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feat(stm32h5): add usb audio example
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367
examples/stm32h5/src/bin/usb_uac_speaker.rs
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367
examples/stm32h5/src/bin/usb_uac_speaker.rs
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#![no_std]
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#![no_main]
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use core::cell::RefCell;
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use defmt::{panic, *};
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use embassy_executor::Spawner;
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use embassy_stm32::time::Hertz;
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use embassy_stm32::{bind_interrupts, interrupt, peripherals, timer, usb, Config};
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use embassy_sync::blocking_mutex::raw::{CriticalSectionRawMutex, NoopRawMutex};
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use embassy_sync::blocking_mutex::Mutex;
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use embassy_sync::signal::Signal;
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use embassy_sync::zerocopy_channel;
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use embassy_usb::class::uac1;
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use embassy_usb::class::uac1::speaker::{self, Speaker};
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use embassy_usb::driver::EndpointError;
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use heapless::Vec;
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use micromath::F32Ext;
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use static_cell::StaticCell;
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use {defmt_rtt as _, panic_probe as _};
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bind_interrupts!(struct Irqs {
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USB_DRD_FS => usb::InterruptHandler<peripherals::USB>;
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});
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static TIMER: Mutex<CriticalSectionRawMutex, RefCell<Option<timer::low_level::Timer<peripherals::TIM5>>>> =
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Mutex::new(RefCell::new(None));
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// A counter signal that is written by the feedback timer, once every `FEEDBACK_REFRESH_PERIOD`.
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// At that point, a feedback value is sent to the host.
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pub static FEEDBACK_SIGNAL: Signal<CriticalSectionRawMutex, u32> = Signal::new();
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// Stereo input
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pub const INPUT_CHANNEL_COUNT: usize = 2;
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// This example uses a fixed sample rate of 48 kHz.
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pub const SAMPLE_RATE_HZ: u32 = 48_000;
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pub const FEEDBACK_COUNTER_TICK_RATE: u32 = 31_250_000;
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// Use 32 bit samples, which allow for a lot of (software) volume adjustment without degradation of quality.
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pub const SAMPLE_WIDTH: uac1::SampleWidth = uac1::SampleWidth::Width4Byte;
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pub const SAMPLE_WIDTH_BIT: usize = SAMPLE_WIDTH.in_bit();
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pub const SAMPLE_SIZE: usize = SAMPLE_WIDTH as usize;
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pub const SAMPLE_SIZE_PER_S: usize = (SAMPLE_RATE_HZ as usize) * INPUT_CHANNEL_COUNT * SAMPLE_SIZE;
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// Size of audio samples per 1 ms - for the full-speed USB frame period of 1 ms.
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pub const USB_FRAME_SIZE: usize = SAMPLE_SIZE_PER_S.div_ceil(1000);
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// Select front left and right audio channels.
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pub const AUDIO_CHANNELS: [uac1::Channel; INPUT_CHANNEL_COUNT] = [uac1::Channel::LeftFront, uac1::Channel::RightFront];
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// Factor of two as a margin for feedback (this is an excessive amount)
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pub const USB_MAX_PACKET_SIZE: usize = 2 * USB_FRAME_SIZE;
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pub const USB_MAX_SAMPLE_COUNT: usize = USB_MAX_PACKET_SIZE / SAMPLE_SIZE;
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// The data type that is exchanged via the zero-copy channel (a sample vector).
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pub type SampleBlock = Vec<u32, USB_MAX_SAMPLE_COUNT>;
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// Feedback is provided in 10.14 format for full-speed endpoints.
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pub const FEEDBACK_REFRESH_PERIOD: uac1::FeedbackRefresh = uac1::FeedbackRefresh::Period8Frames;
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const FEEDBACK_SHIFT: usize = 14;
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const TICKS_PER_SAMPLE: f32 = (FEEDBACK_COUNTER_TICK_RATE as f32) / (SAMPLE_RATE_HZ as f32);
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struct Disconnected {}
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impl From<EndpointError> for Disconnected {
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fn from(val: EndpointError) -> Self {
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match val {
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EndpointError::BufferOverflow => panic!("Buffer overflow"),
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EndpointError::Disabled => Disconnected {},
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}
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}
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}
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/// Sends feedback messages to the host.
