2022-03-28 02:20:01 +02:00
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use core::cell::{Cell, UnsafeCell};
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use core::mem::{self, MaybeUninit};
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use core::sync::atomic::{AtomicBool, Ordering};
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2022-03-25 21:46:14 +01:00
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use defmt::info;
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2022-03-28 02:20:01 +02:00
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use embassy::blocking_mutex::CriticalSectionMutex;
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2022-03-28 03:34:24 +02:00
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use embassy_usb::control::{self, ControlHandler, InResponse, OutResponse, Request};
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2022-03-09 01:34:35 +01:00
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use embassy_usb::driver::{Endpoint, EndpointIn, EndpointOut, ReadError, WriteError};
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use embassy_usb::{driver::Driver, types::*, UsbDeviceBuilder};
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/// This should be used as `device_class` when building the `UsbDevice`.
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pub const USB_CLASS_CDC: u8 = 0x02;
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const USB_CLASS_CDC_DATA: u8 = 0x0a;
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const CDC_SUBCLASS_ACM: u8 = 0x02;
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const CDC_PROTOCOL_NONE: u8 = 0x00;
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const CS_INTERFACE: u8 = 0x24;
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const CDC_TYPE_HEADER: u8 = 0x00;
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const CDC_TYPE_CALL_MANAGEMENT: u8 = 0x01;
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const CDC_TYPE_ACM: u8 = 0x02;
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const CDC_TYPE_UNION: u8 = 0x06;
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const REQ_SEND_ENCAPSULATED_COMMAND: u8 = 0x00;
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#[allow(unused)]
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const REQ_GET_ENCAPSULATED_COMMAND: u8 = 0x01;
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const REQ_SET_LINE_CODING: u8 = 0x20;
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const REQ_GET_LINE_CODING: u8 = 0x21;
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const REQ_SET_CONTROL_LINE_STATE: u8 = 0x22;
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2022-03-28 02:20:01 +02:00
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pub struct State {
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control: MaybeUninit<Control>,
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}
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impl State {
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pub fn new() -> Self {
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Self {
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control: MaybeUninit::uninit(),
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}
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}
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}
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2022-03-09 01:34:35 +01:00
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/// Packet level implementation of a CDC-ACM serial port.
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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 serial
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/// port. 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, and the
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/// method will return a `WouldBlock` error if there is no packet to be read.
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/// - `write_packet` must not be called with a buffer larger than max_packet_size bytes, and the
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/// method will return a `WouldBlock` error if the previous packet has not been sent yet.
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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 CdcAcmClass<'d, D: Driver<'d>> {
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2022-03-09 23:06:27 +01:00
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// TODO not pub
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pub comm_ep: D::EndpointIn,
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pub data_if: InterfaceNumber,
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pub read_ep: D::EndpointOut,
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pub write_ep: D::EndpointIn,
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2022-03-28 02:20:01 +02:00
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control: &'d ControlShared,
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}
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struct Control {
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shared: UnsafeCell<ControlShared>,
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2022-03-25 21:46:14 +01:00
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}
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2022-03-28 02:20:01 +02:00
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/// Shared data between Control and CdcAcmClass
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struct ControlShared {
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line_coding: CriticalSectionMutex<Cell<LineCoding>>,
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dtr: AtomicBool,
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rts: AtomicBool,
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2022-03-09 01:34:35 +01:00
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}
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2022-03-28 02:20:01 +02:00
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impl Control {
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fn shared(&mut self) -> &ControlShared {
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unsafe { &*(self.shared.get() as *const _) }
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}
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}
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2022-03-28 03:19:07 +02:00
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impl ControlHandler for Control {
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2022-03-25 21:46:14 +01:00
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fn reset(&mut self) {
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2022-03-28 02:20:01 +02:00
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let shared = self.shared();
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shared.line_coding.lock(|x| x.set(LineCoding::default()));
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shared.dtr.store(false, Ordering::Relaxed);
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shared.rts.store(false, Ordering::Relaxed);
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2022-03-25 21:46:14 +01:00
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}
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2022-03-28 03:30:08 +02:00
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fn control_out(&mut self, req: control::Request, data: &[u8]) -> OutResponse {
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2022-03-27 23:12:57 +02:00
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match req.request {
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REQ_SEND_ENCAPSULATED_COMMAND => {
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// We don't actually support encapsulated commands but pretend we do for standards
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// compatibility.
