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|
#![no_std]
#![allow(dead_code)]
mod pipe;
mod usbproto;
use pipe::{DataBuf, PipeErr, PipeTable, USBPipeType, USBToken};
use rb::{Reader, RingBuffer, Writer};
use usbproto::*;
use atsamd_hal::{
calibration::{usb_transn_cal, usb_transp_cal, usb_trim_cal},
clock::{ClockGenId, ClockSource, GenericClockController},
gpio::{self, Floating, Input, OpenDrain, Output},
target_device::{PM, USB},
};
use embedded_hal::digital::v2::OutputPin;
use log::{info, warn};
#[derive(Clone, Copy, Debug, PartialEq)]
pub enum Event {
Error,
Detached,
Attached,
}
type Events = RingBuffer<Event>;
type EventReader = Reader<'static, Event>;
type EventWriter = Writer<'static, Event>;
#[derive(Clone, Copy, Debug, PartialEq)]
enum DetachedState {
Initialize,
WaitForDevice,
Illegal,
}
#[derive(Clone, Copy, Debug, PartialEq)]
enum AttachedState {
WaitForSettle,
WaitResetComplete,
WaitSOF,
}
#[derive(Clone, Copy, Debug, PartialEq)]
enum SteadyState {
Configuring,
Running,
Error,
}
#[derive(Clone, Copy, Debug, PartialEq)]
enum TaskState {
Detached(DetachedState),
Attached(AttachedState),
Steady(SteadyState),
}
const MAX_DEVICES: usize = 16;
const SETTLE_DELAY: usize = 205; // Delay in sec/1024
const NAK_LIMIT: usize = 15;
static mut EVENTS: Events = Events::new(Event::Error);
// FIXME: this is just for testing. The enum needs to be
// thread-safe if this is the way we're going.
static mut LATEST_EVENT: Event = Event::Detached;
#[repr(C)]
#[derive(Debug)]
struct EPInfo {
ep_addr: u32,
mak_pkt_size: u32,
ep_attribs: u8,
}
impl EPInfo {
fn bm_snd_toggle(&self) -> bool {
const POS: u8 = 0;
const MASK: u8 = 0x1;
((self.ep_attribs >> POS) & MASK) == 1
}
fn bm_rcv_toggle(&self) -> bool {
const POS: u8 = 1;
const MASK: u8 = 0x1;
((self.ep_attribs >> POS) & MASK) == 1
}
fn bm_nak_power(&self) -> u8 {
const POS: u8 = 2;
const MASK: u8 = 0x3f;
(self.ep_attribs >> POS) & MASK
}
}
#[derive(Debug)]
struct USBDeviceAddress(u32);
impl USBDeviceAddress {
fn bm_address(&self) -> u8 {
const POS: u8 = 0;
const MASK: u32 = 0x7;
((self.0 >> POS) & MASK) as u8
}
fn bm_parent(&self) -> u8 {
const POS: u8 = 3;
const MASK: u32 = 0x7;
((self.0 >> POS) & MASK) as u8
}
fn bm_hub(&self) -> bool {
const POS: u8 = 6;
const MASK: u32 = 0x1;
((self.0 >> POS) & MASK) == 1
}
}
pub struct USBHost<F>
where
F: Fn() -> usize + 'static,
{
usb: USB,
events: EventReader,
task_state: TaskState,
delay: usize,
// Need chunk of RAM for USB pipes, which gets used with DESCADD
// register.
pipe_table: PipeTable,
// need sof 1kHz pad?
