embassy/embassy-usb/src/lib.rs

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#![no_std]
#![feature(generic_associated_types)]
#![feature(type_alias_impl_trait)]
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// This mod MUST go first, so that the others see its macros.
pub(crate) mod fmt;
mod builder;
pub mod class;
pub mod control;
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pub mod descriptor;
pub mod driver;
pub mod types;
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mod util;
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use self::class::{RequestStatus, UsbClass};
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use self::control::*;
use self::descriptor::*;
use self::driver::*;
use self::types::*;
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use self::util::*;
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pub use self::builder::Config;
pub use self::builder::UsbDeviceBuilder;
/// The global state of the USB device.
///
/// In general class traffic is only possible in the `Configured` state.
#[repr(u8)]
#[derive(PartialEq, Eq, Copy, Clone, Debug)]
pub enum UsbDeviceState {
/// The USB device has just been created or reset.
Default,
/// The USB device has received an address from the host.
Addressed,
/// The USB device has been configured and is fully functional.
Configured,
/// The USB device has been suspended by the host or it has been unplugged from the USB bus.
Suspend,
}
/// The bConfiguration value for the not configured state.
pub const CONFIGURATION_NONE: u8 = 0;
/// The bConfiguration value for the single configuration supported by this device.
pub const CONFIGURATION_VALUE: u8 = 1;
/// The default value for bAlternateSetting for all interfaces.
pub const DEFAULT_ALTERNATE_SETTING: u8 = 0;
pub struct UsbDevice<'d, D: Driver<'d>, C: UsbClass<'d, D>> {
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bus: D::Bus,
control: D::ControlPipe,
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config: Config<'d>,
device_descriptor: &'d [u8],
config_descriptor: &'d [u8],
bos_descriptor: &'d [u8],
device_state: UsbDeviceState,
remote_wakeup_enabled: bool,
self_powered: bool,
pending_address: u8,
classes: C,
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}
impl<'d, D: Driver<'d>, C: UsbClass<'d, D>> UsbDevice<'d, D, C> {
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pub(crate) fn build(
mut driver: D,
config: Config<'d>,
device_descriptor: &'d [u8],
config_descriptor: &'d [u8],
bos_descriptor: &'d [u8],
classes: C,
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) -> Self {
let control = driver
.alloc_control_pipe(config.max_packet_size_0 as u16)
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.expect("failed to alloc control endpoint");
// Enable the USB bus.
// This prevent further allocation by consuming the driver.
let driver = driver.enable();
Self {
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bus: driver,
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config,
control,
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device_descriptor,
config_descriptor,
bos_descriptor,
device_state: UsbDeviceState::Default,
remote_wakeup_enabled: false,
self_powered: false,
pending_address: 0,
classes,
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}
}
pub async fn run(&mut self) {
loop {
let control_fut = self.control.setup();
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let bus_fut = self.bus.poll();
match select(bus_fut, control_fut).await {
Either::Left(evt) => match evt {
Event::Reset => {
self.bus.reset();
self.device_state = UsbDeviceState::Default;
self.remote_wakeup_enabled = false;
self.pending_address = 0;
self.classes.reset();
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}
Event::Resume => {}
Event::Suspend => {
self.bus.suspend();
self.device_state = UsbDeviceState::Suspend;
}
},
Either::Right(req) => {
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info!("control request: {:x}", req);
match req.direction {
UsbDirection::In => self.handle_control_in(req).await,
UsbDirection::Out => self.handle_control_out(req).await,
}
}
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}
}
}
async fn control_in_accept_writer(
&mut self,
req: Request,
f: impl FnOnce(&mut DescriptorWriter),
) {
let mut buf = [0; 256];
let mut w = DescriptorWriter::new(&mut buf);
f(&mut w);
let pos = w.position().min(usize::from(req.length));
self.control.accept_in(&buf[..pos]).await;
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}
async fn handle_control_out(&mut self, req: Request) {
{
let mut buf = [0; 128];
let data = if req.length > 0 {
let size = self.control.data_out(&mut buf).await.unwrap();
&buf[0..size]
} else {
&[]
};
match self.classes.control_out(req, data).await {
RequestStatus::Accepted => return self.control.accept(),
RequestStatus::Rejected => return self.control.reject(),
RequestStatus::Unhandled => (),
}
}
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const CONFIGURATION_NONE_U16: u16 = CONFIGURATION_NONE as u16;
const CONFIGURATION_VALUE_U16: u16 = CONFIGURATION_VALUE as u16;
const DEFAULT_ALTERNATE_SETTING_U16: u16 = DEFAULT_ALTERNATE_SETTING as u16;
match req.request_type {
RequestType::Standard => match (req.recipient, req.request, req.value) {
(
Recipient::Device,
Request::CLEAR_FEATURE,
Request::FEATURE_DEVICE_REMOTE_WAKEUP,
) => {
self.remote_wakeup_enabled = false;
self.control.accept();
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}
(Recipient::Endpoint, Request::CLEAR_FEATURE, Request::FEATURE_ENDPOINT_HALT) => {
//self.bus.set_stalled(((req.index as u8) & 0x8f).into(), false);
self.control.accept();
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}
(
Recipient::Device,
Request::SET_FEATURE,
Request::FEATURE_DEVICE_REMOTE_WAKEUP,
) => {
self.remote_wakeup_enabled = true;
self.control.accept();
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}
(Recipient::Endpoint, Request::SET_FEATURE, Request::FEATURE_ENDPOINT_HALT) => {
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self.bus
.set_stalled(((req.index as u8) & 0x8f).into(), true);
self.control.accept();
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}
(Recipient::Device, Request::SET_ADDRESS, 1..=127) => {
self.pending_address = req.value as u8;
// on NRF the hardware auto-handles SET_ADDRESS.
