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v1.2.0 ... main

Author SHA1 Message Date
9838c4ee64
feat: implement XInput mode (#27)
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Publish nightly release / build (push) Successful in 6m1s
Reviewed-on: #27
2024-10-29 19:53:18 +00:00
6475e844a9
chore: improve flake & ci (#28)
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Publish nightly release / build (push) Successful in 1m15s
Reviewed-on: #28
2024-10-27 20:49:20 +00:00
11 changed files with 763 additions and 60 deletions

10
.changelogs/v1.3.0.md Normal file
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@ -0,0 +1,10 @@
This release introduces XInput mode for the NaxGCC. This mode is mostly useful for playing games on PC, as it offers the best out-of-the-box compatiblity experience with most titles. Similar to Pro-Controller Mode, this is not a permanent configuration that you set, but a mode that is activated by pressing a button while plugging your controller in.
To enter XInput Mode, press and hold the `X` button while plugging in your controller. While in XInput mode, your NaxGCC will _always_ poll at 1ms intervals, regardless of your chosen input consistency mode setting. Once you go back to GCC or Pro-Controller Mode, your desired input consistency setting will be restored.
> [!NOTE]
> As of this version, rumble will _not_ work while in XInput mode.
---
To update your firmware, plug in your controller to your computer while keeping the `A+X+Y` buttons held. Then drag & drop the `.uf2` file (found below, under Downloads) onto the storage device that appears.

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@ -10,8 +10,6 @@ jobs:
check:
runs-on: nix-flakes
steps:
- uses: actions/checkout@v4
@ -25,4 +23,4 @@ jobs:
- name: Run Clippy
run: |
nix build .#clippy --print-build-logs -j auto
nix flake check . --print-build-logs -j auto

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@ -21,9 +21,9 @@ jobs:
cache: "${{ vars.PUBLIC_BINARY_CACHE_NAME }}"
- uses: actions/checkout@v4
- name: Run Clippy
- name: Run flake checks
run: |
nix build .#clippy --print-build-logs -j auto
nix flake check . --print-build-logs -j auto
- name: Build firmware image
run: |

2
Cargo.lock generated
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@ -866,7 +866,7 @@ checksum = "523dc4f511e55ab87b694dc30d0f820d60906ef06413f93d4d7a1385599cc149"
[[package]]
name = "naxgcc-fw"
version = "1.2.0"
version = "1.3.0"
dependencies = [
"cortex-m",
"cortex-m-rt",

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@ -1,6 +1,6 @@
[package]
name = "naxgcc-fw"
version = "1.2.0"
version = "1.3.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html

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@ -47,33 +47,37 @@
CARGO_BUILD_TARGET = "thumbv6m-none-eabi";
in
{
packages.default = self.packages.${system}.naxgcc-fw-uf2;
packages = {
default = self.packages.${system}.naxgcc-fw-uf2;
packages.naxgcc-fw-uf2 = pkgs.runCommandLocal "${self.packages.${system}.naxgcc-fw.pname}-uf2-${self.packages.${system}.naxgcc-fw.version}" { } ''
mkdir -p $out/bin
${pkgs.elf2uf2-rs}/bin/elf2uf2-rs ${self.packages.${system}.naxgcc-fw}/bin/${self.packages.${system}.naxgcc-fw.pname} $out/bin/${self.packages.${system}.naxgcc-fw.pname}.uf2
'';
naxgcc-fw-uf2 = pkgs.runCommandLocal "${self.packages.${system}.naxgcc-fw.pname}-uf2-${self.packages.${system}.naxgcc-fw.version}" { } ''
mkdir -p $out/bin
${pkgs.elf2uf2-rs}/bin/elf2uf2-rs ${self.packages.${system}.naxgcc-fw}/bin/${self.packages.${system}.naxgcc-fw.pname} $out/bin/${self.packages.${system}.naxgcc-fw.pname}.uf2
'';
packages.naxgcc-fw = pkgs.callPackage
({ mode ? "build" }: naersk_lib.buildPackage {
pname = (builtins.fromTOML (builtins.readFile ./Cargo.toml)).package.name;
version = (builtins.fromTOML (builtins.readFile ./Cargo.toml)).package.version;
naxgcc-fw = pkgs.callPackage
({ mode ? "build" }: naersk_lib.buildPackage {
pname = (builtins.fromTOML (builtins.readFile ./Cargo.toml)).package.name;
version = (builtins.fromTOML (builtins.readFile ./Cargo.toml)).package.version;
inherit mode;
inherit mode;
src = self;
src = self;
cargoBuildOptions = _orig: _orig ++ [
"--target=${CARGO_BUILD_TARGET}"
];
cargoBuildOptions = _orig: _orig ++ [
"--target=${CARGO_BUILD_TARGET}"
];
