("Failed to subscribe to runtime info for {}: {}", mac, e);
continue;
}
};
let mut runtime_info = call.stream();
debug!("Subscribed to runtime info for {}", mac);
loop {
tokio::select! {
cmd = rx.recv() => {
match cmd {
Some(BudsCommand::SetAnc(mode)) => {
debug!("Setting ANC mode to {} for {}", mode, mac);
let state = mode_to_anc_state(&mode);
let val = SettingValue::CurrentAncrState(state);
if let Err(e) = service.write_setting(val).await {
error!("Failed to write ANC setting for {}: {}", mac, e);
}
}
None => return Ok(()),
}
}
Some(Ok(info)) = runtime_info.next() => {
let mut status = MAESTRO.get_status(mac);
status.last_update = Some(Instant::now());
if let Some(bat) = info.battery_info {
status.left_battery = bat.left.map(|b| b.level as u8);
status.right_battery = bat.right.map(|b| b.level as u8);
status.case_battery = bat.case.map(|b| b.level as u8);
}
statuses.lock().unwrap().insert(mac.to_string(), status);
}
_ = tokio::time::sleep(Duration::from_secs(30)) => {
// Check if still connected to BT
if !device.is_connected().await.unwrap_or(false) {
break;
}
}
}
}
if !device.is_connected().await.unwrap_or(false) {
break;
}
}
Ok(())
}
fn mode_to_anc_state(mode: &str) -> settings::AncState {
match mode {
"active" => settings::AncState::Active,
"aware" => settings::AncState::Aware,
"off" => settings::AncState::Off,
_ => settings::AncState::Off,
}
}
fn anc_state_to_string(state: &settings::AncState) -> String {
match state {
settings::AncState::Active => "active".to_string(),
settings::AncState::Aware => "aware".to_string(),
settings::AncState::Off => "off".to_string(),
_ => "unknown".to_string(),
}
}
static MAESTRO: LazyLock<MaestroManager> = LazyLock::new(MaestroManager::new);
pub struct BtDaemon {
session: Option<bluer::Session>,
}
impl BtDaemon {
pub fn new() -> Self {
Self { session: None }
}
pub async fn poll(&mut self, state: SharedState) {
if let Err(e) = self.poll_async(state).await {
error!("BT daemon error: {}", e);
}
}
async fn poll_async(&mut self, state: SharedState) -> Result<()> {
if self.session.is_none() {
self.session = Some(bluer::Session::new().await?);
}
let session = self.session.as_ref().unwrap();
let adapter = session.default_adapter().await?;
let adapter_powered = adapter.is_powered().await.unwrap_or(false);
let mut bt_state = BtState {
adapter_powered,
..Default::default()
};
if adapter_powered {
let devices = adapter.device_addresses().await?;
for addr in devices {
let device = adapter.device(addr)?;
if device.is_connected().await.unwrap_or(false) {
let uuids = device.uuids().await?.unwrap_or_default();
// Audio sink UUID (0x110b)
let audio_sink_uuid =
bluer::Uuid::from_u128(0x0000110b_0000_1000_8000_00805f9b34fb);
if uuids.contains(&audio_sink_uuid) {
bt_state.connected = true;
bt_state.device_address = addr.to_string();
bt_state.device_alias =
device.alias().await.unwrap_or_else(|_| addr.to_string());
bt_state.battery_percentage =
device.battery_percentage().await.unwrap_or(None);
// Plugin detection
for p in PLUGINS.iter() {
if p.can_handle(&bt_state.device_alias, &bt_state.device_address) {
match p.get_data(&bt_state.device_address) {
Ok(data) => {
bt_state.plugin_data = data
.into_iter()
.map(|(k, v)| {
let val_str = match v {
TokenValue::String(s) => s,
TokenValue::Int(i) => i.to_string(),
TokenValue::Float(f) => format!("{:.1}", f),
};
(k, val_str)
})
.collect();
}
Err(e) => {
warn!("Plugin {} failed for {}: {}", p.name(), addr, e);
bt_state
.plugin_data
.push(("plugin_error".to_string(), e.to_string()));
}
}
break;
}
}
break;
}
}
}
}
let mut lock = state.write().await;
lock.bluetooth = bt_state;
Ok(())
}
}
pub trait BtPlugin: Send + Sync {
fn name(&self) -> &str;
fn can_handle(&self, alias: &str, mac: &str) -> bool;
fn get_data(&self, mac: &str) -> Result<Vec<(String, TokenValue)>>;
fn get_modes(&self, _mac: &str) -> Result<Vec<String>> {
Ok(vec![])
}
fn set_mode(&self, _mode: &str, _mac: &str) -> Result<()> {
Ok(())
}
fn cycle_mode(&self, _mac: &str) -> Result<()> {
Ok(())
}
}
pub struct PixelBudsPlugin;
impl BtPlugin for PixelBudsPlugin {
fn name(&self) -> &str {
"Pixel Buds Pro"
}
fn can_handle(&self, alias: &str, _mac: &str) -> bool {
alias.contains("Pixel Buds Pro")
}
fn get_data(&self, mac: &str) -> Result<Vec<(String, TokenValue)>> {
MAESTRO.ensure_task(mac);
let status = MAESTRO.get_status(mac);
if let Some(err) = status.error {
return Err(anyhow::anyhow!(err));
}
let left_display = status
.left_battery
.map(|b| format!("{}%", b))
.unwrap_or_else(|| "---".to_string());
let right_display = status
.right_battery
.map(|b| format!("{}%", b))
.unwrap_or_else(|| "---".to_string());
let (anc_icon, class) = match status.anc_state.as_str() {
"active" => ("ANC", "anc-active"),
"aware" => ("Aware", "anc-aware"),
"off" => ("Off", "anc-off"),
_ => ("?", "anc-unknown"),
};
Ok(vec![
("left".to_string(), TokenValue::String(left_display)),
("right".to_string(), TokenValue::String(right_display)),
("anc".to_string(), TokenValue::String(anc_icon.to_string())),
(
"plugin_class".to_string(),
TokenValue::String(class.to_string()),
),
])
}
fn get_modes(&self, _mac: &str) -> Result<Vec<String>> {
Ok(vec![
"active".to_string(),
"aware".to_string(),
"off".to_string(),
])
}
fn set_mode(&self, mode: &str, mac: &str) -> Result<()> {
MAESTRO.send_command(mac, BudsCommand::SetAnc(mode.to_string()))
}
fn cycle_mode(&self, mac: &str) -> Result<()> {
let status = MAESTRO.get_status(mac);
let next_mode = match status.anc_state.as_str() {
"active" => "aware",
"aware" => "off",
_ => "active",
};
self.set_mode(next_mode, mac)
}
}
static PLUGINS: LazyLock<Vec<Box<dyn BtPlugin>>> =
LazyLock::new(|| vec![Box::new(PixelBudsPlugin)]);
pub struct BtModule;
impl WaybarModule for BtModule {
async fn run(
&self,
config: &Config,
state: &SharedState,
args: &[&str],
) -> FluxoResult<WaybarOutput> {
let action = args.first().unwrap_or(&"show");
let bt_state = {
let lock = state.read().await;
lock.bluetooth.clone()
};
match *action {
"disconnect" if bt_state.connected => {
let _ = Command::new("bluetoothctl")
.args(["disconnect", &bt_state.device_address])
.output();
return Ok(WaybarOutput::default());
}
"cycle_mode" if bt_state.connected => {
let plugin = PLUGINS
.iter()
.find(|p| p.can_handle(&bt_state.device_alias, &bt_state.device_address));
if let Some(p) = plugin {
p.cycle_mode(&bt_state.device_address)?;
}
return Ok(WaybarOutput::default());
}
"get_modes" if bt_state.connected => {
let plugin = PLUGINS
.iter()
.find(|p| p.can_handle(&bt_state.device_alias, &bt_state.device_address));
let modes = if let Some(p) = plugin {
p.get_modes(&bt_state.device_address)?