_sof_pad: gpio::Pa23<gpio::PfG>,
_dm_pad: gpio::Pa24<gpio::PfG>,
_dp_pad: gpio::Pa25<gpio::PfG>,
host_enable_pin: Option<gpio::Pa28<Output<OpenDrain>>>,
// To get current milliseconds.
millis: &'static F,
}
impl<F> USBHost<F>
where
F: Fn() -> usize + 'static,
{
pub fn new(
usb: USB,
sof_pin: gpio::Pa23<Input<Floating>>,
dm_pin: gpio::Pa24<Input<Floating>>,
dp_pin: gpio::Pa25<Input<Floating>>,
host_enable_pin: Option<gpio::Pa28<Input<Floating>>>,
port: &mut gpio::Port,
clocks: &mut GenericClockController,
pm: &mut PM,
millis: &'static F,
) -> (Self, impl FnMut()) {
let (eventr, mut eventw) = unsafe { EVENTS.split() };
let mut rc = Self {
usb: usb,
events: eventr,
task_state: TaskState::Detached(DetachedState::Initialize),
delay: 0,
pipe_table: PipeTable::new(),
_sof_pad: sof_pin.into_function_g(port),
_dm_pad: dm_pin.into_function_g(port),
_dp_pad: dp_pin.into_function_g(port),
host_enable_pin: None,
millis: millis,
};
if let Some(he_pin) = host_enable_pin {
rc.host_enable_pin = Some(he_pin.into_open_drain_output(port));
}
info!("setting up usb clock");
pm.apbbmask.modify(|_, w| w.usb_().set_bit());
// Set up USB clock from 48MHz source on generic clock 6.
clocks.configure_gclk_divider_and_source(ClockGenId::GCLK6, 1, ClockSource::DFLL48M, false);
let gclk6 = clocks
.get_gclk(ClockGenId::GCLK6)
.expect("Could not get clock 6");
clocks.usb(&gclk6);
let usbp = &rc.usb as *const _ as usize;
(rc, move || handler(usbp, &mut eventw))
}
pub fn reset_periph(&mut self) {
info!("resetting usb");
// Reset the USB peripheral and wait for sync.
self.usb.host().ctrla.write(|w| w.swrst().set_bit());
while self.usb.host().syncbusy.read().swrst().bit_is_set() {}
// Specify host mode.
self.usb.host().ctrla.modify(|_, w| w.mode().host());
// Unsafe due to use of raw bits method.
unsafe {
self.usb.host().padcal.write(|w| {
w.transn().bits(usb_transn_cal());
w.transp().bits(usb_transp_cal());
w.trim().bits(usb_trim_cal())
});
}
// Use normal, which is 0 and apparently means low-and-full capable
self.usb.host().ctrlb.modify(|_, w| w.spdconf().normal());
// According to docs, 1,2,3 are reserved, but .fs returns 3
//self.usb.host().ctrlb.modify(|_, w| w.spdconf().fs());
self.usb.host().ctrla.modify(|_, w| w.runstdby().set_bit()); // keep usb clock running in standby.
// Set address of USB SRAM.
// Unsafe due to use of raw bits method.
unsafe {
self.usb
.host()
.descadd
.write(|w| w.bits(&self.pipe_table as *const _ as u32));
}
if let Some(he_pin) = &mut self.host_enable_pin {
he_pin.set_high().expect("turning on usb host enable pin");
}
self.usb.host().intenset.write(|w| {
w.wakeup().set_bit();
w.dconn().set_bit();
w.ddisc().set_bit()
});
self.usb.host().ctrla.modify(|_, w| w.enable().set_bit());
while self.usb.host().syncbusy.read().enable().bit_is_set() {}
// Set VBUS OK to allow host operation.
