coordinator/src/p2p/libp2p/mod.rs

use core::future::Future;
use std::{
  sync::Arc,
  collections::{HashSet, HashMap},
};

use zeroize::Zeroizing;
use schnorrkel::Keypair;

use serai_client::{
  primitives::{NetworkId, PublicKey},
  Serai,
};

use tokio::sync::{mpsc, RwLock};

use serai_task::{Task, ContinuallyRan};

use libp2p::{
  multihash::Multihash,
  identity::{self, PeerId},
  tcp::Config as TcpConfig,
  yamux,
  swarm::NetworkBehaviour,
  SwarmBuilder,
};

/// A struct to sync the validators from the Serai node in order to keep track of them.
mod validators;
use validators::UpdateValidatorsTask;

/// The authentication protocol upgrade to limit the P2P network to active validators.
mod authenticate;
use authenticate::OnlyValidators;

/// The dial task, to find new peers to connect to
mod dial;
use dial::DialTask;

/// The request-response messages and behavior
mod reqres;
use reqres::{Request, Response};

/// The gossip messages and behavior
mod gossip;

/// The swarm task, running it and dispatching to/from it
mod swarm;
use swarm::SwarmTask;

const PORT: u16 = 30563; // 5132 ^ (('c' << 8) | 'o')

// usize::max, manually implemented, as max isn't a const fn
const MAX_LIBP2P_MESSAGE_SIZE: usize =
  if gossip::MAX_LIBP2P_GOSSIP_MESSAGE_SIZE > reqres::MAX_LIBP2P_REQRES_MESSAGE_SIZE {
    gossip::MAX_LIBP2P_GOSSIP_MESSAGE_SIZE
  } else {
    reqres::MAX_LIBP2P_REQRES_MESSAGE_SIZE
  };

fn peer_id_from_public(public: PublicKey) -> PeerId {
  // 0 represents the identity Multihash, that no hash was performed
  // It's an internal constant so we can't refer to the constant inside libp2p
  PeerId::from_multihash(Multihash::wrap(0, &public.0).unwrap()).unwrap()
}

struct Peer;
impl Peer {
  async fn send(&self, request: Request) -> Result<Response, tokio::time::error::Elapsed> {
    (async move { todo!("TODO") }).await
  }
}

#[derive(Clone)]
struct Peers {
  peers: Arc<RwLock<HashMap<NetworkId, HashSet<PeerId>>>>,
}

#[derive(NetworkBehaviour)]
struct Behavior {
  reqres: reqres::Behavior,
  gossip: gossip::Behavior,
}

struct LibP2p;
impl LibP2p {
  pub(crate) fn new(serai_key: &Zeroizing<Keypair>, serai: Serai) -> LibP2p {
    // Define the object we track peers with
    let peers = Peers { peers: Arc::new(RwLock::new(HashMap::new())) };

    // Define the dial task
    let (dial_task_def, dial_task) = Task::new();
    let (to_dial_send, to_dial_recv) = mpsc::unbounded_channel();
    tokio::spawn(
      DialTask::new(serai.clone(), peers.clone(), to_dial_send)
        .continually_run(dial_task_def, vec![]),
    );

    // Define the Validators object used for validating new connections
    let connection_validators = UpdateValidatorsTask::spawn(serai.clone());
    let new_only_validators = |noise_keypair: &identity::Keypair| -> Result<_, ()> {
      Ok(OnlyValidators {
        serai_key: serai_key.clone(),
        validators: connection_validators.clone(),
        noise_keypair: noise_keypair.clone(),
      })
    };

    let new_yamux = || {
      let mut config = yamux::Config::default();
      // 1 MiB default + max message size
      config.set_max_buffer_size((1024 * 1024) + MAX_LIBP2P_MESSAGE_SIZE);
      // 256 KiB default + max message size
      config.set_receive_window_size(((256 * 1024) + MAX_LIBP2P_MESSAGE_SIZE).try_into().unwrap());
      config
    };

    let behavior = Behavior { reqres: reqres::new_behavior(), gossip: gossip::new_behavior() };