} else {
vec![]
};
return Ok(WaybarOutput {
text: modes.join("\n"),
..Default::default()
});
}
"set_mode" if bt_state.connected => {
if let Some(mode) = args.get(1) {
let plugin = PLUGINS
.iter()
.find(|p| p.can_handle(&bt_state.device_alias, &bt_state.device_address));
if let Some(p) = plugin {
p.set_mode(mode, &bt_state.device_address)?;
}
}
return Ok(WaybarOutput::default());
}
"show" => {}
_ => {}
}
if !bt_state.adapter_powered {
return Ok(WaybarOutput {
text: config.bt.format_disabled.clone(),
tooltip: Some("Bluetooth Disabled".to_string()),
class: Some("disabled".to_string()),
percentage: None,
});
}
if bt_state.connected {
let mut tokens: Vec<(String, TokenValue)> = vec![
(
"alias".to_string(),
TokenValue::String(bt_state.device_alias.clone()),
),
(
"mac".to_string(),
TokenValue::String(bt_state.device_address.clone()),
),
];
let mut class = vec!["connected".to_string()];
let mut has_plugin = false;
for (k, v) in &bt_state.plugin_data {
if k == "plugin_class" {
class.push(v.clone());
has_plugin = true;
} else if k == "plugin_error" {
class.push("plugin-error".to_string());
} else {
tokens.push((k.clone(), TokenValue::String(v.clone())));
}
}
let format = if has_plugin {
&config.bt.format_plugin
} else {
&config.bt.format_connected
};
let text = format_template(format, &tokens);
let tooltip = format!(
"{} | MAC: {}\nBattery: {}",
bt_state.device_alias,
bt_state.device_address,
bt_state
.battery_percentage
.map(|b| format!("{}%", b))
.unwrap_or_else(|| "N/A".to_string())
);
Ok(WaybarOutput {
text,
tooltip: Some(tooltip),
class: Some(class.join(" ")),
percentage: bt_state.battery_percentage,
})
} else {
Ok(WaybarOutput {
text: config.bt.format_disconnected.clone(),
tooltip: Some("Bluetooth On (Disconnected)".to_string()),
class: Some("disconnected".to_string()),
percentage: None,
})
}
}
}
src/modules/bt/buds.rs
+141
View File
@@ -0,0 +1,141 @@
use crate::config::Config;
use crate::error::{FluxoError, Result as FluxoResult};
use crate::modules::bt::maestro::BudsCommand;
use crate::state::AppReceivers;
use crate::utils::TokenValue;
use futures::future::BoxFuture;
pub trait BtPlugin: Send + Sync {
fn name(&self) -> &str;
fn can_handle(&self, alias: &str, mac: &str) -> bool;
fn get_data(
&self,
config: &Config,
state: &AppReceivers,
mac: &str,
) -> BoxFuture<'static, FluxoResult<Vec<(String, TokenValue)>>>;
fn get_modes(
&self,
mac: &str,
state: &AppReceivers,
) -> BoxFuture<'static, FluxoResult<Vec<String>>>;
fn set_mode(
&self,
mode: &str,
mac: &str,
state: &AppReceivers,
) -> BoxFuture<'static, FluxoResult<()>>;
fn cycle_mode(&self, mac: &str, state: &AppReceivers) -> BoxFuture<'static, FluxoResult<()>>;
}
pub struct PixelBudsPlugin;
impl BtPlugin for PixelBudsPlugin {
fn name(&self) -> &str {
"Pixel Buds Pro"
}
fn can_handle(&self, alias: &str, _mac: &str) -> bool {
alias.contains("Pixel Buds Pro")
}
fn get_data(
&self,
_config: &Config,
state: &AppReceivers,
mac: &str,
) -> BoxFuture<'static, FluxoResult<Vec<(String, TokenValue)>>> {
let mac = mac.to_string();
let state = state.clone();
Box::pin(async move {
let maestro = crate::modules::bt::maestro::get_maestro(&state);
maestro.ensure_task(&mac);
let status = maestro.get_status(&mac);
if let Some(err) = status.error {
return Err(FluxoError::Module {
module: "bt.buds",
message: err,
});
}
let left_display = status
.left_battery
.map(|b| format!("{}%", b))
.unwrap_or_else(|| "---".to_string());
let right_display = status
.right_battery
.map(|b| format!("{}%", b))
.unwrap_or_else(|| "---".to_string());
let (anc_icon, class) = match status.anc_state.as_str() {
"active" => ("ANC", "anc-active"),
"aware" => ("Aware", "anc-aware"),
"off" => ("Off", "anc-off"),
_ => ("?", "anc-unknown"),
};
Ok(vec![
("left".to_string(), TokenValue::String(left_display)),
("right".to_string(), TokenValue::String(right_display)),
("anc".to_string(), TokenValue::String(anc_icon.to_string())),
(
"plugin_class".to_string(),
TokenValue::String(class.to_string()),
),
])
})
}
fn get_modes(
&self,
_mac: &str,
_state: &AppReceivers,
) -> BoxFuture<'static, FluxoResult<Vec<String>>> {
Box::pin(async move {
Ok(vec![
"active".to_string(),
"aware".to_string(),
"off".to_string(),
])
})
}
fn set_mode(
&self,
mode: &str,
mac: &str,
state: &AppReceivers,
) -> BoxFuture<'static, FluxoResult<()>> {
let mode = mode.to_string();
let mac = mac.to_string();
let state = state.clone();
Box::pin(async move {
crate::modules::bt::maestro::get_maestro(&state)
.send_command(&mac, BudsCommand::SetAnc(mode))
.map_err(|e: anyhow::Error| FluxoError::Module {
module: "bt.buds",
message: e.to_string(),
})
})
}
fn cycle_mode(&self, mac: &str, state: &AppReceivers) -> BoxFuture<'static, FluxoResult<()>> {
let mac = mac.to_string();
let state = state.clone();
Box::pin(async move {
let status = crate::modules::bt::maestro::get_maestro(&state).get_status(&mac);
let next_mode = match status.anc_state.as_str() {
"active" => "aware",
"aware" => "off",
_ => "active",
};
crate::modules::bt::maestro::get_maestro(&state)
.send_command(&mac, BudsCommand::SetAnc(next_mode.to_string()))
.map_err(|e: anyhow::Error| FluxoError::Module {
module: "bt.buds",
message: e.to_string(),
})
})
}
}
src/modules/bt/maestro.rs
+362
View File
@@ -0,0 +1,362 @@
use crate::state::AppReceivers;
use anyhow::{Context, Result};
use futures::StreamExt;
use std::collections::HashMap;
use std::sync::{Arc, Mutex, OnceLock};
use std::time::{Duration, Instant};
use tokio::sync::mpsc;
use tracing::{debug, error, info, warn};
// Maestro imports
use maestro::protocol::codec::Codec;
use maestro::pwrpc::client::Client;
use maestro::service::MaestroService;
use maestro::service::settings::{self, SettingValue};
#[derive(Clone, Default)]
pub struct BudsStatus {
pub left_battery: Option<u8>,
pub right_battery: Option<u8>,
pub case_battery: Option<u8>,