self.usb.host().ctrlb.modify(|_, w| w.vbusok().set_bit());
info!("...done");
}
pub fn task(&mut self) {
static mut LAST_EVENT: Event = Event::Error;
unsafe {
if LAST_EVENT != LATEST_EVENT {
info!("new event: {:?}", LATEST_EVENT);
}
}
static mut LAST_TASK_STATE: TaskState = TaskState::Detached(DetachedState::Illegal);
self.task_state = match unsafe { LATEST_EVENT } {
Event::Error => TaskState::Detached(DetachedState::Illegal),
Event::Detached => {
if let TaskState::Detached(_) = self.task_state {
self.task_state
} else {
TaskState::Detached(DetachedState::Initialize)
}
}
Event::Attached => {
if let TaskState::Detached(_) = self.task_state {
self.delay = (self.millis)() + SETTLE_DELAY;
TaskState::Attached(AttachedState::WaitForSettle)
} else {
self.task_state
}
}
};
static mut LAST_CBITS: u16 = 0;
static mut LAST_FLAGS: u16 = 0;
let cbits = self.usb.host().ctrlb.read().bits();
let bits = self.usb.host().intflag.read().bits();
unsafe {
if LAST_CBITS != cbits || LAST_FLAGS != bits || LAST_TASK_STATE != self.task_state {
info!(
"cb: {:x}, f: {:x} changing state {:?} -> {:?}",
cbits, bits, LAST_TASK_STATE, self.task_state,
);
}
LAST_CBITS = cbits;
LAST_FLAGS = bits;
LAST_TASK_STATE = self.task_state
};
if let Some(_event) = self.events.shift() {
// info!("Found event: {:?}", event);
// self.task_state = match event {
// Event::None => TaskState::Detached(DetachedState::Illegal),
// Event::Detached => {
// if let TaskState::Detached(_) = self.task_state {
// self.task_state
// } else {
// TaskState::Detached(DetachedState::Initialize)
// }
// }
// Event::Attached => {
// if let TaskState::Detached(_) = self.task_state {
// self.delay = self.millis() + SETTLE_DELAY;
// TaskState::Attached(AttachedState::WaitForSettle)
// } else {
// self.task_state
// }
// }
// };
}
self.poll_devices();
self.fsm();
unsafe {
LAST_EVENT = LATEST_EVENT;
}
}
fn poll_devices(&mut self) {
for _ in 0..MAX_DEVICES {}
}
fn fsm(&mut self) {
// respond to events from interrupt.
match self.task_state {
TaskState::Detached(s) => self.detached_fsm(s),
TaskState::Attached(s) => self.attached_fsm(s),
TaskState::Steady(s) => self.steady_fsm(s),
};
}
fn detached_fsm(&mut self, s: DetachedState) {
match s {
DetachedState::Initialize => {
self.reset_periph();
// TODO: Free resources.
self.task_state = TaskState::Detached(DetachedState::WaitForDevice);
}
// Do nothing state. Just wait for an interrupt to come in
// saying we have a device attached.
DetachedState::WaitForDevice => {}
// TODO: should probably reset everything if we end up here somehow.
DetachedState::Illegal => {}
}
}
fn attached_fsm(&mut self, s: AttachedState) {
match s {
AttachedState::WaitForSettle => {
if (self.millis)() >= self.delay {
self.usb.host().ctrlb.modify(|_, w| w.busreset().set_bit());
self.task_state = TaskState::Attached(AttachedState::WaitResetComplete);
}
}
AttachedState::WaitResetComplete => {
if self.usb.host().intflag.read().rst().bit_is_set() {
info!("reset was sent");
self.usb.host().intflag.write(|w| w.rst().set_bit());
// Make sure we always have a control pipe set up.
self.init_pipe0();
// Seems unneccesary, since SOFE will be set
// immediately after reset according to §32.6.3.3.
self.usb.host().ctrlb.modify(|_, w| w.sofe().set_bit());
// USB spec requires 20ms of SOF after bus reset.
