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add hotreplug function for devices

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This commit is contained in:
Tobias Ollive 2022-02-23 13:40:56 +01:00
parent a2ab8ac808
commit 3996e1b09f
3 changed files with 89 additions and 58 deletions
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17
src/bluetooth.rs
View File

@ -27,13 +27,19 @@ async fn has_service(device: &Device, uuid: &Uuid) -> Result<bool> {
Ok(false) Ok(false)
} }
async fn bluetooth_scan(tx: mpsc::Sender<Device>, adapter: Adapter, uuid: Uuid) -> Result<()> { pub(crate) async fn bluetooth_scan(
tx: mpsc::Sender<Device>,
adapter: Adapter,
uuid: Uuid,
) -> Result<()> {
println!("start bluetooth scan"); println!("start bluetooth scan");
let discover = adapter.discover_devices().await?; let discover = adapter.discover_devices().await?;
let mut already_scanned: HashSet<Address> = HashSet::new(); let mut already_scanned: HashSet<Address> = HashSet::new();
pin_mut!(discover); pin_mut!(discover);
while let Some(evt) = discover.next().await { while let Some(evt) = discover.next().await {
if let AdapterEvent::DeviceAdded(addr) = evt { match evt {
AdapterEvent::DeviceAdded(addr) => {
println!("new device {}", addr);
if already_scanned.contains(&addr) { if already_scanned.contains(&addr) {
continue; continue;
} }
@ -49,6 +55,13 @@ async fn bluetooth_scan(tx: mpsc::Sender<Device>, adapter: Adapter, uuid: Uuid)
Err(_) => continue, Err(_) => continue,
} }
} }
AdapterEvent::DeviceRemoved(addr) => {
already_scanned.remove(&addr);
adapter.remove_device(addr).await;
println!("device {} removed", addr);
}
AdapterEvent::PropertyChanged(_) => {}
}
} }
Ok(()) Ok(())
} }

63
src/main.rs
View File

@ -4,8 +4,8 @@ mod patterns;
use crate::patterns::{ColorWipe, Fade, PixelColor, Rainbow}; use crate::patterns::{ColorWipe, Fade, PixelColor, Rainbow};
use bluer::gatt::remote::Characteristic; use bluer::gatt::remote::Characteristic;
use patterns::Strip; use patterns::Strip;
use std::convert::TryFrom;
use std::time::Duration; use std::time::Duration;
use tokio::sync::mpsc;
use tokio::sync::watch; use tokio::sync::watch;
const SERVICE_UUID: bluer::Uuid = bluer::Uuid::from_u128(0xadaf0900c33242a893bd25e905756cb8); const SERVICE_UUID: bluer::Uuid = bluer::Uuid::from_u128(0xadaf0900c33242a893bd25e905756cb8);
@ -17,25 +17,18 @@ const BASE_STRIP_DATA: [u8; 3] = [0x00, 0x00, 0x01];
async fn main() -> bluer::Result<()> { async fn main() -> bluer::Result<()> {
let adapter = bluetooth::create_session().await?; let adapter = bluetooth::create_session().await?;
let devices = bluetooth::scan_devices(adapter, SERVICE_UUID).await; let (tx_scan, mut rx_scan) = mpsc::channel(3);
let mut pixels = Vec::<PixelColor>::new(); tokio::spawn(bluetooth::bluetooth_scan(
tx_scan,
for _ in 0..STRIP_SIZE { adapter.clone(),
pixels.push(PixelColor { SERVICE_UUID,
red: 255, ));
green: 0,
blue: 0,
})
}
// let strip = Strip::<STRIP_SIZE> {
// strip: <[PixelColor; 25]>::try_from(pixels).unwrap(),
// };
let (tx, rx) = watch::channel(Strip::<STRIP_SIZE>::default()); let (tx, rx) = watch::channel(Strip::<STRIP_SIZE>::default());
for device in devices { tokio::spawn(async move {
while let Some(device) = rx_scan.recv().await {
bluetooth::connect(&device, 3).await?; bluetooth::connect(&device, 3).await?;
let char = bluetooth::get_char(&device, SERVICE_UUID, PIXEL_DATA_UUID).await?; let char = bluetooth::get_char(&device, SERVICE_UUID, PIXEL_DATA_UUID).await?;
if let Some(char) = char { if let Some(char) = char {
@ -44,35 +37,49 @@ async fn main() -> bluer::Result<()> {
println!("device connected : {}", &device.address()); println!("device connected : {}", &device.address());
while rx_device.changed().await.is_ok() { while rx_device.changed().await.is_ok() {
let strip = *rx_device.borrow(); let strip = *rx_device.borrow();
write_strip(&strip, &char).await.unwrap(); if write_strip(&strip, &char).await.is_err() {
break;
};
} }
println!("device {} disconnected", &device.address());
// drop(rx_device);
}); });
} }
} }
bluer::Result::Ok(())
});
let mut colorwipe = ColorWipe::<25>{ let mut pixels = Vec::<PixelColor>::new();
for _ in 0..STRIP_SIZE {
pixels.push(PixelColor {
red: 255,
green: 0,
blue: 0,
})
}
let mut _colorwipe = ColorWipe::<25> {
current_iteration: 0, current_iteration: 0,
color: PixelColor { color: PixelColor {
red: 0, red: 0,
green: 255, green: 255,
blue: 0 blue: 0,
}, },
infinite: true infinite: true,
}; };
let mut fade = Fade::<25> { let mut fade = Fade::<25> {
current_iteration: 0, current_iteration: 0,
nbr_iterations: 25, nbr_iterations: 25,
begin_color: PixelColor { begin_color: PixelColor {
red: 255, red: 255,
green: 0, green: 0,
blue: 0 blue: 0,
}, },
end_color: PixelColor { end_color: PixelColor {
red: 0, red: 0,
green: 0, green: 0,
blue: 255 blue: 255,
}, },
}; };
@ -83,19 +90,21 @@ async fn main() -> bluer::Result<()> {
}; };
let mut strip = fade.next().unwrap(); let mut strip = fade.next().unwrap();
tokio::time::sleep(Duration::from_secs(5)).await;
println!("starting");
while tx.send(strip).is_ok() { while tx.send(strip).is_ok() {
if let Some(value) = fade.next() { if let Some(value) = fade.next() {
strip = value; strip = value;
} else { } else {
break; break;
} }
tokio::time::sleep(Duration::from_millis(200)).await; tokio::time::sleep(Duration::from_millis(1000)).await;
} }
println!("starting rainbow");
while tx.send(pattern.next().unwrap()).is_ok() { while tx.send(pattern.next().unwrap()).is_ok() {
tokio::time::sleep(Duration::from_millis(10)).await; tokio::time::sleep(Duration::from_millis(100)).await;
} }
println!("error sending value");
Ok(()) Ok(())
} }

