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Working CDC-ACM device->host
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77ceced036
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0320500f0f
@ -1,7 +1,8 @@
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#![macro_use]
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use core::marker::PhantomData;
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use core::sync::atomic::{compiler_fence, Ordering};
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use core::mem::MaybeUninit;
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use core::sync::atomic::{compiler_fence, AtomicU32, Ordering};
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use core::task::Poll;
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use embassy::interrupt::InterruptExt;
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use embassy::time::{with_timeout, Duration};
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@ -23,6 +24,7 @@ const NEW_AW: AtomicWaker = AtomicWaker::new();
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static BUS_WAKER: AtomicWaker = NEW_AW;
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static EP_IN_WAKERS: [AtomicWaker; 9] = [NEW_AW; 9];
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static EP_OUT_WAKERS: [AtomicWaker; 9] = [NEW_AW; 9];
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static READY_ENDPOINTS: AtomicU32 = AtomicU32::new(0);
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pub struct Driver<'d, T: Instance> {
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phantom: PhantomData<&'d mut T>,
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@ -84,6 +86,8 @@ impl<'d, T: Instance> Driver<'d, T> {
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regs.events_epdata.reset();
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let r = regs.epdatastatus.read().bits();
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regs.epdatastatus.write(|w| unsafe { w.bits(r) });
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READY_ENDPOINTS.fetch_or(r, Ordering::AcqRel);
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for i in 1..=7 {
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if r & (1 << i) != 0 {
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EP_IN_WAKERS[i].wake();
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@ -143,15 +147,12 @@ impl<'d, T: Instance> driver::Driver<'d> for Driver<'d, T> {
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.alloc_in
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.allocate(ep_addr, ep_type, max_packet_size, interval)?;
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let ep_addr = EndpointAddress::from_parts(index, UsbDirection::In);
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Ok(Endpoint {
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_phantom: PhantomData,
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info: EndpointInfo {
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Ok(Endpoint::new(EndpointInfo {
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addr: ep_addr,
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ep_type,
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max_packet_size,
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interval,
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},
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})
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}))
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}
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fn alloc_endpoint_out(
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@ -165,15 +166,12 @@ impl<'d, T: Instance> driver::Driver<'d> for Driver<'d, T> {
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.alloc_out
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.allocate(ep_addr, ep_type, max_packet_size, interval)?;
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let ep_addr = EndpointAddress::from_parts(index, UsbDirection::Out);
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Ok(Endpoint {
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_phantom: PhantomData,
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info: EndpointInfo {
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Ok(Endpoint::new(EndpointInfo {
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addr: ep_addr,
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ep_type,
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max_packet_size,
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interval,
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},
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})
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}))
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}
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fn enable(self) -> Self::Bus {
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@ -284,7 +282,9 @@ impl<'d, T: Instance> driver::Bus for Bus<'d, T> {
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}
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}
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//self.busy_in_endpoints = 0;
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// IN endpoints (low bits) default to ready.
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// OUT endpoints (high bits) default to NOT ready, they become ready when data comes in.
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READY_ENDPOINTS.store(0x0000FFFF, Ordering::Release);
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}
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#[inline]
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@ -324,6 +324,15 @@ pub struct Endpoint<'d, T: Instance, Dir> {
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info: EndpointInfo,
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}
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impl<'d, T: Instance, Dir> Endpoint<'d, T, Dir> {
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fn new(info: EndpointInfo) -> Self {
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Self {
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info,
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_phantom: PhantomData,
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}
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}
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}
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impl<'d, T: Instance, Dir> driver::Endpoint for Endpoint<'d, T, Dir> {
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fn info(&self) -> &EndpointInfo {
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&self.info
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@ -368,7 +377,6 @@ impl<'d, T: Instance> driver::EndpointOut for Endpoint<'d, T, Out> {
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}
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})
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.await;
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info!("got SETUP");
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if buf.len() < 8 {
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return Err(ReadError::BufferOverflow);
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@ -385,10 +393,10 @@ impl<'d, T: Instance> driver::EndpointOut for Endpoint<'d, T, Out> {
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Ok(8)
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} else {
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// Wait until ready
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poll_fn(|cx| {
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EP_OUT_WAKERS[i].register(cx.waker());
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let regs = T::regs();
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let r = regs.epdatastatus.read().bits();
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let r = READY_ENDPOINTS.load(Ordering::Acquire);
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if r & (1 << (i + 16)) != 0 {
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Poll::Ready(())
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} else {
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@ -397,9 +405,8 @@ impl<'d, T: Instance> driver::EndpointOut for Endpoint<'d, T, Out> {
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})
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.await;
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// Clear status
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regs.epdatastatus
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.write(|w| unsafe { w.bits(1 << (i + 16)) });
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// Mark as not ready
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READY_ENDPOINTS.fetch_and(!(1 << (i + 16)), Ordering::AcqRel);
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// Check that the packet fits into the buffer
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let size = regs.size.epout[i].read().bits();
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@ -448,27 +455,63 @@ impl<'d, T: Instance> driver::EndpointIn for Endpoint<'d, T, In> {
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fn write<'a>(&'a mut self, buf: &'a [u8]) -> Self::WriteFuture<'a> {
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async move {
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info!("write: {:x}", buf);
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let regs = T::regs();
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let i = self.info.addr.index();
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let ptr = buf.as_ptr() as u32;
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let len = buf.len() as u32;
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regs.epin0.ptr.write(|w| unsafe { w.bits(ptr) });
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regs.epin0.maxcnt.write(|w| unsafe { w.bits(len) });
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// Wait until ready.
