docs: document public apis of embassy-net-driver-channel

This commit is contained in:
Ulf Lilleengen 2023-12-20 09:24:10 +01:00
parent 97e919ea64
commit fc6e70caa5

View file

@ -1,5 +1,6 @@
#![no_std] #![no_std]
#![doc = include_str!("../README.md")] #![doc = include_str!("../README.md")]
#![warn(missing_docs)]
// must go first! // must go first!
mod fmt; mod fmt;
@ -15,6 +16,9 @@ use embassy_sync::blocking_mutex::Mutex;
use embassy_sync::waitqueue::WakerRegistration; use embassy_sync::waitqueue::WakerRegistration;
use embassy_sync::zerocopy_channel; use embassy_sync::zerocopy_channel;
/// Channel state.
///
/// Holds a buffer of packets with size MTU, for both TX and RX.
pub struct State<const MTU: usize, const N_RX: usize, const N_TX: usize> { pub struct State<const MTU: usize, const N_RX: usize, const N_TX: usize> {
rx: [PacketBuf<MTU>; N_RX], rx: [PacketBuf<MTU>; N_RX],
tx: [PacketBuf<MTU>; N_TX], tx: [PacketBuf<MTU>; N_TX],
@ -24,6 +28,7 @@ pub struct State<const MTU: usize, const N_RX: usize, const N_TX: usize> {
impl<const MTU: usize, const N_RX: usize, const N_TX: usize> State<MTU, N_RX, N_TX> { impl<const MTU: usize, const N_RX: usize, const N_TX: usize> State<MTU, N_RX, N_TX> {
const NEW_PACKET: PacketBuf<MTU> = PacketBuf::new(); const NEW_PACKET: PacketBuf<MTU> = PacketBuf::new();
/// Create a new channel state.
pub const fn new() -> Self { pub const fn new() -> Self {
Self { Self {
rx: [Self::NEW_PACKET; N_RX], rx: [Self::NEW_PACKET; N_RX],
@ -39,33 +44,45 @@ struct StateInner<'d, const MTU: usize> {
shared: Mutex<NoopRawMutex, RefCell<Shared>>, shared: Mutex<NoopRawMutex, RefCell<Shared>>,
} }
/// State of the LinkState
struct Shared { struct Shared {
link_state: LinkState, link_state: LinkState,
waker: WakerRegistration, waker: WakerRegistration,
hardware_address: driver::HardwareAddress, hardware_address: driver::HardwareAddress,
} }
/// Channel runner.
///
/// Holds the shared state and the lower end of channels for inbound and outbound packets.
pub struct Runner<'d, const MTU: usize> { pub struct Runner<'d, const MTU: usize> {
tx_chan: zerocopy_channel::Receiver<'d, NoopRawMutex, PacketBuf<MTU>>, tx_chan: zerocopy_channel::Receiver<'d, NoopRawMutex, PacketBuf<MTU>>,
rx_chan: zerocopy_channel::Sender<'d, NoopRawMutex, PacketBuf<MTU>>, rx_chan: zerocopy_channel::Sender<'d, NoopRawMutex, PacketBuf<MTU>>,
shared: &'d Mutex<NoopRawMutex, RefCell<Shared>>, shared: &'d Mutex<NoopRawMutex, RefCell<Shared>>,
} }
/// State runner.
///
/// Holds the shared state of the channel such as link state.
#[derive(Clone, Copy)] #[derive(Clone, Copy)]
pub struct StateRunner<'d> { pub struct StateRunner<'d> {
shared: &'d Mutex<NoopRawMutex, RefCell<Shared>>, shared: &'d Mutex<NoopRawMutex, RefCell<Shared>>,
} }
/// RX runner.
///
/// Holds the lower end of the channel for passing inbound packets up the stack.
pub struct RxRunner<'d, const MTU: usize> { pub struct RxRunner<'d, const MTU: usize> {
rx_chan: zerocopy_channel::Sender<'d, NoopRawMutex, PacketBuf<MTU>>, rx_chan: zerocopy_channel::Sender<'d, NoopRawMutex, PacketBuf<MTU>>,
} }
/// TX runner.
