bin-proto

Crates.iobin-proto
lib.rsbin-proto
version0.5.0
sourcesrc
created_at2024-03-25 23:12:57.05216
updated_at2024-07-25 16:53:30.870182
descriptionEasy binary protocol definitions
homepage
repositoryhttps://github.com/wojciech-graj/bin-proto
max_upload_size
id1185807
size81,247
(wojciech-graj)

documentation

https://docs.rs/bin-proto

README

bin-proto

crates tests docs.rs msrv license

Simple & fast structured bit-level binary co/dec in Rust.

An improved and modernized fork of protocol. A more efficient but (slightly) less feature-rich alternative to deku.

This crate adds a trait (and a custom derive for ease-of-use) that can be implemented on types, allowing structured data to be sent and received from any binary stream. It is recommended to use bitstream_io if you need bit streams, as their BitRead and BitWrite traits are being used internally.

Example

Add this to your Cargo.toml:

[dependencies]
bin-proto = "0.5"

And then define a type with the #[derive(bin_proto::ProtocolRead, bin_proto::ProtocolWrite)] attributes.

use bin_proto::{ProtocolRead, ProtocolWrite, ProtocolNoCtx};

#[derive(Debug, ProtocolRead, ProtocolWrite, PartialEq)]
#[protocol(discriminant_type = "u8")]
#[protocol(bits = 4)]
enum E {
    V1 = 1,
    #[protocol(discriminant = "4")]
    V4,
}

#[derive(Debug, ProtocolRead, ProtocolWrite, PartialEq)]
struct S {
    #[protocol(bits = 1)]
    bitflag: bool,
    #[protocol(bits = 3)]
    bitfield: u8,
    enum_: E,
    #[protocol(write_value = "self.arr.len() as u8")]
    arr_len: u8,
    #[protocol(tag = "arr_len as usize")]
    arr: Vec<u8>,
    #[protocol(tag(type = "u16", write_value = "self.prefixed_arr.len() as u16"))]
    prefixed_arr: Vec<u8>,
    #[protocol(flexible_array_member)]
    read_to_end: Vec<u8>,
}

assert_eq!(
    S::from_bytes(&[
        0b1000_0000 // bitflag: true (1)
       | 0b101_0000 // bitfield: 5 (101)
           | 0b0001, // enum_: V1 (0001)
        0x02, // arr_len: 2
        0x21, 0x37, // arr: [0x21, 0x37]
	    0x00, 0x01, 0x33, // prefixed_arr: [0x33]
        0x01, 0x02, 0x03, // read_to_end: [0x01, 0x02, 0x03]
    ], bin_proto::ByteOrder::BigEndian).unwrap(),
    S {
        bitflag: true,
        bitfield: 5,
        enum_: E::V1,
        arr_len: 2,
        arr: vec![0x21, 0x37],
        prefixed_arr: vec![0x33],
        read_to_end: vec![0x01, 0x02, 0x03],
    }
);

You can implement Protocol on your own types, and parse with context:

use bin_proto::{ProtocolRead, ProtocolWrite};

pub struct Ctx;

pub struct NeedsCtx;

impl ProtocolRead<Ctx> for NeedsCtx {
    fn read(
        _read: &mut dyn bin_proto::BitRead,
        _byte_order: bin_proto::ByteOrder,
        _ctx: &mut Ctx,
    ) -> bin_proto::Result<Self> {
        // Use ctx here
        Ok(Self)
    }
}

impl ProtocolWrite<Ctx> for NeedsCtx {
    fn write(
        &self,
        _write: &mut dyn bin_proto::BitWrite,
        _byte_order: bin_proto::ByteOrder,
        _ctx: &mut Ctx,
    ) -> bin_proto::Result<()> {
        // Use ctx here
        Ok(())
    }
}

#[derive(ProtocolRead, ProtocolWrite)]
#[protocol(ctx = "Ctx")]
pub struct WithCtx(NeedsCtx);

WithCtx(NeedsCtx)
    .bytes_ctx(bin_proto::ByteOrder::LittleEndian, &mut Ctx)
    .unwrap();

Performance / Alternatives

This crate's main alternative is deku, and binrw for byte-level protocols.

bin-proto is significantly faster than deku in almost most of the tested scenarios. The units for the below table are ns, taken from github CI. You can find the benchmarks in the bench directory.

Read enum Write enum Read Vec Write Vec Read IPv4 header Write IPv4 header
bin-proto 29 62 1,327 557 173 138
deku 1 92 582 937 3,234 633

Roadmap

The following features are planned:

  • Bit/byte alignment
  • no_std support (only after bitstream_io supports it)
Commit count: 336

cargo fmt