pub anc_state: String,
#[allow(dead_code)]
pub last_update: Option<Instant>,
pub error: Option<String>,
}
pub enum BudsCommand {
SetAnc(String),
}
pub enum ManagerCommand {
EnsureTask(String),
SendCommand(String, BudsCommand),
}
pub struct MaestroManager {
statuses: Arc<Mutex<HashMap<String, BudsStatus>>>,
management_tx: mpsc::UnboundedSender<ManagerCommand>,
}
impl MaestroManager {
pub fn new(state: AppReceivers) -> Self {
let (tx, mut rx) = mpsc::unbounded_channel::<ManagerCommand>();
let statuses = Arc::new(Mutex::new(HashMap::new()));
let statuses_clone = Arc::clone(&statuses);
let state_clone = state.clone();
// Start dedicated BT management thread
std::thread::spawn(move || {
let rt = tokio::runtime::Builder::new_current_thread()
.enable_all()
.build()
.unwrap();
let local = tokio::task::LocalSet::new();
local.block_on(&rt, async move {
let mut command_txs: HashMap<String, mpsc::Sender<BudsCommand>> = HashMap::new();
loop {
tokio::select! {
Some(cmd) = rx.recv() => {
match cmd {
ManagerCommand::EnsureTask(mac) => {
if !command_txs.contains_key(&mac) {
let (tx, buds_rx) = mpsc::channel::<BudsCommand>(10);
command_txs.insert(mac.clone(), tx);
let mac_clone = mac.clone();
let st_clone = Arc::clone(&statuses_clone);
let state_inner = state_clone.clone();
tokio::task::spawn_local(async move {
if let Err(e) = buds_task(&mac_clone, st_clone, buds_rx, state_inner).await {
error!("Buds task for {} failed: {}", mac_clone, e);
}
});
}
}
ManagerCommand::SendCommand(mac, buds_cmd) => {
if let Some(tx) = command_txs.get(&mac) {
let _ = tx.try_send(buds_cmd);
}
}
}
}
_ = tokio::time::sleep(Duration::from_millis(100)) => {
// Cleanup dropped tasks if needed
}
}
}
});
});
Self {
statuses,
management_tx: tx,
}
}
pub fn get_status(&self, mac: &str) -> BudsStatus {
let statuses = self.statuses.lock().unwrap();
statuses.get(mac).cloned().unwrap_or_default()
}
pub fn ensure_task(&self, mac: &str) {
let _ = self
.management_tx
.send(ManagerCommand::EnsureTask(mac.to_string()));
}
pub fn send_command(&self, mac: &str, cmd: BudsCommand) -> Result<()> {
self.ensure_task(mac);
let _ = self
.management_tx
.send(ManagerCommand::SendCommand(mac.to_string(), cmd));
Ok(())
}
}
async fn buds_task(
mac: &str,
statuses: Arc<Mutex<HashMap<String, BudsStatus>>>,
mut rx: mpsc::Receiver<BudsCommand>,
state: AppReceivers,
) -> Result<()> {
info!("Starting native Maestro connection task for {}", mac);
loop {
let addr: bluer::Address = match mac.parse() {
Ok(a) => a,
Err(e) => {
error!("Failed to parse MAC address {}: {}", mac, e);
return Err(e.into());
}
};
let session = bluer::Session::new()
.await
.context("Failed to create bluer session")?;
let adapter = session
.default_adapter()
.await
.context("Failed to get default adapter")?;
let device = adapter
.device(addr)
.context("Failed to get device handle")?;
if !device.is_connected().await.unwrap_or(false) {
debug!("Device {} not connected to BT, stopping maestro task", mac);
break;
}
// Connect to Maestro RFCOMM service
let mut stream = None;
for channel in [1, 2] {
let socket = match bluer::rfcomm::Socket::new() {
Ok(s) => s,
Err(e) => {
error!("Failed to create RFCOMM socket: {}", e);
return Err(e.into());
}
};
let target = bluer::rfcomm::SocketAddr::new(addr, channel);
debug!(
"Trying to connect RFCOMM to {} on channel {}...",
mac, channel
);
match socket.connect(target).await {
Ok(s) => {
stream = Some(s);
break;
}
Err(e) => {
debug!("Failed to connect to channel {}: {}", channel, e);
}
}
}
let stream = match stream {
Some(s) => s,
None => {
warn!(
"Failed to connect RFCOMM to {} on any common channel. Retrying in 15s...",
mac
);
tokio::time::sleep(Duration::from_secs(15)).await;
continue;
}
};
info!("Connected Maestro RFCOMM to {} on channel", mac);
// Initialize Maestro communication stack
let codec = Codec::new();
let stream = codec.wrap(stream);
let mut client = Client::new(stream);
let handle = client.handle();
// Resolve Maestro channel
let channel = match maestro::protocol::utils::resolve_channel(&mut client).await {
Ok(c) => c,
Err(e) => {
error!("Failed to resolve Maestro channel for {}: {}", mac, e);
continue;
}
};
tokio::spawn(async move {
if let Err(e) = client.run().await {
error!("Maestro client loop error: {}", e);
}
});
let mut service = MaestroService::new(handle, channel);
// Update health
{
let mut lock = state.health.write().await;
let health = lock.entry("bt.buds".to_string()).or_default();
health.consecutive_failures = 0;
health.backoff_until = None;
}
// Query initial ANC state
if let Ok(val) = service
.read_setting_var(settings::SettingId::CurrentAncrState)
.await
&& let SettingValue::CurrentAncrState(anc_state) = val
{
let mut lock = statuses.lock().unwrap();
let status = lock.entry(mac.to_string()).or_default();
status.anc_state = anc_state_to_string(&anc_state);
status.last_update = Some(Instant::now());
}
let mut runtime_info_call = match service.subscribe_to_runtime_info() {
Ok(c) => c,
Err(e) => {
error!("Failed to subscribe to runtime info for {}: {}", mac, e);
continue;
}
};
let mut runtime_info = runtime_info_call.stream();
let mut settings_changes_call = match service.subscribe_to_settings_changes() {
Ok(s) => s,
Err(e) => {
error!("Failed to subscribe to settings changes for {}: {}", mac, e);
continue;
}
};
let mut settings_changes = settings_changes_call.stream();
debug!("Subscribed to status and settings for {}", mac);
loop {
tokio::select! {
cmd = rx.recv() => {
match cmd {
Some(BudsCommand::SetAnc(mode)) => {
debug!("Setting ANC mode to {} for {}", mode, mac);
let state = mode_to_anc_state(&mode);
let val = SettingValue::CurrentAncrState(state);
{
let mut lock = statuses.lock().unwrap();
let status = lock.entry(mac.to_string()).or_default();
status.anc_state = mode.clone();
status.last_update = Some(Instant::now());
}
if let Err(e) = service.write_setting(val).await {
