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embassy-usb: Add MIDI class
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embassy-usb/src/class/midi.rs
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227
embassy-usb/src/class/midi.rs
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//! MIDI class implementation.
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use crate::driver::{Driver, Endpoint, EndpointError, EndpointIn, EndpointOut};
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use crate::Builder;
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/// This should be used as `device_class` when building the `UsbDevice`.
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pub const USB_AUDIO_CLASS: u8 = 0x01;
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const USB_AUDIOCONTROL_SUBCLASS: u8 = 0x01;
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const USB_MIDISTREAMING_SUBCLASS: u8 = 0x03;
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const MIDI_IN_JACK_SUBTYPE: u8 = 0x02;
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const MIDI_OUT_JACK_SUBTYPE: u8 = 0x03;
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const EMBEDDED: u8 = 0x01;
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const EXTERNAL: u8 = 0x02;
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const CS_INTERFACE: u8 = 0x24;
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const CS_ENDPOINT: u8 = 0x25;
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const HEADER_SUBTYPE: u8 = 0x01;
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const MS_HEADER_SUBTYPE: u8 = 0x01;
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const MS_GENERAL: u8 = 0x01;
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const PROTOCOL_NONE: u8 = 0x00;
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const MIDI_IN_SIZE: u8 = 0x06;
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const MIDI_OUT_SIZE: u8 = 0x09;
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/// Packet level implementation of a USB MIDI device.
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///
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/// This class can be used directly and it has the least overhead due to directly reading and
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/// writing USB packets with no intermediate buffers, but it will not act like a stream-like port.
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/// The following constraints must be followed if you use this class directly:
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///
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/// - `read_packet` must be called with a buffer large enough to hold max_packet_size bytes.
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/// - `write_packet` must not be called with a buffer larger than max_packet_size bytes.
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/// - If you write a packet that is exactly max_packet_size bytes long, it won't be processed by the
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/// host operating system until a subsequent shorter packet is sent. A zero-length packet (ZLP)
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/// can be sent if there is no other data to send. This is because USB bulk transactions must be
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/// terminated with a short packet, even if the bulk endpoint is used for stream-like data.
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pub struct MidiClass<'d, D: Driver<'d>> {
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read_ep: D::EndpointOut,
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write_ep: D::EndpointIn,
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}
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impl<'d, D: Driver<'d>> MidiClass<'d, D> {
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/// Creates a new MidiClass with the provided UsbBus, number of input and output jacks and max_packet_size in bytes.
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/// For full-speed devices, max_packet_size has to be one of 8, 16, 32 or 64.
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pub fn new(builder: &mut Builder<'d, D>, n_in_jacks: u8, n_out_jacks: u8, max_packet_size: u16) -> Self {
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let mut func = builder.function(USB_AUDIO_CLASS, USB_AUDIOCONTROL_SUBCLASS, PROTOCOL_NONE);
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// Audio control interface
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let mut iface = func.interface();
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let audio_if = iface.interface_number();
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let midi_if = u8::from(audio_if) + 1;
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let mut alt = iface.alt_setting(USB_AUDIO_CLASS, USB_AUDIOCONTROL_SUBCLASS, PROTOCOL_NONE, None);
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alt.descriptor(CS_INTERFACE, &[HEADER_SUBTYPE, 0x00, 0x01, 0x09, 0x00, 0x01, midi_if]);
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// MIDIStreaming interface
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let mut iface = func.interface();
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let _midi_if = iface.interface_number();
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let mut alt = iface.alt_setting(USB_AUDIO_CLASS, USB_MIDISTREAMING_SUBCLASS, PROTOCOL_NONE, None);
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let midi_streaming_total_length = 7
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+ (n_in_jacks + n_out_jacks) as usize * (MIDI_IN_SIZE + MIDI_OUT_SIZE) as usize
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+ 7
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+ (4 + n_out_jacks as usize)
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+ 7
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+ (4 + n_in_jacks as usize);
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alt.descriptor(
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CS_INTERFACE,
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&[
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MS_HEADER_SUBTYPE,
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0x00,
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0x01,
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(midi_streaming_total_length & 0xFF) as u8,
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((midi_streaming_total_length >> 8) & 0xFF) as u8,
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],
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);
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// Calculates the index'th external midi in jack id
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let in_jack_id_ext = |index| 2 * index + 1;
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// Calculates the index'th embedded midi out jack id
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let out_jack_id_emb = |index| 2 * index + 2;
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// Calculates the index'th external midi out jack id
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let out_jack_id_ext = |index| 2 * n_in_jacks + 2 * index + 1;
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// Calculates the index'th embedded midi in jack id