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async fn feedback_handler<'d, T: usb::Instance + 'd>(
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feedback: &mut speaker::Feedback<'d, usb::Driver<'d, T>>,
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feedback_factor: f32,
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) -> Result<(), Disconnected> {
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let mut packet: Vec<u8, 4> = Vec::new();
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// Collects the fractional component of the feedback value that is lost by rounding.
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let mut rest = 0.0_f32;
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loop {
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let counter = FEEDBACK_SIGNAL.wait().await;
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packet.clear();
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let raw_value = counter as f32 * feedback_factor + rest;
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let value = raw_value.round();
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rest = raw_value - value;
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let value = value as u32;
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packet.push(value as u8).unwrap();
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packet.push((value >> 8) as u8).unwrap();
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packet.push((value >> 16) as u8).unwrap();
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feedback.write_packet(&packet).await?;
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}
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}
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/// Handles streaming of audio data from the host.
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async fn stream_handler<'d, T: usb::Instance + 'd>(
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stream: &mut speaker::Stream<'d, usb::Driver<'d, T>>,
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sender: &mut zerocopy_channel::Sender<'static, NoopRawMutex, SampleBlock>,
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) -> Result<(), Disconnected> {
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loop {
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let mut usb_data = [0u8; USB_MAX_PACKET_SIZE];
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let data_size = stream.read_packet(&mut usb_data).await?;
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let word_count = data_size / SAMPLE_SIZE;
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if word_count * SAMPLE_SIZE == data_size {
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// Obtain a buffer from the channel
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let samples = sender.send().await;
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samples.clear();
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for w in 0..word_count {
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let byte_offset = w * SAMPLE_SIZE;
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let sample = u32::from_le_bytes(usb_data[byte_offset..byte_offset + SAMPLE_SIZE].try_into().unwrap());
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// Fill the sample buffer with data.
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samples.push(sample).unwrap();
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}
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sender.send_done();
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} else {
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debug!("Invalid USB buffer size of {}, skipped.", data_size);
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}
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}
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}
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/// Receives audio samples from the USB streaming task and can play them back.
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#[embassy_executor::task]
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async fn audio_receiver_task(mut usb_audio_receiver: zerocopy_channel::Receiver<'static, NoopRawMutex, SampleBlock>) {
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loop {
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let _samples = usb_audio_receiver.receive().await;
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// Use the samples, for example play back via the SAI peripheral.
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// Notify the channel that the buffer is now ready to be reused
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usb_audio_receiver.receive_done();
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}
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}
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/// Receives audio samples from the host.
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#[embassy_executor::task]
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async fn usb_streaming_task(
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mut stream: speaker::Stream<'static, usb::Driver<'static, peripherals::USB>>,
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mut sender: zerocopy_channel::Sender<'static, NoopRawMutex, SampleBlock>,
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) {
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loop {
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stream.wait_connection().await;
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info!("USB connected.");
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_ = stream_handler(&mut stream, &mut sender).await;
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info!("USB disconnected.");
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}
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}
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/// Sends sample rate feedback to the host.
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///
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/// The `feedback_factor` scales the feedback timer's counter value so that the result is the number of samples that
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/// this device played back or "consumed" during one SOF period (1 ms) - in 10.14 format.
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///
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/// Ideally, the `feedback_factor` that is calculated below would be an integer for avoiding numerical errors.
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/// This is achieved by having `TICKS_PER_SAMPLE` be a power of two. For audio applications at a sample rate of 48 kHz,
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/// 24.576 MHz would be one such option.
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#[embassy_executor::task]
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async fn usb_feedback_task(mut feedback: speaker::Feedback<'static, usb::Driver<'static, peripherals::USB>>) {
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let feedback_factor =
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((1 << FEEDBACK_SHIFT) as f32 / TICKS_PER_SAMPLE) / FEEDBACK_REFRESH_PERIOD.frame_count() as f32;
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loop {
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feedback.wait_connection().await;
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_ = feedback_handler(&mut feedback, feedback_factor).await;
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}
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}
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#[embassy_executor::task]
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async fn usb_task(mut usb_device: embassy_usb::UsbDevice<'static, usb::Driver<'static, peripherals::USB>>) {
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usb_device.run().await;
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}
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/// Checks for changes on the control monitor of the class.