error!("Failed to write ANC setting for {}: {}", mac, e);
}
}
None => return Ok(()),
}
}
Some(res) = runtime_info.next() => {
match res {
Ok(info) => {
let mut lock = statuses.lock().unwrap();
let status = lock.entry(mac.to_string()).or_default();
status.last_update = Some(Instant::now());
if let Some(bat) = info.battery_info {
status.left_battery = bat.left.map(|b| b.level as u8);
status.right_battery = bat.right.map(|b| b.level as u8);
status.case_battery = bat.case.map(|b| b.level as u8);
}
}
Err(e) => {
warn!("Runtime info stream error for {}: {}", mac, e);
break;
}
}
}
Some(res) = settings_changes.next() => {
if let Ok(change) = res {
use maestro::protocol::types::settings_rsp::ValueOneof as RspOneof;
use maestro::protocol::types::setting_value::ValueOneof as ValOneof;
if let Some(RspOneof::Value(setting_val)) = change.value_oneof
&& let Some(ValOneof::CurrentAncrState(anc_state_raw)) = setting_val.value_oneof {
let mut lock = statuses.lock().unwrap();
let status = lock.entry(mac.to_string()).or_default();
let anc_state = match anc_state_raw {
1 => settings::AncState::Off,
2 => settings::AncState::Active,
3 => settings::AncState::Aware,
4 => settings::AncState::Adaptive,
_ => settings::AncState::Unknown(anc_state_raw),
};
status.anc_state = anc_state_to_string(&anc_state);
status.last_update = Some(Instant::now());
debug!(mode = %status.anc_state, "Caught physical ANC toggle");
}
}
}
_ = tokio::time::sleep(Duration::from_secs(30)) => {
if !device.is_connected().await.unwrap_or(false) {
break;
}
}
}
}
if !device.is_connected().await.unwrap_or(false) {
break;
}
}
Ok(())
}
fn mode_to_anc_state(mode: &str) -> settings::AncState {
match mode {
"active" => settings::AncState::Active,
"aware" => settings::AncState::Aware,
"off" => settings::AncState::Off,
_ => settings::AncState::Off,
}
}
pub fn anc_state_to_string(state: &settings::AncState) -> String {
match state {
settings::AncState::Active => "active".to_string(),
settings::AncState::Aware => "aware".to_string(),
settings::AncState::Off => "off".to_string(),
_ => "unknown".to_string(),
}
}
static MAESTRO: OnceLock<MaestroManager> = OnceLock::new();
pub fn get_maestro(state: &AppReceivers) -> &MaestroManager {
MAESTRO.get_or_init(|| MaestroManager::new(state.clone()))
}
src/modules/bt/mod.rs
+239
View File
@@ -0,0 +1,239 @@
pub mod buds;
pub mod maestro;
use crate::config::Config;
use crate::error::Result as FluxoResult;
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::{AppReceivers, BtState};
use crate::utils::{TokenValue, format_template};
use anyhow::Result;
use std::sync::LazyLock;
use tokio::sync::watch;
use tracing::{error, warn};
use self::buds::{BtPlugin, PixelBudsPlugin};
pub struct BtDaemon {
session: Option<bluer::Session>,
}
impl BtDaemon {
pub fn new() -> Self {
Self { session: None }
}
pub async fn poll(
&mut self,
tx: &watch::Sender<BtState>,
state: &AppReceivers,
config: &Config,
) {
if let Err(e) = self.poll_async(tx, state, config).await {
error!("BT daemon error: {}", e);
}
}
async fn poll_async(
&mut self,
tx: &watch::Sender<BtState>,
state: &AppReceivers,
config: &Config,
) -> Result<()> {
if self.session.is_none() {
self.session = Some(bluer::Session::new().await?);
}
let session = self.session.as_ref().unwrap();
let adapter = session.default_adapter().await?;
let adapter_powered = adapter.is_powered().await.unwrap_or(false);
let mut bt_state = BtState {
adapter_powered,
..Default::default()
};
if adapter_powered {
let devices = adapter.device_addresses().await?;
for addr in devices {
let device = adapter.device(addr)?;
if device.is_connected().await.unwrap_or(false) {
let uuids = device.uuids().await?.unwrap_or_default();
let audio_sink_uuid =
bluer::Uuid::from_u128(0x0000110b_0000_1000_8000_00805f9b34fb);
if uuids.contains(&audio_sink_uuid) {
bt_state.connected = true;
bt_state.device_address = addr.to_string();
bt_state.device_alias =
device.alias().await.unwrap_or_else(|_| addr.to_string());
bt_state.battery_percentage =
device.battery_percentage().await.unwrap_or(None);
for p in PLUGINS.iter() {
if p.can_handle(&bt_state.device_alias, &bt_state.device_address) {
match p.get_data(config, state, &bt_state.device_address).await {
Ok(data) => {
bt_state.plugin_data = data
.into_iter()
.map(|(k, v)| {
let val_str = match v {
TokenValue::String(s) => s,
TokenValue::Int(i) => i.to_string(),
TokenValue::Float(f) => format!("{:.1}", f),
};
(k, val_str)
})
.collect();
}
Err(e) => {
warn!("Plugin {} failed for {}: {}", p.name(), addr, e);
bt_state
.plugin_data
.push(("plugin_error".to_string(), e.to_string()));
}
}
break;
}
}
break;
}
}
}
}
let _ = tx.send(bt_state);
Ok(())
}
}
static PLUGINS: LazyLock<Vec<Box<dyn BtPlugin>>> =
LazyLock::new(|| vec![Box::new(PixelBudsPlugin)]);
pub struct BtModule;
impl WaybarModule for BtModule {
async fn run(
&self,
config: &Config,
state: &AppReceivers,
args: &[&str],
) -> FluxoResult<WaybarOutput> {
let action = args.first().cloned().unwrap_or("show").to_string();
let args = args.iter().map(|s| s.to_string()).collect::<Vec<_>>();
let bt_state = state.bluetooth.borrow().clone();
match action.as_str() {
"disconnect" if bt_state.connected => {
let _ = tokio::process::Command::new("bluetoothctl")
.args(["disconnect", &bt_state.device_address])
.output()
.await;
return Ok(WaybarOutput::default());
}
"cycle_mode" if bt_state.connected => {
let plugin = PLUGINS
.iter()
.find(|p| p.can_handle(&bt_state.device_alias, &bt_state.device_address));
if let Some(p) = plugin {
p.cycle_mode(&bt_state.device_address, state).await?;
}
return Ok(WaybarOutput::default());
}
"get_modes" if bt_state.connected => {
let plugin = PLUGINS
.iter()
.find(|p| p.can_handle(&bt_state.device_alias, &bt_state.device_address));
let modes = if let Some(p) = plugin {
p.get_modes(&bt_state.device_address, state).await?
