usb: docs

This commit is contained in:
Dario Nieuwenhuis 2023-01-31 22:27:19 +01:00
parent 4c19464548
commit ca10fe7135
17 changed files with 267 additions and 97 deletions

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@ -235,7 +235,7 @@ impl<'d, T: Instance, P: UsbSupply + 'd> driver::Driver<'d> for Driver<'d, T, P>
&mut self,
ep_type: EndpointType,
packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Self::EndpointIn, driver::EndpointAllocError> {
let index = self.alloc_in.allocate(ep_type)?;
let ep_addr = EndpointAddress::from_parts(index, Direction::In);
@ -243,7 +243,7 @@ impl<'d, T: Instance, P: UsbSupply + 'd> driver::Driver<'d> for Driver<'d, T, P>
addr: ep_addr,
ep_type,
max_packet_size: packet_size,
interval,
interval_ms,
}))
}
@ -251,7 +251,7 @@ impl<'d, T: Instance, P: UsbSupply + 'd> driver::Driver<'d> for Driver<'d, T, P>
&mut self,
ep_type: EndpointType,
packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Self::EndpointOut, driver::EndpointAllocError> {
let index = self.alloc_out.allocate(ep_type)?;
let ep_addr = EndpointAddress::from_parts(index, Direction::Out);
@ -259,7 +259,7 @@ impl<'d, T: Instance, P: UsbSupply + 'd> driver::Driver<'d> for Driver<'d, T, P>
addr: ep_addr,
ep_type,
max_packet_size: packet_size,
interval,
interval_ms,
}))
}

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@ -194,13 +194,13 @@ impl<'d, T: Instance> Driver<'d, T> {
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Endpoint<'d, T, D>, driver::EndpointAllocError> {
trace!(
"allocating type={:?} mps={:?} interval={}, dir={:?}",
"allocating type={:?} mps={:?} interval_ms={}, dir={:?}",
ep_type,
max_packet_size,
interval,
interval_ms,
D::dir()
);
@ -281,7 +281,7 @@ impl<'d, T: Instance> Driver<'d, T> {
addr: EndpointAddress::from_parts(index, D::dir()),
ep_type,
max_packet_size,
interval,
interval_ms,
},
buf,
})
@ -298,18 +298,18 @@ impl<'d, T: Instance> driver::Driver<'d> for Driver<'d, T> {
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Self::EndpointIn, driver::EndpointAllocError> {
self.alloc_endpoint(ep_type, max_packet_size, interval)
self.alloc_endpoint(ep_type, max_packet_size, interval_ms)
}
fn alloc_endpoint_out(
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Self::EndpointOut, driver::EndpointAllocError> {
self.alloc_endpoint(ep_type, max_packet_size, interval)
self.alloc_endpoint(ep_type, max_packet_size, interval_ms)
}
fn start(self, control_max_packet_size: u16) -> (Self::Bus, Self::ControlPipe) {

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@ -268,13 +268,13 @@ impl<'d, T: Instance> Driver<'d, T> {
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Endpoint<'d, T, D>, driver::EndpointAllocError> {
trace!(
"allocating type={:?} mps={:?} interval={}, dir={:?}",
"allocating type={:?} mps={:?} interval_ms={}, dir={:?}",
ep_type,
max_packet_size,
interval,
interval_ms,
D::dir()
);
@ -345,7 +345,7 @@ impl<'d, T: Instance> Driver<'d, T> {
addr: EndpointAddress::from_parts(index, D::dir()),
ep_type,
max_packet_size,
interval,
interval_ms,
},
buf,
})
@ -362,18 +362,18 @@ impl<'d, T: Instance> driver::Driver<'d> for Driver<'d, T> {
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Self::EndpointIn, driver::EndpointAllocError> {
self.alloc_endpoint(ep_type, max_packet_size, interval)
self.alloc_endpoint(ep_type, max_packet_size, interval_ms)
}
fn alloc_endpoint_out(
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Self::EndpointOut, driver::EndpointAllocError> {
self.alloc_endpoint(ep_type, max_packet_size, interval)
self.alloc_endpoint(ep_type, max_packet_size, interval_ms)
}
fn start(mut self, control_max_packet_size: u16) -> (Self::Bus, Self::ControlPipe) {