# if a tree falls in the forest and no one is around to hear it, does it make a sound?
DEFMT_LOG = "off";
})
{ };
# if a tree falls in the forest and no one is around to hear it, does it make a sound?
DEFMT_LOG = "off";
})
{ };
};
packages.clippy = self.packages.${system}.naxgcc-fw.override {
mode = "clippy";
checks = {
clippy = self.packages.${system}.naxgcc-fw.override {
mode = "clippy";
};
};
devShells.default = pkgs.mkShell {

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@ -571,6 +571,8 @@ pub enum ControllerMode {
GcAdapter = 0,
/// Pretend to be a Nintendo Switch Pro Controller connected via USB.
Procon = 1,
/// Act as an XInput device, and also advertise itself with 1000Hz polling capability.
XInput = 2,
}
#[derive(Debug, Clone, Format, PackedStruct)]

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@ -1,2 +1,70 @@
use embassy_usb::{
class::hid::{HidReader, HidReaderWriter, HidWriter, ReadError, RequestHandler},
driver::{Driver, EndpointError},
};
pub mod gcc;
pub mod procon;
pub mod xinput;
/// Custom trait to unify the API between embassy's HID writer, and our XInput reader/writer (and any
/// custom writers we may create in the future)
pub trait HidReaderWriterSplit<'d, D: Driver<'d>, const READ_N: usize, const WRITE_N: usize> {
fn split(
self,
) -> (
impl UsbReader<'d, D, READ_N>,
impl UsbWriter<'d, D, WRITE_N>,
);
}
/// Custom trait to unify the API between embassy's HID writer, and our XInput reader (and any
/// custom writers we may create in the future)
pub trait UsbReader<'d, D: Driver<'d>, const READ_N: usize> {
async fn run<T: RequestHandler>(self, use_report_ids: bool, handler: &mut T) -> !;
async fn read(&mut self, buf: &mut [u8]) -> Result<usize, ReadError>;
}
/// Custom trait to unify the API between embassy's HID writer, and our XInput writer (and any
/// custom writers we may create in the future)
pub trait UsbWriter<'d, D: Driver<'d>, const WRITE_N: usize> {
async fn ready(&mut self);
async fn write(&mut self, report: &[u8]) -> Result<(), EndpointError>;
}
impl<'d, D: Driver<'d>, const READ_N: usize, const WRITE_N: usize>
HidReaderWriterSplit<'d, D, READ_N, WRITE_N> for HidReaderWriter<'d, D, READ_N, WRITE_N>
{
fn split(
self,
) -> (
impl UsbReader<'d, D, READ_N>,
impl UsbWriter<'d, D, WRITE_N>,
) {
self.split()
}
}
impl<'d, D: Driver<'d>, const READ_N: usize> UsbReader<'d, D, READ_N> for HidReader<'d, D, READ_N> {
async fn run<T: RequestHandler>(self, use_report_ids: bool, handler: &mut T) -> ! {
self.run(use_report_ids, handler).await
}
async fn read(&mut self, buf: &mut [u8]) -> Result<usize, ReadError> {
self.read(buf).await
}
}
impl<'d, D: Driver<'d>, const WRITE_N: usize> UsbWriter<'d, D, WRITE_N>
for HidWriter<'d, D, WRITE_N>
{
async fn ready(&mut self) {
self.ready().await
}
async fn write(&mut self, report: &[u8]) -> Result<(), EndpointError> {
self.write(report).await
}
}

544
src/hid/xinput.rs Normal file
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@ -0,0 +1,544 @@
///
/// # XInput Protocol Implementation
///
/// The implementations for `XInputReader` and `XInputWriter` and the logic surrounding them is
/// mostly taken from embassy.
///
/// Unfortunately, the embassy hid classes don't allow us to specify a custom interface protocol,
/// hence the little bit of code duplication.
