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|
use super::pipe::{DataBuf, Pipe, PipeErr, PipeTable};
use super::usbproto::*;
use core::convert::TryInto;
use log::{debug, error, info, trace};
// FIXME: once again, this doesn't belong here. The issue is that
// we're using `pipe_for`, which requires it.
use atsamd_hal::target_device::usb;
const MAX_DEVICES: usize = 16;
const MAX_ENDPOINTS: usize = 8;
// How long to wait before talking to the device again after setting
// its address. cf §9.2.6.3 of USB 2.0
const SETTLE_DELAY: usize = 2;
#[derive(Copy, Clone, Debug, PartialEq)]
pub(crate) enum Error {
PipeErr(PipeErr),
}
impl From<PipeErr> for Error {
fn from(e: PipeErr) -> Self {
Self::PipeErr(e)
}
}
enum FSM {
AddressSet,
WaitForSettle(usize),
GetConfigDescriptor,
SetConfig,
Steady,
}
pub(crate) struct DeviceTable {
devices: [Option<Device>; MAX_DEVICES],
}
// TODO: Untie device address from table index. Right now it's wasting
// a table slot because addr 0 isn't used here. And rather than just
// putting in an offset, which can be forgotten, it's better to let
// something else handle address assignment.
impl DeviceTable {
pub(crate) fn new() -> Self {
// TODO: should we create addr 0 here for use during
// enumeration? Probably.
Self {
devices: Default::default(),
}
}
/// Return the device at address `addr`.
pub(crate) fn device_for(&mut self, addr: u8) -> Option<&mut Device> {
if let Some(ref mut d) = self.devices[addr as usize] {
Some(d)
} else {
None
}
}
/// Allocate a device with the next available address.
// TODO: get rid of the millis argument somehow, but the device
// does need a way of tracking time for Settle reasons.
pub(crate) fn next(&mut self, millis: &'static dyn Fn() -> usize) -> Option<&mut Device> {
for i in 1..self.devices.len() {
if self.devices[i].is_none() {
let a = i.try_into().unwrap();
let d = Device::new(a, millis);
self.devices[i] = Some(d);
return self.device_for(a);
}
}
None
}
/// Remove the device at address `addr`.
pub(crate) fn remove(&mut self, addr: u8) -> Option<Device> {
let v = core::mem::replace(&mut self.devices[addr as usize], None);
v
}
pub(crate) fn run(&mut self, pipe_table: &mut PipeTable, host: &mut usb::HOST) {
for i in 1..self.devices.len() {
// TODO: Woof, this is ugly, but I'm not sure of a better
// way to avoid mutably borrowing self twice.
let mut remove_addr: Option<u8> = None;
if let Some(ref mut d) = self.devices[i] {
if let Err(e) = d.fsm(pipe_table, host) {
error!("Removing device {}: {:?}", d.addr, e);
remove_addr = Some(d.addr);
} else {
remove_addr = None;
}
}
if let Some(addr) = remove_addr {
self.remove(addr);
}
}
}
}
pub struct Device {
pub addr: u8,
pub max_packet_size: u8,
pub endpoints: [Option<Endpoint>; MAX_ENDPOINTS],
state: FSM,
millis: &'static dyn Fn() -> usize,
}
impl Device {
fn new(addr: u8, millis: &'static dyn Fn() -> usize) -> Self {
Self {
addr: addr,
max_packet_size: 8,
endpoints: Default::default(),
state: FSM::AddressSet,
// TODO: This doesn't belong here. Ideally the current
// time is passed in to the FSM routine.
millis: millis,
}
}
}
impl Device {
pub(crate) fn fsm(
&mut self,
pipe_table: &mut PipeTable,
host: &mut usb::HOST,
) -> Result<(), Error> {
match self.state {
FSM::AddressSet => self.state = FSM::WaitForSettle((self.millis)() + SETTLE_DELAY),
FSM::WaitForSettle(until) => {
if (self.millis)() >= until {
// Dunno why we get the device descriptor a second time.