View File

@ -217,13 +217,13 @@ impl<'d, T: Instance> Driver<'d, T> {
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Endpoint<'d, T, D>, EndpointAllocError> {
trace!(
"allocating type={:?} mps={:?} interval={}, dir={:?}",
"allocating type={:?} mps={:?} interval_ms={}, dir={:?}",
ep_type,
max_packet_size,
interval,
interval_ms,
D::dir()
);
@ -292,7 +292,7 @@ impl<'d, T: Instance> Driver<'d, T> {
addr: EndpointAddress::from_parts(index, D::dir()),
ep_type,
max_packet_size,
interval,
interval_ms,
},
})
}
@ -308,18 +308,18 @@ impl<'d, T: Instance> embassy_usb_driver::Driver<'d> for Driver<'d, T> {
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Self::EndpointIn, EndpointAllocError> {
self.alloc_endpoint(ep_type, max_packet_size, interval)
self.alloc_endpoint(ep_type, max_packet_size, interval_ms)
}
fn alloc_endpoint_out(
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Self::EndpointOut, EndpointAllocError> {
self.alloc_endpoint(ep_type, max_packet_size, interval)
self.alloc_endpoint(ep_type, max_packet_size, interval_ms)
}
fn start(mut self, control_max_packet_size: u16) -> (Self::Bus, Self::ControlPipe) {

View File

@ -0,0 +1,32 @@
# embassy-usb-driver
This crate contains the driver traits for [`embassy-usb`]. HAL/BSP crates can implement these
traits to add support for using `embassy-usb` for a given chip/platform.
The traits are kept in a separate crate so that breaking changes in the higher-level [`embassy-usb`]
APIs don't cause a semver-major bump of thsi crate. This allows existing HALs/BSPs to be used
with the newer `embassy-usb` without needing updates.
If you're writing an application using USB, you should depend on the main [`embassy-usb`] crate
instead of this one.
[`embassy-usb`]: https://crates.io/crates/embassy-usb
## Interoperability
This crate can run on any executor.
## Minimum supported Rust version (MSRV)
This crate requires nightly Rust, due to using "async fn in trait" support.
## License
This work is licensed under either of
- Apache License, Version 2.0 ([LICENSE-APACHE](LICENSE-APACHE) or
<http://www.apache.org/licenses/LICENSE-2.0>)
- MIT license ([LICENSE-MIT](LICENSE-MIT) or <http://opensource.org/licenses/MIT>)
at your option.