///
use core::{
mem::MaybeUninit,
sync::atomic::{AtomicUsize, Ordering},
};
use defmt::{info, trace, warn, Format};
use embassy_usb::{
class::hid::{Config, ReadError, ReportId, RequestHandler},
control::{InResponse, OutResponse, Recipient, Request, RequestType},
driver::{Driver, Endpoint, EndpointError, EndpointIn, EndpointOut},
types::InterfaceNumber,
Builder, Handler,
};
use packed_struct::{derive::PackedStruct, PackedStruct};
use crate::usb_comms::HidReportBuilder;
use super::{gcc::GcState, HidReaderWriterSplit, UsbReader, UsbWriter};
/// lol
pub const XINPUT_REPORT_DESCRIPTOR: &[u8] = &[];
const HID_DESC_DESCTYPE_HID: u8 = 0x21;
const HID_DESC_DESCTYPE_HID_REPORT: u8 = 0x22;
const HID_REQ_SET_IDLE: u8 = 0x0a;
const HID_REQ_GET_IDLE: u8 = 0x02;
const HID_REQ_GET_REPORT: u8 = 0x01;
const HID_REQ_SET_REPORT: u8 = 0x09;
const HID_REQ_GET_PROTOCOL: u8 = 0x03;
const HID_REQ_SET_PROTOCOL: u8 = 0x0b;
#[derive(Clone, Copy, Debug, PartialEq, Eq, Default, PackedStruct, Format)]
#[packed_struct(bit_numbering = "lsb0", size_bytes = "1")]
pub struct XInputButtons1 {
#[packed_field(bits = "0")]
pub dpad_up: bool,
#[packed_field(bits = "1")]
pub dpad_down: bool,
#[packed_field(bits = "2")]
pub dpad_left: bool,
#[packed_field(bits = "3")]
pub dpad_right: bool,
#[packed_field(bits = "4")]
pub button_menu: bool,
#[packed_field(bits = "5")]
pub button_back: bool,
#[packed_field(bits = "6")]
pub button_stick_l: bool,
#[packed_field(bits = "7")]
pub button_stick_r: bool,
}
#[derive(Clone, Copy, Debug, PartialEq, Eq, Default, PackedStruct, Format)]
#[packed_struct(bit_numbering = "lsb0", size_bytes = "1")]
pub struct XInputButtons2 {
#[packed_field(bits = "0")]
pub bumper_l: bool,
#[packed_field(bits = "1")]
pub bumper_r: bool,
#[packed_field(bits = "2")]
pub button_guide: bool,
#[packed_field(bits = "3")]
pub blank_1: bool,
#[packed_field(bits = "4")]
pub button_a: bool,
#[packed_field(bits = "5")]
pub button_b: bool,
#[packed_field(bits = "6")]
pub button_x: bool,
#[packed_field(bits = "7")]
pub button_y: bool,
}
///
/// HID report that is sent back to the host.
///
#[derive(Clone, Copy, Debug, PartialEq, Eq, Default, PackedStruct, Format)]
#[packed_struct(bit_numbering = "msb0", endian = "lsb", size_bytes = "32")]
pub struct XInputReport {
#[packed_field(bits = "0..=7")]
pub report_id: u8,
#[packed_field(bits = "8..=15")]
pub report_size: u8,
#[packed_field(bits = "16..=23")]
pub buttons_1: XInputButtons1,
#[packed_field(bits = "24..=31")]
pub buttons_2: XInputButtons2,
#[packed_field(bits = "32..=39")]
pub analog_trigger_l: u8,
#[packed_field(bits = "40..=47")]
pub analog_trigger_r: u8,
#[packed_field(bits = "48..=63")]
pub stick_left_x: i16,
#[packed_field(bits = "64..=79")]
pub stick_left_y: i16,
#[packed_field(bits = "80..=95")]
pub stick_right_x: i16,
#[packed_field(bits = "96..=111")]
pub stick_right_y: i16,
#[packed_field(bits = "112..=255")]
pub reserved: [u8; 18],
}
impl From<&GcState> for XInputReport {
fn from(value: &GcState) -> Self {
Self {
report_id: 0,
report_size: 20,
buttons_1: XInputButtons1 {
dpad_up: value.buttons_1.dpad_up,
dpad_down: value.buttons_1.dpad_down,
dpad_right: value.buttons_1.dpad_right,
dpad_left: value.buttons_1.dpad_left,
button_menu: value.buttons_2.button_start,
button_back: false,
button_stick_l: false,
button_stick_r: false,
},
buttons_2: XInputButtons2 {
blank_1: false,
bumper_l: false,
bumper_r: value.buttons_2.button_z,
button_a: value.buttons_1.button_a,
button_b: value.buttons_1.button_b,
button_x: value.buttons_1.button_x,
button_y: value.buttons_1.button_y,
button_guide: false,
},
analog_trigger_l: value.trigger_l,
analog_trigger_r: value.trigger_r,
stick_left_x: (value.stick_x as i16 - 127).clamp(-127, 127) * 257,
stick_left_y: (value.stick_y as i16 - 127).clamp(-127, 127) * 257,
stick_right_x: (value.cstick_x as i16 - 127).clamp(-127, 127) * 257,
stick_right_y: (value.cstick_y as i16 - 127).clamp(-127, 127) * 257,
reserved: [0u8; 18],
}
}
}
///
/// Takes in a GcState, converts it to an `XInputReport` and returns its packed version.
