Expand description
This library provides miscellaneous functionalities to help asynchronous operations in Rust.
handy_async
uses futures to
achieve asynchronous operations (mainly I/O related operations)
and defines a lot of pattern objects to facilitate writing declarative code.
For example, you can write a function to read a TCP header defined in RFC-793 asynchronously as following.
extern crate handy_async;
extern crate futures;
use std::io::{Read, Error};
use futures::{Future, BoxFuture};
use handy_async::io::ReadFrom;
use handy_async::pattern::{Pattern, Endian};
use handy_async::pattern::read::{U16, U32};
struct TcpHeader {
source_port: u16,
destination_port: u16,
sequence_number: u32,
acknowledgment_number: u32,
data_offset: u8, // 4 bits
reserved: u8, // 6 bits
flags: u8, // 6 bits
window: u16,
checksum: u16,
urgent_pointer: u16,
option: Vec<u8>,
}
fn read_tcp_header<R: Read + Send + 'static>(reader: R) -> BoxFuture<TcpHeader, Error> {
let pattern = (U16.be(), U16.be(), U32.be(), U32.be(),
U16.be(), U16.be(), U16.be(), U16.be())
.and_then(|(src_port, dst_port, seq_num, ack_num, flags, window, checksum, urgent)| {
let data_offset = (flags & 0b1111) as u8;
let header = TcpHeader {
source_port: src_port,
destination_port: dst_port,
sequence_number: seq_num,
acknowledgment_number: ack_num,
data_offset: data_offset,
reserved: ((flags >> 4) & 0b111111) as u8,
flags: (flags >> 10) as u8,
window: window,
checksum: checksum,
urgent_pointer: urgent,
option: Vec::new(),
};
let option_size = (data_offset as usize - 5) * 4;
(Ok(header), vec![0; option_size]) // Reads additional option bytes
})
.map(|(mut header, option)| {
header.option = option;
header
});
pattern.read_from(reader).map(|(reader, header)| header).map_err(|e| e.into_error()).boxed()
}
fn main(){
let future = read_tcp_header(std::io::stdin());
let tcp_header = future.wait().expect("Failed to read tcp header");
}
Modulesยง
- Error related components.
- Future related functionalities.
- I/O operation related components.
- Pattern matcher interface and its generic implementations.
- Patterns.
- Synchronous I/O functionalities.