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@ -1,6 +1,8 @@
#![no_std]
#![feature(async_fn_in_trait)]
#![allow(incomplete_features)]
#![doc = include_str!("../README.md")]
#![warn(missing_docs)]
/// Direction of USB traffic. Note that in the USB standard the direction is always indicated from
/// the perspective of the host, which is backward for devices, but the standard directions are used
@ -95,46 +97,65 @@ impl EndpointAddress {
}
}
/// Infomation for an endpoint.
#[derive(Copy, Clone, Eq, PartialEq, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct EndpointInfo {
/// Endpoint's address.
pub addr: EndpointAddress,
/// Endpoint's type.
pub ep_type: EndpointType,
/// Max packet size, in bytes.
pub max_packet_size: u16,
pub interval: u8,
/// Polling interval, in milliseconds.
pub interval_ms: u8,
}
/// Driver for a specific USB peripheral. Implement this to add support for a new hardware
/// platform.
/// Main USB driver trait.
///
/// Implement this to add support for a new hardware platform.
pub trait Driver<'a> {
/// Type of the OUT endpoints for this driver.
type EndpointOut: EndpointOut + 'a;
/// Type of the IN endpoints for this driver.
type EndpointIn: EndpointIn + 'a;
/// Type of the control pipe for this driver.
type ControlPipe: ControlPipe + 'a;
/// Type for bus control for this driver.
type Bus: Bus + 'a;
/// Allocates an endpoint and specified endpoint parameters. This method is called by the device
/// and class implementations to allocate endpoints, and can only be called before
/// [`start`](Self::start) is called.
/// Allocates an OUT endpoint.
///
/// This method is called by the USB stack to allocate endpoints.
/// It can only be called before [`start`](Self::start) is called.
///
/// # Arguments
///
/// * `ep_addr` - A static endpoint address to allocate. If Some, the implementation should
/// attempt to return an endpoint with the specified address. If None, the implementation
/// should return the next available one.
/// * `ep_type` - the endpoint's type.
/// * `max_packet_size` - Maximum packet size in bytes.
/// * `interval` - Polling interval parameter for interrupt endpoints.
/// * `interval_ms` - Polling interval parameter for interrupt endpoints.
fn alloc_endpoint_out(
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Self::EndpointOut, EndpointAllocError>;
/// Allocates an IN endpoint.
///
/// This method is called by the USB stack to allocate endpoints.
/// It can only be called before [`start`](Self::start) is called.
///
/// # Arguments
///
/// * `ep_type` - the endpoint's type.
/// * `max_packet_size` - Maximum packet size in bytes.
/// * `interval_ms` - Polling interval parameter for interrupt endpoints.
fn alloc_endpoint_in(
&mut self,
ep_type: EndpointType,
max_packet_size: u16,
interval: u8,
interval_ms: u8,
) -> Result<Self::EndpointIn, EndpointAllocError>;
/// Start operation of the USB device.
@ -146,35 +167,37 @@ pub trait Driver<'a> {
/// This consumes the `Driver` instance, so it's no longer possible to allocate more
/// endpoints.
fn start(self, control_max_packet_size: u16) -> (Self::Bus, Self::ControlPipe);
/// Indicates that `set_device_address` must be called before accepting the corresponding
/// control transfer, not after.
///
/// The default value for this constant is `false`, which corresponds to the USB 2.0 spec, 9.4.6
const QUIRK_SET_ADDRESS_BEFORE_STATUS: bool = false;
}
/// USB bus trait.
///
/// This trait provides methods that act on the whole bus. It is kept owned by
/// the main USB task, and used to manage the bus.
pub trait Bus {
/// Enables the USB peripheral. Soon after enabling the device will be reset, so
/// there is no need to perform a USB reset in this method.
/// Enable the USB peripheral.
async fn enable(&mut self);
/// Disables and powers down the USB peripheral.
/// Disable and powers down the USB peripheral.
async fn disable(&mut self);
/// Wait for a bus-related event.
///
/// This method should asynchronously wait for an event to happen, then
/// return it. See [`Event`] for the list of events this method should return.
async fn poll(&mut self) -> Event;
/// Enables or disables an endpoint.
/// Enable or disable an endpoint.
fn endpoint_set_enabled(&mut self, ep_addr: EndpointAddress, enabled: bool);
/// Sets or clears the STALL condition for an endpoint. If the endpoint is an OUT endpoint, it
/// should be prepared to receive data again. Only used during control transfers.
/// Set or clear the STALL condition for an endpoint.
///
/// If the endpoint is an OUT endpoint, it should be prepared to receive data again.
fn endpoint_set_stalled(&mut self, ep_addr: EndpointAddress, stalled: bool);
