nostr-rs-relay/src/main.rs

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//! Server process
use futures::SinkExt;
use futures::StreamExt;
use hyper::header::ACCEPT;
use hyper::service::{make_service_fn, service_fn};
use hyper::upgrade::Upgraded;
use hyper::{
header, server::conn::AddrStream, upgrade, Body, Request, Response, Server, StatusCode,
};
use log::*;
use nostr_rs_relay::close::Close;
use nostr_rs_relay::config;
use nostr_rs_relay::conn;
use nostr_rs_relay::db;
use nostr_rs_relay::error::{Error, Result};
use nostr_rs_relay::event::Event;
use nostr_rs_relay::info::RelayInfo;
use nostr_rs_relay::protostream;
use nostr_rs_relay::protostream::NostrMessage::*;
use nostr_rs_relay::protostream::NostrResponse::*;
use std::collections::HashMap;
use std::convert::Infallible;
use std::env;
use std::net::SocketAddr;
use std::path::Path;
use tokio::runtime::Builder;
use tokio::sync::broadcast;
use tokio::sync::broadcast::{Receiver, Sender};
use tokio::sync::mpsc;
use tokio::sync::oneshot;
use tokio_tungstenite::WebSocketStream;
use tungstenite::handshake;
use tungstenite::protocol::WebSocketConfig;
fn db_from_args(args: Vec<String>) -> Option<String> {
if args.len() == 3 && args.get(1) == Some(&"--db".to_owned()) {
return args.get(2).map(|x| x.to_owned());
}
None
}
async fn handle_web_request(
mut request: Request<Body>,
remote_addr: SocketAddr,
broadcast: Sender<Event>,
event_tx: tokio::sync::mpsc::Sender<Event>,
shutdown: Receiver<()>,
) -> Result<Response<Body>, Infallible> {
match (
request.uri().path(),
request.headers().contains_key(header::UPGRADE),
) {
// Request for / as websocket
("/", true) => {
debug!("websocket with upgrade request");
//assume request is a handshake, so create the handshake response
let response = match handshake::server::create_response_with_body(&request, || {
Body::empty()
}) {
Ok(response) => {
//in case the handshake response creation succeeds,
//spawn a task to handle the websocket connection
tokio::spawn(async move {
//using the hyper feature of upgrading a connection
match upgrade::on(&mut request).await {
//if successfully upgraded
Ok(upgraded) => {
//create a websocket stream from the upgraded object
let ws_stream = WebSocketStream::from_raw_socket(
//pass the upgraded object
//as the base layer stream of the Websocket
upgraded,
tokio_tungstenite::tungstenite::protocol::Role::Server,
None,
)
.await;
tokio::spawn(nostr_server(
ws_stream, broadcast, event_tx, shutdown,
));
}
Err(e) => println!(
"error when trying to upgrade connection \
from address {} to websocket connection. \
Error is: {}",
remote_addr, e
),
}
});
//return the response to the handshake request
response
}
Err(error) => {
warn!("websocket response failed");
let mut res =
Response::new(Body::from(format!("Failed to create websocket: {}", error)));
*res.status_mut() = StatusCode::BAD_REQUEST;
return Ok(res);
}
};
Ok::<_, Infallible>(response)
}
// Request for Relay info
("/", false) => {
// handle request at root with no upgrade header
// Check if this is a nostr server info request
let accept_header = &request.headers().get(ACCEPT);
// check if application/nostr+json is included
if let Some(media_types) = accept_header {
if let Ok(mt_str) = media_types.to_str() {
if mt_str.contains("application/nostr+json") {
let config = config::SETTINGS.read().unwrap();
// build a relay info response
debug!("Responding to server info request");
let rinfo = RelayInfo::from(config.info.clone());
let b = Body::from(serde_json::to_string_pretty(&rinfo).unwrap());
return Ok(Response::builder()
.status(200)
.header("Content-Type", "application/nostr+json")
.body(b)
.unwrap());
}
}
}
Ok(Response::new(Body::from(
"Please use a Nostr client to connect.",
)))
}
(_, _) => {
//handle any other url
Ok(Response::builder()
.status(StatusCode::NOT_FOUND)
.body(Body::from("Nothing here."))