    let mut swarm = SwarmBuilder::with_existing_identity(identity::Keypair::generate_ed25519())
      .with_tokio()
      .with_tcp(TcpConfig::default().nodelay(false), new_only_validators, new_yamux)
      .unwrap()
      .with_behaviour(|_| behavior)
      .unwrap()
      .build();
    swarm.listen_on(format!("/ip4/0.0.0.0/tcp/{PORT}").parse().unwrap()).unwrap();
    swarm.listen_on(format!("/ip6/::/tcp/{PORT}").parse().unwrap()).unwrap();

    let swarm_validators = UpdateValidatorsTask::spawn(serai);

    let (gossip_send, gossip_recv) = mpsc::unbounded_channel();
    let (signed_cosigns_send, signed_cosigns_recv) = mpsc::unbounded_channel();
    let (tributary_gossip_send, tributary_gossip_recv) = mpsc::unbounded_channel();

    let (outbound_requests_send, outbound_requests_recv) = mpsc::unbounded_channel();

    let (heartbeat_requests_send, heartbeat_requests_recv) = mpsc::unbounded_channel();
    let (notable_cosign_requests_send, notable_cosign_requests_recv) = mpsc::unbounded_channel();
    let (inbound_request_responses_send, inbound_request_responses_recv) =
      mpsc::unbounded_channel();

    // Create the swarm task
    SwarmTask::spawn(
      dial_task,
      to_dial_recv,
      swarm_validators,
      peers,
      swarm,
      gossip_recv,
      signed_cosigns_send,
      tributary_gossip_send,
      outbound_requests_recv,
      heartbeat_requests_send,
      notable_cosign_requests_send,
      inbound_request_responses_recv,
    );

    // gossip_send, signed_cosigns_recv, tributary_gossip_recv, outbound_requests_send,
    // heartbeat_requests_recv, notable_cosign_requests_recv, inbound_request_responses_send
    todo!("TODO");
  }
}
Add a trait for the P2p network used in the coordinator Moves all of the Libp2p code to a dedicated directory. Makes the Heartbeat task abstract over any P2p network. 2025-01-08 17:01:37 -05:00			`use core::future::Future;`
			`use std::{`
			`sync::Arc,`
			`collections::{HashSet, HashMap},`
			`};`

			`use zeroize::Zeroizing;`
			`use schnorrkel::Keypair;`

			`use serai_client::{`
			`primitives::{NetworkId, PublicKey},`
			`Serai,`
			`};`

			`use tokio::sync::{mpsc, RwLock};`

			`use serai_task::{Task, ContinuallyRan};`

			`use libp2p::{`
			`multihash::Multihash,`
			`identity::{self, PeerId},`
			`tcp::Config as TcpConfig,`
			`yamux,`
			`swarm::NetworkBehaviour,`
			`SwarmBuilder,`
			`};`

			`/// A struct to sync the validators from the Serai node in order to keep track of them.`
			`mod validators;`
			`use validators::UpdateValidatorsTask;`

			`/// The authentication protocol upgrade to limit the P2P network to active validators.`
			`mod authenticate;`
			`use authenticate::OnlyValidators;`

			`/// The dial task, to find new peers to connect to`
			`mod dial;`
			`use dial::DialTask;`

			`/// The request-response messages and behavior`
			`mod reqres;`
			`use reqres::{Request, Response};`

			`/// The gossip messages and behavior`
			`mod gossip;`

			`/// The swarm task, running it and dispatching to/from it`
			`mod swarm;`
			`use swarm::SwarmTask;`

			`const PORT: u16 = 30563; // 5132 ^ (('c' << 8) \| 'o')`

			`// usize::max, manually implemented, as max isn't a const fn`
			`const MAX_LIBP2P_MESSAGE_SIZE: usize =`
			`if gossip::MAX_LIBP2P_GOSSIP_MESSAGE_SIZE > reqres::MAX_LIBP2P_REQRES_MESSAGE_SIZE {`
			`gossip::MAX_LIBP2P_GOSSIP_MESSAGE_SIZE`
			`} else {`
			`reqres::MAX_LIBP2P_REQRES_MESSAGE_SIZE`
			`};`

			`fn peer_id_from_public(public: PublicKey) -> PeerId {`
			`// 0 represents the identity Multihash, that no hash was performed`
			`// It's an internal constant so we can't refer to the constant inside libp2p`
			`PeerId::from_multihash(Multihash::wrap(0, &public.0).unwrap()).unwrap()`
			`}`

