gix_packetline_blocking/
decode.rsuse bstr::BString;
use crate::{PacketLineRef, DELIMITER_LINE, FLUSH_LINE, MAX_DATA_LEN, MAX_LINE_LEN, RESPONSE_END_LINE, U16_HEX_BYTES};
#[derive(Debug, thiserror::Error)]
#[allow(missing_docs)]
pub enum Error {
#[error("Failed to decode the first four hex bytes indicating the line length: {err}")]
HexDecode { err: String },
#[error("The data received claims to be larger than the maximum allowed size: got {length_in_bytes}, exceeds {MAX_DATA_LEN}")]
DataLengthLimitExceeded { length_in_bytes: usize },
#[error("Received an invalid empty line")]
DataIsEmpty,
#[error("Received an invalid line of length 3")]
InvalidLineLength,
#[error("{data:?} - consumed {bytes_consumed} bytes")]
Line { data: BString, bytes_consumed: usize },
#[error("Needing {bytes_needed} additional bytes to decode the line successfully")]
NotEnoughData { bytes_needed: usize },
}
pub mod band {
#[derive(Debug, thiserror::Error)]
#[allow(missing_docs)]
pub enum Error {
#[error("attempt to decode a non-side channel line or input was malformed: {band_id}")]
InvalidSideBand { band_id: u8 },
#[error("attempt to decode a non-data line into a side-channel band")]
NonDataLine,
}
}
#[derive(Debug, Clone)]
pub enum Stream<'a> {
Complete {
line: PacketLineRef<'a>,
bytes_consumed: usize,
},
Incomplete {
bytes_needed: usize,
},
}
pub enum PacketLineOrWantedSize<'a> {
Line(PacketLineRef<'a>),
Wanted(u16),
}
pub fn hex_prefix(four_bytes: &[u8]) -> Result<PacketLineOrWantedSize<'_>, Error> {
debug_assert_eq!(four_bytes.len(), 4, "need four hex bytes");
for (line_bytes, line_type) in &[
(FLUSH_LINE, PacketLineRef::Flush),
(DELIMITER_LINE, PacketLineRef::Delimiter),
(RESPONSE_END_LINE, PacketLineRef::ResponseEnd),
] {
if four_bytes == *line_bytes {
return Ok(PacketLineOrWantedSize::Line(*line_type));
}
}
let mut buf = [0u8; U16_HEX_BYTES / 2];
faster_hex::hex_decode(four_bytes, &mut buf).map_err(|err| Error::HexDecode { err: err.to_string() })?;
let wanted_bytes = u16::from_be_bytes(buf);
if wanted_bytes == 3 {
return Err(Error::InvalidLineLength);
}
if wanted_bytes == 4 {
return Err(Error::DataIsEmpty);
}
debug_assert!(
wanted_bytes as usize > U16_HEX_BYTES,
"by now there should be more wanted bytes than prefix bytes"
);
Ok(PacketLineOrWantedSize::Wanted(wanted_bytes - U16_HEX_BYTES as u16))
}
pub fn to_data_line(data: &[u8]) -> Result<PacketLineRef<'_>, Error> {
if data.len() > MAX_LINE_LEN {
return Err(Error::DataLengthLimitExceeded {
length_in_bytes: data.len(),
});
}
Ok(PacketLineRef::Data(data))
}
pub fn streaming(data: &[u8]) -> Result<Stream<'_>, Error> {
let data_len = data.len();
if data_len < U16_HEX_BYTES {
return Ok(Stream::Incomplete {
bytes_needed: U16_HEX_BYTES - data_len,
});
}
let wanted_bytes = match hex_prefix(&data[..U16_HEX_BYTES])? {
PacketLineOrWantedSize::Wanted(s) => s as usize,
PacketLineOrWantedSize::Line(line) => {
return Ok(Stream::Complete {
line,
bytes_consumed: 4,
})
}
} + U16_HEX_BYTES;
if wanted_bytes > MAX_LINE_LEN {
return Err(Error::DataLengthLimitExceeded {
length_in_bytes: wanted_bytes,
});
}
if data_len < wanted_bytes {
return Ok(Stream::Incomplete {
bytes_needed: wanted_bytes - data_len,
});
}
Ok(Stream::Complete {
line: to_data_line(&data[U16_HEX_BYTES..wanted_bytes])?,
bytes_consumed: wanted_bytes,
})
}
pub fn all_at_once(data: &[u8]) -> Result<PacketLineRef<'_>, Error> {
match streaming(data)? {
Stream::Complete { line, .. } => Ok(line),
Stream::Incomplete { bytes_needed } => Err(Error::NotEnoughData { bytes_needed }),
}
}