///
pub struct XInputReportBuilder;
impl HidReportBuilder<32> for XInputReportBuilder {
async fn get_hid_report(&mut self, state: &super::gcc::GcState) -> [u8; 32] {
XInputReport::from(state)
.pack()
.expect("Failed to pack XInput State")
}
}
///
/// Handles packets sent from the host.
///
pub struct XInputRequestHandler;
impl RequestHandler for XInputRequestHandler {
fn get_report(
&mut self,
id: embassy_usb::class::hid::ReportId,
buf: &mut [u8],
) -> Option<usize> {
let _ = (id, buf);
None
}
fn set_report(
&mut self,
id: embassy_usb::class::hid::ReportId,
data: &[u8],
) -> embassy_usb::control::OutResponse {
let _ = (id, data);
info!("Set report for {:?}: {:x}", id, data);
embassy_usb::control::OutResponse::Accepted
}
fn get_idle_ms(&mut self, id: Option<embassy_usb::class::hid::ReportId>) -> Option<u32> {
let _ = id;
None
}
fn set_idle_ms(&mut self, id: Option<embassy_usb::class::hid::ReportId>, duration_ms: u32) {
let _ = (id, duration_ms);
}
}
/// Taken from embassy.
pub struct XInputWriter<'d, D: Driver<'d>, const N: usize> {
ep_in: D::EndpointIn,
}
impl<'d, D: Driver<'d>, const N: usize> UsbWriter<'d, D, N> for XInputWriter<'d, D, N> {
/// Waits for the interrupt in endpoint to be enabled.
async fn ready(&mut self) {
self.ep_in.wait_enabled().await;
}
/// Writes `report` to its interrupt endpoint.
async fn write(&mut self, report: &[u8]) -> Result<(), EndpointError> {
assert!(report.len() <= N);
let max_packet_size = usize::from(self.ep_in.info().max_packet_size);
let zlp_needed = report.len() < N && (report.len() % max_packet_size == 0);
for chunk in report.chunks(max_packet_size) {
self.ep_in.write(chunk).await?;
}
if zlp_needed {
self.ep_in.write(&[]).await?;
}
Ok(())
}
}
/// Taken from embassy.
pub struct XInputReader<'d, D: Driver<'d>, const N: usize> {
ep_out: D::EndpointOut,
offset: &'d AtomicUsize,
}
impl<'d, D: Driver<'d>, const N: usize> UsbReader<'d, D, N> for XInputReader<'d, D, N> {
async fn run<T: RequestHandler>(mut self, use_report_ids: bool, handler: &mut T) -> ! {
let offset = self.offset.load(Ordering::Acquire);
assert!(offset == 0);
let mut buf = [0; N];
loop {
match self.read(&mut buf).await {
Ok(len) => {
let id = if use_report_ids { buf[0] } else { 0 };
handler.set_report(ReportId::Out(id), &buf[..len]);
}
Err(ReadError::BufferOverflow) => warn!(
"Host ent output report larger than the configured maximum output report length ({})",
N
),
Err(ReadError::Disabled) => self.ep_out.wait_enabled().await,
Err(ReadError::Sync(_)) => unreachable!(),
}
}
}
async fn read(&mut self, buf: &mut [u8]) -> Result<usize, ReadError> {
assert!(N != 0);
assert!(buf.len() >= N);
// Read packets from the endpoint
let max_packet_size = usize::from(self.ep_out.info().max_packet_size);
let starting_offset = self.offset.load(Ordering::Acquire);
let mut total = starting_offset;
loop {
for chunk in buf[starting_offset..N].chunks_mut(max_packet_size) {
match self.ep_out.read(chunk).await {
Ok(size) => {
total += size;
if size < max_packet_size || total == N {
self.offset.store(0, Ordering::Release);
break;
}
self.offset.store(total, Ordering::Release);
}
Err(err) => {
self.offset.store(0, Ordering::Release);
return Err(err.into());
}
}
}
// Some hosts may send ZLPs even when not required by the HID spec, so we'll loop as long as total == 0.
if total > 0 {
break;
}
}
if starting_offset > 0 {
Err(ReadError::Sync(starting_offset..total))
} else {
Ok(total)
}
}
}
/// Taken from embassy, with a few modifications to the descriptor.