31
src/patterns.rs
View File

@ -106,7 +106,6 @@ fn wheel(index: u8) -> PixelColor {
} }
} }
////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////
/// Colorwipe pattern //////////////////////////////////////////////////// /// Colorwipe pattern ////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////
@ -128,7 +127,6 @@ impl<const N: usize> Iterator for ColorWipe<N> {
return None; return None;
} }
for i in 0..self.current_iteration { for i in 0..self.current_iteration {
strip.strip[i] = self.color; strip.strip[i] = self.color;
} }
@ -148,7 +146,7 @@ pub struct Fade<const N: usize> {
pub(crate) end_color: PixelColor, pub(crate) end_color: PixelColor,
} }
fn fadeValue(value_start: u8, value_end: u8, index: usize, nbr_iter: usize) -> u8 { fn fade_value(value_start: u8, value_end: u8, index: usize, nbr_iter: usize) -> u8 {
((value_start as usize * (nbr_iter - index) + value_end as usize * index) / nbr_iter) as u8 ((value_start as usize * (nbr_iter - index) + value_end as usize * index) / nbr_iter) as u8
} }
@ -162,15 +160,26 @@ impl<const N: usize> Iterator for Fade<N> {
return None; return None;
} }
let red = fadeValue(self.begin_color.red, self.end_color.red, self.current_iteration, self.nbr_iterations); let red = fade_value(
let green = fadeValue(self.begin_color.green, self.end_color.green, self.current_iteration, self.nbr_iterations); self.begin_color.red,
let blue = fadeValue(self.begin_color.blue, self.end_color.blue, self.current_iteration, self.nbr_iterations); self.end_color.red,
self.current_iteration,
self.nbr_iterations,
);
let green = fade_value(
self.begin_color.green,
self.end_color.green,
self.current_iteration,
self.nbr_iterations,
);
let blue = fade_value(
self.begin_color.blue,
self.end_color.blue,
self.current_iteration,
self.nbr_iterations,
);
let current_color = PixelColor { let current_color = PixelColor { red, green, blue };
red,
green,
blue
};
strip.fill(current_color); strip.fill(current_color);