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let in_jack_id_emb = |index| 2 * n_in_jacks + 2 * index + 2;
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for i in 0..n_in_jacks {
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alt.descriptor(CS_INTERFACE, &[MIDI_IN_JACK_SUBTYPE, EXTERNAL, in_jack_id_ext(i), 0x00]);
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}
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for i in 0..n_out_jacks {
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alt.descriptor(CS_INTERFACE, &[MIDI_IN_JACK_SUBTYPE, EMBEDDED, in_jack_id_emb(i), 0x00]);
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}
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for i in 0..n_out_jacks {
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alt.descriptor(
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CS_INTERFACE,
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&[
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MIDI_OUT_JACK_SUBTYPE,
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EXTERNAL,
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out_jack_id_ext(i),
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0x01,
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in_jack_id_emb(i),
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0x01,
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0x00,
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],
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);
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}
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for i in 0..n_in_jacks {
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alt.descriptor(
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CS_INTERFACE,
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&[
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MIDI_OUT_JACK_SUBTYPE,
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EMBEDDED,
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out_jack_id_emb(i),
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0x01,
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in_jack_id_ext(i),
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0x01,
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0x00,
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],
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);
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}
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let mut endpoint_data = [
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MS_GENERAL, 0, // Number of jacks
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0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // Jack mappings
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];
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endpoint_data[1] = n_out_jacks;
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for i in 0..n_out_jacks {
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endpoint_data[2 + i as usize] = in_jack_id_emb(i);
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}
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let read_ep = alt.endpoint_bulk_out(max_packet_size);
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alt.descriptor(CS_ENDPOINT, &endpoint_data[0..2 + n_out_jacks as usize]);
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endpoint_data[1] = n_in_jacks;
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for i in 0..n_in_jacks {
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endpoint_data[2 + i as usize] = out_jack_id_emb(i);
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}
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let write_ep = alt.endpoint_bulk_in(max_packet_size);
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alt.descriptor(CS_ENDPOINT, &endpoint_data[0..2 + n_in_jacks as usize]);
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MidiClass { read_ep, write_ep }
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}
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/// Gets the maximum packet size in bytes.
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pub fn max_packet_size(&self) -> u16 {
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// The size is the same for both endpoints.
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self.read_ep.info().max_packet_size
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}
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/// Writes a single packet into the IN endpoint.
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pub async fn write_packet(&mut self, data: &[u8]) -> Result<(), EndpointError> {
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self.write_ep.write(data).await
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}
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/// Reads a single packet from the OUT endpoint.
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pub async fn read_packet(&mut self, data: &mut [u8]) -> Result<usize, EndpointError> {
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self.read_ep.read(data).await
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}
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/// Waits for the USB host to enable this interface
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pub async fn wait_connection(&mut self) {
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self.read_ep.wait_enabled().await
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}
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/// Split the class into a sender and receiver.
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///
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/// This allows concurrently sending and receiving packets from separate tasks.
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pub fn split(self) -> (Sender<'d, D>, Receiver<'d, D>) {
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(
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Sender {
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write_ep: self.write_ep,
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},
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Receiver { read_ep: self.read_ep },
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)
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}
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}
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/// Midi class packet sender.
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///
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/// You can obtain a `Sender` with [`MidiClass::split`]
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pub struct Sender<'d, D: Driver<'d>> {
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write_ep: D::EndpointIn,
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}
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impl<'d, D: Driver<'d>> Sender<'d, D> {
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/// Gets the maximum packet size in bytes.
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pub fn max_packet_size(&self) -> u16 {
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// The size is the same for both endpoints.
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self.write_ep.info().max_packet_size
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}
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/// Writes a single packet.