} else {
vec![]
};
return Ok(WaybarOutput {
text: modes.join("\n"),
..Default::default()
});
}
"set_mode" if bt_state.connected => {
if let Some(mode) = args.get(1) {
let plugin = PLUGINS
.iter()
.find(|p| p.can_handle(&bt_state.device_alias, &bt_state.device_address));
if let Some(p) = plugin {
p.set_mode(mode, &bt_state.device_address, state).await?;
}
}
return Ok(WaybarOutput::default());
}
"show" => {}
_ => {}
}
if !bt_state.adapter_powered {
return Ok(WaybarOutput {
text: config.bt.format_disabled.clone(),
tooltip: Some("Bluetooth Disabled".to_string()),
class: Some("disabled".to_string()),
percentage: None,
});
}
if bt_state.connected {
let mut tokens: Vec<(String, TokenValue)> = vec![
(
"alias".to_string(),
TokenValue::String(bt_state.device_alias.clone()),
),
(
"mac".to_string(),
TokenValue::String(bt_state.device_address.clone()),
),
];
let mut class = vec!["connected".to_string()];
let mut has_plugin = false;
for (k, v) in &bt_state.plugin_data {
if k == "plugin_class" {
class.push(v.clone());
has_plugin = true;
} else if k == "plugin_error" {
class.push("plugin-error".to_string());
} else {
tokens.push((k.clone(), TokenValue::String(v.clone())));
}
}
let format = if has_plugin {
&config.bt.format_plugin
} else {
&config.bt.format_connected
};
let text = format_template(format, &tokens);
let tooltip = format!(
"{} | MAC: {}\nBattery: {}",
bt_state.device_alias,
bt_state.device_address,
bt_state
.battery_percentage
.map(|b| format!("{}%", b))
.unwrap_or_else(|| "N/A".to_string())
);
Ok(WaybarOutput {
text,
tooltip: Some(tooltip),
class: Some(class.join(" ")),
percentage: bt_state.battery_percentage,
})
} else {
Ok(WaybarOutput {
text: config.bt.format_disconnected.clone(),
tooltip: Some("Bluetooth On (Disconnected)".to_string()),
class: Some("disconnected".to_string()),
percentage: None,
})
}
}
}
src/modules/btrfs.rs
+4 -4
View File
@@ -2,7 +2,7 @@ use crate::config::Config;
use crate::error::Result;
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::AppReceivers;
use crate::utils::{TokenValue, format_template};
pub struct BtrfsModule;
@@ -11,12 +11,12 @@ impl WaybarModule for BtrfsModule {
async fn run(
&self,
config: &Config,
state: &SharedState,
state: &AppReceivers,
_args: &[&str],
) -> Result<WaybarOutput> {
let disks = {
let s = state.read().await;
s.disks.clone()
let s = state.disks.borrow();
s.clone()
};
let mut total_used: f64 = 0.0;
src/modules/cpu.rs
+7 -11
View File
@@ -2,7 +2,7 @@ use crate::config::Config;
use crate::error::Result;
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::AppReceivers;
use crate::utils::{TokenValue, format_template};
pub struct CpuModule;
@@ -11,16 +11,12 @@ impl WaybarModule for CpuModule {
async fn run(
&self,
config: &Config,
state: &SharedState,
state: &AppReceivers,
_args: &[&str],
) -> Result<WaybarOutput> {
let (usage, temp, model) = {
let state_lock = state.read().await;
(
state_lock.cpu.usage,
state_lock.cpu.temp,
state_lock.cpu.model.clone(),
)
let s = state.cpu.borrow();
(s.usage, s.temp, s.model.clone())
};
let text = format_template(
@@ -64,7 +60,7 @@ mod tests {
..Default::default()
});
let config = Config::default();
let output = CpuModule.run(&config, &state, &[]).await.unwrap();
let output = CpuModule.run(&config, &state.receivers, &[]).await.unwrap();
assert!(output.text.contains("25.0"));
assert!(output.text.contains("45.0"));
assert_eq!(output.class.as_deref(), Some("normal"));
@@ -83,7 +79,7 @@ mod tests {
..Default::default()
});
let config = Config::default();
let output = CpuModule.run(&config, &state, &[]).await.unwrap();
let output = CpuModule.run(&config, &state.receivers, &[]).await.unwrap();
assert_eq!(output.class.as_deref(), Some("high"));
}
@@ -98,7 +94,7 @@ mod tests {
..Default::default()
});
let config = Config::default();
let output = CpuModule.run(&config, &state, &[]).await.unwrap();
let output = CpuModule.run(&config, &state.receivers, &[]).await.unwrap();
assert_eq!(output.class.as_deref(), Some("max"));
}
}
src/modules/disk.rs
+16 -11
View File
@@ -2,7 +2,7 @@ use crate::config::Config;
use crate::error::{FluxoError, Result};
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::AppReceivers;
use crate::utils::{TokenValue, format_template};
pub struct DiskModule;
@@ -11,15 +11,12 @@ impl WaybarModule for DiskModule {
async fn run(
&self,
config: &Config,
state: &SharedState,
state: &AppReceivers,
args: &[&str],
) -> Result<WaybarOutput> {
let mountpoint = args.first().unwrap_or(&"/");
let disks = {
let s = state.read().await;
s.disks.clone()
};
let disks = state.disks.borrow().clone();
for disk in &disks {
if disk.mount_point == *mountpoint {
@@ -76,9 +73,9 @@ impl WaybarModule for DiskModule {
#[cfg(test)]
mod tests {
use super::*;
use crate::state::{AppState, DiskInfo, mock_state};
use crate::state::{AppState, DiskInfo, MockState, mock_state};
fn state_with_disk(mount: &str, total: u64, available: u64) -> crate::state::SharedState {
fn state_with_disk(mount: &str, total: u64, available: u64) -> MockState {
mock_state(AppState {
disks: vec![DiskInfo {
mount_point: mount.to_string(),
@@ -95,7 +92,10 @@ mod tests {
let gb = 1024 * 1024 * 1024;
let state = state_with_disk("/", 100 * gb, 60 * gb);
let config = Config::default();
let output = DiskModule.run(&config, &state, &["/"]).await.unwrap();
let output = DiskModule
.run(&config, &state.receivers, &["/"])
.await
.unwrap();
assert_eq!(output.class.as_deref(), Some("normal"));
assert_eq!(output.percentage, Some(40)); // 40% used
}
@@ -105,7 +105,10 @@ mod tests {
let gb = 1024 * 1024 * 1024;
let state = state_with_disk("/", 100 * gb, 15 * gb);
let config = Config::default();
let output = DiskModule.run(&config, &state, &["/"]).await.unwrap();
let output = DiskModule
.run(&config, &state.receivers, &["/"])
.await
.unwrap();
assert_eq!(output.class.as_deref(), Some("high")); // 85% used
}
@@ -113,7 +116,9 @@ mod tests {
async fn test_disk_not_found() {
let state = mock_state(AppState::default());
let config = Config::default();
let result = DiskModule.run(&config, &state, &["/nonexistent"]).await;
let result = DiskModule
.run(&config, &state.receivers, &["/nonexistent"])
.await;
assert!(result.is_err());
}
}
src/modules/game.rs
+9 -8
View File
@@ -2,11 +2,11 @@ use crate::config::Config;
use crate::error::Result;
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::AppReceivers;
use anyhow::anyhow;
use std::env;