/// Gets whether the STALL condition is set for an endpoint. Only used during control transfers.
/// Get whether the STALL condition is set for an endpoint.
fn endpoint_is_stalled(&mut self, ep_addr: EndpointAddress) -> bool;
/// Simulates a disconnect from the USB bus, causing the host to reset and re-enumerate the
/// Simulate a disconnect from the USB bus, causing the host to reset and re-enumerate the
/// device.
///
/// The default implementation just returns `Unsupported`.
@ -187,7 +210,7 @@ pub trait Bus {
Err(Unsupported)
}
/// Initiates a remote wakeup of the host by the device.
/// Initiate a remote wakeup of the host by the device.
///
/// # Errors
///
@ -196,25 +219,27 @@ pub trait Bus {
async fn remote_wakeup(&mut self) -> Result<(), Unsupported>;
}
/// Endpoint trait, common for OUT and IN.
pub trait Endpoint {
/// Get the endpoint address
fn info(&self) -> &EndpointInfo;
/// Waits for the endpoint to be enabled.
/// Wait for the endpoint to be enabled.
async fn wait_enabled(&mut self);
}
/// OUT Endpoint trait.
pub trait EndpointOut: Endpoint {
/// Reads a single packet of data from the endpoint, and returns the actual length of
/// Read a single packet of data from the endpoint, and return the actual length of
/// the packet.
///
/// This should also clear any NAK flags and prepare the endpoint to receive the next packet.
async fn read(&mut self, buf: &mut [u8]) -> Result<usize, EndpointError>;
}
/// Trait for USB control pipe.
/// USB control pipe trait.
///
/// The USB control pipe owns both OUT ep 0 and IN ep 0 in a single
/// The USB control pipe owns both OUT endpoint 0 and IN endpoint 0 in a single
/// unit, and manages them together to implement the control pipe state machine.
///
/// The reason this is a separate trait instead of using EndpointOut/EndpointIn is that
@ -232,6 +257,14 @@ pub trait EndpointOut: Endpoint {
/// accept() or reject()
/// ```
///
/// - control out for setting the device address:
///
/// ```not_rust
/// setup()
/// (...processing...)
/// accept_set_address(addr) or reject()
/// ```
///
/// - control out with len != 0:
///
/// ```not_rust
@ -280,26 +313,26 @@ pub trait ControlPipe {
/// Maximum packet size for the control pipe
fn max_packet_size(&self) -> usize;
/// Reads a single setup packet from the endpoint.
/// Read a single setup packet from the endpoint.
async fn setup(&mut self) -> [u8; 8];
/// Reads a DATA OUT packet into `buf` in response to a control write request.
/// Read a DATA OUT packet into `buf` in response to a control write request.
///
/// Must be called after `setup()` for requests with `direction` of `Out`
/// and `length` greater than zero.
async fn data_out(&mut self, buf: &mut [u8], first: bool, last: bool) -> Result<usize, EndpointError>;
/// Sends a DATA IN packet with `data` in response to a control read request.
/// Send a DATA IN packet with `data` in response to a control read request.
///
/// If `last_packet` is true, the STATUS packet will be ACKed following the transfer of `data`.
async fn data_in(&mut self, data: &[u8], first: bool, last: bool) -> Result<(), EndpointError>;
/// Accepts a control request.
/// Accept a control request.
///
/// Causes the STATUS packet for the current request to be ACKed.
async fn accept(&mut self);
/// Rejects a control request.
/// Reject a control request.
///
/// Sets a STALL condition on the pipe to indicate an error.
async fn reject(&mut self);
@ -311,8 +344,9 @@ pub trait ControlPipe {
async fn accept_set_address(&mut self, addr: u8);
}
/// IN Endpoint trait.
pub trait EndpointIn: Endpoint {
/// Writes a single packet of data to the endpoint.
/// Write a single packet of data to the endpoint.
async fn write(&mut self, buf: &[u8]) -> Result<(), EndpointError>;
}
@ -338,18 +372,22 @@ pub enum Event {
PowerRemoved,
}
/// Allocating an endpoint failed.
///
/// This can be due to running out of endpoints, or out of endpoint memory,
/// or because the hardware doesn't support the requested combination of features.
#[derive(Copy, Clone, Eq, PartialEq, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct EndpointAllocError;
/// Operation is unsupported by the driver.
#[derive(Copy, Clone, Eq, PartialEq, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
/// Operation is unsupported by the driver.
pub struct Unsupported;
/// Errors returned by [`EndpointIn::write`] and [`EndpointOut::read`]
#[derive(Copy, Clone, Eq, PartialEq, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
/// Errors returned by [`EndpointIn::write`] and [`EndpointOut::read`]
pub enum EndpointError {
/// Either the packet to be written is too long to fit in the transmission
/// buffer or the received packet is too long to fit in `buf`.