///
/// Holds the lower end of the channel for passing outbound packets down the stack.
pub struct TxRunner<'d, const MTU: usize> { pub struct TxRunner<'d, const MTU: usize> {
tx_chan: zerocopy_channel::Receiver<'d, NoopRawMutex, PacketBuf<MTU>>, tx_chan: zerocopy_channel::Receiver<'d, NoopRawMutex, PacketBuf<MTU>>,
} }
impl<'d, const MTU: usize> Runner<'d, MTU> { impl<'d, const MTU: usize> Runner<'d, MTU> {
/// Split the runner into separate runners for controlling state, rx and tx.
pub fn split(self) -> (StateRunner<'d>, RxRunner<'d, MTU>, TxRunner<'d, MTU>) { pub fn split(self) -> (StateRunner<'d>, RxRunner<'d, MTU>, TxRunner<'d, MTU>) {
( (
StateRunner { shared: self.shared }, StateRunner { shared: self.shared },
@ -74,6 +91,7 @@ impl<'d, const MTU: usize> Runner<'d, MTU> {
) )
} }
/// Split the runner into separate runners for controlling state, rx and tx borrowing the underlying state.
pub fn borrow_split(&mut self) -> (StateRunner<'_>, RxRunner<'_, MTU>, TxRunner<'_, MTU>) { pub fn borrow_split(&mut self) -> (StateRunner<'_>, RxRunner<'_, MTU>, TxRunner<'_, MTU>) {
( (
StateRunner { shared: self.shared }, StateRunner { shared: self.shared },
@ -86,10 +104,12 @@ impl<'d, const MTU: usize> Runner<'d, MTU> {
) )
} }
/// Create a state runner sharing the state channel.
pub fn state_runner(&self) -> StateRunner<'d> { pub fn state_runner(&self) -> StateRunner<'d> {
StateRunner { shared: self.shared } StateRunner { shared: self.shared }
} }
/// Set the link state.
pub fn set_link_state(&mut self, state: LinkState) { pub fn set_link_state(&mut self, state: LinkState) {
self.shared.lock(|s| { self.shared.lock(|s| {
let s = &mut *s.borrow_mut(); let s = &mut *s.borrow_mut();
@ -98,6 +118,7 @@ impl<'d, const MTU: usize> Runner<'d, MTU> {
}); });
} }
/// Set the hardware address.
pub fn set_hardware_address(&mut self, address: driver::HardwareAddress) { pub fn set_hardware_address(&mut self, address: driver::HardwareAddress) {
self.shared.lock(|s| { self.shared.lock(|s| {
let s = &mut *s.borrow_mut(); let s = &mut *s.borrow_mut();
@ -106,16 +127,19 @@ impl<'d, const MTU: usize> Runner<'d, MTU> {
}); });
} }
/// Wait until there is space for more inbound packets and return a slice they can be copied into.
pub async fn rx_buf(&mut self) -> &mut [u8] { pub async fn rx_buf(&mut self) -> &mut [u8] {
let p = self.rx_chan.send().await; let p = self.rx_chan.send().await;
&mut p.buf &mut p.buf
} }
/// Check if there is space for more inbound packets right now.
pub fn try_rx_buf(&mut self) -> Option<&mut [u8]> { pub fn try_rx_buf(&mut self) -> Option<&mut [u8]> {
let p = self.rx_chan.try_send()?; let p = self.rx_chan.try_send()?;
Some(&mut p.buf) Some(&mut p.buf)
} }
/// Polling the inbound channel if there is space for packets.
pub fn poll_rx_buf(&mut self, cx: &mut Context) -> Poll<&mut [u8]> { pub fn poll_rx_buf(&mut self, cx: &mut Context) -> Poll<&mut [u8]> {
match self.rx_chan.poll_send(cx) { match self.rx_chan.poll_send(cx) {
Poll::Ready(p) => Poll::Ready(&mut p.buf), Poll::Ready(p) => Poll::Ready(&mut p.buf),
@ -123,22 +147,26 @@ impl<'d, const MTU: usize> Runner<'d, MTU> {
} }
} }
/// Mark packet of len bytes as pushed to the inbound channel.
pub fn rx_done(&mut self, len: usize) { pub fn rx_done(&mut self, len: usize) {
let p = self.rx_chan.try_send().unwrap(); let p = self.rx_chan.try_send().unwrap();
p.len = len; p.len = len;
self.rx_chan.send_done(); self.rx_chan.send_done();
} }
/// Wait until there is space for more outbound packets and return a slice they can be copied into.
pub async fn tx_buf(&mut self) -> &mut [u8] { pub async fn tx_buf(&mut self) -> &mut [u8] {
let p = self.tx_chan.receive().await; let p = self.tx_chan.receive().await;
&mut p.buf[..p.len] &mut p.buf[..p.len]
} }
/// Check if there is space for more outbound packets right now.