use std::io::{Read, Write};
use std::os::unix::net::UnixStream;
use tokio::io::{AsyncReadExt, AsyncWriteExt};
use tokio::net::UnixStream;
pub struct GameModule;
@@ -14,10 +14,11 @@ impl WaybarModule for GameModule {
async fn run(
&self,
config: &Config,
_state: &SharedState,
_state: &AppReceivers,
_args: &[&str],
) -> Result<WaybarOutput> {
let is_gamemode = hyprland_ipc("j/getoption animations:enabled")
.await
.map(|stdout| stdout.contains("\"int\": 0"))
.unwrap_or(false);
@@ -39,16 +40,16 @@ impl WaybarModule for GameModule {
}
}
fn hyprland_ipc(cmd: &str) -> Result<String> {
async fn hyprland_ipc(cmd: &str) -> Result<String> {
let signature = env::var("HYPRLAND_INSTANCE_SIGNATURE")
.map_err(|_| anyhow!("HYPRLAND_INSTANCE_SIGNATURE not set"))?;
let path = format!("/tmp/hypr/{}/.socket.sock", signature);
let mut stream = UnixStream::connect(path)?;
stream.write_all(cmd.as_bytes())?;
let mut stream = UnixStream::connect(path).await?;
stream.write_all(cmd.as_bytes()).await?;
let mut response = String::new();
stream.read_to_string(&mut response)?;
stream.read_to_string(&mut response).await?;
Ok(response)
}
src/modules/gpu.rs
+10 -10
View File
@@ -2,7 +2,7 @@ use crate::config::Config;
use crate::error::Result;
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::AppReceivers;
use crate::utils::{TokenValue, format_template};
pub struct GpuModule;
@@ -11,19 +11,19 @@ impl WaybarModule for GpuModule {
async fn run(
&self,
config: &Config,
state: &SharedState,
state: &AppReceivers,
_args: &[&str],
) -> Result<WaybarOutput> {
let (active, vendor, usage, vram_used, vram_total, temp, model) = {
let state_lock = state.read().await;
let s = state.gpu.borrow();
(
state_lock.gpu.active,
state_lock.gpu.vendor.clone(),
state_lock.gpu.usage,
state_lock.gpu.vram_used,
state_lock.gpu.vram_total,
state_lock.gpu.temp,
state_lock.gpu.model.clone(),
s.active,
s.vendor.clone(),
s.usage,
s.vram_used,
s.vram_total,
s.temp,
s.model.clone(),
)
};
src/modules/hardware.rs
+48 -29
View File
@@ -1,5 +1,6 @@
use crate::state::{DiskInfo, SharedState};
use crate::state::{CpuState, DiskInfo, GpuState, MemoryState, SysState};
use sysinfo::{Components, Disks, System};
use tokio::sync::watch;
pub struct HardwareDaemon {
sys: System,
@@ -24,7 +25,12 @@ impl HardwareDaemon {
}
}
pub async fn poll_fast(&mut self, state: SharedState) {
pub async fn poll_fast(
&mut self,
cpu_tx: &watch::Sender<CpuState>,
mem_tx: &watch::Sender<MemoryState>,
sys_tx: &watch::Sender<SysState>,
) {
self.sys.refresh_cpu_usage();
self.sys.refresh_memory();
self.components.refresh(true);
@@ -70,28 +76,37 @@ impl HardwareDaemon {
}
}
let mut state_lock = state.write().await;
state_lock.cpu.usage = cpu_usage as f64;
state_lock.cpu.temp = cpu_temp;
state_lock.cpu.model = cpu_model;
let mut cpu = cpu_tx.borrow().clone();
cpu.usage = cpu_usage as f64;
cpu.temp = cpu_temp;
cpu.model = cpu_model;
let _ = cpu_tx.send(cpu);
state_lock.memory.total_gb = total_mem;
state_lock.memory.used_gb = used_mem;
let mut mem = mem_tx.borrow().clone();
mem.total_gb = total_mem;
mem.used_gb = used_mem;
let _ = mem_tx.send(mem);
state_lock.sys.load_1 = load_avg.one;
state_lock.sys.load_5 = load_avg.five;
state_lock.sys.load_15 = load_avg.fifteen;
state_lock.sys.uptime = uptime;
state_lock.sys.process_count = process_count;
let mut sys = sys_tx.borrow().clone();
sys.load_1 = load_avg.one;
sys.load_5 = load_avg.five;
sys.load_15 = load_avg.fifteen;
sys.uptime = uptime;
sys.process_count = process_count;
let _ = sys_tx.send(sys);
}
pub async fn poll_slow(&mut self, state: SharedState) {
pub async fn poll_slow(
&mut self,
gpu_tx: &watch::Sender<GpuState>,
disks_tx: &watch::Sender<Vec<DiskInfo>>,
) {
// 1. Gather GPU data outside of lock
let mut gpu_state = crate::state::GpuState::default();
self.gpu_poll_counter = (self.gpu_poll_counter + 1) % 5;
let should_poll_gpu = self.gpu_poll_counter == 0;
if should_poll_gpu {
self.poll_gpu(&mut gpu_state);
self.poll_gpu(&mut gpu_state).await;
}
// 2. Gather Disk data outside of lock
@@ -99,39 +114,43 @@ impl HardwareDaemon {
self.disk_poll_counter = (self.disk_poll_counter + 1) % 10;
if self.disk_poll_counter == 0 {
disks_data = Some(
Disks::new_with_refreshed_list()
.iter()
.map(|d| DiskInfo {
mount_point: d.mount_point().to_string_lossy().into_owned(),
filesystem: d.file_system().to_string_lossy().to_lowercase(),
total_bytes: d.total_space(),
available_bytes: d.available_space(),
})
.collect::<Vec<DiskInfo>>(),
tokio::task::spawn_blocking(|| {
Disks::new_with_refreshed_list()
.iter()
.map(|d| DiskInfo {
mount_point: d.mount_point().to_string_lossy().into_owned(),
filesystem: d.file_system().to_string_lossy().to_lowercase(),
total_bytes: d.total_space(),
available_bytes: d.available_space(),
})
.collect::<Vec<DiskInfo>>()
})
.await
.unwrap_or_default(),
);
}
// 3. Apply to state
let mut state_lock = state.write().await;
if should_poll_gpu {
state_lock.gpu = gpu_state;
let _ = gpu_tx.send(gpu_state);
}
if let Some(d) = disks_data {
state_lock.disks = d;
let _ = disks_tx.send(d);
}
}
fn poll_gpu(&mut self, gpu: &mut crate::state::GpuState) {
async fn poll_gpu(&mut self, gpu: &mut crate::state::GpuState) {
gpu.active = false;
if (self.gpu_vendor.as_deref() == Some("NVIDIA") || self.gpu_vendor.is_none())
&& let Ok(output) = std::process::Command::new("nvidia-smi")
&& let Ok(output) = tokio::process::Command::new("nvidia-smi")
.args([
"--query-gpu=utilization.gpu,memory.used,memory.total,temperature.gpu,name",
"--format=csv,noheader,nounits",
])
.output()
.await
&& output.status.success()
{
let stdout = String::from_utf8_lossy(&output.stdout);
src/modules/memory.rs
+16 -7
View File
@@ -2,7 +2,7 @@ use crate::config::Config;
use crate::error::Result;
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::AppReceivers;
use crate::utils::{TokenValue, format_template};
pub struct MemoryModule;
@@ -11,12 +11,12 @@ impl WaybarModule for MemoryModule {
async fn run(
&self,
config: &Config,
state: &SharedState,
state: &AppReceivers,
_args: &[&str],
) -> Result<WaybarOutput> {
let (used_gb, total_gb) = {
let state_lock = state.read().await;
(state_lock.memory.used_gb, state_lock.memory.total_gb)
let s = state.memory.borrow();
(s.used_gb, s.total_gb)
};
let ratio = if total_gb > 0.0 {
@@ -65,7 +65,10 @@ mod tests {
..Default::default()
});
let config = Config::default();
let output = MemoryModule.run(&config, &state, &[]).await.unwrap();