22
embassy-usb/README.md Normal file
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@ -0,0 +1,22 @@
# embassy-usb
TODO crate description/
## Interoperability
This crate can run on any executor.
## Minimum supported Rust version (MSRV)
This crate requires nightly Rust, due to using "async fn in trait" support.
## License
This work is licensed under either of
- Apache License, Version 2.0 ([LICENSE-APACHE](LICENSE-APACHE) or
<http://www.apache.org/licenses/LICENSE-2.0>)
- MIT license ([LICENSE-MIT](LICENSE-MIT) or <http://opensource.org/licenses/MIT>)
at your option.

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@ -349,11 +349,11 @@ impl<'a, 'd, D: Driver<'d>> InterfaceAltBuilder<'a, 'd, D> {
self.builder.config_descriptor.write(descriptor_type, descriptor)
}
fn endpoint_in(&mut self, ep_type: EndpointType, max_packet_size: u16, interval: u8) -> D::EndpointIn {
fn endpoint_in(&mut self, ep_type: EndpointType, max_packet_size: u16, interval_ms: u8) -> D::EndpointIn {
let ep = self
.builder
.driver
.alloc_endpoint_in(ep_type, max_packet_size, interval)
.alloc_endpoint_in(ep_type, max_packet_size, interval_ms)
.expect("alloc_endpoint_in failed");
self.builder.config_descriptor.endpoint(ep.info());
@ -361,11 +361,11 @@ impl<'a, 'd, D: Driver<'d>> InterfaceAltBuilder<'a, 'd, D> {
ep
}
fn endpoint_out(&mut self, ep_type: EndpointType, max_packet_size: u16, interval: u8) -> D::EndpointOut {
fn endpoint_out(&mut self, ep_type: EndpointType, max_packet_size: u16, interval_ms: u8) -> D::EndpointOut {
let ep = self
.builder
.driver
.alloc_endpoint_out(ep_type, max_packet_size, interval)
.alloc_endpoint_out(ep_type, max_packet_size, interval_ms)
.expect("alloc_endpoint_out failed");
self.builder.config_descriptor.endpoint(ep.info());
@ -393,25 +393,25 @@ impl<'a, 'd, D: Driver<'d>> InterfaceAltBuilder<'a, 'd, D> {
///
/// Descriptors are written in the order builder functions are called. Note that some
/// classes care about the order.
pub fn endpoint_interrupt_in(&mut self, max_packet_size: u16, interval: u8) -> D::EndpointIn {
self.endpoint_in(EndpointType::Interrupt, max_packet_size, interval)
pub fn endpoint_interrupt_in(&mut self, max_packet_size: u16, interval_ms: u8) -> D::EndpointIn {
self.endpoint_in(EndpointType::Interrupt, max_packet_size, interval_ms)
}
/// Allocate a INTERRUPT OUT endpoint and write its descriptor.
pub fn endpoint_interrupt_out(&mut self, max_packet_size: u16, interval: u8) -> D::EndpointOut {
self.endpoint_out(EndpointType::Interrupt, max_packet_size, interval)
pub fn endpoint_interrupt_out(&mut self, max_packet_size: u16, interval_ms: u8) -> D::EndpointOut {
self.endpoint_out(EndpointType::Interrupt, max_packet_size, interval_ms)
}
/// Allocate a ISOCHRONOUS IN endpoint and write its descriptor.
///
/// Descriptors are written in the order builder functions are called. Note that some
/// classes care about the order.
pub fn endpoint_isochronous_in(&mut self, max_packet_size: u16, interval: u8) -> D::EndpointIn {
self.endpoint_in(EndpointType::Isochronous, max_packet_size, interval)
pub fn endpoint_isochronous_in(&mut self, max_packet_size: u16, interval_ms: u8) -> D::EndpointIn {
self.endpoint_in(EndpointType::Isochronous, max_packet_size, interval_ms)
}
/// Allocate a ISOCHRONOUS OUT endpoint and write its descriptor.
pub fn endpoint_isochronous_out(&mut self, max_packet_size: u16, interval: u8) -> D::EndpointOut {
self.endpoint_out(EndpointType::Isochronous, max_packet_size, interval)
pub fn endpoint_isochronous_out(&mut self, max_packet_size: u16, interval_ms: u8) -> D::EndpointOut {
self.endpoint_out(EndpointType::Isochronous, max_packet_size, interval_ms)
}
}

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@ -1,3 +1,5 @@
//! CDC-ACM class implementation, aka Serial over USB.
use core::cell::Cell;
use core::mem::{self, MaybeUninit};
use core::sync::atomic::{AtomicBool, Ordering};
@ -28,12 +30,14 @@ const REQ_SET_LINE_CODING: u8 = 0x20;
const REQ_GET_LINE_CODING: u8 = 0x21;
const REQ_SET_CONTROL_LINE_STATE: u8 = 0x22;
/// Internal state for CDC-ACM
pub struct State<'a> {
control: MaybeUninit<Control<'a>>,
shared: ControlShared,
}
impl<'a> State<'a> {
/// Create a new `State`.
pub fn new() -> Self {
Self {
control: MaybeUninit::uninit(),
@ -284,10 +288,15 @@ impl From<u8> for StopBits {
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum ParityType {
/// No parity bit.
None = 0,
/// Parity bit is 1 if the amount of `1` bits in the data byte is odd.
Odd = 1,
/// Parity bit is 1 if the amount of `1` bits in the data byte is even.
Even = 2,
/// Parity bit is always 1
Mark = 3,
/// Parity bit is always 0
Space = 4,
}

