use std::time::Duration; use rusb::{ Context, Device, DeviceDescriptor, DeviceHandle, Direction, Result, TransferType, UsbContext, }; #[derive(Debug)] struct Endpoint { config: u8, iface: u8, setting: u8, address: u8, } fn convert_argument(input: &str) -> u16 { if input.starts_with("0x") { return u16::from_str_radix(input.trim_start_matches("0x"), 16).unwrap(); } u16::from_str_radix(input, 10) .expect("Invalid input, be sure to add `0x` for hexadecimal values.") } fn main() { let args: Vec = std::env::args().collect(); if args.len() < 3 { println!("usage: read_device "); return; } let vid = convert_argument(args[1].as_ref()); let pid = convert_argument(args[2].as_ref()); match Context::new() { Ok(mut context) => match open_device(&mut context, vid, pid) { Some((mut device, device_desc, mut handle)) => { read_device(&mut device, &device_desc, &mut handle).unwrap() } None => println!("could not find device {:04x}:{:04x}", vid, pid), }, Err(e) => panic!("could not initialize libusb: {}", e), } } fn open_device( context: &mut T, vid: u16, pid: u16, ) -> Option<(Device, DeviceDescriptor, DeviceHandle)> { let devices = match context.devices() { Ok(d) => d, Err(_) => return None, }; for device in devices.iter() { let device_desc = match device.device_descriptor() { Ok(d) => d, Err(_) => continue, }; if device_desc.vendor_id() == vid && device_desc.product_id() == pid { match device.open() { Ok(handle) => return Some((device, device_desc, handle)), Err(e) => panic!("Device found but failed to open: {}", e), } } } None } fn read_device( device: &mut Device, device_desc: &DeviceDescriptor, handle: &mut DeviceHandle, ) -> Result<()> { handle.reset()?; let timeout = Duration::from_secs(1); let languages = handle.read_languages(timeout)?; println!("Active configuration: {}", handle.active_configuration()?); println!("Languages: {:?}", languages); if !languages.is_empty() { let language = languages[0]; println!( "Manufacturer: {:?}", handle .read_manufacturer_string(language, device_desc, timeout) .ok() ); println!( "Product: {:?}", handle .read_product_string(language, device_desc, timeout) .ok() ); println!( "Serial Number: {:?}", handle .read_serial_number_string(language, device_desc, timeout) .ok() ); } match find_readable_endpoint(device, device_desc, TransferType::Interrupt) { Some(endpoint) => read_endpoint(handle, endpoint, TransferType::Interrupt), None => println!("No readable interrupt endpoint"), } match find_readable_endpoint(device, device_desc, TransferType::Bulk) { Some(endpoint) => read_endpoint(handle, endpoint, TransferType::Bulk), None => println!("No readable bulk endpoint"), } Ok(()) } fn find_readable_endpoint( device: &mut Device, device_desc: &DeviceDescriptor, transfer_type: TransferType, ) -> Option { for n in 0..device_desc.num_configurations() { let config_desc = match device.config_descriptor(n) { Ok(c) => c, Err(_) => continue, }; for interface in config_desc.interfaces() { for interface_desc in interface.descriptors() { for endpoint_desc in interface_desc.endpoint_descriptors() { if endpoint_desc.direction() == Direction::In && endpoint_desc.transfer_type() == transfer_type { return Some(Endpoint { config: config_desc.number(), iface: interface_desc.interface_number(), setting: interface_desc.setting_number(), address: endpoint_desc.address(), }); } } } } } None } fn read_endpoint( handle: &mut DeviceHandle, endpoint: Endpoint, transfer_type: TransferType, ) { println!("Reading from endpoint: {:?}", endpoint); let has_kernel_driver = match handle.kernel_driver_active(endpoint.iface) { Ok(true) => { handle.detach_kernel_driver(endpoint.iface).ok(); true } _ => false, }; println!(" - kernel driver? {}", has_kernel_driver); match configure_endpoint(handle, &endpoint) { Ok(_) => { let mut buf = [0; 256]; let timeout = Duration::from_secs(1); match transfer_type { TransferType::Interrupt => { match handle.read_interrupt(endpoint.address, &mut buf, timeout) { Ok(len) => { println!(" - read: {:?}", &buf[..len]); } Err(err) => println!("could not read from endpoint: {}", err), } } TransferType::Bulk => match handle.read_bulk(endpoint.address, &mut buf, timeout) { Ok(len) => { println!(" - read: {:?}", &buf[..len]); } Err(err) => println!("could not read from endpoint: {}", err), }, _ => (), } } Err(err) => println!("could not configure endpoint: {}", err), } if has_kernel_driver { handle.attach_kernel_driver(endpoint.iface).ok(); } } fn configure_endpoint( handle: &mut DeviceHandle, endpoint: &Endpoint, ) -> Result<()> { handle.set_active_configuration(endpoint.config)?; handle.claim_interface(endpoint.iface)?; handle.set_alternate_setting(endpoint.iface, endpoint.setting)?; Ok(()) }