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if i != 0 {
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poll_fn(|cx| {
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EP_IN_WAKERS[i].register(cx.waker());
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let r = READY_ENDPOINTS.load(Ordering::Acquire);
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if r & (1 << i) != 0 {
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Poll::Ready(())
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} else {
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Poll::Pending
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}
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})
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.await;
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// Mark as not ready
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READY_ENDPOINTS.fetch_and(!(1 << i), Ordering::AcqRel);
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}
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if i == 0 {
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regs.events_ep0datadone.reset();
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regs.events_endepin[0].reset();
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}
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assert!(buf.len() <= 64);
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// EasyDMA can't read FLASH, so we copy through RAM
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let mut ram_buf: MaybeUninit<[u8; 64]> = MaybeUninit::uninit();
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let ptr = ram_buf.as_mut_ptr() as *mut u8;
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unsafe { core::ptr::copy_nonoverlapping(buf.as_ptr(), ptr, buf.len()) };
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let epin = [
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®s.epin0,
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®s.epin1,
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®s.epin2,
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®s.epin3,
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®s.epin4,
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®s.epin5,
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®s.epin6,
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®s.epin7,
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];
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// Set the buffer length so the right number of bytes are transmitted.
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// Safety: `buf.len()` has been checked to be <= the max buffer length.
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unsafe {
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epin[i].ptr.write(|w| w.bits(ptr as u32));
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epin[i].maxcnt.write(|w| w.maxcnt().bits(buf.len() as u8));
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}
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regs.events_endepin[i].reset();
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dma_start();
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regs.tasks_startepin[0].write(|w| unsafe { w.bits(1) });
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info!("write: waiting for endepin...");
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while regs.events_endepin[0].read().bits() == 0 {}
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regs.tasks_startepin[i].write(|w| unsafe { w.bits(1) });
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while regs.events_endepin[i].read().bits() == 0 {}
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dma_end();
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info!("write: waiting for ep0datadone...");
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if i == 0 {
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regs.intenset.write(|w| w.ep0datadone().set());
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let res = with_timeout(
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Duration::from_millis(10),
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@ -488,8 +531,7 @@ impl<'d, T: Instance> driver::EndpointIn for Endpoint<'d, T, In> {
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// todo wrong error
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return Err(driver::WriteError::BufferOverflow);
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}
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info!("write done");
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}
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Ok(())
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}
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}
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fn control_reject(&mut self, req: Request) {
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info!("control reject");
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self.control_out.set_stalled(true);
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}
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[package]
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authors = ["Dario Nieuwenhuis <dirbaio@dirbaio.net>"]
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edition = "2018"
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edition = "2021"
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name = "embassy-nrf-examples"
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version = "0.1.0"
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use core::mem;
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use defmt::*;
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use embassy::executor::Spawner;
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use embassy::time::{Duration, Timer};
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use embassy_nrf::interrupt;
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use embassy_nrf::pac;
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use embassy_nrf::usb::{self, Driver};
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use embassy_nrf::usb::Driver;
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use embassy_nrf::Peripherals;
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use embassy_usb::driver::EndpointOut;
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use embassy_usb::driver::{EndpointIn, EndpointOut};
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use embassy_usb::{Config, UsbDeviceBuilder};
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use futures::future::{join, select};
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use futures::future::join3;
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use crate::cdc_acm::CdcAcmClass;
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@ -61,6 +62,15 @@ async fn main(_spawner: Spawner, p: Peripherals) {
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info!("data: {:x}", data);
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}
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};
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let fut3 = async {
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loop {
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info!("writing...");
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class.write_ep.write(b"Hello World!\r\n").await.unwrap();
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info!("written");
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join(fut1, fut2).await;
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Timer::after(Duration::from_secs(1)).await;
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}
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};
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join3(fut1, fut2, fut3).await;
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}
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