pub struct XInputReaderWriter<'d, D: Driver<'d>, const READ_N: usize, const WRITE_N: usize> {
reader: XInputReader<'d, D, READ_N>,
writer: XInputWriter<'d, D, WRITE_N>,
}
impl<'d, D: Driver<'d>, const READ_N: usize, const WRITE_N: usize>
XInputReaderWriter<'d, D, READ_N, WRITE_N>
{
pub fn new(
builder: &mut Builder<'d, D>,
state: &'d mut XInputState<'d>,
config: Config<'d>,
) -> Self {
let mut func = builder.function(0xff, 0x5d, 0x01);
let mut iface = func.interface();
let if_num = iface.interface_number();
let mut alt = iface.alt_setting(0xff, 0x5d, 0x01, None);
#[rustfmt::skip]
alt.descriptor(0x21, &[
0x10, 0x01, // bcdHID 1.10
0x01, // bCountryCode
0x24, // bNumDescriptors
0x81, // bDescriptorType[0] (Unknown 0x81)
0x14, 0x03, // wDescriptorLength[0] 788
0x00, // bDescriptorType[1] (Unknown 0x00)
0x03, 0x13, // wDescriptorLength[1] 4867
0x02, // bDescriptorType[2] (Unknown 0x02)
0x00, 0x03, // wDescriptorLength[2] 768
0x00, // bDescriptorType[3] (Unknown 0x00)
]);
let ep_in = alt.endpoint_interrupt_in(config.max_packet_size_in, config.poll_ms);
let ep_out = alt.endpoint_interrupt_out(config.max_packet_size_out, config.poll_ms);
drop(func);
let control = state.control.write(XInputControl::new(
if_num,
config.report_descriptor,
config.request_handler,
&state.out_report_offset,
));
builder.handler(control);
Self {
reader: XInputReader {
ep_out,
offset: &state.out_report_offset,
},
writer: XInputWriter { ep_in },
}
}
}
impl<'d, D: Driver<'d>, const READ_N: usize, const WRITE_N: usize>
HidReaderWriterSplit<'d, D, READ_N, WRITE_N> for XInputReaderWriter<'d, D, READ_N, WRITE_N>
{
fn split(
self,
) -> (
impl UsbReader<'d, D, READ_N>,
impl UsbWriter<'d, D, WRITE_N>,
) {
(self.reader, self.writer)
}
}
pub struct XInputState<'d> {
control: MaybeUninit<XInputControl<'d>>,
out_report_offset: AtomicUsize,
}
impl<'d> Default for XInputState<'d> {
fn default() -> Self {
Self::new()
}
}
impl<'d> XInputState<'d> {
pub const fn new() -> Self {
XInputState {
control: MaybeUninit::uninit(),
out_report_offset: AtomicUsize::new(0),
}
}
}
/// Taken from embassy.
struct XInputControl<'d> {
if_num: InterfaceNumber,
report_descriptor: &'d [u8],
request_handler: Option<&'d mut dyn RequestHandler>,
out_report_offset: &'d AtomicUsize,
hid_descriptor: [u8; 16],
}
impl<'d> XInputControl<'d> {
fn new(
if_num: InterfaceNumber,
report_descriptor: &'d [u8],
request_handler: Option<&'d mut dyn RequestHandler>,
out_report_offset: &'d AtomicUsize,
) -> Self {
XInputControl {
if_num,
report_descriptor,
request_handler,
out_report_offset,
#[rustfmt::skip]
hid_descriptor: [
0x10, // bLength
0x21, // bDescriptorType (HID)
0x10, 0x01, // bcdHID 1.10
0x01, // bCountryCode
0x24, // bNumDescriptors
0x81, // bDescriptorType[0] (Unknown 0x81)
0x14, 0x03, // wDescriptorLength[0] 788
0x00, // bDescriptorType[1] (Unknown 0x00)
0x03, 0x13, // wDescriptorLength[1] 4867
0x02, // bDescriptorType[2] (Unknown 0x02)
0x00, 0x03, // wDescriptorLength[2] 768
0x00, // bDescriptorType[3] (Unknown 0x00)
],
}
}
}
/// Helper function, since the function in `ReportId` is private.
