Move code out of main.rs to lib

.. to allow using the `translator` in other environements.

roles/translator/Cargo.toml

@@ -10,6 +10,10 @@ repository = "https://github.com/stratum-mining/stratum"
 name = "translator_sv2"
 path = "src/lib/mod.rs"
 
+[[bin]]
+name = "translator_sv2"
+path = "src/main.rs"
+
 [dependencies]
 stratum-common = { version = "1.0.0", path = "../../common" }
 async-channel = "1.5.1"

roles/translator/src/lib/mod.rs

@@ -1,7 +1,280 @@
+use async_channel::{bounded, unbounded};
+use futures::FutureExt;
+use rand::Rng;
+pub use roles_logic_sv2::utils::Mutex;
+use status::Status;
+use std::{
+    net::{IpAddr, SocketAddr},
+    str::FromStr,
+    sync::Arc,
+};
+
+use tokio::{
+    sync::broadcast,
+    task::{self, AbortHandle},
+};
+use tracing::{debug, error, info, warn};
+pub use v1::server_to_client;
+
+use proxy_config::ProxyConfig;
+
+use crate::status::State;
+
 pub mod downstream_sv1;
 pub mod error;
 pub mod proxy;
 pub mod proxy_config;
 pub mod status;
 pub mod upstream_sv2;
 pub mod utils;
+
+#[derive(Clone, Debug)]
+pub struct TranslatorSv2 {
+    config: ProxyConfig,
+    reconnect_wait_time: u64,
+}
+
+impl TranslatorSv2 {
+    pub fn new(config: ProxyConfig) -> Self {
+        let mut rng = rand::thread_rng();
+        let wait_time = rng.gen_range(0..=3000);
+        Self {
+            config,
+            reconnect_wait_time: wait_time,
+        }
+    }
+
+    pub async fn start(self) {
+        let (tx_status, rx_status) = unbounded();
+
+        let target = Arc::new(Mutex::new(vec![0; 32]));
+
+        // Sender/Receiver to send SV1 `mining.notify` message from the `Bridge` to the `Downstream`
+        let (tx_sv1_notify, _rx_sv1_notify): (
+            broadcast::Sender<server_to_client::Notify>,
+            broadcast::Receiver<server_to_client::Notify>,
+        ) = broadcast::channel(10);
+
+        let task_collector: Arc<Mutex<Vec<(AbortHandle, String)>>> =
+            Arc::new(Mutex::new(Vec::new()));
+
+        self.internal_start(
+            tx_sv1_notify.clone(),
+            target.clone(),
+            tx_status.clone(),
+            task_collector.clone(),
+        )
+        .await;
+
+        debug!("Starting up signal listener");
+        let task_collector_ = task_collector.clone();
+
+        debug!("Starting up status listener");
+        let wait_time = self.reconnect_wait_time;
+        // Check all tasks if is_finished() is true, if so exit
+        loop {
+            let task_status = tokio::select! {
+                task_status = rx_status.recv().fuse() => task_status,
+            };
+            let task_status: Status = task_status.unwrap();
+
+            match task_status.state {
+                // Should only be sent by the downstream listener
+                State::DownstreamShutdown(err) => {
+                    error!("SHUTDOWN from: {}", err);
+                    break;
+                }
+                State::BridgeShutdown(err) => {
+                    error!("SHUTDOWN from: {}", err);
+                    break;
+                }
+                State::UpstreamShutdown(err) => {
+                    error!("SHUTDOWN from: {}", err);
+                    break;
+                }
+                State::UpstreamTryReconnect(err) => {
+                    error!("SHUTDOWN from: {}", err);
+
+                    // wait a random amount of time between 0 and 3000ms
+                    // if all the downstreams try to reconnect at the same time, the upstream may fail
+                    tokio::time::sleep(std::time::Duration::from_millis(wait_time)).await;
+
+                    // kill al the tasks
+                    let task_collector_aborting = task_collector_.clone();
+                    kill_tasks(task_collector_aborting.clone());
+
+                    warn!("Trying reconnecting to upstream");
+                    self.internal_start(
+                        tx_sv1_notify.clone(),
+                        target.clone(),
+                        tx_status.clone(),
+                        task_collector_.clone(),
+                    )
+                    .await;
+                }
+                State::Healthy(msg) => {
+                    info!("HEALTHY message: {}", msg);
+                }
+            }
+        }
+    }
+
+    async fn internal_start(
+        &self,
+        tx_sv1_notify: broadcast::Sender<server_to_client::Notify<'static>>,
+        target: Arc<Mutex<Vec<u8>>>,
+        tx_status: async_channel::Sender<Status<'static>>,
+        task_collector: Arc<Mutex<Vec<(AbortHandle, String)>>>,
+    ) {
+        let proxy_config = self.config.clone();
+        // Sender/Receiver to send a SV2 `SubmitSharesExtended` from the `Bridge` to the `Upstream`
+        // (Sender<SubmitSharesExtended<'static>>, Receiver<SubmitSharesExtended<'static>>)
+        let (tx_sv2_submit_shares_ext, rx_sv2_submit_shares_ext) = bounded(10);
+
+        // `tx_sv1_bridge` sender is used by `Downstream` to send a `DownstreamMessages` message to
+        // `Bridge` via the `rx_sv1_downstream` receiver
+        // (Sender<downstream_sv1::DownstreamMessages>, Receiver<downstream_sv1::DownstreamMessages>)
+        let (tx_sv1_bridge, rx_sv1_downstream) = unbounded();
+
+        // Sender/Receiver to send a SV2 `NewExtendedMiningJob` message from the `Upstream` to the
+        // `Bridge`
+        // (Sender<NewExtendedMiningJob<'static>>, Receiver<NewExtendedMiningJob<'static>>)
+        let (tx_sv2_new_ext_mining_job, rx_sv2_new_ext_mining_job) = bounded(10);
+
+        // Sender/Receiver to send a new extranonce from the `Upstream` to this `main` function to be
+        // passed to the `Downstream` upon a Downstream role connection
