223 lines
8.2 KiB
Rust
223 lines
8.2 KiB
Rust
//! Example of using USB without a pre-defined class, but instead responding to
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//! raw USB control requests.
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//!
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//! The host computer can either:
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//! * send a command, with a 16-bit request ID, a 16-bit value, and an optional data buffer
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//! * request some data, with a 16-bit request ID, a 16-bit value, and a length of data to receive
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//!
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//! For higher throughput data, you can add some bulk endpoints after creating the alternate,
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//! but for low rate command/response, plain control transfers can be very simple and effective.
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//!
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//! Example code to send/receive data using `nusb`:
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//!
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//! ```ignore
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//! use futures_lite::future::block_on;
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//! use nusb::transfer::{ControlIn, ControlOut, ControlType, Recipient};
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//!
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//! fn main() {
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//! let di = nusb::list_devices()
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//! .unwrap()
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//! .find(|d| d.vendor_id() == 0xc0de && d.product_id() == 0xcafe)
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//! .expect("no device found");
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//! let device = di.open().expect("error opening device");
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//! let interface = device.claim_interface(0).expect("error claiming interface");
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//!
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//! // Send "hello world" to device
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//! let result = block_on(interface.control_out(ControlOut {
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//! control_type: ControlType::Vendor,
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//! recipient: Recipient::Interface,
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//! request: 100,
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//! value: 200,
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//! index: 0,
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//! data: b"hello world",
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//! }));
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//! println!("{result:?}");
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//!
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//! // Receive "hello" from device
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//! let result = block_on(interface.control_in(ControlIn {
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//! control_type: ControlType::Vendor,
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//! recipient: Recipient::Interface,
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//! request: 101,
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//! value: 201,
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//! index: 0,
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//! length: 5,
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//! }));
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//! println!("{result:?}");
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//! }
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//! ```
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#![no_std]
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#![no_main]
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#![feature(type_alias_impl_trait)]
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use defmt::*;
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use embassy_executor::Spawner;
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use embassy_stm32::time::Hertz;
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use embassy_stm32::usb_otg::Driver;
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use embassy_stm32::{bind_interrupts, peripherals, usb_otg, Config};
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use embassy_usb::control::{InResponse, OutResponse, Recipient, Request, RequestType};
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use embassy_usb::msos::{self, windows_version};
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use embassy_usb::types::InterfaceNumber;
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use embassy_usb::{Builder, Handler};
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use {defmt_rtt as _, panic_probe as _};
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// Randomly generated UUID because Windows requires you provide one to use WinUSB.
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// In principle WinUSB-using software could find this device (or a specific interface
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// on it) by its GUID instead of using the VID/PID, but in practice that seems unhelpful.
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const DEVICE_INTERFACE_GUIDS: &[&str] = &["{DAC2087C-63FA-458D-A55D-827C0762DEC7}"];
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bind_interrupts!(struct Irqs {
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OTG_FS => usb_otg::InterruptHandler<peripherals::USB_OTG_FS>;
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});
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#[embassy_executor::main]
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async fn main(_spawner: Spawner) {
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info!("Hello World!");
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let mut config = Config::default();
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{
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use embassy_stm32::rcc::*;
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config.rcc.hse = Some(Hse {
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freq: Hertz(8_000_000),
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mode: HseMode::Bypass,
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});
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config.rcc.pll_src = PllSource::HSE;
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config.rcc.pll = Some(Pll {
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prediv: PllPreDiv::DIV4,
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mul: PllMul::MUL168,
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divp: Some(PllPDiv::DIV2), // 8mhz / 4 * 168 / 2 = 168Mhz.
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divq: Some(PllQDiv::DIV7), // 8mhz / 4 * 168 / 7 = 48Mhz.
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divr: None,
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});
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config.rcc.ahb_pre = AHBPrescaler::DIV1;
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config.rcc.apb1_pre = APBPrescaler::DIV4;
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config.rcc.apb2_pre = APBPrescaler::DIV2;
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config.rcc.sys = Sysclk::PLL1_P;
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}
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let p = embassy_stm32::init(config);
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// Create the driver, from the HAL.
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let mut ep_out_buffer = [0u8; 256];
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let mut config = embassy_stm32::usb_otg::Config::default();
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config.vbus_detection = true;
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let driver = Driver::new_fs(p.USB_OTG_FS, Irqs, p.PA12, p.PA11, &mut ep_out_buffer, config);
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// Create embassy-usb Config
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let mut config = embassy_usb::Config::new(0xc0de, 0xcafe);
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config.manufacturer = Some("Embassy");
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config.product = Some("USB-raw example");
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config.serial_number = Some("12345678");
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// Required for windows compatibility.