			`struct Peer;`
			`impl Peer {`
			`async fn send(&self, request: Request) -> Result<Response, tokio::time::error::Elapsed> {`
			`(async move { todo!("TODO") }).await`
			`}`
			`}`

			`#[derive(Clone)]`
			`struct Peers {`
			`peers: Arc<RwLock<HashMap<NetworkId, HashSet<PeerId>>>>,`
			`}`

			`#[derive(NetworkBehaviour)]`
			`struct Behavior {`
			`reqres: reqres::Behavior,`
			`gossip: gossip::Behavior,`
			`}`

			`struct LibP2p;`
			`impl LibP2p {`
			`pub(crate) fn new(serai_key: &Zeroizing<Keypair>, serai: Serai) -> LibP2p {`
			`// Define the object we track peers with`
			`let peers = Peers { peers: Arc::new(RwLock::new(HashMap::new())) };`

			`// Define the dial task`
			`let (dial_task_def, dial_task) = Task::new();`
			`let (to_dial_send, to_dial_recv) = mpsc::unbounded_channel();`
			`tokio::spawn(`
			`DialTask::new(serai.clone(), peers.clone(), to_dial_send)`
			`.continually_run(dial_task_def, vec![]),`
			`);`

			`// Define the Validators object used for validating new connections`
			`let connection_validators = UpdateValidatorsTask::spawn(serai.clone());`
			`let new_only_validators = \|noise_keypair: &identity::Keypair\| -> Result<_, ()> {`
			`Ok(OnlyValidators {`
			`serai_key: serai_key.clone(),`
			`validators: connection_validators.clone(),`
			`noise_keypair: noise_keypair.clone(),`
			`})`
			`};`

			`let new_yamux = \|\| {`
			`let mut config = yamux::Config::default();`
			`// 1 MiB default + max message size`
			`config.set_max_buffer_size((1024 * 1024) + MAX_LIBP2P_MESSAGE_SIZE);`
			`// 256 KiB default + max message size`
			`config.set_receive_window_size(((256 * 1024) + MAX_LIBP2P_MESSAGE_SIZE).try_into().unwrap());`
			`config`
			`};`

			`let behavior = Behavior { reqres: reqres::new_behavior(), gossip: gossip::new_behavior() };`

			`let mut swarm = SwarmBuilder::with_existing_identity(identity::Keypair::generate_ed25519())`
			`.with_tokio()`
			`.with_tcp(TcpConfig::default().nodelay(false), new_only_validators, new_yamux)`
			`.unwrap()`
			`.with_behaviour(\|_\| behavior)`
			`.unwrap()`
			`.build();`
			`swarm.listen_on(format!("/ip4/0.0.0.0/tcp/{PORT}").parse().unwrap()).unwrap();`
			`swarm.listen_on(format!("/ip6/::/tcp/{PORT}").parse().unwrap()).unwrap();`

			`let swarm_validators = UpdateValidatorsTask::spawn(serai);`

			`let (gossip_send, gossip_recv) = mpsc::unbounded_channel();`
			`let (signed_cosigns_send, signed_cosigns_recv) = mpsc::unbounded_channel();`
			`let (tributary_gossip_send, tributary_gossip_recv) = mpsc::unbounded_channel();`

			`let (outbound_requests_send, outbound_requests_recv) = mpsc::unbounded_channel();`

			`let (heartbeat_requests_send, heartbeat_requests_recv) = mpsc::unbounded_channel();`
			`let (notable_cosign_requests_send, notable_cosign_requests_recv) = mpsc::unbounded_channel();`
			`let (inbound_request_responses_send, inbound_request_responses_recv) =`
			`mpsc::unbounded_channel();`

			`// Create the swarm task`
			`SwarmTask::spawn(`
			`dial_task,`
			`to_dial_recv,`
			`swarm_validators,`
			`peers,`
			`swarm,`
			`gossip_recv,`
			`signed_cosigns_send,`
			`tributary_gossip_send,`
			`outbound_requests_recv,`
			`heartbeat_requests_send,`
			`notable_cosign_requests_send,`
			`inbound_request_responses_recv,`
			`);`

			`// gossip_send, signed_cosigns_recv, tributary_gossip_recv, outbound_requests_send,`
			`// heartbeat_requests_recv, notable_cosign_requests_recv, inbound_request_responses_send`
			`todo!("TODO");`
			`}`
			`}`