let mut pipe = pipe_table.pipe_for(host, self.addr, 0);
let mut vol_descr =
::vcell::VolatileCell::<USBDeviceDescriptor>::new(Default::default());
pipe.control_req(
BMRequestType::get_descr(),
USBRequest::GetDescriptor,
WValue::from((0, USBDescriptor::Device as u8)),
0,
Some(DataBuf::from(&mut vol_descr)),
self.millis,
)?;
let desc = vol_descr.get();
trace!(" -- devDesc: {:?}", desc);
self.state = FSM::GetConfigDescriptor
}
}
FSM::GetConfigDescriptor => {
// Get config descriptor with minimal data, to see how much we need to allocate for the full descriptor.
let mut pipe = pipe_table.pipe_for(host, self.addr, 0);
let mut vol_descr =
::vcell::VolatileCell::<USBConfigurationDescriptor>::new(Default::default());
pipe.control_req(
BMRequestType::get_descr(),
USBRequest::GetDescriptor,
WValue::from((0, USBDescriptor::Configuration as u8)),
0,
Some(DataBuf::from(&mut vol_descr)),
self.millis,
)?;
let desc = vol_descr.get();
debug!("config: {:?}", desc);
// TODO: do real allocation later.
assert!(desc.w_total_length < 64);
let buf: [u8; 64] = [0; 64];
let mut tmp = &buf[..desc.w_total_length as usize];
pipe.control_req(
BMRequestType::get_descr(),
USBRequest::GetDescriptor,
WValue::from((0, USBDescriptor::Configuration as u8)),
0,
Some(DataBuf::from(&mut tmp)),
self.millis,
)?;
self.state = FSM::SetConfig
}
FSM::SetConfig => {
let mut pipe = pipe_table.pipe_for(host, self.addr, 0);
debug!("+++ setting configuration");
let conf: u8 = 1;
pipe.control_req(
BMRequestType::set(),
USBRequest::SetConfiguration,
WValue::from((conf, 0)),
0,
None,
self.millis,
)?;
debug!(" -- configuration set");
debug!("+++ setting idle");
pipe.control_req(
BMRequestType::from((
USBSetupDirection::HostToDevice,
USBSetupType::Class,
USBSetupRecipient::Interface,
)),
USBRequest::GetInterface, // This is also idle, but can't have two enums with the same value.
WValue::from((0, 0)),
0,
None,
self.millis,
)?;
debug!(" -- idle set");
debug!("+++ setting report");
let mut rep_res: u8 = 0;
pipe.control_req(
BMRequestType::from((
USBSetupDirection::HostToDevice,
USBSetupType::Class,
USBSetupRecipient::Interface,
)),
USBRequest::SetConfiguration,
WValue::from((0, 2)),
0,
Some(DataBuf::from(&mut rep_res)),
self.millis,
)?;
debug!(" -- report set: {}", rep_res);
self.state = FSM::Steady
}
FSM::Steady => {
// For now, just do an IN transfer to see if we can
// get some keyboard reports without further setup.
// EP 1 is boot proto keyboard.
let mut pipe = pipe_table.pipe_for(host, self.addr, 1);
pipe.regs.cfg.write(|w| unsafe { w.ptype().bits(0x4) });
pipe.regs.statusclr.write(|w| unsafe {
// No function for this. FIXME: need to patch the SVD for
// PSTATUSCLR.DTGL at bit0. No? This is in the SVD, but
// not the rust output.
w.bits(1)
});
self.read_report(&mut pipe, 1);
// EP 2 is consumer control keys.
//let mut pipe = pipe_table.pipe_for(host, self.addr, 2);
//pipe.regs.cfg.write(|w| unsafe { w.ptype().bits(0x4) });
//self.read_report(&mut pipe, 2);
}
}
Ok(())
}
fn read_report(&mut self, pipe: &mut Pipe, id: u8) {
let mut buf: core::mem::MaybeUninit<[u8; 64]> = core::mem::MaybeUninit::uninit();
let mut db = DataBuf::from(&mut buf);
match pipe.in_transfer(&mut db, 15, self.millis) {
Ok(bytes_received) => {
let tmp = unsafe { &(buf.assume_init())[..bytes_received] };
info!("report {}: {:?}", id, tmp);
}
Err(e) => info!("error {}: {:?}", id, e),
}
}
}
pub struct Endpoint {
num: u8,
typ: EndpointType,
}
impl Default for Endpoint {
fn default() -> Self {
Self {
num: 0,
typ: EndpointType::Control,
}
}
}
enum EndpointType {
Control,
In,
Out,
}
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