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// https://developer.nordicsemi.com/nRF_Connect_SDK/doc/1.9.1/kconfig/CONFIG_CDC_ACM_IAD.html#help
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config.device_class = 0xEF;
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config.device_sub_class = 0x02;
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config.device_protocol = 0x01;
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config.composite_with_iads = true;
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// Create embassy-usb DeviceBuilder using the driver and config.
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// It needs some buffers for building the descriptors.
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let mut device_descriptor = [0; 256];
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let mut config_descriptor = [0; 256];
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let mut bos_descriptor = [0; 256];
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let mut msos_descriptor = [0; 256];
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let mut control_buf = [0; 64];
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let mut handler = ControlHandler {
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if_num: InterfaceNumber(0),
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};
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let mut builder = Builder::new(
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driver,
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config,
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&mut device_descriptor,
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&mut config_descriptor,
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&mut bos_descriptor,
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&mut msos_descriptor,
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&mut control_buf,
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);
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// Add the Microsoft OS Descriptor (MSOS/MOD) descriptor.
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// We tell Windows that this entire device is compatible with the "WINUSB" feature,
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// which causes it to use the built-in WinUSB driver automatically, which in turn
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// can be used by libusb/rusb software without needing a custom driver or INF file.
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// In principle you might want to call msos_feature() just on a specific function,
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// if your device also has other functions that still use standard class drivers.
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builder.msos_descriptor(windows_version::WIN8_1, 0);
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builder.msos_feature(msos::CompatibleIdFeatureDescriptor::new("WINUSB", ""));
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builder.msos_feature(msos::RegistryPropertyFeatureDescriptor::new(
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"DeviceInterfaceGUIDs",
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msos::PropertyData::RegMultiSz(DEVICE_INTERFACE_GUIDS),
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));
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// Add a vendor-specific function (class 0xFF), and corresponding interface,
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// that uses our custom handler.
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let mut function = builder.function(0xFF, 0, 0);
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let mut interface = function.interface();
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let _alternate = interface.alt_setting(0xFF, 0, 0, None);
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handler.if_num = interface.interface_number();
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drop(function);
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builder.handler(&mut handler);
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// Build the builder.
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let mut usb = builder.build();
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// Run the USB device.
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usb.run().await;
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}
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/// Handle CONTROL endpoint requests and responses. For many simple requests and responses
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/// you can get away with only using the control endpoint.
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struct ControlHandler {
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if_num: InterfaceNumber,
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}
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impl Handler for ControlHandler {
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/// Respond to HostToDevice control messages, where the host sends us a command and
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/// optionally some data, and we can only acknowledge or reject it.
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fn control_out<'a>(&'a mut self, req: Request, buf: &'a [u8]) -> Option<OutResponse> {
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// Log the request before filtering to help with debugging.
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info!("Got control_out, request={}, buf={:a}", req, buf);
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// Only handle Vendor request types to an Interface.
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if req.request_type != RequestType::Vendor || req.recipient != Recipient::Interface {
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return None;
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}
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// Ignore requests to other interfaces.
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if req.index != self.if_num.0 as u16 {
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return None;
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}
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// Accept request 100, value 200, reject others.
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if req.request == 100 && req.value == 200 {
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Some(OutResponse::Accepted)
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} else {
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Some(OutResponse::Rejected)
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}
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}
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/// Respond to DeviceToHost control messages, where the host requests some data from us.
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fn control_in<'a>(&'a mut self, req: Request, buf: &'a mut [u8]) -> Option<InResponse<'a>> {
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info!("Got control_in, request={}", req);
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// Only handle Vendor request types to an Interface.
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if req.request_type != RequestType::Vendor || req.recipient != Recipient::Interface {
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return None;
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}
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// Ignore requests to other interfaces.
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if req.index != self.if_num.0 as u16 {
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return None;
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}
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// Respond "hello" to request 101, value 201, when asked for 5 bytes, otherwise reject.
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if req.request == 101 && req.value == 201 && req.length == 5 {
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buf[..5].copy_from_slice(b"hello");
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Some(InResponse::Accepted(&buf[..5]))
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} else {
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Some(InResponse::Rejected)
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}
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}
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}
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