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///
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/// In this case, monitor changes of volume or mute state.
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#[embassy_executor::task]
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async fn usb_control_task(control_monitor: speaker::ControlMonitor<'static>) {
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loop {
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control_monitor.changed().await;
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for channel in AUDIO_CHANNELS {
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let volume = control_monitor.volume(channel).unwrap();
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info!("Volume changed to {} on channel {}.", volume, channel);
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}
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}
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}
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/// Feedback value measurement and calculation
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///
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/// Used for measuring/calculating the number of samples that were received from the host during the
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/// `FEEDBACK_REFRESH_PERIOD`.
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///
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/// Configured in this example with
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/// - a refresh period of 8 ms, and
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/// - a tick rate of 42 MHz.
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///
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/// This gives an (ideal) counter value of 336.000 for every update of the `FEEDBACK_SIGNAL`.
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#[interrupt]
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fn TIM5() {
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static mut LAST_TICKS: u32 = 0;
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static mut FRAME_COUNT: usize = 0;
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critical_section::with(|cs| {
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// Read timer counter.
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let ticks = TIMER.borrow(cs).borrow().as_ref().unwrap().regs_gp32().cnt().read();
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// Clear trigger interrupt flag.
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TIMER
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.borrow(cs)
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.borrow_mut()
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.as_mut()
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.unwrap()
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.regs_gp32()
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.sr()
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.modify(|r| r.set_tif(false));
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// Count up frames and emit a signal, when the refresh period is reached (here, every 8 ms).
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*FRAME_COUNT += 1;
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if *FRAME_COUNT >= FEEDBACK_REFRESH_PERIOD.frame_count() {
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*FRAME_COUNT = 0;
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FEEDBACK_SIGNAL.signal(ticks.wrapping_sub(*LAST_TICKS));
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*LAST_TICKS = ticks;
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}
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});
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}
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// If you are trying this and your USB device doesn't connect, the most
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// common issues are the RCC config and vbus_detection
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//
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// See https://embassy.dev/book/#_the_usb_examples_are_not_working_on_my_board_is_there_anything_else_i_need_to_configure
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// for more information.
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#[embassy_executor::main]
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async fn main(spawner: Spawner) {
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let mut config = Config::default();
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{
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use embassy_stm32::rcc::*;
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config.rcc.hsi = None;
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config.rcc.hsi48 = Some(Hsi48Config { sync_from_usb: true }); // needed for USB
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config.rcc.hse = Some(Hse {
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freq: Hertz(8_000_000),
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mode: HseMode::BypassDigital,
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});
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config.rcc.pll1 = Some(Pll {
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source: PllSource::HSE,
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prediv: PllPreDiv::DIV2,
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mul: PllMul::MUL125,
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divp: Some(PllDiv::DIV2), // 250 Mhz
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divq: None,
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divr: None,
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});
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config.rcc.pll2 = Some(Pll {
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source: PllSource::HSE,
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prediv: PllPreDiv::DIV4,
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mul: PllMul::MUL123,
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divp: Some(PllDiv::DIV20), // 12.3 Mhz, close to 12.288 MHz for 48 kHz audio
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divq: None,
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divr: None,
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});
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config.rcc.ahb_pre = AHBPrescaler::DIV2;
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config.rcc.apb1_pre = APBPrescaler::DIV4;
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config.rcc.apb2_pre = APBPrescaler::DIV2;
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config.rcc.apb3_pre = APBPrescaler::DIV4;
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config.rcc.sys = Sysclk::PLL1_P;
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config.rcc.voltage_scale = VoltageScale::Scale0;
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config.rcc.mux.usbsel = mux::Usbsel::HSI48;
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config.rcc.mux.sai2sel = mux::Saisel::PLL2_P;
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}
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let p = embassy_stm32::init(config);
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info!("Hello World!");
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// Configure all required buffers in a static way.