pub fn try_tx_buf(&mut self) -> Option<&mut [u8]> { pub fn try_tx_buf(&mut self) -> Option<&mut [u8]> {
let p = self.tx_chan.try_receive()?; let p = self.tx_chan.try_receive()?;
Some(&mut p.buf[..p.len]) Some(&mut p.buf[..p.len])
} }
/// Polling the outbound channel if there is space for packets.
pub fn poll_tx_buf(&mut self, cx: &mut Context) -> Poll<&mut [u8]> { pub fn poll_tx_buf(&mut self, cx: &mut Context) -> Poll<&mut [u8]> {
match self.tx_chan.poll_receive(cx) { match self.tx_chan.poll_receive(cx) {
Poll::Ready(p) => Poll::Ready(&mut p.buf[..p.len]), Poll::Ready(p) => Poll::Ready(&mut p.buf[..p.len]),
@ -146,12 +174,14 @@ impl<'d, const MTU: usize> Runner<'d, MTU> {
} }
} }
/// Mark outbound packet as copied.
pub fn tx_done(&mut self) { pub fn tx_done(&mut self) {
self.tx_chan.receive_done(); self.tx_chan.receive_done();
} }
} }
impl<'d> StateRunner<'d> { impl<'d> StateRunner<'d> {
/// Set link state.
pub fn set_link_state(&self, state: LinkState) { pub fn set_link_state(&self, state: LinkState) {
self.shared.lock(|s| { self.shared.lock(|s| {
let s = &mut *s.borrow_mut(); let s = &mut *s.borrow_mut();
@ -160,6 +190,7 @@ impl<'d> StateRunner<'d> {
}); });
} }
/// Set the hardware address.
pub fn set_hardware_address(&self, address: driver::HardwareAddress) { pub fn set_hardware_address(&self, address: driver::HardwareAddress) {
self.shared.lock(|s| { self.shared.lock(|s| {
let s = &mut *s.borrow_mut(); let s = &mut *s.borrow_mut();
@ -170,16 +201,19 @@ impl<'d> StateRunner<'d> {
} }
impl<'d, const MTU: usize> RxRunner<'d, MTU> { impl<'d, const MTU: usize> RxRunner<'d, MTU> {
/// Wait until there is space for more inbound packets and return a slice they can be copied into.
pub async fn rx_buf(&mut self) -> &mut [u8] { pub async fn rx_buf(&mut self) -> &mut [u8] {
let p = self.rx_chan.send().await; let p = self.rx_chan.send().await;
&mut p.buf &mut p.buf
} }
/// Check if there is space for more inbound packets right now.
pub fn try_rx_buf(&mut self) -> Option<&mut [u8]> { pub fn try_rx_buf(&mut self) -> Option<&mut [u8]> {
let p = self.rx_chan.try_send()?; let p = self.rx_chan.try_send()?;
Some(&mut p.buf) Some(&mut p.buf)
} }
/// Polling the inbound channel if there is space for packets.
pub fn poll_rx_buf(&mut self, cx: &mut Context) -> Poll<&mut [u8]> { pub fn poll_rx_buf(&mut self, cx: &mut Context) -> Poll<&mut [u8]> {
match self.rx_chan.poll_send(cx) { match self.rx_chan.poll_send(cx) {
Poll::Ready(p) => Poll::Ready(&mut p.buf), Poll::Ready(p) => Poll::Ready(&mut p.buf),
@ -187,6 +221,7 @@ impl<'d, const MTU: usize> RxRunner<'d, MTU> {
} }
} }
/// Mark packet of len bytes as pushed to the inbound channel.
pub fn rx_done(&mut self, len: usize) { pub fn rx_done(&mut self, len: usize) {
let p = self.rx_chan.try_send().unwrap(); let p = self.rx_chan.try_send().unwrap();
p.len = len; p.len = len;
@ -195,16 +230,19 @@ impl<'d, const MTU: usize> RxRunner<'d, MTU> {
} }
impl<'d, const MTU: usize> TxRunner<'d, MTU> { impl<'d, const MTU: usize> TxRunner<'d, MTU> {
/// Wait until there is space for more outbound packets and return a slice they can be copied into.
pub async fn tx_buf(&mut self) -> &mut [u8] { pub async fn tx_buf(&mut self) -> &mut [u8] {
let p = self.tx_chan.receive().await; let p = self.tx_chan.receive().await;
&mut p.buf[..p.len] &mut p.buf[..p.len]
} }
/// Check if there is space for more outbound packets right now.