.unwrap())
}
}
}
async fn shutdown_signal() {
// Wait for the CTRL+C signal
tokio::signal::ctrl_c()
.await
.expect("failed to install CTRL+C signal handler");
}
/// Start running a Nostr relay server.
fn main() -> Result<(), Error> {
// setup logger
let _ = env_logger::try_init();
// get database directory from args
let args: Vec<String> = env::args().collect();
let db_dir: Option<String> = db_from_args(args);
{
let mut settings = config::SETTINGS.write().unwrap();
// replace default settings with those read from config.toml
let mut c = config::Settings::new();
// update with database location
if let Some(db) = db_dir {
c.database.data_directory = db;
}
*settings = c;
}
let config = config::SETTINGS.read().unwrap();
// do some config validation.
if !Path::new(&config.database.data_directory).is_dir() {
error!("Database directory does not exist");
return Err(Error::DatabaseDirError);
}
debug!("config: {:?}", config);
let addr = format!("{}:{}", config.network.address.trim(), config.network.port);
let socket_addr = addr.parse().expect("listening address not valid");
// configure tokio runtime
let rt = Builder::new_multi_thread()
.enable_all()
.thread_name("tokio-ws")
.build()
.unwrap();
// start tokio
rt.block_on(async {
let settings = config::SETTINGS.read().unwrap();
info!("listening on: {}", socket_addr);
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// all client-submitted valid events are broadcast to every
// other client on this channel. This should be large enough
// to accomodate slower readers (messages are dropped if
// clients can not keep up).
let (bcast_tx, _) = broadcast::channel::<Event>(settings.limits.broadcast_buffer);
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// validated events that need to be persisted are sent to the
// database on via this channel.
let (event_tx, event_rx) = mpsc::channel::<Event>(settings.limits.event_persist_buffer);
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// establish a channel for letting all threads now about a
// requested server shutdown.
let (invoke_shutdown, _) = broadcast::channel::<()>(1);
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let ctrl_c_shutdown = invoke_shutdown.clone();
// // listen for ctrl-c interruupts
tokio::spawn(async move {
tokio::signal::ctrl_c().await.unwrap();
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info!("shutting down due to SIGINT");
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ctrl_c_shutdown.send(()).ok();
});
// start the database writer thread. Give it a channel for
// writing events, and for publishing events that have been
// written (to all connected clients).
db::db_writer(event_rx, bcast_tx.clone(), invoke_shutdown.subscribe()).await;
info!("db writer created");
// A `Service` is needed for every connection, so this
// creates one from our `handle_request` function.
let make_svc = make_service_fn(|conn: &AddrStream| {
let remote_addr = conn.remote_addr();
let bcast = bcast_tx.clone();
let event = event_tx.clone();
let stop = invoke_shutdown.clone();
async move {
// service_fn converts our function into a `Service`
Ok::<_, Infallible>(service_fn(move |request: Request<Body>| {
handle_web_request(
request,
remote_addr,
bcast.clone(),
event.clone(),
stop.subscribe(),
)
}))
}
});
let server = Server::bind(&socket_addr)
.serve(make_svc)
.with_graceful_shutdown(shutdown_signal());
// run hyper
if let Err(e) = server.await {
eprintln!("server error: {}", e);
}
// our code
});
Ok(())
}
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/// Handle new client connections. This runs through an event loop
/// for all client communication.
async fn nostr_server(
ws_stream: WebSocketStream<Upgraded>,
broadcast: Sender<Event>,
event_tx: tokio::sync::mpsc::Sender<Event>,
mut shutdown: Receiver<()>,
) {
// get a broadcast channel for clients to communicate on
let mut bcast_rx = broadcast.subscribe();
let mut config = WebSocketConfig::default();
{
let settings = config::SETTINGS.read().unwrap();
config.max_message_size = settings.limits.max_ws_message_bytes;
config.max_frame_size = settings.limits.max_ws_frame_bytes;
}
// upgrade the TCP connection to WebSocket
//let conn = tokio_tungstenite::accept_async_with_config(stream, Some(config)).await;
//let ws_stream = conn.expect("websocket handshake error");
// wrap websocket into a stream & sink of Nostr protocol messages
let mut nostr_stream = protostream::wrap_ws_in_nostr(ws_stream);
// Track internal client state
let mut conn = conn::ClientConn::new();
let cid = conn.get_client_prefix();
// Create a channel for receiving query results from the database.
