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mango-v4
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mango-v4/bin/service-mango-fills/src/main.rs

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Rust
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mod fill_event_filter;
mod fill_event_postgres_target;
mod postgres_config;
use anchor_client::Cluster;
use anchor_lang::prelude::Pubkey;
use futures_channel::mpsc::{unbounded, UnboundedSender};
use futures_util::{
future::{self, Ready},
pin_mut, SinkExt, StreamExt, TryStreamExt,
};
use log::*;
use mango_feeds_connector::{
grpc_plugin_source, metrics,
metrics::{MetricType, MetricU64},
websocket_source, EntityFilter, FilterConfig, MetricsConfig, SourceConfig,
};
use mango_feeds_lib::MarketConfig;
use mango_feeds_lib::StatusResponse;
use mango_v4_client::{Client, MangoGroupContext, TransactionBuilderConfig};
use service_mango_fills::{Command, FillCheckpoint, FillEventFilterMessage, FillEventType};
use solana_sdk::commitment_config::CommitmentConfig;
use solana_sdk::signature::Keypair;
use std::{
collections::{HashMap, HashSet},
env,
fs::File,
io::Read,
net::SocketAddr,
str::FromStr,
sync::Arc,
sync::{
atomic::{AtomicBool, Ordering},
Mutex,
},
time::Duration,
};
use tokio::{
net::{TcpListener, TcpStream},
pin, time,
};
use tokio_tungstenite::tungstenite::{protocol::Message, Error};
use crate::postgres_config::PostgresConfig;
use serde::Deserialize;
type CheckpointMap = Arc<Mutex<HashMap<String, FillCheckpoint>>>;
type PeerMap = Arc<Mutex<HashMap<SocketAddr, Peer>>>;
// jemalloc seems to be better at keeping the memory footprint reasonable over
// longer periods of time
#[global_allocator]
static ALLOC: jemallocator::Jemalloc = jemallocator::Jemalloc;
#[derive(Clone, Debug)]
pub struct Peer {
pub sender: UnboundedSender<Message>,
pub market_subscriptions: HashSet<String>,
pub account_subscriptions: HashSet<String>,
pub head_updates: bool,
}
#[allow(clippy::too_many_arguments)]
async fn handle_connection_error(
checkpoint_map: CheckpointMap,
peer_map: PeerMap,
market_ids: HashMap<String, String>,
raw_stream: TcpStream,
addr: SocketAddr,
metrics_opened_connections: MetricU64,
metrics_closed_connections: MetricU64,
) {
metrics_opened_connections.clone().increment();
let result = handle_connection(
checkpoint_map,
peer_map.clone(),
market_ids,
raw_stream,
addr,
)
.await;
if result.is_err() {
error!("connection {} error {}", addr, result.unwrap_err());
};
metrics_closed_connections.clone().increment();
peer_map.lock().unwrap().remove(&addr);
}
async fn handle_connection(
checkpoint_map: CheckpointMap,
peer_map: PeerMap,
market_ids: HashMap<String, String>,
raw_stream: TcpStream,
addr: SocketAddr,
) -> Result<(), Error> {
info!("ws connected: {}", addr);
let ws_stream = tokio_tungstenite::accept_async(raw_stream).await?;
let (ws_tx, ws_rx) = ws_stream.split();
// 1: publish channel in peer map
let (chan_tx, chan_rx) = unbounded();
{
peer_map.lock().unwrap().insert(
addr,
Peer {
sender: chan_tx,
market_subscriptions: HashSet::<String>::new(),
account_subscriptions: HashSet::<String>::new(),
head_updates: false,
},
);
}
let receive_commands = ws_rx.try_for_each(|msg| match msg {
Message::Text(_) => handle_commands(
addr,
msg,
peer_map.clone(),
checkpoint_map.clone(),
market_ids.clone(),
),
Message::Ping(_) => {
let peers = peer_map.clone();
let mut peers_lock = peers.lock().unwrap();
let peer = peers_lock.get_mut(&addr).expect("peer should be in map");
peer.sender
.unbounded_send(Message::Pong(Vec::new()))
.unwrap();
future::ready(Ok(()))
}
_ => future::ready(Ok(())),
});
let forward_updates = chan_rx.map(Ok).forward(ws_tx);
pin_mut!(receive_commands, forward_updates);
future::select(receive_commands, forward_updates).await;
peer_map.lock().unwrap().remove(&addr);
info!("ws disconnected: {}", &addr);
Ok(())
}
fn handle_commands(
addr: SocketAddr,
msg: Message,
peer_map: PeerMap,
checkpoint_map: CheckpointMap,
market_ids: HashMap<String, String>,
) -> Ready<Result<(), Error>> {
