2020-07-09 16:58:02 +00:00
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#![deny(unused_must_use)]
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#![no_main]
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#![no_std]
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2020-07-13 14:56:04 +00:00
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use core::{fmt::Write as _, convert::TryFrom};
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2020-07-09 16:58:02 +00:00
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2020-07-13 14:56:04 +00:00
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use async_core::unsync::Mutex;
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2020-07-09 16:58:02 +00:00
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use hal::{radio::{self, Packet, Channel}, usbd, led};
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use heapless::{consts, LinearMap, String};
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use panic_abort as _;
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static FROM: &[u8] = &[
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// <redacted>
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];
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static TO: &[u8] = &[
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// <redacted>
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];
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// store the secret rather than the plaintext -- otherwise `strings $elf` will reveal the answer
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static SECRET: &[u8] = b"<redacted>";
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#[no_mangle]
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fn main() -> ! {
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// so we can visually differentiate this one from `loopback.hex`
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led::Green.on();
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2020-07-13 14:56:04 +00:00
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let stx = Mutex::new(usbd::serial());
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let (mut hidout, _) = usbd::hid();
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let (rtx, mut rrx) = radio::claim(Channel::_25);
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2020-07-09 16:58:02 +00:00
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let mut output = String::<consts::U128>::new();
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let mut dict = LinearMap::<_, _, consts::U128>::new();
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for (&from, &to) in FROM.iter().zip(TO.iter()) {
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dict.insert(from, to).ok();
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}
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output.push_str("deviceid=").ok();
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write!(output, "{:08x}{:08x}", hal::deviceid1(), hal::deviceid0()).ok();
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write!(output, " channel={} TxPower=+8dBm app=puzzle.hex\n", rtx.channel()).ok();
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2020-07-13 14:56:04 +00:00
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let rtx = Mutex::new(rtx);
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let t1 = async {
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let mut output = String::<consts::U128>::new();
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let mut hidbuf = usbd::Packet::new().await;
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let zlp = radio::Packet::new().await;
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loop {
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hidout.recv(&mut hidbuf).await;
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semidap::info!("HID: {}", *hidbuf);
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let arg = if hidbuf.len() == 1 {
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// Linux / macOS
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Some(hidbuf[0])
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} else if hidbuf.len() == 64 {
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// Windows (it zero pads the packet)
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Some(hidbuf[0])
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} else {
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None
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};
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if let Some(arg) = arg {
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if let Ok(chan) = Channel::try_from(arg) {
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let mut rtx = rtx.lock().await;
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rtx.set_channel(chan);
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// send a zero-length packet to force the radio to listen on the new channel
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rtx.write(&zlp).await.ok();
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drop(rtx);
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output.clear();
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writeln!(output, "now listening on channel {}", chan).ok();
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stx.lock().await.write(output.as_bytes());
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} else {
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stx.lock()
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.await
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.write(b"requested channel is out of range (11-26)\n");
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}
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} else {
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stx.lock().await.write(b"invalid HID packet\n");
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}
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}
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};
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let t2 = async {
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2020-07-09 16:58:02 +00:00
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let mut packet = Packet::new().await;
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2020-07-13 14:56:04 +00:00
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stx.lock().await.write(output.as_bytes());
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2020-07-09 16:58:02 +00:00
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loop {
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let crcres = rrx.read(&mut packet).await;
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let len = packet.len();
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let lqi = if len >= 3 {
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Some(packet.lqi())
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} else {
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// packet is too small; LQI is not valid
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None
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};
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let mut busy = false;
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if crcres.is_ok() {
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if packet.is_empty() {
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packet.copy_from_slice(SECRET);
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} else if packet.len() == 1 {
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let p = packet[0];
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let c = dict.get(&p).unwrap_or(&p);
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packet.copy_from_slice(&[*c]);
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} else {
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// encrypt
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for slot in packet.iter_mut() {
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if let Some(c) = dict.get(slot) {
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*slot = *c;
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}
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}
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let matches = &packet[..] == SECRET;
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packet.copy_from_slice(if matches {
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b"correct"
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} else {
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b"incorrect"
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});
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}
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2020-07-13 14:56:04 +00:00
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busy = rtx.lock().await.write(&packet).await.is_err();
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2020-07-09 16:58:02 +00:00
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}
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output.clear();
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write!(
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&mut output,
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"received {} byte{}",
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len,
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if len == 1 { "" } else { "s" }
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)
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.ok();
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let (res, crc) = match crcres {
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Ok(x) => ("Ok", x),
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Err(x) => ("Err", x),
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};
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write!(&mut output, " (CRC={}({:#06x})", res, crc).ok();
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if let Some(lqi) = lqi {
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write!(&mut output, ", LQI={}", lqi).ok();
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}
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output.push_str(")\n").ok();
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if busy {
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output.push_str("didn't reply -- channel was busy\n").ok();
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2020-07-13 14:56:04 +00:00
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stx.lock().await.write(output.as_bytes());
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2020-07-09 16:58:02 +00:00
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}
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2020-07-13 14:56:04 +00:00
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stx.lock().await.write(output.as_bytes());
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2020-07-09 16:58:02 +00:00
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}
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};
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2020-07-13 14:56:04 +00:00
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executor::run!(t1, t2)
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2020-07-09 16:58:02 +00:00
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}
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