self.delay = (self.millis)() + 20;
self.task_state = TaskState::Attached(AttachedState::WaitSOF);
}
}
AttachedState::WaitSOF => {
if self.usb.host().intflag.read().hsof().bit_is_set() {
self.usb.host().intflag.write(|w| w.hsof().set_bit());
if (self.millis)() >= self.delay {
self.task_state = TaskState::Steady(SteadyState::Configuring);
}
}
}
}
}
fn steady_fsm(&mut self, s: SteadyState) {
match s {
SteadyState::Configuring => {
let low_speed = 0;
self.task_state = match self.configure_dev(0, 0, low_speed) {
Ok(_) => TaskState::Steady(SteadyState::Running),
Err(e) => {
warn!("Enumeration error: {:?}", e);
TaskState::Steady(SteadyState::Error)
}
}
}
SteadyState::Running => {}
SteadyState::Error => {}
}
}
fn configure_dev(&mut self, _parent: u32, _port: u32, _low_speed: u32) -> Result<(), PipeErr> {
// addr: 0x20007774
let tmp: USBDeviceDescriptor = Default::default();
// addr: 0x20007788
let mut vol_descr = ::vcell::VolatileCell::new(tmp);
self.control_req(
0,
0,
BMRequestType::get_descr(),
USBRequest::GetDescriptor,
WValue::from((0, USBDescriptor::Device as u8)),
0,
Some(DataBuf::from(&mut vol_descr)),
)?;
let desc = vol_descr.get();
info!(" -- devDesc: {:?}", desc);
// Assign address to this device and:
// - Stash bMaxPacketSize
// Then SET_ADDRESS(newAddr)
let new_address: u8 = 1;
self.control_req(
0,
0,
BMRequestType::set(),
USBRequest::SetAddress,
WValue::from((new_address, 0)),
0,
None,
)?;
info!(" -- address set");
// Delay according to §9.2.6.3 of USB 2.0
let until = (self.millis)() + 300;
while (self.millis)() < until {}
info!("getting config with array");
//let tmp: USBConfigurationDescriptor = Default::default();
let mut tmp: [u8; 9] = [0; 9];
//let vol_descr = ::vcell::VolatileCell::new(tmp);
self.control_req(
new_address,
0,
BMRequestType::get_descr(),
USBRequest::GetConfiguration,
WValue::from((0, 0)),
0,
Some(DataBuf::from(&mut tmp)),
)?;
//let desc = vol_descr.get();
info!("cdesc.len: {}, type: {}", tmp[0], tmp[1]);
// Once addressed, SET_CONFIGURATION(0)
info!("+++ setting configuration");
let conf: u8 = 0;
self.control_req(
new_address,
0,
BMRequestType::set(),
USBRequest::SetConfiguration,
WValue::from((conf, 0)),
0,
None,
)?;
info!(" -- configuration set");
// Now we should be able to access it normally.
Ok(())
}
fn control_req(
&mut self,
addr: u8,
ep: u8,
bm_request_type: BMRequestType,
b_request: USBRequest,
w_value: WValue,
w_index: u16,
buf: Option<DataBuf>,
) -> Result<(), PipeErr> {
if let Some(ref b) = buf {
assert!(b.ptr as usize & 0x3 == 0);
assert!(b.len <= 65_535);
}
/*
* Setup stage.
*/
let mut setup_packet = USBSetupPacket {
bm_request_type: bm_request_type,
b_request: b_request,
w_value: w_value,
w_index: w_index,
w_length: match buf {
None => 0,
Some(ref b) => b.len as u16,
},
};
let mut pipe = self.pipe_table.pipe_for(self.usb.host_mut(), addr, ep);
pipe.send(
USBToken::Setup,
&DataBuf::from(&mut setup_packet),
NAK_LIMIT,
self.millis,
)?;
/*
* Data stage.
*/
if let Some(b) = buf {
match bm_request_type.direction() {
USBSetupDirection::DeviceToHost => {
info!("buf0: {:?}", &b);
pipe.in_transfer(&b, NAK_LIMIT, self.millis)?;
info!("buf1: {:?}", &b);
}
USBSetupDirection::HostToDevice => {
info!("Should OUT for {}b", b.len);
}
}
}
/*
* Status stage.