const fn try_u16_to_report_id(value: u16) -> Result<ReportId, ()> {
match value >> 8 {
1 => Ok(ReportId::In(value as u8)),
2 => Ok(ReportId::Out(value as u8)),
3 => Ok(ReportId::Feature(value as u8)),
_ => Err(()),
}
}
impl<'d> Handler for XInputControl<'d> {
fn reset(&mut self) {
self.out_report_offset.store(0, Ordering::Release);
}
fn control_out(&mut self, req: Request, data: &[u8]) -> Option<OutResponse> {
if (req.request_type, req.recipient, req.index)
!= (
RequestType::Class,
Recipient::Interface,
self.if_num.0 as u16,
)
{
return None;
}
trace!("HID control_out {:?} {=[u8]:x}", req, data);
match req.request {
HID_REQ_SET_IDLE => {
if let Some(handler) = self.request_handler.as_mut() {
let id = req.value as u8;
let id = (id != 0).then_some(ReportId::In(id));
let dur = u32::from(req.value >> 8);
let dur = if dur == 0 { u32::MAX } else { 4 * dur };
handler.set_idle_ms(id, dur);
}
Some(OutResponse::Accepted)
}
HID_REQ_SET_REPORT => {
match (
try_u16_to_report_id(req.value),
self.request_handler.as_mut(),
) {
(Ok(id), Some(handler)) => Some(handler.set_report(id, data)),
_ => Some(OutResponse::Rejected),
}
}
HID_REQ_SET_PROTOCOL => {
if req.value == 1 {
Some(OutResponse::Accepted)
} else {
warn!("HID Boot Protocol is unsupported.");
Some(OutResponse::Rejected) // UNSUPPORTED: Boot Protocol
}
}
_ => Some(OutResponse::Rejected),
}
}
fn control_in<'a>(&'a mut self, req: Request, buf: &'a mut [u8]) -> Option<InResponse<'a>> {
if req.index != self.if_num.0 as u16 {
return None;
}
match (req.request_type, req.recipient) {
(RequestType::Standard, Recipient::Interface) => match req.request {
Request::GET_DESCRIPTOR => match (req.value >> 8) as u8 {
HID_DESC_DESCTYPE_HID_REPORT => {
Some(InResponse::Accepted(self.report_descriptor))
}
HID_DESC_DESCTYPE_HID => Some(InResponse::Accepted(&self.hid_descriptor)),
_ => Some(InResponse::Rejected),
},
_ => Some(InResponse::Rejected),
},
(RequestType::Class, Recipient::Interface) => {
trace!("HID control_in {:?}", req);
match req.request {
HID_REQ_GET_REPORT => {
let size = match try_u16_to_report_id(req.value) {
Ok(id) => self
.request_handler
.as_mut()
.and_then(|x| x.get_report(id, buf)),
Err(_) => None,
};
if let Some(size) = size {
Some(InResponse::Accepted(&buf[0..size]))
} else {
Some(InResponse::Rejected)
}
}
HID_REQ_GET_IDLE => {
if let Some(handler) = self.request_handler.as_mut() {
let id = req.value as u8;
let id = (id != 0).then_some(ReportId::In(id));
if let Some(dur) = handler.get_idle_ms(id) {
let dur = u8::try_from(dur / 4).unwrap_or(0);
buf[0] = dur;
Some(InResponse::Accepted(&buf[0..1]))
} else {
Some(InResponse::Rejected)
}
} else {
Some(InResponse::Rejected)
}
}
HID_REQ_GET_PROTOCOL => {
// UNSUPPORTED: Boot Protocol
buf[0] = 1;
Some(InResponse::Accepted(&buf[0..1]))
}
_ => Some(InResponse::Rejected),
}
}
_ => None,
}
}
}

View file

@ -428,6 +428,8 @@ pub async fn update_button_state_task(
let mut m = MUTEX_CONTROLLER_MODE.lock().await;
*m = if btn_start.is_low() {
Some(ControllerMode::Procon)
} else if btn_x.is_low() {
Some(ControllerMode::XInput)
} else {
Some(ControllerMode::GcAdapter)
};

View file

@ -15,7 +15,7 @@ use embassy_rp::{
use embassy_sync::{blocking_mutex::raw::CriticalSectionRawMutex, mutex::Mutex, signal::Signal};
use embassy_time::{Duration, Instant, Timer};
use embassy_usb::{
class::hid::{HidReader, HidReaderWriter, HidWriter, RequestHandler, State},
class::hid::{HidReaderWriter, RequestHandler, State},
driver::Driver,