let msg_str = msg.into_text().unwrap();
let command: Result<Command, serde_json::Error> = serde_json::from_str(&msg_str);
let mut peers = peer_map.lock().unwrap();
let peer = peers.get_mut(&addr).expect("peer should be in map");
match command {
Ok(Command::Subscribe(cmd)) => {
let mut wildcard = true;
// DEPRECATED
if let Some(market_id) = cmd.market_id {
wildcard = false;
if market_ids.get(&market_id).is_none() {
let res = StatusResponse {
success: false,
message: "market not found",
};
peer.sender
.unbounded_send(Message::Text(serde_json::to_string(&res).unwrap()))
.unwrap();
return future::ok(());
}
let subscribed = peer.market_subscriptions.insert(market_id.clone());
let res = if subscribed {
StatusResponse {
success: true,
message: "subscribed",
}
} else {
StatusResponse {
success: false,
message: "already subscribed",
}
};
peer.sender
.unbounded_send(Message::Text(serde_json::to_string(&res).unwrap()))
.unwrap();
if subscribed {
let checkpoint_map = checkpoint_map.lock().unwrap();
let checkpoint = checkpoint_map.get(&market_id);
match checkpoint {
Some(checkpoint) => {
peer.sender
.unbounded_send(Message::Text(
serde_json::to_string(&checkpoint).unwrap(),
))
.unwrap();
}
None => info!(
"no checkpoint available on client subscription for market {}",
&market_id
),
};
}
}
if let Some(cmd_market_ids) = cmd.market_ids {
wildcard = false;
for market_id in cmd_market_ids {
if market_ids.get(&market_id).is_none() {
let res = StatusResponse {
success: false,
message: &format!("market {} not found", &market_id),
};
peer.sender
.unbounded_send(Message::Text(serde_json::to_string(&res).unwrap()))
.unwrap();
return future::ok(());
}
if peer.market_subscriptions.insert(market_id.clone()) {
let checkpoint_map = checkpoint_map.lock().unwrap();
let checkpoint = checkpoint_map.get(&market_id);
let res = StatusResponse {
success: true,
message: &format!("subscribed to market {}", &market_id),
};
peer.sender
.unbounded_send(Message::Text(serde_json::to_string(&res).unwrap()))
.unwrap();
match checkpoint {
Some(checkpoint) => {
peer.sender
.unbounded_send(Message::Text(
serde_json::to_string(&checkpoint).unwrap(),
))
.unwrap();
}
None => info!(
"no checkpoint available on client subscription for market {}",
&market_id
),
};
}
}
}
if let Some(account_ids) = cmd.account_ids {
wildcard = false;
for account_id in account_ids {
if peer.account_subscriptions.insert(account_id.clone()) {
let res = StatusResponse {
success: true,
message: &format!("subscribed to account {}", &account_id),
};
peer.sender
.unbounded_send(Message::Text(serde_json::to_string(&res).unwrap()))
.unwrap();
}
}
}
if wildcard {
for (market_id, market_name) in market_ids {
if peer.market_subscriptions.insert(market_id.clone()) {
let res = StatusResponse {
success: true,
message: &format!("subscribed to market {}", &market_name),
};
peer.sender
.unbounded_send(Message::Text(serde_json::to_string(&res).unwrap()))
.unwrap();
}
}
}
if let Some(head_updates) = cmd.head_updates {
peer.head_updates = head_updates;
}
}
Ok(Command::Unsubscribe(cmd)) => {
info!("unsubscribe {}", cmd.market_id);
let unsubscribed = peer.market_subscriptions.remove(&cmd.market_id);
let res = if unsubscribed {
StatusResponse {
success: true,
message: "unsubscribed",
}
} else {
StatusResponse {
success: false,
message: "not subscribed",
}
};
peer.sender
.unbounded_send(Message::Text(serde_json::to_string(&res).unwrap()))
.unwrap();
}
Ok(Command::GetMarkets) => {
info!("getMarkets");
peer.sender
.unbounded_send(Message::Text(serde_json::to_string(&market_ids).unwrap()))
.unwrap();
}
Err(err) => {
info!("error deserializing user input {:?}", err);
let res = StatusResponse {
success: false,
message: "invalid input",
};
peer.sender
.unbounded_send(Message::Text(serde_json::to_string(&res).unwrap()))
.unwrap();
}
};
future::ok(())
}
#[derive(Clone, Debug, Deserialize)]
pub struct Config {
pub source: SourceConfig,
pub metrics: MetricsConfig,
pub postgres: Option<PostgresConfig>,