*/
pipe.desc.bank0.pcksize.write(|w| {
// FIXME: see note in `Pipe.send`.
unsafe { w.bits(0) }
});
// PSTATUSSET.DTGL set -- TODO: figure out if this is
// necessary.
pipe.regs.statusset.write(|w| w.dtgl().set_bit());
let token = match bm_request_type.direction() {
USBSetupDirection::DeviceToHost => USBToken::Out,
USBSetupDirection::HostToDevice => USBToken::In,
};
// TODO: should probably make `pipe.send` have optional
// `DataBuf`, rather than exposing `dispatch_retries`.
info!("dispatching status stage");
pipe.dispatch_retries(token, NAK_LIMIT, self.millis)?;
Ok(())
}
// Set up a default pipe for the control endpoint 0 on pipe 0.
fn init_pipe0(&mut self) {
let speed = self.usb.host().status.read().speed().bits();
let pipe = self.pipe_table.pipe_for(self.usb.host_mut(), 0, 0);
pipe.regs.cfg.write(|w| {
unsafe { w.ptype().bits(USBPipeType::Control as u8) };
w.bk().clear_bit()
});
pipe.desc.bank0.pcksize.write(|w| match speed {
0 => w.size().bytes64(),
_ => w.size().bytes8(),
});
}
}
pub fn handler(usbp: usize, events: &mut EventWriter) {
let usb: &mut USB = unsafe { core::mem::transmute(usbp) };
let flags = usb.host().intflag.read();
info!("USB - {:x}", flags.bits());
let mut unshift_event = |e: Event| {
unsafe { LATEST_EVENT = e };
if let Err(_) = events.unshift(e) {
info!("Couldn't write USB event to queue.");
}
};
if flags.hsof().bit_is_set() {
info!(" +hsof");
usb.host().intflag.write(|w| w.hsof().set_bit());
unshift_event(Event::Attached);
}
if flags.rst().bit_is_set() {
// We seem to get this whenever a device attaches/detaches.
info!(" +rst");
usb.host().intflag.write(|w| w.rst().set_bit());
unshift_event(Event::Detached);
}
if flags.uprsm().bit_is_set() {
info!(" +uprsm");
usb.host().intflag.write(|w| w.uprsm().set_bit());
unshift_event(Event::Detached);
}
if flags.dnrsm().bit_is_set() {
info!(" +dnrsm");
usb.host().intflag.write(|w| w.dnrsm().set_bit());
unshift_event(Event::Detached);
}
if flags.wakeup().bit_is_set() {
// §32.8.5.8 - since VBUSOK is set, then this happens when a
// device is connected.
info!(" +wakeup");
usb.host().intflag.write(|w| w.wakeup().set_bit());
unshift_event(Event::Attached);
}
if flags.ramacer().bit_is_set() {
info!(" +ramacer");
usb.host().intflag.write(|w| w.ramacer().set_bit());
unshift_event(Event::Detached);
}
if flags.dconn().bit_is_set() {
info!(" +dconn");
usb.host().intflag.write(|w| w.dconn().set_bit());
usb.host().intenclr.write(|w| w.dconn().set_bit());
usb.host().intflag.write(|w| w.ddisc().set_bit());
usb.host().intenset.write(|w| w.ddisc().set_bit());
usb.host().intflag.write(|w| w.dconn().set_bit());
unshift_event(Event::Attached);
}
if flags.ddisc().bit_is_set() {
info!(" +ddisc");
usb.host().intflag.write(|w| w.ddisc().set_bit());
usb.host().intenclr.write(|w| w.ddisc().set_bit());
// // Stop reset signal, in case of disconnection during reset
// uhd_stop_reset(); // nothing on samd21
usb.host().intflag.write(|w| w.dconn().set_bit());
usb.host().intenset.write(|w| w.dconn().set_bit());
usb.host().intflag.write(|w| w.ddisc().set_bit());
unshift_event(Event::Detached);
}
}
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