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https://github.com/sigp/lighthouse.git
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ff9b09d964
## Issue Addressed Upgrade libp2p to v0.52 ## Proposed Changes - **Workflows**: remove installation of `protoc` - **Book**: remove installation of `protoc` - **`Dockerfile`s and `cross`**: remove custom base `Dockerfile` for cross since it's no longer needed. Remove `protoc` from remaining `Dockerfiles`s - **Upgrade `discv5` to `v0.3.1`:** we have some cool stuff in there: no longer needs `protoc` and faster ip updates on cold start - **Upgrade `prometheus` to `0.21.0`**, now it no longer needs encoding checks - **things that look like refactors:** bunch of api types were renamed and need to be accessed in a different (clearer) way - **Lighthouse network** - connection limits is now a behaviour - banned peers no longer exist on the swarm level, but at the behaviour level - `connection_event_buffer_size` now is handled per connection with a buffer size of 4 - `mplex` is deprecated and was removed - rpc handler now logs the peer to which it belongs ## Additional Info Tried to keep as much behaviour unchanged as possible. However, there is a great deal of improvements we can do _after_ this upgrade: - Smart connection limits: Connection limits have been checked only based on numbers, we can now use information about the incoming peer to decide if we want it - More powerful peer management: Dial attempts from other behaviours can be rejected early - Incoming connections can be rejected early - Banning can be returned exclusively to the peer management: We should not get connections to banned peers anymore making use of this - TCP Nat updates: We might be able to take advantage of confirmed external addresses to check out tcp ports/ips Co-authored-by: Age Manning <Age@AgeManning.com> Co-authored-by: Akihito Nakano <sora.akatsuki@gmail.com>
218 lines
7.0 KiB
Rust
218 lines
7.0 KiB
Rust
use crate::{Config, Context};
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use beacon_chain::{
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test_utils::{
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BeaconChainHarness, BoxedMutator, Builder as HarnessBuilder, EphemeralHarnessType,
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},
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BeaconChain, BeaconChainTypes,
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};
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use directory::DEFAULT_ROOT_DIR;
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use eth2::{BeaconNodeHttpClient, Timeouts};
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use lighthouse_network::{
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discv5::enr::{CombinedKey, EnrBuilder},
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libp2p::swarm::{
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behaviour::{ConnectionEstablished, FromSwarm},
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ConnectionId, NetworkBehaviour,
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},
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rpc::methods::{MetaData, MetaDataV2},
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types::{EnrAttestationBitfield, EnrSyncCommitteeBitfield, SyncState},
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ConnectedPoint, Enr, NetworkGlobals, PeerId, PeerManager,
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};
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use logging::test_logger;
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use network::{NetworkReceivers, NetworkSenders};
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use sensitive_url::SensitiveUrl;
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use slog::Logger;
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use std::future::Future;
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use std::net::{IpAddr, Ipv4Addr, SocketAddr};
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use std::sync::Arc;
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use std::time::Duration;
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use store::MemoryStore;
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use tokio::sync::oneshot;
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use types::{ChainSpec, EthSpec};
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pub const TCP_PORT: u16 = 42;
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pub const UDP_PORT: u16 = 42;
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pub const SEQ_NUMBER: u64 = 0;
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pub const EXTERNAL_ADDR: &str = "/ip4/0.0.0.0/tcp/9000";
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/// HTTP API tester that allows interaction with the underlying beacon chain harness.
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pub struct InteractiveTester<E: EthSpec> {
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pub harness: BeaconChainHarness<EphemeralHarnessType<E>>,
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pub client: BeaconNodeHttpClient,
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pub network_rx: NetworkReceivers<E>,
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_server_shutdown: oneshot::Sender<()>,
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}
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/// The result of calling `create_api_server`.
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///
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/// Glue-type between `tests::ApiTester` and `InteractiveTester`.
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pub struct ApiServer<E: EthSpec, SFut: Future<Output = ()>> {
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pub server: SFut,
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pub listening_socket: SocketAddr,
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pub shutdown_tx: oneshot::Sender<()>,
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pub network_rx: NetworkReceivers<E>,
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pub local_enr: Enr,
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pub external_peer_id: PeerId,
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}
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type Initializer<E> = Box<
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dyn FnOnce(HarnessBuilder<EphemeralHarnessType<E>>) -> HarnessBuilder<EphemeralHarnessType<E>>,
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>;
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type Mutator<E> = BoxedMutator<E, MemoryStore<E>, MemoryStore<E>>;
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impl<E: EthSpec> InteractiveTester<E> {
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pub async fn new(spec: Option<ChainSpec>, validator_count: usize) -> Self {
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Self::new_with_initializer_and_mutator(spec, validator_count, None, None).await
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}
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pub async fn new_with_initializer_and_mutator(
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spec: Option<ChainSpec>,
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validator_count: usize,
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initializer: Option<Initializer<E>>,
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mutator: Option<Mutator<E>>,
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) -> Self {
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let mut harness_builder = BeaconChainHarness::builder(E::default())
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.spec_or_default(spec)
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.logger(test_logger())
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.mock_execution_layer();
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harness_builder = if let Some(initializer) = initializer {
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// Apply custom initialization provided by the caller.
