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xenid/src/pcsc_card.rs

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Rust
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Improve multi-reader support This is especially important for developers, which tend to have at least one Yubikey hanging off their machines.
2026-03-05 20:15:29 +00:00
use std::{collections::HashMap, ffi::CString};
use std::sync::{Arc, Mutex};
Initial commit.
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Improve multi-reader support This is especially important for developers, which tend to have at least one Yubikey hanging off their machines.
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use pcsc::{PNP_NOTIFICATION, Protocols, ReaderState, State};
use tokio::task::spawn_blocking;
Initial commit.
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use crate::{Card, ResultAPDU};
pub struct PCSCCard {
pub card: pcsc::Card,
pub buf: [u8; 0x10002],
}
impl Card for PCSCCard {
async fn transmit(
&mut self,
apdu: crate::OwnedCommandAPDU,
) -> std::io::Result<crate::ResultAPDU> {
let mut apdu_buf = vec![
apdu.class.encode().unwrap(),
apdu.instruction,
apdu.parameter[0],
apdu.parameter[1],
];
let extended =
apdu.command.len() > 0xFF || apdu.expected_length.map(|f| f > 0xFF) == Some(true);
if extended {
apdu_buf.push(0);
apdu_buf.extend_from_slice(&(apdu.command.len() as u16).to_be_bytes());
} else if !apdu.command.is_empty() {
apdu_buf.push(apdu.command.len() as u8);
}
apdu_buf.extend_from_slice(&apdu.command);
if extended {
apdu_buf.extend_from_slice(
&(apdu.expected_length.unwrap_or_default() as u16).to_be_bytes(),
);
} else if apdu.expected_length != Some(0) {
apdu_buf.push(apdu.expected_length.unwrap_or_default() as u8);
}
Handle PIN failures
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self.transmit_raw(&apdu_buf).await
Initial commit.
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}
async fn transmit_raw(&mut self, apdu_buf: &[u8]) -> std::io::Result<crate::ResultAPDU> {
let ret_len = self
.card
.transmit(apdu_buf, &mut self.buf)
.map_err(|f| std::io::Error::new(std::io::ErrorKind::BrokenPipe, f))?
.len();
let data = self.buf[..ret_len - 2].to_vec();
let sw = (self.buf[ret_len - 2] as u16) << 8 | (self.buf[ret_len - 1] as u16);
Ok(ResultAPDU { data, status: sw })
}
}
impl PCSCCard {
pub fn new() -> Self {
let ctx = pcsc::Context::establish(pcsc::Scope::User).unwrap();
let readers = ctx.list_readers_owned().unwrap();
let reader = readers.first().unwrap();
let mut rs = [ReaderState::new(reader.to_owned(), State::empty())];
loop {
ctx.get_status_change(None, &mut rs[..]).unwrap();
rs[0].sync_current_state();
if rs[0].event_state().contains(State::PRESENT) {
let card = ctx
.connect(reader, pcsc::ShareMode::Shared, Protocols::ANY)
.unwrap();
return Self {
card,
buf: [0; 0x10002],
};
}
}
}
Improve multi-reader support This is especially important for developers, which tend to have at least one Yubikey hanging off their machines.
2026-03-05 20:15:29 +00:00
}
struct PCSCCardFinderInner {
ctx: pcsc::Context,
reader_states: Vec<ReaderState>,
event_count: HashMap<CString, u32>,
}
pub struct PCSCCardFinder(Arc<Mutex<PCSCCardFinderInner>>);
impl PCSCCardFinder {
pub fn new() -> Self {
Self(Arc::new(Mutex::new(PCSCCardFinderInner {
ctx: pcsc::Context::establish(pcsc::Scope::User).unwrap(),
reader_states: vec![
ReaderState::new(PNP_NOTIFICATION(), State::UNAWARE),
],
event_count: HashMap::new(),
})))
}
pub async fn find_valid(&mut self) -> PCSCCard {
let mut readers_buf = [0; 2048];
Initial commit.
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loop {
Improve multi-reader support This is especially important for developers, which tend to have at least one Yubikey hanging off their machines.
2026-03-05 20:15:29 +00:00
{
let mut m = self.0.lock().unwrap();
m.reader_states.retain(|reader| !reader.event_state().intersects(State::IGNORE | State::UNKNOWN));
for reader in m.ctx.list_readers(&mut readers_buf).unwrap() {
if !m.reader_states.iter().any(|f| f.name() == reader) {
m.reader_states.push(ReaderState::new(reader, State::UNAWARE));
}
}
for reader in &mut m.reader_states {
reader.sync_current_state();
}
}
let c = self.0.clone();
spawn_blocking(move || { let mut c = c.lock().unwrap(); let c = &mut *c; c.ctx.get_status_change(None, &mut c.reader_states) }).await.unwrap().unwrap();
let mut m = self.0.lock().unwrap();
let m = &mut *m;
for reader in &mut m.reader_states {
if reader.name() == PNP_NOTIFICATION() {
continue
}
// Anything with "Yubico" in it will never be valid.
if reader.name().to_bytes().starts_with(b"Yubico") {
continue
}
let last_event_count = m.event_count.insert(reader.name().to_owned(), reader.event_count());
if reader.event_state().contains(State::PRESENT) && !reader.event_state().contains(State::INUSE) && Some(reader.event_count()) != last_event_count {
// Newly present card, let's give it a try.
if let Ok(card) = m.ctx.connect(reader.name(), pcsc::ShareMode::Shared, Protocols::ANY) {
return PCSCCard { card, buf: [0; 0x10002] }
}
}
Initial commit.
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}
}
}
}
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