pub bind_ws_addr: String,
pub rpc_http_url: String,
pub mango_group: String,
}
#[tokio::main]
async fn main() -> anyhow::Result<()> {
let args: Vec<String> = std::env::args().collect();
let exit: Arc<AtomicBool> = Arc::new(AtomicBool::new(false));
if args.len() < 2 {
eprintln!("Please enter a config file path argument.");
return Ok(());
}
let config: Config = {
let mut file = File::open(&args[1])?;
let mut contents = String::new();
file.read_to_string(&mut contents)?;
toml::from_str(&contents).unwrap()
};
solana_logger::setup_with_default("info");
let metrics_tx = metrics::start(config.metrics, "fills".into());
let metrics_opened_connections =
metrics_tx.register_u64("fills_feed_opened_connections".into(), MetricType::Counter);
let metrics_closed_connections =
metrics_tx.register_u64("fills_feed_closed_connections".into(), MetricType::Counter);
let rpc_url = match &config.rpc_http_url.chars().next().unwrap() {
'$' => env::var(&config.rpc_http_url[1..]).expect("reading rpc http url from env"),
_ => config.rpc_http_url.clone(),
};
let ws_url = rpc_url.replace("https", "wss");
let rpc_timeout = Duration::from_secs(10);
let cluster = Cluster::Custom(rpc_url.clone(), ws_url.clone());
let client = Client::new(
cluster.clone(),
CommitmentConfig::processed(),
Arc::new(Keypair::new()),
Some(rpc_timeout),
TransactionBuilderConfig::default(),
);
let group_context = Arc::new(
MangoGroupContext::new_from_rpc(
client.rpc_async(),
Pubkey::from_str(&config.mango_group).unwrap(),
)
.await?,
);
// todo: reload markets at intervals
let perp_market_configs: Vec<(Pubkey, MarketConfig)> = group_context
.perp_markets
.values()
.map(|context| {
let quote_decimals = match group_context.tokens.get(&context.settle_token_index) {
Some(token) => token.decimals,
None => panic!("token not found for market"), // todo: default to 6 for usdc?
};
(
context.address,
MarketConfig {
name: context.name.clone(),
bids: context.bids,
asks: context.asks,
event_queue: context.event_queue,
oracle: context.oracle,
base_decimals: context.base_decimals,
quote_decimals,
base_lot_size: context.base_lot_size,
quote_lot_size: context.quote_lot_size,
},
)
})
.collect();
let spot_market_configs: Vec<(Pubkey, MarketConfig)> = group_context
.serum3_markets
.values()
.map(|context| {
let base_decimals = match group_context.tokens.get(&context.base_token_index) {
Some(token) => token.decimals,
None => panic!("token not found for market"), // todo: default?
};
let quote_decimals = match group_context.tokens.get(&context.quote_token_index) {
Some(token) => token.decimals,
None => panic!("token not found for market"), // todo: default to 6 for usdc?
};
(
context.serum_market_external,
MarketConfig {
name: context.name.clone(),
bids: context.bids,
asks: context.asks,
event_queue: context.event_q,
oracle: Pubkey::default(), // serum markets don't support oracle peg
base_decimals,
quote_decimals,
base_lot_size: context.pc_lot_size as i64,
quote_lot_size: context.coin_lot_size as i64,
},
)
})
.collect();
let perp_queue_pks: Vec<(Pubkey, Pubkey)> = group_context
.perp_markets
.values()
.map(|context| (context.address, context.event_queue))
.collect();
let _a: Vec<(String, String)> = group_context
.serum3_markets
.values()
.map(|context| {
(
context.serum_market_external.to_string(),
context.name.clone(),
)
})
.collect();
let b: Vec<(String, String)> = group_context
.perp_markets
.values()
.map(|context| (context.address.to_string(), context.name.clone()))
.collect();
let market_pubkey_strings: HashMap<String, String> = [b].concat().into_iter().collect();
let postgres_update_sender = match config.postgres {
Some(postgres_config) => Some(
fill_event_postgres_target::init(&postgres_config, metrics_tx.clone(), exit.clone())
.await?,
),
None => None,
};
let (account_write_queue_sender, slot_queue_sender, fill_receiver) = fill_event_filter::init(
perp_market_configs.clone(),
spot_market_configs.clone(),
metrics_tx.clone(),
exit.clone(),
)
.await?;
let checkpoints = CheckpointMap::new(Mutex::new(HashMap::new()));