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2022-03-28 03:30:08 +02:00
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OutResponse::Accepted
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2022-03-27 23:12:57 +02:00
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}
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REQ_SET_LINE_CODING if data.len() >= 7 => {
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2022-03-28 02:20:01 +02:00
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let coding = LineCoding {
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data_rate: u32::from_le_bytes(data[0..4].try_into().unwrap()),
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stop_bits: data[4].into(),
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parity_type: data[5].into(),
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data_bits: data[6],
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};
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self.shared().line_coding.lock(|x| x.set(coding));
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info!("Set line coding to: {:?}", coding);
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2022-03-27 23:12:57 +02:00
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2022-03-28 03:30:08 +02:00
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OutResponse::Accepted
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2022-03-27 23:12:57 +02:00
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}
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REQ_SET_CONTROL_LINE_STATE => {
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2022-03-28 02:20:01 +02:00
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let dtr = (req.value & 0x0001) != 0;
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let rts = (req.value & 0x0002) != 0;
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let shared = self.shared();
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shared.dtr.store(dtr, Ordering::Relaxed);
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shared.rts.store(rts, Ordering::Relaxed);
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info!("Set dtr {}, rts {}", dtr, rts);
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2022-03-25 21:46:14 +01:00
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2022-03-28 03:30:08 +02:00
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OutResponse::Accepted
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2022-03-25 21:46:14 +01:00
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}
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2022-03-28 03:30:08 +02:00
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_ => OutResponse::Rejected,
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2022-03-25 21:46:14 +01:00
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}
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}
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2022-03-28 03:34:24 +02:00
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fn control_in(&mut self, req: Request, resp: &mut [u8]) -> InResponse {
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2022-03-27 23:12:57 +02:00
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match req.request {
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// REQ_GET_ENCAPSULATED_COMMAND is not really supported - it will be rejected below.
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REQ_GET_LINE_CODING if req.length == 7 => {
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info!("Sending line coding");
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2022-03-28 02:20:01 +02:00
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let coding = self.shared().line_coding.lock(|x| x.get());
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2022-03-28 03:34:24 +02:00
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resp[0..4].copy_from_slice(&coding.data_rate.to_le_bytes());
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resp[4] = coding.stop_bits as u8;
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resp[5] = coding.parity_type as u8;
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resp[6] = coding.data_bits;
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InResponse::Accepted(7)
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2022-03-25 21:46:14 +01:00
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}
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2022-03-28 03:34:24 +02:00
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_ => InResponse::Rejected,
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2022-03-25 21:46:14 +01:00
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}
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}
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}
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2022-03-09 01:34:35 +01:00
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impl<'d, D: Driver<'d>> CdcAcmClass<'d, D> {
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/// Creates a new CdcAcmClass with the provided UsbBus and max_packet_size in bytes. For
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/// full-speed devices, max_packet_size has to be one of 8, 16, 32 or 64.
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2022-03-28 02:20:01 +02:00
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pub fn new(
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builder: &mut UsbDeviceBuilder<'d, D>,
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state: &'d mut State,
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max_packet_size: u16,
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) -> Self {
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2022-03-28 03:19:07 +02:00
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let control = state.control.write(Control {
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shared: UnsafeCell::new(ControlShared {
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dtr: AtomicBool::new(false),
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rts: AtomicBool::new(false),
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line_coding: CriticalSectionMutex::new(Cell::new(LineCoding {
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stop_bits: StopBits::One,
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data_bits: 8,
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parity_type: ParityType::None,
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data_rate: 8_000,
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})),
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}),
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});
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let control_shared = unsafe { &*(control.shared.get() as *const _) };
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let comm_if = builder.alloc_interface_with_handler(control);
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2022-03-09 01:34:35 +01:00
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let comm_ep = builder.alloc_interrupt_endpoint_in(8, 255);
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let data_if = builder.alloc_interface();
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let read_ep = builder.alloc_bulk_endpoint_out(max_packet_size);
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let write_ep = builder.alloc_bulk_endpoint_in(max_packet_size);
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builder
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.config_descriptor
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.iad(
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comm_if,
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2,
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USB_CLASS_CDC,
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CDC_SUBCLASS_ACM,
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CDC_PROTOCOL_NONE,
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)
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.unwrap();
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builder
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.config_descriptor
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.interface(comm_if, USB_CLASS_CDC, CDC_SUBCLASS_ACM, CDC_PROTOCOL_NONE)
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.unwrap();
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builder
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.config_descriptor
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.write(
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CS_INTERFACE,
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&[
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CDC_TYPE_HEADER, // bDescriptorSubtype
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0x10,
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0x01, // bcdCDC (1.10)
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],
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)
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.unwrap();
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builder
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.config_descriptor
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.write(
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CS_INTERFACE,
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&[
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CDC_TYPE_ACM, // bDescriptorSubtype
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0x00, // bmCapabilities
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],
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)
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.unwrap();
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builder
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.config_descriptor
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.write(
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CS_INTERFACE,
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&[
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CDC_TYPE_UNION, // bDescriptorSubtype
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comm_if.into(), // bControlInterface
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data_if.into(), // bSubordinateInterface
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],
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)
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.unwrap();
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builder
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.config_descriptor
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.write(
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CS_INTERFACE,
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&[
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CDC_TYPE_CALL_MANAGEMENT, // bDescriptorSubtype
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0x00, // bmCapabilities
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data_if.into(), // bDataInterface
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],
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)
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.unwrap();
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builder.config_descriptor.endpoint(comm_ep.info()).unwrap();
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builder
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.config_descriptor
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.interface(data_if, USB_CLASS_CDC_DATA, 0x00, 0x00)
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.unwrap();
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builder.config_descriptor.endpoint(write_ep.info()).unwrap();
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builder.config_descriptor.endpoint(read_ep.info()).unwrap();
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CdcAcmClass {
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comm_ep,
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data_if,
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read_ep,
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write_ep,
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2022-03-28 02:20:01 +02:00
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control: control_shared,
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2022-03-09 01:34:35 +01:00
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}
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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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/// Gets the current line coding. The line coding contains information that's mainly relevant
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/// for USB to UART serial port emulators, and can be ignored if not relevant.