self.control.accept();
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}
(Recipient::Device, Request::SET_CONFIGURATION, CONFIGURATION_VALUE_U16) => {
self.device_state = UsbDeviceState::Configured;
self.control.accept();
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}
(Recipient::Device, Request::SET_CONFIGURATION, CONFIGURATION_NONE_U16) => {
match self.device_state {
UsbDeviceState::Default => {
self.control.accept();
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}
_ => {
self.device_state = UsbDeviceState::Addressed;
self.control.accept();
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}
}
}
(Recipient::Interface, Request::SET_INTERFACE, DEFAULT_ALTERNATE_SETTING_U16) => {
// TODO: do something when alternate settings are implemented
self.control.accept();
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}
_ => self.control.reject(),
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},
_ => self.control.reject(),
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}
}
async fn handle_control_in(&mut self, req: Request) {
match self
.classes
.control_in(req, class::ControlIn::new(&mut self.control))
.await
.status()
{
RequestStatus::Accepted | RequestStatus::Rejected => return,
RequestStatus::Unhandled => (),
}
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match req.request_type {
RequestType::Standard => match (req.recipient, req.request) {
(Recipient::Device, Request::GET_STATUS) => {
let mut status: u16 = 0x0000;
if self.self_powered {
status |= 0x0001;
}
if self.remote_wakeup_enabled {
status |= 0x0002;
}
self.control.accept_in(&status.to_le_bytes()).await;
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}
(Recipient::Interface, Request::GET_STATUS) => {
let status: u16 = 0x0000;
self.control.accept_in(&status.to_le_bytes()).await;
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}
(Recipient::Endpoint, Request::GET_STATUS) => {
let ep_addr: EndpointAddress = ((req.index as u8) & 0x8f).into();
let mut status: u16 = 0x0000;
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if self.bus.is_stalled(ep_addr) {
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status |= 0x0001;
}
self.control.accept_in(&status.to_le_bytes()).await;
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}
(Recipient::Device, Request::GET_DESCRIPTOR) => {
self.handle_get_descriptor(req).await;
}
(Recipient::Device, Request::GET_CONFIGURATION) => {
let status = match self.device_state {
UsbDeviceState::Configured => CONFIGURATION_VALUE,
_ => CONFIGURATION_NONE,
};
self.control.accept_in(&status.to_le_bytes()).await;
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}
(Recipient::Interface, Request::GET_INTERFACE) => {
// TODO: change when alternate settings are implemented
let status = DEFAULT_ALTERNATE_SETTING;
self.control.accept_in(&status.to_le_bytes()).await;
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}
_ => self.control.reject(),
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},
_ => self.control.reject(),
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}
}
async fn handle_get_descriptor(&mut self, req: Request) {
let (dtype, index) = req.descriptor_type_index();
let config = self.config.clone();
match dtype {
descriptor_type::BOS => self.control.accept_in(self.bos_descriptor).await,
descriptor_type::DEVICE => self.control.accept_in(self.device_descriptor).await,
descriptor_type::CONFIGURATION => self.control.accept_in(self.config_descriptor).await,
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descriptor_type::STRING => {
if index == 0 {
self.control_in_accept_writer(req, |w| {
w.write(descriptor_type::STRING, &lang_id::ENGLISH_US.to_le_bytes())
.unwrap();
})
.await
} else {
let s = match index {
1 => self.config.manufacturer,
2 => self.config.product,
3 => self.config.serial_number,
_ => {
let index = StringIndex::new(index);
let lang_id = req.index;
None
//classes
// .iter()
// .filter_map(|cls| cls.get_string(index, lang_id))
// .nth(0)
}
};
if let Some(s) = s {
self.control_in_accept_writer(req, |w| w.string(s).unwrap())
.await;
} else {
self.control.reject()
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}
}
}
_ => self.control.reject(),
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}
}
}