mio_httpc is a fully async and sync http client running on top of mio only.


Keywords
client, mio, http, websocket, async
Licenses
MIT/Apache-2.0

Documentation

mio_httpc is an async http client that runs on top of mio only.

For convenience it also provides CallBuilder::exec for a simple one-line blocking HTTP call.

Except CallBuilder::exec no call will block, not even for DNS resolution as it is implemented internally to avoid blocking.

For https to work mio_httpc requires you specify one of the TLS implementations using features: native, openssl or rtls (rustls). Default build will fail on any https URI.

CallBuilder also has URL construction functions (host/path_segm/query/set_https/auth/https) which will take care of url-safe encoding.

mio_httpc does a minimal amount of allocation and in general works with buffers you provide and an internal pool of buffers that get reused on new calls.

Documentation

Chunk transfer decoding

mio_httpc uses a default max chunk size of 128k. If you are writing a web scraper or something similar, this might trip you up since some websites have pretty large chunks. I will not increase (or remove) this default size limitation because I do not like unchecked memory growth from a third party. You can easily increase this with CallBuilder::chunked_max_chunk call.

TODO/FEATURE LIST

  • Basic API
  • Configurable TLS backend
  • Chunked encoding download
  • Chunked encoding upload
  • Safe URL construction
  • Basic Auth
  • Digest Auth
  • Automatic redirects
  • Keep-alive connection pool
  • DNS retries
  • Timeouts
  • Websockets
  • gzip body decoding
  • SSL pinning on subjectPublicKeyInfo (OpenSSL backend with any target_os and macos/ios with native backend)
  • HTTP2
  • Download to file

EXAMPLES

Include mio_httpc in your project with:

# System native TLS implementation
mio_httpc = { version = "0.8", features = ["native"] }
# Openssl
# mio_httpc = { version = "0.8", features = ["openssl"] }
# Rustls
# mio_httpc = { version = "0.8", features = ["rtls"] }

Sync call

extern crate mio_httpc;
use mio_httpc::CallBuilder;
 
 // One line blocking call.
 
 let (response_meta, body) = CallBuilder::get().timeout_ms(5000).url("http://www.example.com")?.exec()?;

 // With URL construction.
 // This way of building the URL is highly recommended as it will always result in correct
 // values by percent encoding any URL unsafe characters.
 // This calls: https://www.example.com/a/b?key1=val1
 let (response_meta, body) = CallBuilder::get()
    .timeout_ms(5000)
    .https()
    .host("www.example.com")
    .path_segm("a")
    .path_segm("b")
    .query("key1","val1")
    .exec()?;
 

Basic async get

cargo run --example get --features "native" -- "https://edition.cnn.com"

// or
cargo run --example get --features "openssl" -- "https://edition.cnn.com"

// or
cargo run --example get --features "rtls" -- "https://edition.cnn.com"
extern crate mio_httpc;
extern crate mio;

use mio_httpc::{CallBuilder,Httpc};
use mio::{Poll,Events};

fn main() {
    let mut poll = Poll::new().unwrap();
    let mut htp = Httpc::new(10,None);
    let args: Vec<String> = ::std::env::args().collect();
    let mut call = CallBuilder::get()
        .url(args[1].as_str()).expect("Can not parse url")
        .timeout_ms(500)
        .call_simple(&mut htp, poll.registry())
        .expect("Call start failed");

    let to = ::std::time::Duration::from_millis(100);
    let mut events = Events::with_capacity(8);
    'outer: loop {
        poll.poll(&mut events, Some(to)).unwrap();
        for cref in htp.timeout().into_iter() {
            if call.is_ref(cref) {
                println!("Request timed out");
                call.abort(&mut htp);
                break 'outer;
            }
        }

        for ev in events.iter() {
            let cref = htp.event(&ev);

            if call.is_call(&cref) {
                if call.perform(&mut htp, poll.registry()).expect("Call failed") {
                    let (resp,body) = call.finish().expect("No response");
                    if let Ok(s) = String::from_utf8(v) {
                        println!("Body: {}",s);
                    }
                    break 'outer;
                }
            }
        }
    }
}

Websockets

cargo run --example ws --features="native" -- "wss://demos.kaazing.com/echo"
extern crate mio_httpc;
extern crate mio;

use mio_httpc::{CallBuilder,Httpc,WebSocket,WSPacket};
use mio::{Poll,Events};
// ws://demos.kaazing.com/echo

fn main() {
    let mut poll = Poll::new().unwrap();
    let mut htp = Httpc::new(10,None);
    let args: Vec<String> = ::std::env::args().collect();

    let mut ws = CallBuilder::get()
        .url(args[1].as_str()).expect("Can not parse url")
        .websocket(&mut htp, poll.registry())
        .expect("Call start failed");

    let to = ::std::time::Duration::from_millis(800);
    'outer: loop {
        let mut events = Events::with_capacity(8);
        poll.poll(&mut events, Some(to)).unwrap();
        for cref in htp.timeout().into_iter() {
            if ws.is_ref(cref) {
                println!("Request timed out");
                break 'outer;
            }
        }

        if events.len() == 0 {
            // ws.ping(None);
            println!("send yo");
            ws.send_text(true, "yo!");
        }

        for ev in events.iter() {
            let cref = htp.event(&ev);

            if ws.is_call(&cref) {
                if ws.is_active() {
                    loop {
                        match ws.recv_packet(&mut htp, poll.registry()).expect("Failed recv") {
                            WSPacket::Pong(_) => {
                                println!("Got pong!");
                            }
                            WSPacket::Ping(_) => {
                                println!("Got ping!");
                                ws.pong(None);
                            }
                            WSPacket::None => {
                                break;
                            }
                            WSPacket::Close(_,_) => {
                                println!("Got close!");
                                ws.close(None, None);
                                break 'outer;
                            }
                            WSPacket::Text(fin,txt) => {
                                println!("Got text={}, fin={}",txt,fin);
                            }
                            WSPacket::Binary(fin,b) => {
                                println!("Got bin={}B, fin={}",b.len(),fin);
                            }
                        }
                    }
                } else {
                    if ws.sendq_len() == 0 {
                        ws.ping(None);
                    }
                }
            }
        }
        // Any ping/pong/close/send_text/send_bin has just been buffered.
        // perform and recv_packet actually send over socket.
        ws.perform(&mut htp, poll.registry()).expect("Call failed");
    }
    ws.perform(&mut htp, poll.registry());
    ws.finish(&mut htp);
}