let output = MemoryModule
.run(&config, &state.receivers, &[])
.await
.unwrap();
assert!(output.text.contains("8.00"));
assert!(output.text.contains("32.00"));
assert_eq!(output.class.as_deref(), Some("normal"));
@@ -82,7 +85,10 @@ mod tests {
..Default::default()
});
let config = Config::default();
let output = MemoryModule.run(&config, &state, &[]).await.unwrap();
let output = MemoryModule
.run(&config, &state.receivers, &[])
.await
.unwrap();
assert_eq!(output.class.as_deref(), Some("high")); // 81%
}
@@ -96,7 +102,10 @@ mod tests {
..Default::default()
});
let config = Config::default();
let output = MemoryModule.run(&config, &state, &[]).await.unwrap();
let output = MemoryModule
.run(&config, &state.receivers, &[])
.await
.unwrap();
assert_eq!(output.class.as_deref(), Some("normal"));
assert_eq!(output.percentage, Some(0));
}
src/modules/mod.rs
+2 -2
View File
@@ -14,13 +14,13 @@ pub mod sys;
use crate::config::Config;
use crate::error::Result as FluxoResult;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::AppReceivers;
pub trait WaybarModule {
fn run(
&self,
config: &Config,
state: &SharedState,
state: &AppReceivers,
args: &[&str],
) -> impl std::future::Future<Output = FluxoResult<WaybarOutput>> + Send;
}
src/modules/network.rs
+115 -66
View File
@@ -2,11 +2,12 @@ use crate::config::Config;
use crate::error::Result;
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::{AppReceivers, NetworkState};
use crate::utils::{TokenValue, format_template};
use nix::ifaddrs::getifaddrs;
use std::fs;
use std::time::{SystemTime, UNIX_EPOCH};
use tokio::sync::watch;
pub struct NetworkModule;
@@ -18,6 +19,8 @@ pub struct NetworkDaemon {
cached_ip: Option<String>,
}
type PollResult = crate::error::Result<(String, Option<String>, Option<(u64, u64)>)>;
impl NetworkDaemon {
pub fn new() -> Self {
Self {
@@ -29,64 +32,101 @@ impl NetworkDaemon {
}
}
pub async fn poll(&mut self, state: SharedState) {
// Re-detect interface on every poll to catch VPNs or route changes immediately
if let Ok(iface) = get_primary_interface()
&& !iface.is_empty()
{
// If the interface changed, or we don't have an IP yet, update the IP
pub async fn poll(
&mut self,
state_tx: &watch::Sender<NetworkState>,
) -> crate::error::Result<()> {
let (iface, ip_opt, bytes_opt) = tokio::task::spawn_blocking(|| -> PollResult {
let iface = get_primary_interface()?;
if iface.is_empty() {
return Ok((String::new(), None, None));
}
let ip = get_ip_address(&iface);
let bytes = get_bytes(&iface).ok();
Ok((iface, ip, bytes))
})
.await
.map_err(|e| crate::error::FluxoError::System(e.to_string()))??;
if !iface.is_empty() {
if self.cached_interface.as_ref() != Some(&iface) || self.cached_ip.is_none() {
self.cached_ip = get_ip_address(&iface);
self.cached_interface = Some(iface);
self.cached_ip = ip_opt;
self.cached_interface = Some(iface.clone());
}
} else {
self.cached_interface = None;
self.cached_ip = None;
// Provide a default state for "No connection"
let mut network = state_tx.borrow().clone();
network.interface.clear();
network.ip.clear();
network.rx_mbps = 0.0;
network.tx_mbps = 0.0;
let _ = state_tx.send(network);
return Err(crate::error::FluxoError::Network(
"No primary interface found".into(),
));
}
if let Some(ref interface) = self.cached_interface {
let time_now = SystemTime::now()
.duration_since(UNIX_EPOCH)
.unwrap_or_default()
.as_secs();
if let Ok((rx_bytes_now, tx_bytes_now)) = get_bytes(interface) {
if self.last_time > 0 && time_now > self.last_time {
let time_diff = (time_now - self.last_time) as f64;
let rx_mbps = (rx_bytes_now.saturating_sub(self.last_rx_bytes)) as f64
/ time_diff
/ 1024.0
/ 1024.0;
let tx_mbps = (tx_bytes_now.saturating_sub(self.last_tx_bytes)) as f64
/ time_diff
/ 1024.0
/ 1024.0;
let mut state_lock = state.write().await;
state_lock.network.rx_mbps = rx_mbps;
state_lock.network.tx_mbps = tx_mbps;
state_lock.network.interface = interface.clone();
state_lock.network.ip = self.cached_ip.clone().unwrap_or_default();
} else {
// First poll: no speed data yet, but update interface/ip
let mut state_lock = state.write().await;
state_lock.network.interface = interface.clone();
state_lock.network.ip = self.cached_ip.clone().unwrap_or_default();
}
self.last_time = time_now;
self.last_rx_bytes = rx_bytes_now;
self.last_tx_bytes = tx_bytes_now;
} else {
// Read failed, might be down
self.cached_interface = None;
}
let interface = if let Some(ref interface) = self.cached_interface {
interface.clone()
} else {
// No interface detected
let mut state_lock = state.write().await;
state_lock.network.interface.clear();
state_lock.network.ip.clear();
let mut network = state_tx.borrow().clone();
network.interface.clear();
network.ip.clear();
network.rx_mbps = 0.0;
network.tx_mbps = 0.0;
let _ = state_tx.send(network);
return Err(crate::error::FluxoError::Network(
"Interface disappeared during poll".into(),
));
};
let time_now = SystemTime::now()
.duration_since(UNIX_EPOCH)
.unwrap_or_default()
.as_secs();
if let Some((rx_bytes_now, tx_bytes_now)) = bytes_opt {
if self.last_time > 0 && time_now > self.last_time {
let time_diff = (time_now - self.last_time) as f64;
let rx_mbps = (rx_bytes_now.saturating_sub(self.last_rx_bytes)) as f64
/ time_diff
/ 1024.0
/ 1024.0;
let tx_mbps = (tx_bytes_now.saturating_sub(self.last_tx_bytes)) as f64
/ time_diff
/ 1024.0
/ 1024.0;
let mut network = state_tx.borrow().clone();
network.rx_mbps = rx_mbps;
network.tx_mbps = tx_mbps;
network.interface = interface.clone();
network.ip = self.cached_ip.clone().unwrap_or_default();
let _ = state_tx.send(network);
} else {
// First poll: no speed data yet, but update interface/ip
let mut network = state_tx.borrow().clone();
network.interface = interface.clone();
network.ip = self.cached_ip.clone().unwrap_or_default();
let _ = state_tx.send(network);
}
self.last_time = time_now;
self.last_rx_bytes = rx_bytes_now;
self.last_tx_bytes = tx_bytes_now;
} else {
// Read failed, might be down
self.cached_interface = None;
return Err(crate::error::FluxoError::Network(format!(
"Failed to read bytes for {}",
interface
)));
}
Ok(())
}
}
@@ -94,17 +134,12 @@ impl WaybarModule for NetworkModule {
async fn run(
&self,
config: &Config,
state: &SharedState,
state: &AppReceivers,
_args: &[&str],
) -> Result<WaybarOutput> {
let (interface, ip, rx_mbps, tx_mbps) = {
let s = state.read().await;
(
s.network.interface.clone(),