let peers = PeerMap::new(Mutex::new(HashMap::new()));
let checkpoints_ref_thread = checkpoints.clone();
let peers_ref_thread = peers.clone();
let peers_ref_thread1 = peers.clone();
// filleventfilter websocket sink
tokio::spawn(async move {
pin!(fill_receiver);
loop {
let message = fill_receiver.recv().await.unwrap();
match message {
FillEventFilterMessage::Update(update) => {
debug!(
"ws update {} {:?} {:?} fill",
update.market_name, update.status, update.event.event_type
);
let mut peer_copy = peers_ref_thread.lock().unwrap().clone();
for (addr, peer) in peer_copy.iter_mut() {
let json = serde_json::to_string(&update.clone()).unwrap();
let is_subscribed = peer.market_subscriptions.contains(&update.market_key)
|| peer.account_subscriptions.contains(&update.event.taker)
|| peer.account_subscriptions.contains(&update.event.maker);
// only send updates if the peer is subscribed
if is_subscribed {
let result = peer.sender.send(Message::Text(json)).await;
if result.is_err() {
error!(
"ws update {} fill could not reach {}",
update.market_name, addr
);
}
}
}
// send fills to db
let update_c = update.clone();
if let (Some(sender), FillEventType::Perp) =
(postgres_update_sender.clone(), update_c.event.event_type)
{
sender.send(update_c).await.unwrap();
}
}
FillEventFilterMessage::Checkpoint(checkpoint) => {
checkpoints_ref_thread
.lock()
.unwrap()
.insert(checkpoint.queue.clone(), checkpoint);
}
FillEventFilterMessage::HeadUpdate(update) => {
debug!(
"ws update {} {:?} {} {} head",
update.market_name, update.status, update.head, update.prev_head
);
let mut peer_copy = peers_ref_thread.lock().unwrap().clone();
for (addr, peer) in peer_copy.iter_mut() {
let json = serde_json::to_string(&update.clone()).unwrap();
let is_subscribed = peer.market_subscriptions.contains(&update.market_key);
// only send updates if the peer is subscribed
if peer.head_updates && is_subscribed {
let result = peer.sender.send(Message::Text(json)).await;
if result.is_err() {
error!(
"ws update {} head could not reach {}",
update.market_name, addr
);
}
}
}
}
}
}
});
// websocket listener
info!("ws listen: {}", config.bind_ws_addr);
let try_socket = TcpListener::bind(&config.bind_ws_addr).await;
let listener = try_socket.expect("Failed to bind");
{
tokio::spawn(async move {
// Let's spawn the handling of each connection in a separate task.
while let Ok((stream, addr)) = listener.accept().await {
tokio::spawn(handle_connection_error(
checkpoints.clone(),
peers.clone(),
market_pubkey_strings.clone(),
stream,
addr,
metrics_opened_connections.clone(),
metrics_closed_connections.clone(),
));
}
});
}
// keepalive
{
tokio::spawn(async move {
let mut write_interval = mango_v4_client::delay_interval(time::Duration::from_secs(30));
loop {
write_interval.tick().await;
let peers_copy = peers_ref_thread1.lock().unwrap().clone();
for (addr, peer) in peers_copy.iter() {
let pl = Vec::new();
let result = peer.clone().sender.send(Message::Ping(pl)).await;
if result.is_err() {
error!("ws ping could not reach {}", addr);
}
}
}
});
}
// handle sigint
{
let exit = exit.clone();
tokio::spawn(async move {
tokio::signal::ctrl_c().await.unwrap();
info!("Received SIGINT, shutting down...");
exit.store(true, Ordering::Relaxed);
});
}
info!(
"rpc connect: {}",
config
.source
.grpc_sources
.iter()
.map(|c| c.connection_string.clone())
.collect::<String>()
);
let use_geyser = true;
let all_queue_pks = [perp_queue_pks.clone()].concat();
let relevant_pubkeys = all_queue_pks.iter().map(|m| m.1).collect();
let filter_config = FilterConfig {
entity_filter: EntityFilter::FilterByAccountIds(relevant_pubkeys),
};
if use_geyser {
grpc_plugin_source::process_events(
&config.source,
&filter_config,
account_write_queue_sender,
slot_queue_sender,
metrics_tx.clone(),
exit.clone(),
)
.await;
} else {
websocket_source::process_events(
&config.source,
&filter_config,
account_write_queue_sender,
slot_queue_sender,
)
.await;
}
Ok(())
}
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