msos::{self, windows_version},
Builder, Handler, UsbDevice,
@ -27,6 +27,11 @@ use crate::{
hid::{
gcc::{GcReportBuilder, GcState, GccRequestHandler, GCC_REPORT_DESCRIPTOR},
procon::{ProconReportBuilder, ProconRequestHandler, PROCON_REPORT_DESCRIPTOR},
xinput::{
XInputReaderWriter, XInputReportBuilder, XInputRequestHandler, XInputState,
XINPUT_REPORT_DESCRIPTOR,
},
HidReaderWriterSplit, UsbReader, UsbWriter,
},
input::CHANNEL_GCC_STATE,
};
@ -73,6 +78,11 @@ impl From<ControllerMode> for UsbConfig {
pid: 0x2009,
report_descriptor: PROCON_REPORT_DESCRIPTOR,
},
ControllerMode::XInput => Self {
vid: 0x045e,
pid: 0x028e,
report_descriptor: XINPUT_REPORT_DESCRIPTOR,
},
}
}
}
@ -122,27 +132,41 @@ impl Handler for MyDeviceHandler {
}
}
fn mk_hid_reader_writer<'d, D: Driver<'d>, const R: usize, const W: usize>(
fn mk_hid_reader_writer<'d, S, D, T, F, const R: usize, const W: usize>(
input_consistency_mode: InputConsistencyMode,
controller_mode: ControllerMode,
report_descriptor: &'d [u8],
mut builder: Builder<'d, D>,
state: &'d mut State<'d>,
) -> (UsbDevice<'d, D>, HidReader<'d, D, R>, HidWriter<'d, D, W>) {
state: &'d mut S,
mut init_func: F,
) -> (
UsbDevice<'d, D>,
impl UsbReader<'d, D, R>,
impl UsbWriter<'d, D, W>,
)
where
D: Driver<'d>,
T: HidReaderWriterSplit<'d, D, R, W> + 'd,
F: FnMut(&mut Builder<'d, D>, &'d mut S, embassy_usb::class::hid::Config<'d>) -> T + 'd,
{
let hid_config = embassy_usb::class::hid::Config {
report_descriptor,
request_handler: None,
poll_ms: match input_consistency_mode {
InputConsistencyMode::Original => 8,
InputConsistencyMode::ConsistencyHack
| InputConsistencyMode::SuperHack
| InputConsistencyMode::PC => 1,
poll_ms: if let ControllerMode::XInput = controller_mode {
1
} else {
match input_consistency_mode {
InputConsistencyMode::Original => 8,
InputConsistencyMode::ConsistencyHack
| InputConsistencyMode::SuperHack
| InputConsistencyMode::PC => 1,
}
},
max_packet_size_in: W as u16,
max_packet_size_out: R as u16,
};
let hid: HidReaderWriter<'d, D, R, W> =
HidReaderWriter::<'_, D, R, W>::new(&mut builder, state, hid_config);
let hid = init_func(&mut builder, state, hid_config);
let usb = builder.build();
@ -151,13 +175,16 @@ fn mk_hid_reader_writer<'d, D: Driver<'d>, const R: usize, const W: usize>(
(usb, reader, writer)
}
fn mk_usb_transfer_futures<'d, D, H, Rq, const R: usize, const W: usize>(
#[allow(clippy::too_many_arguments)]
fn mk_usb_transfer_futures<'d, S, D, H, F, Rq, T, const R: usize, const W: usize>(
input_consistency_mode: InputConsistencyMode,
controller_mode: ControllerMode,
usb_config: &UsbConfig,
request_handler: &'d mut Rq,
builder: Builder<'d, D>,
state: &'d mut State<'d>,
mut hid_report_builder: H,
state: &'d mut S,
init_func: F,
) -> (
impl Future<Output = ()> + 'd,
impl Future<Output = ()> + 'd,
@ -167,12 +194,16 @@ where
D: Driver<'d> + 'd,
H: HidReportBuilder<W> + 'd,
Rq: RequestHandler,
T: HidReaderWriterSplit<'d, D, R, W> + 'd,
F: FnMut(&mut Builder<'d, D>, &'d mut S, embassy_usb::class::hid::Config<'d>) -> T + 'd,
{
let (mut usb, reader, mut writer) = mk_hid_reader_writer::<_, R, W>(
let (mut usb, reader, mut writer) = mk_hid_reader_writer(
input_consistency_mode,
controller_mode,
usb_config.report_descriptor,
builder,
state,
init_func,
);
let usb_fut = async move {
@ -200,12 +231,14 @@ where
// From the console's perspective, we are basically a laggy adapter, taking
// a minimum of 333 extra us to send a report every time it's polled, but it
// works to our advantage.