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debug!("USB packet size is {} byte", USB_MAX_PACKET_SIZE);
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static CONFIG_DESCRIPTOR: StaticCell<[u8; 256]> = StaticCell::new();
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let config_descriptor = CONFIG_DESCRIPTOR.init([0; 256]);
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static BOS_DESCRIPTOR: StaticCell<[u8; 32]> = StaticCell::new();
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let bos_descriptor = BOS_DESCRIPTOR.init([0; 32]);
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const CONTROL_BUF_SIZE: usize = 64;
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static CONTROL_BUF: StaticCell<[u8; CONTROL_BUF_SIZE]> = StaticCell::new();
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let control_buf = CONTROL_BUF.init([0; CONTROL_BUF_SIZE]);
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static STATE: StaticCell<speaker::State> = StaticCell::new();
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let state = STATE.init(speaker::State::new());
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let usb_driver = usb::Driver::new(p.USB, Irqs, p.PA12, p.PA11);
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// Basic USB device configuration
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let mut config = embassy_usb::Config::new(0xc0de, 0xcafe);
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config.manufacturer = Some("Embassy");
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config.product = Some("USB-audio-speaker example");
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config.serial_number = Some("12345678");
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// Required for windows compatibility.
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// https://developer.nordicsemi.com/nRF_Connect_SDK/doc/1.9.1/kconfig/CONFIG_CDC_ACM_IAD.html#help
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config.device_class = 0xEF;
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config.device_sub_class = 0x02;
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config.device_protocol = 0x01;
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config.composite_with_iads = true;
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let mut builder = embassy_usb::Builder::new(
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usb_driver,
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config,
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config_descriptor,
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bos_descriptor,
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&mut [], // no msos descriptors
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control_buf,
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);
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// Create the UAC1 Speaker class components
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let (stream, feedback, control_monitor) = Speaker::new(
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&mut builder,
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state,
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USB_MAX_PACKET_SIZE as u16,
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uac1::SampleWidth::Width4Byte,
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&[SAMPLE_RATE_HZ],
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&AUDIO_CHANNELS,
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FEEDBACK_REFRESH_PERIOD,
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);
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// Create the USB device
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let usb_device = builder.build();
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// Establish a zero-copy channel for transferring received audio samples between tasks
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static SAMPLE_BLOCKS: StaticCell<[SampleBlock; 2]> = StaticCell::new();
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let sample_blocks = SAMPLE_BLOCKS.init([Vec::new(), Vec::new()]);
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static CHANNEL: StaticCell<zerocopy_channel::Channel<'_, NoopRawMutex, SampleBlock>> = StaticCell::new();
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let channel = CHANNEL.init(zerocopy_channel::Channel::new(sample_blocks));
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let (sender, receiver) = channel.split();
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// Run a timer for counting between SOF interrupts.
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let mut tim5 = timer::low_level::Timer::new(p.TIM5);
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tim5.set_tick_freq(Hertz(FEEDBACK_COUNTER_TICK_RATE));
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tim5.set_trigger_source(timer::low_level::TriggerSource::ITR12); // The USB SOF signal.
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tim5.set_slave_mode(timer::low_level::SlaveMode::TRIGGER_MODE);
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tim5.regs_gp16().dier().modify(|r| r.set_tie(true)); // Enable the trigger interrupt.
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tim5.start();
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TIMER.lock(|p| p.borrow_mut().replace(tim5));
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// Unmask the TIM5 interrupt.
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unsafe {
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cortex_m::peripheral::NVIC::unmask(interrupt::TIM5);
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}
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// Launch USB audio tasks.
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unwrap!(spawner.spawn(usb_control_task(control_monitor)));
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unwrap!(spawner.spawn(usb_streaming_task(stream, sender)));
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unwrap!(spawner.spawn(usb_feedback_task(feedback)));
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unwrap!(spawner.spawn(usb_task(usb_device)));
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unwrap!(spawner.spawn(audio_receiver_task(receiver)));
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}
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