Some(lsf)
}
-pub(crate) fn try_lich_decode(type2_bits: &[u8]) -> Option<(u8, [u8; 5])> {
- let mut decoded = 0u64;
- for (input_idx, input_bytes) in type2_bits.chunks(3).enumerate() {
- let mut input: u32 = 0;
- for (idx, byte) in input_bytes.iter().enumerate() {
- input |= (*byte as u32) << (16 - (8 * idx));
- }
- let (val, _dist) = cai_golay::extended::decode(input)?;
- decoded |= (val as u64) << ((3 - input_idx) * 12);
- }
- let b = decoded.to_be_bytes();
- Some((b[7] >> 5, [b[2], b[3], b[4], b[5], b[6]]))
-}
-
pub(crate) fn parse_stream(frame: &[f32] /* length 192 */) -> Option<StreamFrame> {
let deinterleaved = frame_initial_decode(frame);
let stream_part = &deinterleaved[12..];
let frame_num = frame_num & 0x7fff; // higher layer has to handle wraparound
debug!("frame number: {frame_num}, codec2: {:?}", &stream[2..18]);
- if let Some((counter, part)) = try_lich_decode(&deinterleaved[0..12]) {
- debug!("LICH: received part {counter}");
+ if let Some((counter, part)) = decode_lich(&deinterleaved[0..12]) {
+ debug!(
+ "LICH: received part {counter} part {part:?} from raw {:?}",
+ &deinterleaved[0..12]
+ );
Some(StreamFrame {
lich_idx: counter,
lich_part: part,
counter,
})
}
+
+pub(crate) fn decode_lich(type2_bits: &[u8]) -> Option<(u8, [u8; 5])> {
+ let mut decoded = 0u64;
+ for (input_idx, input_bytes) in type2_bits.chunks(3).enumerate() {
+ let mut input: u32 = 0;
+ for (idx, byte) in input_bytes.iter().enumerate() {
+ input |= (*byte as u32) << (16 - (8 * idx));
+ }
+ let (val, _dist) = cai_golay::extended::decode(input)?;
+ decoded |= (val as u64) << ((3 - input_idx) * 12);
+ }
+ let b = decoded.to_be_bytes();
+ Some((b[7] >> 5, [b[2], b[3], b[4], b[5], b[6]]))
+}
+
+#[cfg(test)]
+mod tests {
+ use super::*;
+
+ #[test]
+ fn test_lich_decode() {
+ let input = [221, 82, 162, 16, 85, 200, 5, 14, 254, 4, 13, 153];
+ let expected_counter = 2;
+ let expected_part = [221, 81, 5, 5, 0];
+ assert_eq!(decode_lich(&input), Some((expected_counter, expected_part)));
+ }
+}
projects / m17rt / blobdiff