web3-proxy/src/main.rs
2022-04-24 18:56:46 +00:00

304 lines
9.9 KiB
Rust

use dashmap::DashMap;
use futures::stream;
use futures::StreamExt;
use governor::clock::{QuantaClock, QuantaInstant};
use governor::middleware::NoOpMiddleware;
use governor::state::{InMemoryState, NotKeyed};
use governor::{NotUntil, RateLimiter};
use std::num::NonZeroU32;
use std::sync::Arc;
use tokio::sync::RwLock;
// use tokio::time::{sleep, Duration};
use warp::Filter;
// TODO: what should this be?
const PARALLEL_REQUESTS: usize = 4;
type RpcRateLimiter =
RateLimiter<NotKeyed, InMemoryState, QuantaClock, NoOpMiddleware<QuantaInstant>>;
/// Load balance to the least-connection rpc
struct BalancedRpcs {
rpcs: RwLock<Vec<String>>,
connections: DashMap<String, u32>,
// TODO: what type? store with connections?
// ratelimits: RateLimiter<K, DashMapStateStore<K>, dyn governor::clock::Clock>,
ratelimits: DashMap<String, RpcRateLimiter>,
}
// TODO: also pass rate limits to this?
impl Into<BalancedRpcs> for Vec<(&str, u32)> {
fn into(self) -> BalancedRpcs {
let mut rpcs: Vec<String> = vec![];
let connections = DashMap::new();
let ratelimits = DashMap::new();
// TODO: where should we get the rate limits from?
// TODO: this is not going to work. we need different rate limits for different endpoints
for (s, limit) in self.into_iter() {
rpcs.push(s.to_string());
connections.insert(s.to_string(), 0);
if limit > 0 {
let quota = governor::Quota::per_second(NonZeroU32::new(limit).unwrap());
let rate_limiter = governor::RateLimiter::direct(quota);
ratelimits.insert(s.to_string(), rate_limiter);
}
}
BalancedRpcs {
rpcs: RwLock::new(rpcs),
connections,
ratelimits,
}
}
}
impl BalancedRpcs {
async fn get_upstream_server(&self) -> Result<String, NotUntil<QuantaInstant>> {
let mut balanced_rpcs = self.rpcs.write().await;
balanced_rpcs.sort_unstable_by(|a, b| {
self.connections
.get(a)
.unwrap()
.cmp(&self.connections.get(b).unwrap())
});
let mut earliest_not_until = None;
for selected_rpc in balanced_rpcs.iter() {
// check rate limits
match self.ratelimits.get(selected_rpc).unwrap().check() {
Ok(_) => {
// rate limit succeeded
}
Err(not_until) => {
// rate limit failed
// save the smallest not_until. if nothing succeeds, return an Err with not_until in it
if earliest_not_until.is_none() {
earliest_not_until = Some(not_until);
} else {
let earliest_possible =
earliest_not_until.as_ref().unwrap().earliest_possible();
let new_earliest_possible = not_until.earliest_possible();
if earliest_possible > new_earliest_possible {
earliest_not_until = Some(not_until);
}
}
continue;
}
};
// increment our connection counter
// TODO: need to change this to be an atomic counter!
let mut connections = self.connections.get_mut(selected_rpc).unwrap();
*connections += 1;
// return the selected RPC
return Ok(selected_rpc.clone());
}
// return the smallest not_until
if let Some(not_until) = earliest_not_until {
return Err(not_until);
} else {
unimplemented!();
}
}
}
/// Send to all the Rpcs
struct LoudRpcs {
rpcs: Vec<String>,
// TODO: what type? store with connections?