// we will send out the tx handle to any query we generate.
let (query_tx, mut query_rx) = mpsc::channel::<db::QueryResult>(256);
// maintain a hashmap of a oneshot channel for active subscriptions.
// when these subscriptions are cancelled, make a message
// available to the executing query so it knows to stop.
//let (abandon_query_tx, _) = oneshot::channel::<()>();
let mut running_queries: HashMap<String, oneshot::Sender<()>> = HashMap::new();
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// for stats, keep track of how many events the client published,
// and how many it received from queries.
let mut client_published_event_count: usize = 0;
let mut client_received_event_count: usize = 0;
info!("new connection for client: {}", cid);
loop {
tokio::select! {
_ = shutdown.recv() => {
// server shutting down, exit loop
break;
},
Some(query_result) = query_rx.recv() => {
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// database informed us of a query result we asked for
let res = EventRes(query_result.sub_id,query_result.event);
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client_received_event_count += 1;
nostr_stream.send(res).await.ok();
},
Ok(global_event) = bcast_rx.recv() => {
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// an event has been broadcast to all clients
// first check if there is a subscription for this event.
let matching_subs = conn.get_matching_subscriptions(&global_event);
for s in matching_subs {
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// TODO: serialize at broadcast time, instead of
// once for each consumer.
if let Ok(event_str) = serde_json::to_string(&global_event) {
debug!("sub match: client: {}, sub: {}, event: {}",
cid, s,
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global_event.get_event_id_prefix());
// create an event response and send it
let res = EventRes(s.to_owned(),event_str);
nostr_stream.send(res).await.ok();
} else {
warn!("could not convert event to string");
}
}
},
// check if this client has a subscription
proto_next = nostr_stream.next() => {
match proto_next {
Some(Ok(EventMsg(ec))) => {
// An EventCmd needs to be validated to be converted into an Event
// handle each type of message
let parsed : Result<Event> = Result::<Event>::from(ec);
match parsed {
Ok(e) => {
let id_prefix:String = e.id.chars().take(8).collect();
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debug!("successfully parsed/validated event: {} from client: {}", id_prefix, cid);
// Write this to the database
event_tx.send(e.clone()).await.ok();
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client_published_event_count += 1;
},
Err(_) => {
info!("client {} sent an invalid event", cid);
nostr_stream.send(NoticeRes("event was invalid".to_owned())).await.ok();
}
}
},
Some(Ok(SubMsg(s))) => {
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debug!("client {} requesting a subscription", cid);
// subscription handling consists of:
// * registering the subscription so future events can be matched
// * making a channel to cancel to request later
// * sending a request for a SQL query
let (abandon_query_tx, abandon_query_rx) = oneshot::channel::<()>();
match conn.subscribe(s.clone()) {
Ok(()) => {
running_queries.insert(s.id.to_owned(), abandon_query_tx);
// start a database query
db::db_query(s, query_tx.clone(), abandon_query_rx).await;
},
Err(e) => {
info!("Subscription error: {}", e);
nostr_stream.send(NoticeRes(format!("{}",e))).await.ok();
}
}
},
Some(Ok(CloseMsg(cc))) => {
// closing a request simply removes the subscription.
let parsed : Result<Close> = Result::<Close>::from(cc);
match parsed {
Ok(c) => {
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// check if a query is currently
// running, and remove it if so.
let stop_tx = running_queries.remove(&c.id);
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if let Some(tx) = stop_tx {
tx.send(()).ok();
}
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// stop checking new events against
// the subscription
conn.unsubscribe(c);
},
Err(_) => {
info!("invalid command ignored");
}
}
},
None => {
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debug!("normal websocket close from client: {}",cid);
break;
},
Some(Err(Error::ConnError)) => {
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debug!("got connection close/error, disconnecting client: {}",cid);
break;
}
Some(Err(Error::EventMaxLengthError(s))) => {
info!("client {} sent event larger ({} bytes) than max size", cid, s);
nostr_stream.send(NoticeRes("event exceeded max size".to_owned())).await.ok();
},
Some(Err(e)) => {
info!("got non-fatal error from client: {}, error: {:?}", cid, e);
},
}
},
}
}
// connection cleanup - ensure any still running queries are terminated.
for (_, stop_tx) in running_queries.into_iter() {
stop_tx.send(()).ok();
}
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info!(
"stopping connection for client: {} (client sent {} event(s), received {})",
cid, client_published_event_count, client_received_event_count
);
}