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pub async fn write_packet(&mut self, data: &[u8]) -> Result<(), EndpointError> {
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self.write_ep.write(data).await
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}
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/// Waits for the USB host to enable this interface
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pub async fn wait_connection(&mut self) {
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self.write_ep.wait_enabled().await
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}
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}
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/// Midi class packet receiver.
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///
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/// You can obtain a `Receiver` with [`MidiClass::split`]
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pub struct Receiver<'d, D: Driver<'d>> {
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read_ep: D::EndpointOut,
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}
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impl<'d, D: Driver<'d>> Receiver<'d, D> {
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/// Gets the maximum packet size in bytes.
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pub fn max_packet_size(&self) -> u16 {
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// The size is the same for both endpoints.
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self.read_ep.info().max_packet_size
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}
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/// Reads a single packet.
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pub async fn read_packet(&mut self, data: &mut [u8]) -> Result<usize, EndpointError> {
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self.read_ep.read(data).await
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}
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/// Waits for the USB host to enable this interface
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pub async fn wait_connection(&mut self) {
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self.read_ep.wait_enabled().await
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}
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}
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@ -2,3 +2,4 @@
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pub mod cdc_acm;
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pub mod cdc_ncm;
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pub mod hid;
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pub mod midi;
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110
examples/rp/src/bin/usb_midi.rs
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110
examples/rp/src/bin/usb_midi.rs
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//! This example shows how to use USB (Universal Serial Bus) in the RP2040 chip.
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//!
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//! This creates a USB MIDI device that echoes MIDI messages back to the host.
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#![no_std]
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#![no_main]
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#![feature(type_alias_impl_trait)]
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use defmt::{info, panic};
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use embassy_executor::Spawner;
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use embassy_futures::join::join;
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use embassy_rp::bind_interrupts;
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use embassy_rp::peripherals::USB;
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use embassy_rp::usb::{Driver, Instance, InterruptHandler};
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use embassy_usb::class::midi::MidiClass;
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use embassy_usb::driver::EndpointError;
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use embassy_usb::{Builder, Config};
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use {defmt_rtt as _, panic_probe as _};
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bind_interrupts!(struct Irqs {
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USBCTRL_IRQ => InterruptHandler<USB>;
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});
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#[embassy_executor::main]
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async fn main(_spawner: Spawner) {
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info!("Hello world!");
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let p = embassy_rp::init(Default::default());
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// Create the driver, from the HAL.
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let driver = Driver::new(p.USB, Irqs);
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// Create embassy-usb Config
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let mut config = Config::new(0xc0de, 0xcafe);
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config.manufacturer = Some("Embassy");
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config.product = Some("USB-MIDI example");
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config.serial_number = Some("12345678");
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config.max_power = 100;
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config.max_packet_size_0 = 64;
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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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// Create embassy-usb DeviceBuilder using the driver and config.
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// It needs some buffers for building the descriptors.
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let mut device_descriptor = [0; 256];
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let mut config_descriptor = [0; 256];
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let mut bos_descriptor = [0; 256];
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let mut control_buf = [0; 64];
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let mut builder = Builder::new(
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driver,
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config,
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&mut device_descriptor,
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&mut config_descriptor,
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&mut bos_descriptor,
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&mut control_buf,
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);
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// Create classes on the builder.
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let mut class = MidiClass::new(&mut builder, 1, 1, 64);
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// The `MidiClass` can be split into `Sender` and `Receiver`, to be used in separate tasks.
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// let (sender, receiver) = class.split();
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// Build the builder.
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let mut usb = builder.build();
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// Run the USB device.
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let usb_fut = usb.run();
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// Use the Midi class!
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let midi_fut = async {
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loop {
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class.wait_connection().await;
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info!("Connected");
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let _ = midi_echo(&mut class).await;
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info!("Disconnected");
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}
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};
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// Run everything concurrently.
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// If we had made everything `'static` above instead, we could do this using separate tasks instead.
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join(usb_fut, midi_fut).await;
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}
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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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async fn midi_echo<'d, T: Instance + 'd>(class: &mut MidiClass<'d, Driver<'d, T>>) -> Result<(), Disconnected> {
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let mut buf = [0; 64];
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loop {
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let n = class.read_packet(&mut buf).await?;
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let data = &buf[..n];
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info!("data: {:x}", data);
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class.write_packet(data).await?;
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}
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}
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