pub fn try_tx_buf(&mut self) -> Option<&mut [u8]> { pub fn try_tx_buf(&mut self) -> Option<&mut [u8]> {
let p = self.tx_chan.try_receive()?; let p = self.tx_chan.try_receive()?;
Some(&mut p.buf[..p.len]) Some(&mut p.buf[..p.len])
} }
/// Polling the outbound channel if there is space for packets.
pub fn poll_tx_buf(&mut self, cx: &mut Context) -> Poll<&mut [u8]> { pub fn poll_tx_buf(&mut self, cx: &mut Context) -> Poll<&mut [u8]> {
match self.tx_chan.poll_receive(cx) { match self.tx_chan.poll_receive(cx) {
Poll::Ready(p) => Poll::Ready(&mut p.buf[..p.len]), Poll::Ready(p) => Poll::Ready(&mut p.buf[..p.len]),
@ -212,11 +250,18 @@ impl<'d, const MTU: usize> TxRunner<'d, MTU> {
} }
} }
/// Mark outbound packet as copied.
pub fn tx_done(&mut self) { pub fn tx_done(&mut self) {
self.tx_chan.receive_done(); self.tx_chan.receive_done();
} }
} }
/// Create a channel.
///
/// Returns a pair of handles for interfacing with the peripheral and the networking stack.
///
/// The runner is interfacing with the peripheral at the lower part of the stack.
/// The device is interfacing with the networking stack on the layer above.
pub fn new<'d, const MTU: usize, const N_RX: usize, const N_TX: usize>( pub fn new<'d, const MTU: usize, const N_RX: usize, const N_TX: usize>(
state: &'d mut State<MTU, N_RX, N_TX>, state: &'d mut State<MTU, N_RX, N_TX>,
hardware_address: driver::HardwareAddress, hardware_address: driver::HardwareAddress,
@ -257,17 +302,22 @@ pub fn new<'d, const MTU: usize, const N_RX: usize, const N_TX: usize>(
) )
} }
/// Represents a packet of size MTU.
pub struct PacketBuf<const MTU: usize> { pub struct PacketBuf<const MTU: usize> {
len: usize, len: usize,
buf: [u8; MTU], buf: [u8; MTU],
} }
impl<const MTU: usize> PacketBuf<MTU> { impl<const MTU: usize> PacketBuf<MTU> {
/// Create a new packet buffer.
pub const fn new() -> Self { pub const fn new() -> Self {
Self { len: 0, buf: [0; MTU] } Self { len: 0, buf: [0; MTU] }
} }
} }
/// Channel device.
///
/// Holds the shared state and upper end of channels for inbound and outbound packets.
pub struct Device<'d, const MTU: usize> { pub struct Device<'d, const MTU: usize> {
rx: zerocopy_channel::Receiver<'d, NoopRawMutex, PacketBuf<MTU>>, rx: zerocopy_channel::Receiver<'d, NoopRawMutex, PacketBuf<MTU>>,
tx: zerocopy_channel::Sender<'d, NoopRawMutex, PacketBuf<MTU>>, tx: zerocopy_channel::Sender<'d, NoopRawMutex, PacketBuf<MTU>>,
@ -314,6 +364,9 @@ impl<'d, const MTU: usize> embassy_net_driver::Driver for Device<'d, MTU> {
} }
} }
/// A rx token.
///
/// Holds inbound receive channel and interfaces with embassy-net-driver.
pub struct RxToken<'a, const MTU: usize> { pub struct RxToken<'a, const MTU: usize> {
rx: zerocopy_channel::Receiver<'a, NoopRawMutex, PacketBuf<MTU>>, rx: zerocopy_channel::Receiver<'a, NoopRawMutex, PacketBuf<MTU>>,
} }
@ -331,6 +384,9 @@ impl<'a, const MTU: usize> embassy_net_driver::RxToken for RxToken<'a, MTU> {
} }
} }
/// A tx token.
///
/// Holds outbound transmit channel and interfaces with embassy-net-driver.
pub struct TxToken<'a, const MTU: usize> { pub struct TxToken<'a, const MTU: usize> {
tx: zerocopy_channel::Sender<'a, NoopRawMutex, PacketBuf<MTU>>, tx: zerocopy_channel::Sender<'a, NoopRawMutex, PacketBuf<MTU>>,
} }