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@ -1,3 +1,4 @@
//! [`embassy-net`](crates.io/crates/embassy-net) driver for the CDC-NCM class.
use embassy_futures::select::{select, Either};
use embassy_net_driver_channel as ch;
use embassy_net_driver_channel::driver::LinkState;
@ -5,11 +6,13 @@ use embassy_usb_driver::Driver;
use super::{CdcNcmClass, Receiver, Sender};
/// Internal state for the embassy-net integration.
pub struct State<const MTU: usize, const N_RX: usize, const N_TX: usize> {
ch_state: ch::State<MTU, N_RX, N_TX>,
}
impl<const MTU: usize, const N_RX: usize, const N_TX: usize> State<MTU, N_RX, N_TX> {
/// Create a new `State`.
pub const fn new() -> Self {
Self {
ch_state: ch::State::new(),
@ -17,6 +20,9 @@ impl<const MTU: usize, const N_RX: usize, const N_TX: usize> State<MTU, N_RX, N_
}
}
/// Background runner for the CDC-NCM class.
///
/// You must call `.run()` in a background task for the class to operate.
pub struct Runner<'d, D: Driver<'d>, const MTU: usize> {
tx_usb: Sender<'d, D>,
rx_usb: Receiver<'d, D>,
@ -24,6 +30,9 @@ pub struct Runner<'d, D: Driver<'d>, const MTU: usize> {
}
impl<'d, D: Driver<'d>, const MTU: usize> Runner<'d, D, MTU> {
/// Run the CDC-NCM class.
///
/// You must call this in a background task for the class to operate.
pub async fn run(mut self) -> ! {
let (state_chan, mut rx_chan, mut tx_chan) = self.ch.split();
let rx_fut = async move {
@ -66,9 +75,11 @@ impl<'d, D: Driver<'d>, const MTU: usize> Runner<'d, D, MTU> {
// would be cool to use a TAIT here, but it gives a "may not live long enough". rustc bug?
//pub type Device<'d, const MTU: usize> = impl embassy_net_driver_channel::driver::Driver + 'd;
/// Type alias for the embassy-net driver for CDC-NCM.
pub type Device<'d, const MTU: usize> = embassy_net_driver_channel::Device<'d, MTU>;
impl<'d, D: Driver<'d>> CdcNcmClass<'d, D> {
/// Obtain a driver for using the CDC-NCM class with [`embassy-net`](crates.io/crates/embassy-net).
pub fn into_embassy_net_device<const MTU: usize, const N_RX: usize, const N_TX: usize>(
self,
state: &'d mut State<MTU, N_RX, N_TX>,