s.network.ip.clone(),
s.network.rx_mbps,
s.network.tx_mbps,
)
let s = state.network.borrow();
(s.interface.clone(), s.ip.clone(), s.rx_mbps, s.tx_mbps)
};
if interface.is_empty() {
@@ -148,24 +183,26 @@ impl WaybarModule for NetworkModule {
}
fn get_primary_interface() -> Result<String> {
let content = fs::read_to_string("/proc/net/route")?;
let content = std::fs::read_to_string("/proc/net/route")?;
let mut defaults = Vec::new();
for line in content.lines().skip(1) {
let parts: Vec<&str> = line.split_whitespace().collect();
if parts.len() >= 7 {
if parts.len() >= 8 {
let iface = parts[0];
let dest = parts[1];
let metric = parts[6].parse::<i32>().unwrap_or(0);
let mask = u32::from_str_radix(parts[7], 16).unwrap_or(0);
if dest == "00000000" {
defaults.push((metric, iface.to_string()));
defaults.push((mask, metric, iface.to_string()));
}
}
}
defaults.sort_by_key(|k| k.0);
if let Some((_, dev)) = defaults.first() {
// Sort by mask descending (longest prefix match first), then by metric ascending
defaults.sort_by(|a, b| b.0.cmp(&a.0).then(a.1.cmp(&b.1)));
if let Some((_, _, dev)) = defaults.first() {
Ok(dev.clone())
} else {
Ok(String::new())
@@ -212,7 +249,10 @@ mod tests {
async fn test_network_no_connection() {
let state = mock_state(AppState::default());
let config = Config::default();
let output = NetworkModule.run(&config, &state, &[]).await.unwrap();
let output = NetworkModule
.run(&config, &state.receivers, &[])
.await
.unwrap();
assert_eq!(output.text, "No connection");
}
@@ -228,7 +268,10 @@ mod tests {
..Default::default()
});
let config = Config::default();
let output = NetworkModule.run(&config, &state, &[]).await.unwrap();
let output = NetworkModule
.run(&config, &state.receivers, &[])
.await
.unwrap();
assert!(output.text.contains("eth0"));
assert!(output.text.contains("192.168.1.100"));
assert!(output.text.contains("1.50"));
@@ -247,7 +290,10 @@ mod tests {
..Default::default()
});
let config = Config::default();
let output = NetworkModule.run(&config, &state, &[]).await.unwrap();
let output = NetworkModule
.run(&config, &state.receivers, &[])
.await
.unwrap();
assert!(output.text.starts_with(" "));
}
@@ -263,7 +309,10 @@ mod tests {
..Default::default()
});
let config = Config::default();
let output = NetworkModule.run(&config, &state, &[]).await.unwrap();
let output = NetworkModule
.run(&config, &state.receivers, &[])
.await
.unwrap();
assert!(output.text.contains("No IP"));
}
}
src/modules/power.rs
+2 -2
View File
@@ -2,7 +2,7 @@ use crate::config::Config;
use crate::error::Result;
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::AppReceivers;
use crate::utils::{TokenValue, format_template};
use std::fs;
@@ -12,7 +12,7 @@ impl WaybarModule for PowerModule {
async fn run(
&self,
config: &Config,
_state: &SharedState,
_state: &AppReceivers,
_args: &[&str],
) -> Result<WaybarOutput> {
let critical_threshold = 15;
src/modules/sys.rs
+8 -8
View File
@@ -2,7 +2,7 @@ use crate::config::Config;
use crate::error::Result;
use crate::modules::WaybarModule;
use crate::output::WaybarOutput;
use crate::state::SharedState;
use crate::state::AppReceivers;
use crate::utils::{TokenValue, format_template};
pub struct SysModule;
@@ -11,17 +11,17 @@ impl WaybarModule for SysModule {
async fn run(
&self,
config: &Config,
state: &SharedState,
state: &AppReceivers,
_args: &[&str],
) -> Result<WaybarOutput> {
let (load1, load5, load15, uptime_secs, process_count) = {
let state_lock = state.read().await;
let state_lock = state.sys.borrow();
(
state_lock.sys.load_1,
state_lock.sys.load_5,
state_lock.sys.load_15,
state_lock.sys.uptime,
state_lock.sys.process_count,
state_lock.load_1,
state_lock.load_5,
state_lock.load_15,
state_lock.uptime,
state_lock.process_count,
)
};
src/state.rs
+70 -15
View File
@@ -1,19 +1,19 @@
use std::collections::HashMap;
use std::sync::Arc;
use tokio::sync::RwLock;
use tokio::sync::{RwLock, watch};
use tokio::time::Instant;
#[derive(Default, Clone)]
pub struct AppState {
pub network: NetworkState,
pub cpu: CpuState,
pub memory: MemoryState,
pub sys: SysState,
pub gpu: GpuState,
pub disks: Vec<DiskInfo>,
pub bluetooth: BtState,
pub audio: AudioState,
pub health: HashMap<String, ModuleHealth>,
#[derive(Clone)]
pub struct AppReceivers {
pub network: watch::Receiver<NetworkState>,
pub cpu: watch::Receiver<CpuState>,
pub memory: watch::Receiver<MemoryState>,
pub sys: watch::Receiver<SysState>,
pub gpu: watch::Receiver<GpuState>,
pub disks: watch::Receiver<Vec<DiskInfo>>,
pub bluetooth: watch::Receiver<BtState>,
pub audio: watch::Receiver<AudioState>,
pub health: Arc<RwLock<HashMap<String, ModuleHealth>>>,
}
#[derive(Clone, Default)]
@@ -128,9 +128,64 @@ impl Default for GpuState {
}
}
pub type SharedState = Arc<RwLock<AppState>>;
#[cfg(test)]
pub struct MockState {
pub receivers: AppReceivers,
// Keep senders alive so receivers don't return Closed errors
_net_tx: watch::Sender<NetworkState>,
_cpu_tx: watch::Sender<CpuState>,
_mem_tx: watch::Sender<MemoryState>,
_sys_tx: watch::Sender<SysState>,
_gpu_tx: watch::Sender<GpuState>,
_disks_tx: watch::Sender<Vec<DiskInfo>>,
_bt_tx: watch::Sender<BtState>,
_audio_tx: watch::Sender<AudioState>,
}
#[cfg(test)]
pub fn mock_state(state: AppState) -> SharedState {
Arc::new(RwLock::new(state))
#[derive(Default, Clone)]
pub struct AppState {
pub network: NetworkState,
pub cpu: CpuState,
pub memory: MemoryState,
pub sys: SysState,
pub gpu: GpuState,
pub disks: Vec<DiskInfo>,
pub bluetooth: BtState,
pub audio: AudioState,
pub health: HashMap<String, ModuleHealth>,
}
#[cfg(test)]
pub fn mock_state(state: AppState) -> MockState {
let (net_tx, net_rx) = watch::channel(state.network);
let (cpu_tx, cpu_rx) = watch::channel(state.cpu);
let (mem_tx, mem_rx) = watch::channel(state.memory);
let (sys_tx, sys_rx) = watch::channel(state.sys);
let (gpu_tx, gpu_rx) = watch::channel(state.gpu);
let (disks_tx, disks_rx) = watch::channel(state.disks);
let (bt_tx, bt_rx) = watch::channel(state.bluetooth);
let (audio_tx, audio_rx) = watch::channel(state.audio);
MockState {
receivers: AppReceivers {
network: net_rx,
cpu: cpu_rx,
memory: mem_rx,
sys: sys_rx,
gpu: gpu_rx,
disks: disks_rx,
bluetooth: bt_rx,
audio: audio_rx,
health: Arc::new(RwLock::new(state.health)),
},
_net_tx: net_tx,
_cpu_tx: cpu_tx,
_mem_tx: mem_tx,
_sys_tx: sys_tx,
_gpu_tx: gpu_tx,
_disks_tx: disks_tx,
_bt_tx: bt_tx,
_audio_tx: audio_tx,
}
}