+        // (Sender<ExtendedExtranonce>, Receiver<ExtendedExtranonce>)
+        let (tx_sv2_extranonce, rx_sv2_extranonce) = bounded(1);
+
+        // Sender/Receiver to send a SV2 `SetNewPrevHash` message from the `Upstream` to the `Bridge`
+        // (Sender<SetNewPrevHash<'static>>, Receiver<SetNewPrevHash<'static>>)
+        let (tx_sv2_set_new_prev_hash, rx_sv2_set_new_prev_hash) = bounded(10);
+
+        // Format `Upstream` connection address
+        let upstream_addr = SocketAddr::new(
+            IpAddr::from_str(&proxy_config.upstream_address)
+                .expect("Failed to parse upstream address!"),
+            proxy_config.upstream_port,
+        );
+
+        let diff_config = Arc::new(Mutex::new(proxy_config.upstream_difficulty_config.clone()));
+        let task_collector_upstream = task_collector.clone();
+        // Instantiate a new `Upstream` (SV2 Pool)
+        let upstream = match upstream_sv2::Upstream::new(
+            upstream_addr,
+            proxy_config.upstream_authority_pubkey,
+            rx_sv2_submit_shares_ext,
+            tx_sv2_set_new_prev_hash,
+            tx_sv2_new_ext_mining_job,
+            proxy_config.min_extranonce2_size,
+            tx_sv2_extranonce,
+            status::Sender::Upstream(tx_status.clone()),
+            target.clone(),
+            diff_config.clone(),
+            task_collector_upstream,
+        )
+        .await
+        {
+            Ok(upstream) => upstream,
+            Err(e) => {
+                error!("Failed to create upstream: {}", e);
+                return;
+            }
+        };
+        let task_collector_init_task = task_collector.clone();
+        // Spawn a task to do all of this init work so that the main thread
+        // can listen for signals and failures on the status channel. This
+        // allows for the tproxy to fail gracefully if any of these init tasks
+        //fail
+        let task = task::spawn(async move {
+            // Connect to the SV2 Upstream role
+            match upstream_sv2::Upstream::connect(
+                upstream.clone(),
+                proxy_config.min_supported_version,
+                proxy_config.max_supported_version,
+            )
+            .await
+            {
+                Ok(_) => info!("Connected to Upstream!"),
+                Err(e) => {
+                    error!("Failed to connect to Upstream EXITING! : {}", e);
+                    return;
+                }
+            }
+
+            // Start receiving messages from the SV2 Upstream role
+            if let Err(e) = upstream_sv2::Upstream::parse_incoming(upstream.clone()) {
+                error!("failed to create sv2 parser: {}", e);
+                return;
+            }
+
+            debug!("Finished starting upstream listener");
+            // Start task handler to receive submits from the SV1 Downstream role once it connects
+            if let Err(e) = upstream_sv2::Upstream::handle_submit(upstream.clone()) {
+                error!("Failed to create submit handler: {}", e);
+                return;
+            }
+
+            // Receive the extranonce information from the Upstream role to send to the Downstream role
+            // once it connects also used to initialize the bridge
+            let (extended_extranonce, up_id) = rx_sv2_extranonce.recv().await.unwrap();
+            loop {
+                let target: [u8; 32] = target.safe_lock(|t| t.clone()).unwrap().try_into().unwrap();
+                if target != [0; 32] {
+                    break;
+                };
+                async_std::task::sleep(std::time::Duration::from_millis(100)).await;
+            }
+
+            let task_collector_bridge = task_collector_init_task.clone();
+            // Instantiate a new `Bridge` and begins handling incoming messages
+            let b = proxy::Bridge::new(
+                rx_sv1_downstream,
+                tx_sv2_submit_shares_ext,
+                rx_sv2_set_new_prev_hash,
+                rx_sv2_new_ext_mining_job,
+                tx_sv1_notify.clone(),
+                status::Sender::Bridge(tx_status.clone()),
+                extended_extranonce,
+                target,
+                up_id,
+                task_collector_bridge,
+            );
+            proxy::Bridge::start(b.clone());
+
+            // Format `Downstream` connection address
+            let downstream_addr = SocketAddr::new(
+                IpAddr::from_str(&proxy_config.downstream_address).unwrap(),
+                proxy_config.downstream_port,
+            );
+
+            let task_collector_downstream = task_collector_init_task.clone();
+            // Accept connections from one or more SV1 Downstream roles (SV1 Mining Devices)
+            downstream_sv1::Downstream::accept_connections(
+                downstream_addr,
+                tx_sv1_bridge,
+                tx_sv1_notify,
+                status::Sender::DownstreamListener(tx_status.clone()),
+                b,
+                proxy_config.downstream_difficulty_config,
+                diff_config,
+                task_collector_downstream,
+            );
+        }); // End of init task
+        let _ =
+            task_collector.safe_lock(|t| t.push((task.abort_handle(), "init task".to_string())));
+    }
+
+    pub fn upstream_address(&self) -> SocketAddr {
+        self.config.upstream_address.clone().parse().unwrap()
+    }
+}
+
+fn kill_tasks(task_collector: Arc<Mutex<Vec<(AbortHandle, String)>>>) {
+    let _ = task_collector.safe_lock(|t| {
+        while let Some(handle) = t.pop() {
+            handle.0.abort();
+            warn!("Killed task: {:?}", handle.1);
+        }
+    });
+}