// ratelimits: DashMap<String, u32>,
}
impl Into<LoudRpcs> for Vec<&str> {
fn into(self) -> LoudRpcs {
let mut rpcs: Vec<String> = vec![];
// let ratelimits = DashMap::new();
for s in self.into_iter() {
rpcs.push(s.to_string());
// ratelimits.insert(s.to_string(), 0);
}
LoudRpcs {
rpcs,
// ratelimits,
}
}
}
impl LoudRpcs {
async fn get_upstream_servers(&self) -> Vec<String> {
self.rpcs.clone()
}
fn as_bool(&self) -> bool {
self.rpcs.len() > 0
}
}
struct Web3ProxyState {
client: reqwest::Client,
balanced_rpc_tiers: Vec<BalancedRpcs>,
private_rpcs: LoudRpcs,
}
impl Web3ProxyState {
fn new(balanced_rpc_tiers: Vec<Vec<(&str, u32)>>, private_rpcs: Vec<&str>) -> Web3ProxyState {
// TODO: warn if no private relays
Web3ProxyState {
client: reqwest::Client::new(),
balanced_rpc_tiers: balanced_rpc_tiers.into_iter().map(Into::into).collect(),
private_rpcs: private_rpcs.into(),
}
}
/// send the request to the approriate RPCs
async fn proxy_web3_rpc(
self: Arc<Web3ProxyState>,
json_body: serde_json::Value,
) -> anyhow::Result<impl warp::Reply> {
let eth_send_raw_transaction =
serde_json::Value::String("eth_sendRawTransaction".to_string());
if self.private_rpcs.as_bool() && json_body.get("method") == Some(&eth_send_raw_transaction)
{
// there are private rpcs configured and the request is eth_sendSignedTransaction. send to all private rpcs
let upstream_servers = self.private_rpcs.get_upstream_servers().await;
if let Ok(result) = self.try_send_requests(upstream_servers, &json_body).await {
return Ok(result);
}
} else {
// this is not a private transaction (or no private relays are configured)
for balanced_rpcs in self.balanced_rpc_tiers.iter() {
if let Ok(upstream_server) = balanced_rpcs.get_upstream_server().await {
// TODO: capture any errors. at least log them
if let Ok(result) = self
.try_send_requests(vec![upstream_server], &json_body)
.await
{
return Ok(result);
}
} else {
// TODO: if we got an error. save the ratelimit NotUntil so we can sleep until then before trying again
}
}
}
return Err(anyhow::anyhow!("all servers failed"));
}
async fn try_send_requests(
&self,
upstream_servers: Vec<String>,
json_body: &serde_json::Value,
) -> anyhow::Result<String> {
// send the query to all the servers
let mut bodies = stream::iter(upstream_servers)
.map(|url| {
let client = self.client.clone();
let json_body = json_body.clone();
tokio::spawn(async move {
let resp = client.post(url).json(&json_body).send().await?;
resp.text().await
})
})
.buffer_unordered(PARALLEL_REQUESTS);
let mut oks = vec![];
let mut errs = vec![];
while let Some(b) = bodies.next().await {
// TODO: reduce connection counter
match b {
Ok(Ok(b)) => {
// TODO: if "no block with that header", skip this response (maybe retry)
oks.push(b);
}
Ok(Err(e)) => {
// TODO: better errors
eprintln!("Got a reqwest::Error: {}", e);
errs.push(anyhow::anyhow!("Got a reqwest::Error"));
}
Err(e) => {
// TODO: better errors
eprintln!("Got a tokio::JoinError: {}", e);
errs.push(anyhow::anyhow!("Got a tokio::JoinError"));
}
}
}
// TODO: which response should we use?
if oks.len() > 0 {
return Ok(oks.pop().unwrap());
} else if errs.len() > 0 {
return Err(errs.pop().unwrap());
} else {
return Err(anyhow::anyhow!("no successful responses"));
}
}
}
#[tokio::main]
async fn main() {
// TODO: load the config from yaml instead of hard coding
// TODO: support multiple chains in one process. then we could just point "chain.stytt.com" at this and caddy wouldn't need anything else
// TODO: i kind of want to make use of caddy's load balancing and health checking and such though
let listen_port = 8445;
// TODO: be smart about about using archive nodes?
let state = Web3ProxyState::new(
vec![
// local nodes
vec![("https://10.11.12.16:8545", 0)],
// paid nodes
// TODO: add paid nodes (with rate limits)
// free nodes
// TODO: add rate limits
vec![
("https://main-rpc.linkpool.io", 0),
("https://rpc.ankr.com/eth", 0),
],
],
vec![
"https://api.edennetwork.io/v1/beta",
"https://api.edennetwork.io/v1/",
],
);
let state: Arc<Web3ProxyState> = Arc::new(state);
let proxy_rpc_filter = warp::any()
.and(warp::post())
.and(warp::body::json())
.then(move |json_body| state.clone().proxy_web3_rpc(json_body))
.map(handle_anyhow_errors);
println!("Listening on 0.0.0.0:{}", listen_port);
warp::serve(proxy_rpc_filter)
.run(([0, 0, 0, 0], listen_port))
.await;
}
/// convert result into an http response. use this at the end of your warp filter
pub fn handle_anyhow_errors<T: warp::Reply>(res: anyhow::Result<T>) -> Box<dyn warp::Reply> {
match res {
Ok(r) => Box::new(r.into_response()),
// TODO: json error?
Err(e) => Box::new(warp::reply::with_status(
format!("{}", e),
reqwest::StatusCode::INTERNAL_SERVER_ERROR,
)),
}
}