match input_consistency_mode {
InputConsistencyMode::SuperHack | InputConsistencyMode::ConsistencyHack => {
// "Ticker at home", so we can use this for both consistency and SuperHack mode
Timer::at(rate_limit_end_time).await;
if controller_mode != ControllerMode::XInput {
match input_consistency_mode {
InputConsistencyMode::SuperHack | InputConsistencyMode::ConsistencyHack => {
// "Ticker at home", so we can use this for both consistency and SuperHack mode
Timer::at(rate_limit_end_time).await;
}
InputConsistencyMode::Original | InputConsistencyMode::PC => {}
}
InputConsistencyMode::Original | InputConsistencyMode::PC => {}
}
writer.ready().await;
@ -224,6 +257,7 @@ where
debug!("Report written in {}us", micros);
if input_consistency_mode != InputConsistencyMode::Original
&& input_consistency_mode != InputConsistencyMode::PC
&& controller_mode != ControllerMode::XInput
{
while rate_limit_end_time < currtime {
rate_limit_end_time += Duration::from_micros(8333);
@ -291,20 +325,37 @@ pub async fn usb_transfer_task(raw_serial: [u8; 8], driver: EmbassyDriver<'stati
trace!("Start of config");
let mut usb_config = embassy_usb::Config::new(config.vid, config.pid);
usb_config.manufacturer = Some("Naxdy");
usb_config.product = Some(match input_consistency_mode {
InputConsistencyMode::Original => "NaxGCC (OG Mode)",
InputConsistencyMode::ConsistencyHack => "NaxGCC (Consistency Mode)",
InputConsistencyMode::SuperHack => "NaxGCC (SuperHack Mode)",
InputConsistencyMode::PC => "NaxGCC (PC Mode)",
usb_config.product = Some(if controller_mode == ControllerMode::XInput {
"NaxGCC (XInput Mode)"
} else {
match input_consistency_mode {
InputConsistencyMode::Original => "NaxGCC (OG Mode)",
InputConsistencyMode::ConsistencyHack => "NaxGCC (Consistency Mode)",
InputConsistencyMode::SuperHack => "NaxGCC (SuperHack Mode)",
InputConsistencyMode::PC => "NaxGCC (PC Mode)",
}
});
usb_config.serial_number = Some(serial);
usb_config.max_power = 200;
usb_config.max_packet_size_0 = 64;
usb_config.device_class = 0;
usb_config.device_class = if controller_mode == ControllerMode::XInput {
0xff
} else {
0
};
usb_config.device_protocol = 0;
usb_config.self_powered = false;
usb_config.device_sub_class = 0;
usb_config.device_sub_class = if controller_mode == ControllerMode::XInput {
0xff
} else {
0
};
usb_config.supports_remote_wakeup = true;
usb_config.device_release = if controller_mode == ControllerMode::XInput {
0x0572
} else {
0x0010
};
let mut config_descriptor = [0; 256];
let mut bos_descriptor = [0; 256];
@ -313,8 +364,6 @@ pub async fn usb_transfer_task(raw_serial: [u8; 8], driver: EmbassyDriver<'stati
let mut device_handler = MyDeviceHandler::new();
let mut state = State::new();
let mut builder = Builder::new(
driver,
usb_config,
@ -337,29 +386,55 @@ pub async fn usb_transfer_task(raw_serial: [u8; 8], driver: EmbassyDriver<'stati
match controller_mode {
ControllerMode::GcAdapter => {
let mut state = State::new();
let mut request_handler = GccRequestHandler;
let (usb_fut_wrapped, in_fut, out_fut) = mk_usb_transfer_futures::<_, _, _, 5, 37>(
let (usb_fut_wrapped, in_fut, out_fut) = mk_usb_transfer_futures(
input_consistency_mode,
controller_mode,
&config,
&mut request_handler,
builder,
&mut state,
GcReportBuilder::default(),
&mut state,
HidReaderWriter::<_, 5, 37>::new,
);
join(usb_fut_wrapped, join(in_fut, out_fut)).await;
}
ControllerMode::Procon => {
let mut state = State::new();
let mut request_handler = ProconRequestHandler;
let (usb_fut_wrapped, in_fut, out_fut) = mk_usb_transfer_futures::<_, _, _, 64, 64>(
let (usb_fut_wrapped, in_fut, out_fut) = mk_usb_transfer_futures(
input_consistency_mode,
controller_mode,
&config,
&mut request_handler,
builder,
&mut state,
ProconReportBuilder::default(),
&mut state,
HidReaderWriter::<_, 64, 64>::new,
);
join(usb_fut_wrapped, join(in_fut, out_fut)).await;
}
ControllerMode::XInput => {
let mut state = XInputState::new();
let mut request_handler = XInputRequestHandler;
let (usb_fut_wrapped, in_fut, out_fut) = mk_usb_transfer_futures(
input_consistency_mode,
controller_mode,
&config,
&mut request_handler,
builder,
XInputReportBuilder,
&mut state,
XInputReaderWriter::<_, 32, 32>::new,
);
join(usb_fut_wrapped, join(in_fut, out_fut)).await;