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@ -1,18 +1,19 @@
/// CDC-NCM, aka Ethernet over USB.
///
/// # Compatibility
///
/// Windows: NOT supported in Windows 10. Supported in Windows 11.
///
/// Linux: Well-supported since forever.
///
/// Android: Support for CDC-NCM is spotty and varies across manufacturers.
///
/// - On Pixel 4a, it refused to work on Android 11, worked on Android 12.
/// - if the host's MAC address has the "locally-administered" bit set (bit 1 of first byte),
/// it doesn't work! The "Ethernet tethering" option in settings doesn't get enabled.
/// This is due to regex spaghetti: https://android.googlesource.com/platform/frameworks/base/+/refs/tags/android-mainline-12.0.0_r84/core/res/res/values/config.xml#417
/// and this nonsense in the linux kernel: https://github.com/torvalds/linux/blob/c00c5e1d157bec0ef0b0b59aa5482eb8dc7e8e49/drivers/net/usb/usbnet.c#L1751-L1757
//! CDC-NCM class implementation, aka Ethernet over USB.
//!
//! # Compatibility
//!
//! Windows: NOT supported in Windows 10 (though there's apparently a driver you can install?). Supported out of the box in Windows 11.
//!
//! Linux: Well-supported since forever.
//!
//! Android: Support for CDC-NCM is spotty and varies across manufacturers.
//!
//! - On Pixel 4a, it refused to work on Android 11, worked on Android 12.
//! - if the host's MAC address has the "locally-administered" bit set (bit 1 of first byte),
//! it doesn't work! The "Ethernet tethering" option in settings doesn't get enabled.
//! This is due to regex spaghetti: https://android.googlesource.com/platform/frameworks/base/+/refs/tags/android-mainline-12.0.0_r84/core/res/res/values/config.xml#417
//! and this nonsense in the linux kernel: https://github.com/torvalds/linux/blob/c00c5e1d157bec0ef0b0b59aa5482eb8dc7e8e49/drivers/net/usb/usbnet.c#L1751-L1757
use core::intrinsics::copy_nonoverlapping;
use core::mem::{size_of, MaybeUninit};
@ -114,6 +115,7 @@ fn byteify<T>(buf: &mut [u8], data: T) -> &[u8] {
&buf[..len]
}
/// Internal state for the CDC-NCM class.
pub struct State<'a> {
comm_control: MaybeUninit<CommControl<'a>>,
data_control: MaybeUninit<DataControl>,
@ -121,6 +123,7 @@ pub struct State<'a> {
}
impl<'a> State<'a> {
/// Create a new `State`.
pub fn new() -> Self {
Self {
comm_control: MaybeUninit::uninit(),
@ -223,6 +226,7 @@ impl ControlHandler for DataControl {
}
}
/// CDC-NCM class
pub struct CdcNcmClass<'d, D: Driver<'d>> {
_comm_if: InterfaceNumber,
comm_ep: D::EndpointIn,
@ -235,6 +239,7 @@ pub struct CdcNcmClass<'d, D: Driver<'d>> {
}
impl<'d, D: Driver<'d>> CdcNcmClass<'d, D> {
/// Create a new CDC NCM class.
pub fn new(
builder: &mut Builder<'d, D>,
state: &'d mut State<'d>,
@ -319,6 +324,9 @@ impl<'d, D: Driver<'d>> CdcNcmClass<'d, D> {
}
}
/// Split the class into a sender and receiver.
///
/// This allows concurrently sending and receiving packets from separate tasks.
pub fn split(self) -> (Sender<'d, D>, Receiver<'d, D>) {
(
Sender {
@ -334,12 +342,18 @@ impl<'d, D: Driver<'d>> CdcNcmClass<'d, D> {
}
}
/// CDC NCM class packet sender.
///
/// You can obtain a `Sender` with [`CdcNcmClass::split`]
pub struct Sender<'d, D: Driver<'d>> {
write_ep: D::EndpointIn,
seq: u16,
}
impl<'d, D: Driver<'d>> Sender<'d, D> {
/// Write a packet.
///
/// This waits until the packet is succesfully stored in the CDC-NCM endpoint buffers.
pub async fn write_packet(&mut self, data: &[u8]) -> Result<(), EndpointError> {
let seq = self.seq;
self.seq = self.seq.wrapping_add(1);
@ -393,6 +407,9 @@ impl<'d, D: Driver<'d>> Sender<'d, D> {
}
}
/// CDC NCM class packet receiver.
///
/// You can obtain a `Receiver` with [`CdcNcmClass::split`]
pub struct Receiver<'d, D: Driver<'d>> {
data_if: InterfaceNumber,
comm_ep: D::EndpointIn,
@ -400,7 +417,9 @@ pub struct Receiver<'d, D: Driver<'d>> {
}
impl<'d, D: Driver<'d>> Receiver<'d, D> {
/// Reads a single packet from the OUT endpoint.
/// Write a network packet.
///
/// This waits until a packet is succesfully received from the endpoint buffers.
pub async fn read_packet(&mut self, buf: &mut [u8]) -> Result<usize, EndpointError> {
// Retry loop
loop {

View File

@ -1,3 +1,5 @@
//! USB HID (Human Interface Device) class implementation.
use core::mem::MaybeUninit;
use core::ops::Range;
use core::sync::atomic::{AtomicUsize, Ordering};
@ -28,6 +30,7 @@ const HID_REQ_SET_REPORT: u8 = 0x09;
const HID_REQ_GET_PROTOCOL: u8 = 0x03;
const HID_REQ_SET_PROTOCOL: u8 = 0x0b;
/// Configuration for the HID class.
pub struct Config<'d> {
/// HID report descriptor.
pub report_descriptor: &'d [u8],
@ -46,11 +49,15 @@ pub struct Config<'d> {
pub max_packet_size: u16,
}
/// Report ID
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum ReportId {
/// IN report
In(u8),
/// OUT report
Out(u8),
/// Feature report
Feature(u8),
}
@ -65,12 +72,14 @@ impl ReportId {
}
}
/// Internal state for USB HID.
pub struct State<'d> {
control: MaybeUninit<Control<'d>>,
out_report_offset: AtomicUsize,
}
impl<'d> State<'d> {
/// Create a new `State`.
pub fn new() -> Self {
State {
control: MaybeUninit::uninit(),
@ -79,6 +88,7 @@ impl<'d> State<'d> {
}
}
/// USB HID reader/writer.
pub struct HidReaderWriter<'d, D: Driver<'d>, const READ_N: usize, const WRITE_N: usize> {
reader: HidReader<'d, D, READ_N>,
writer: HidWriter<'d, D, WRITE_N>,
@ -180,20 +190,30 @@ impl<'d, D: Driver<'d>, const READ_N: usize, const WRITE_N: usize> HidReaderWrit
}
}
/// USB HID writer.
///
/// You can obtain a `HidWriter` using [`HidReaderWriter::split`].
pub struct HidWriter<'d, D: Driver<'d>, const N: usize> {
ep_in: D::EndpointIn,
}
/// USB HID reader.
///
/// You can obtain a `HidReader` using [`HidReaderWriter::split`].
pub struct HidReader<'d, D: Driver<'d>, const N: usize> {
ep_out: D::EndpointOut,
offset: &'d AtomicUsize,
}
/// Error when reading a HID report.
#[derive(Debug, Clone, PartialEq, Eq)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum ReadError {
/// The given buffer was too small to read the received report.
BufferOverflow,
/// The endpoint is disabled.
Disabled,
/// The report was only partially read. See [`HidReader::read`] for details.
Sync(Range<usize>),
}
@ -344,6 +364,7 @@ impl<'d, D: Driver<'d>, const N: usize> HidReader<'d, D, N> {
}
}
/// Handler for HID-related control requests.
pub trait RequestHandler {
/// Reads the value of report `id` into `buf` returning the size.
///