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initializer(harness_builder)
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} else {
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// Apply default initial configuration.
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harness_builder
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.deterministic_keypairs(validator_count)
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.fresh_ephemeral_store()
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};
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// Add a mutator for the beacon chain builder which will be called in
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// `HarnessBuilder::build`.
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if let Some(mutator) = mutator {
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harness_builder = harness_builder.initial_mutator(mutator);
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}
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let harness = harness_builder.build();
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let ApiServer {
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server,
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listening_socket,
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shutdown_tx: _server_shutdown,
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network_rx,
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..
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} = create_api_server(harness.chain.clone(), harness.logger().clone()).await;
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tokio::spawn(server);
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let client = BeaconNodeHttpClient::new(
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SensitiveUrl::parse(&format!(
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"http://{}:{}",
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listening_socket.ip(),
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listening_socket.port()
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))
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.unwrap(),
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Timeouts::set_all(Duration::from_secs(1)),
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);
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Self {
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harness,
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client,
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network_rx,
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_server_shutdown,
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}
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}
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}
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pub async fn create_api_server<T: BeaconChainTypes>(
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chain: Arc<BeaconChain<T>>,
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log: Logger,
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) -> ApiServer<T::EthSpec, impl Future<Output = ()>> {
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// Get a random unused port.
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let port = unused_port::unused_tcp4_port().unwrap();
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create_api_server_on_port(chain, log, port).await
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}
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pub async fn create_api_server_on_port<T: BeaconChainTypes>(
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chain: Arc<BeaconChain<T>>,
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log: Logger,
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port: u16,
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) -> ApiServer<T::EthSpec, impl Future<Output = ()>> {
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let (network_senders, network_receivers) = NetworkSenders::new();
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// Default metadata
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let meta_data = MetaData::V2(MetaDataV2 {
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seq_number: SEQ_NUMBER,
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attnets: EnrAttestationBitfield::<T::EthSpec>::default(),
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syncnets: EnrSyncCommitteeBitfield::<T::EthSpec>::default(),
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});
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let enr_key = CombinedKey::generate_secp256k1();
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let enr = EnrBuilder::new("v4").build(&enr_key).unwrap();
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let network_globals = Arc::new(NetworkGlobals::new(
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enr.clone(),
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Some(TCP_PORT),
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None,
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meta_data,
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vec![],
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false,
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&log,
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));
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// Only a peer manager can add peers, so we create a dummy manager.
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let config = lighthouse_network::peer_manager::config::Config::default();
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let mut pm = PeerManager::new(config, network_globals.clone(), &log).unwrap();
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// add a peer
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let peer_id = PeerId::random();
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let endpoint = &ConnectedPoint::Listener {
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local_addr: EXTERNAL_ADDR.parse().unwrap(),
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send_back_addr: EXTERNAL_ADDR.parse().unwrap(),
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};
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let connection_id = ConnectionId::new_unchecked(1);
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pm.on_swarm_event(FromSwarm::ConnectionEstablished(ConnectionEstablished {
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peer_id,
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connection_id,
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endpoint,
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failed_addresses: &[],
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other_established: 0,
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}));
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*network_globals.sync_state.write() = SyncState::Synced;
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let eth1_service =
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eth1::Service::new(eth1::Config::default(), log.clone(), chain.spec.clone()).unwrap();
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let ctx = Arc::new(Context {
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config: Config {
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enabled: true,
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listen_addr: IpAddr::V4(Ipv4Addr::new(127, 0, 0, 1)),
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listen_port: port,
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allow_origin: None,
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tls_config: None,
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allow_sync_stalled: false,
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data_dir: std::path::PathBuf::from(DEFAULT_ROOT_DIR),
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spec_fork_name: None,
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},
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chain: Some(chain),
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network_senders: Some(network_senders),
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network_globals: Some(network_globals),
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eth1_service: Some(eth1_service),
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sse_logging_components: None,
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log,
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});
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let (shutdown_tx, shutdown_rx) = oneshot::channel();
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let server_shutdown = async {
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// It's not really interesting why this triggered, just that it happened.
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let _ = shutdown_rx.await;
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};
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let (listening_socket, server) = crate::serve(ctx, server_shutdown).unwrap();
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ApiServer {
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server,
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listening_socket,
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shutdown_tx,
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network_rx: network_receivers,
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local_enr: enr,
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external_peer_id: peer_id,
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}
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}
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