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2022-03-28 02:20:01 +02:00
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pub fn line_coding(&self) -> LineCoding {
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self.control.line_coding.lock(|x| x.get())
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2022-03-09 01:34:35 +01:00
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}
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/// Gets the DTR (data terminal ready) state
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pub fn dtr(&self) -> bool {
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2022-03-28 02:20:01 +02:00
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self.control.dtr.load(Ordering::Relaxed)
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2022-03-09 01:34:35 +01:00
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}
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/// Gets the RTS (request to send) state
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pub fn rts(&self) -> bool {
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2022-03-28 02:20:01 +02:00
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self.control.rts.load(Ordering::Relaxed)
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2022-03-09 01:34:35 +01:00
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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<(), WriteError> {
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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, ReadError> {
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self.read_ep.read(data).await
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}
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/// Gets the address of the IN endpoint.
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pub(crate) fn write_ep_address(&self) -> EndpointAddress {
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self.write_ep.info().addr
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}
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}
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/// Number of stop bits for LineCoding
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2022-03-25 21:46:14 +01:00
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#[derive(Copy, Clone, PartialEq, Eq, defmt::Format)]
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2022-03-09 01:34:35 +01:00
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pub enum StopBits {
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/// 1 stop bit
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One = 0,
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/// 1.5 stop bits
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OnePointFive = 1,
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/// 2 stop bits
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Two = 2,
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}
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impl From<u8> for StopBits {
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fn from(value: u8) -> Self {
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if value <= 2 {
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unsafe { mem::transmute(value) }
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} else {
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StopBits::One
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}
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}
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}
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/// Parity for LineCoding
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2022-03-25 21:46:14 +01:00
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#[derive(Copy, Clone, PartialEq, Eq, defmt::Format)]
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2022-03-09 01:34:35 +01:00
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pub enum ParityType {
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None = 0,
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Odd = 1,
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Event = 2,
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Mark = 3,
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Space = 4,
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}
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impl From<u8> for ParityType {
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fn from(value: u8) -> Self {
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if value <= 4 {
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unsafe { mem::transmute(value) }
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} else {
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ParityType::None
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}
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}
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}
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/// Line coding parameters
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///
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/// This is provided by the host for specifying the standard UART parameters such as baud rate. Can
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/// be ignored if you don't plan to interface with a physical UART.
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2022-03-28 02:20:01 +02:00
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#[derive(Clone, Copy, defmt::Format)]
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2022-03-09 01:34:35 +01:00
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pub struct LineCoding {
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stop_bits: StopBits,
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data_bits: u8,
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parity_type: ParityType,
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data_rate: u32,
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}
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impl LineCoding {
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/// Gets the number of stop bits for UART communication.
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pub fn stop_bits(&self) -> StopBits {
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self.stop_bits
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}
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/// Gets the number of data bits for UART communication.
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pub fn data_bits(&self) -> u8 {
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self.data_bits
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}
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/// Gets the parity type for UART communication.
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pub fn parity_type(&self) -> ParityType {
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self.parity_type
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}
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/// Gets the data rate in bits per second for UART communication.
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pub fn data_rate(&self) -> u32 {
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self.data_rate
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}
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}
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impl Default for LineCoding {
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fn default() -> Self {
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LineCoding {
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stop_bits: StopBits::One,
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data_bits: 8,
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parity_type: ParityType::None,
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data_rate: 8_000,
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}
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}
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}
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