View File

@ -1,3 +1,4 @@
//! Implementations of well-known USB classes.
pub mod cdc_acm;
pub mod cdc_ncm;
pub mod hid;

View File

@ -126,17 +126,23 @@ impl Request {
}
}
/// Response for a CONTROL OUT request.
#[derive(Copy, Clone, Eq, PartialEq, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum OutResponse {
/// The request was accepted.
Accepted,
/// The request was rejected.
Rejected,
}
/// Response for a CONTROL IN request.
#[derive(Copy, Clone, Eq, PartialEq, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum InResponse<'a> {
/// The request was accepted. The buffer contains the response data.
Accepted(&'a [u8]),
/// The request was rejected.
Rejected,
}
@ -148,6 +154,7 @@ pub trait ControlHandler {
/// Called after a USB reset after the bus reset sequence is complete.
fn reset(&mut self) {}
/// Called when a "set alternate setting" control request is done on the interface.
fn set_alternate_setting(&mut self, alternate_setting: u8) {
let _ = alternate_setting;
}

View File

@ -1,3 +1,5 @@
//! Utilities for writing USB descriptors.
use crate::builder::Config;
use crate::driver::EndpointInfo;
use crate::types::*;
@ -236,7 +238,7 @@ impl<'a> DescriptorWriter<'a> {
endpoint.ep_type as u8, // bmAttributes
endpoint.max_packet_size as u8,
(endpoint.max_packet_size >> 8) as u8, // wMaxPacketSize
endpoint.interval, // bInterval
endpoint.interval_ms, // bInterval
],
);
}

View File

@ -1,5 +1,7 @@
#![no_std]
#![feature(type_alias_impl_trait)]
#![doc = include_str!("../README.md")]
#![warn(missing_docs)]
// This mod MUST go first, so that the others see its macros.
pub(crate) mod fmt;
@ -46,10 +48,13 @@ pub enum UsbDeviceState {
Configured,
}
/// Error returned by [`UsbDevice::remote_wakeup`].
#[derive(PartialEq, Eq, Copy, Clone, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum RemoteWakeupError {
/// The USB device is not suspended, or remote wakeup was not enabled.
InvalidState,
/// The underlying driver doesn't support remote wakeup.
Unsupported,
}
@ -65,6 +70,7 @@ pub const CONFIGURATION_NONE: u8 = 0;
/// The bConfiguration value for the single configuration supported by this device.
pub const CONFIGURATION_VALUE: u8 = 1;
/// Maximum interface count, configured at compile time.
pub const MAX_INTERFACE_COUNT: usize = 4;
const STRING_INDEX_MANUFACTURER: u8 = 1;
@ -100,6 +106,7 @@ struct Interface<'d> {
num_strings: u8,
}
/// Main struct for the USB device stack.
pub struct UsbDevice<'d, D: Driver<'d>> {
control_buf: &'d mut [u8],
control: D::ControlPipe,
@ -489,7 +496,6 @@ impl<'d, D: Driver<'d>> Inner<'d, D> {
.unwrap();
// TODO check it is valid (not out of range)
// TODO actually enable/disable endpoints.
if let Some(handler) = &mut iface.handler {
handler.set_alternate_setting(new_altsetting);

View File

@ -1,3 +1,5 @@
//! USB types.
/// A handle for a USB interface that contains its number.
#[derive(Copy, Clone, Eq, PartialEq)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]