use std::io::Write;
use std::net::SocketAddr;
use std::sync::Arc;
use std::time::Duration;
use log::{debug, info, warn};
use serde::{Deserialize, Serialize};
use structopt::StructOpt;
use sodiumoxide::crypto::auth;
use sodiumoxide::crypto::sign::ed25519;
use netapp::message::*;
use netapp::peering::basalt::*;
use netapp::proto::*;
use netapp::NetApp;
#[derive(StructOpt, Debug)]
#[structopt(name = "netapp")]
pub struct Opt {
#[structopt(long = "network-key", short = "n")]
network_key: Option<String>,
#[structopt(long = "private-key", short = "p")]
private_key: Option<String>,
#[structopt(long = "bootstrap-peer", short = "b")]
bootstrap_peers: Vec<String>,
#[structopt(long = "listen-addr", short = "l", default_value = "127.0.0.1:1980")]
listen_addr: String,
#[structopt(long = "public-addr", short = "a")]
public_addr: Option<String>,
#[structopt(long = "view-size", short = "v", default_value = "100")]
view_size: usize,
#[structopt(long = "cache-size", short = "c", default_value = "1000")]
cache_size: usize,
#[structopt(long = "exchange-interval-secs", short = "x", default_value = "1")]
exchange_interval: u64,
#[structopt(long = "reset-interval-secs", short = "r", default_value = "10")]
reset_interval: u64,
#[structopt(long = "reset-count", short = "k", default_value = "20")]
reset_count: usize,
}
#[tokio::main]
async fn main() {
env_logger::Builder::new()
.parse_env("RUST_LOG")
.format(|buf, record| {
writeln!(
buf,
"{} {} {} {}",
chrono::Local::now().format("%s%.6f"),
record.module_path().unwrap_or("_"),
record.level(),
record.args()
)
})
.init();
let opt = Opt::from_args();
let netid = match &opt.network_key {
Some(k) => auth::Key::from_slice(&hex::decode(k).unwrap()).unwrap(),
None => auth::gen_key(),
};
info!("KYEV NK {}", hex::encode(&netid));
let privkey = match &opt.private_key {
Some(k) => ed25519::SecretKey::from_slice(&hex::decode(k).unwrap()).unwrap(),
None => {
let (_pk, sk) = ed25519::gen_keypair();
sk
}
};
info!("KYEV SK {}", hex::encode(&privkey));
info!("KYEV PK {}", hex::encode(&privkey.public_key()));
let netapp = NetApp::new(netid, privkey);
let mut bootstrap_peers = vec![];
for peer in opt.bootstrap_peers.iter() {
if let Some(delim) = peer.find('@') {
let (key, ip) = peer.split_at(delim);
let pubkey = ed25519::PublicKey::from_slice(&hex::decode(&key).unwrap()).unwrap();
let ip = ip[1..].parse::<SocketAddr>().unwrap();
bootstrap_peers.push((pubkey, ip));
}
}
let basalt_params = BasaltParams {
view_size: opt.view_size,
cache_size: opt.cache_size,
exchange_interval: Duration::from_secs(opt.exchange_interval),
reset_interval: Duration::from_secs(opt.reset_interval),
reset_count: opt.reset_count,
};
let peering = Basalt::new(netapp.clone(), bootstrap_peers, basalt_params);
netapp.add_msg_handler::<ExampleMessage, _, _>(
|_from: ed25519::PublicKey, msg: ExampleMessage| {
debug!("Got example message: {:?}, sending example response", msg);
async {
ExampleResponse {
example_field: false,
}
}
},
);
let listen_addr = opt.listen_addr.parse().unwrap();
let public_addr = opt.public_addr.map(|x| x.parse().unwrap());
tokio::join!(
sampling_loop(netapp.clone(), peering.clone()),
netapp.listen(listen_addr, public_addr),
peering.run(),
);
}
async fn sampling_loop(netapp: Arc<NetApp>, basalt: Arc<Basalt>) {
loop {
tokio::time::sleep(Duration::from_secs(10)).await;
let peers = basalt.sample(10);
for p in peers {
debug!("kyev S {}", hex::encode(p));
let netapp2 = netapp.clone();
tokio::spawn(async move {
match netapp2
.request(&p, ExampleMessage { example_field: 42 }, PRIO_NORMAL)
.await
{
Ok(resp) => debug!("Got example response: {:?}", resp),
Err(e) => warn!("Error with example request: {}", e),
}
});
}
}
}
#[derive(Serialize, Deserialize, Debug)]
struct ExampleMessage {
example_field: usize,
}
#[derive(Serialize, Deserialize, Debug)]
struct ExampleResponse {
example_field: bool,
}
impl Message for ExampleMessage {
const KIND: MessageKind = 0x99000001;
type Response = ExampleResponse;
}
