4331834003
* Move tests -> testing * Directory restructure * Update Cargo.toml during restructure * Update Makefile during restructure * Fix arbitrary path
363 lines
11 KiB
Rust
363 lines
11 KiB
Rust
use crate::checks::{epoch_delay, verify_all_finalized_at};
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use crate::local_network::LocalNetwork;
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use clap::ArgMatches;
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use futures::prelude::*;
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use node_test_rig::ClientConfig;
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use node_test_rig::{
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environment::EnvironmentBuilder, testing_client_config, ClientGenesis, ValidatorConfig,
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ValidatorFiles,
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};
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use std::net::{IpAddr, Ipv4Addr};
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use std::time::{Duration, SystemTime, UNIX_EPOCH};
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use types::{Epoch, EthSpec};
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pub fn run_syncing_sim(matches: &ArgMatches) -> Result<(), String> {
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let initial_delay = value_t!(matches, "initial_delay", u64).unwrap();
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let sync_timeout = value_t!(matches, "sync_timeout", u64).unwrap();
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let speed_up_factor = value_t!(matches, "speedup", u64).unwrap();
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let strategy = value_t!(matches, "strategy", String).unwrap();
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println!("Syncing Simulator:");
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println!(" initial_delay:{}", initial_delay);
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println!(" sync timeout: {}", sync_timeout);
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println!(" speed up factor:{}", speed_up_factor);
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println!(" strategy:{}", strategy);
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let log_level = "debug";
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let log_format = None;
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syncing_sim(
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speed_up_factor,
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initial_delay,
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sync_timeout,
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strategy,
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log_level,
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log_format,
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)
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}
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fn syncing_sim(
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speed_up_factor: u64,
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initial_delay: u64,
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sync_timeout: u64,
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strategy: String,
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log_level: &str,
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log_format: Option<&str>,
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) -> Result<(), String> {
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let mut env = EnvironmentBuilder::minimal()
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.async_logger(log_level, log_format)?
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.multi_threaded_tokio_runtime()?
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.build()?;
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let spec = &mut env.eth2_config.spec;
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let end_after_checks = true;
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let eth1_block_time = Duration::from_millis(15_000 / speed_up_factor);
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spec.milliseconds_per_slot /= speed_up_factor;
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spec.eth1_follow_distance = 16;
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spec.min_genesis_delay = eth1_block_time.as_secs() * spec.eth1_follow_distance * 2;
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spec.min_genesis_time = 0;
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spec.min_genesis_active_validator_count = 64;
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spec.seconds_per_eth1_block = 1;
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let num_validators = 8;
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let slot_duration = Duration::from_millis(spec.milliseconds_per_slot);
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let context = env.core_context();
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let mut beacon_config = testing_client_config();
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let genesis_time = SystemTime::now()
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.duration_since(UNIX_EPOCH)
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.map_err(|_| "should get system time")?
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+ Duration::from_secs(5);
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beacon_config.genesis = ClientGenesis::Interop {
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validator_count: num_validators,
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genesis_time: genesis_time.as_secs(),
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};
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beacon_config.dummy_eth1_backend = true;
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beacon_config.sync_eth1_chain = true;
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beacon_config.network.enr_address = Some(IpAddr::V4(Ipv4Addr::new(127, 0, 0, 1)));
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// Generate the directories and keystores required for the validator clients.
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let validator_indices = (0..num_validators).collect::<Vec<_>>();
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let validator_files = ValidatorFiles::with_keystores(&validator_indices).unwrap();
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let main_future = async {
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/*
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* Create a new `LocalNetwork` with one beacon node.
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*/
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let network = LocalNetwork::new(context, beacon_config.clone()).await?;
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/*
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* Add a validator client which handles all validators from the genesis state.
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*/
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network
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.add_validator_client(ValidatorConfig::default(), 0, validator_files)
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.await?;
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// Check all syncing strategies one after other.
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pick_strategy(
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&strategy,
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network.clone(),
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beacon_config.clone(),
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slot_duration,
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initial_delay,
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sync_timeout,
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)
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.await?;
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// The `final_future` either completes immediately or never completes, depending on the value
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// of `end_after_checks`.
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if !end_after_checks {
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future::pending::<()>().await;
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}
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/*
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* End the simulation by dropping the network. This will kill all running beacon nodes and
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* validator clients.
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*/
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println!(
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"Simulation complete. Finished with {} beacon nodes and {} validator clients",
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network.beacon_node_count(),
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network.validator_client_count()
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);
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// Be explicit about dropping the network, as this kills all the nodes. This ensures
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// all the checks have adequate time to pass.
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drop(network);
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Ok::<(), String>(())
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};
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env.runtime().block_on(main_future)
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}
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pub async fn pick_strategy<E: EthSpec>(
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strategy: &str,
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network: LocalNetwork<E>,
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beacon_config: ClientConfig,
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slot_duration: Duration,
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initial_delay: u64,
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sync_timeout: u64,
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) -> Result<(), String> {
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match strategy {
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"one-node" => {
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verify_one_node_sync(
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network,
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beacon_config,
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slot_duration,
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initial_delay,
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sync_timeout,
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)
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.await
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}
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"two-nodes" => {
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verify_two_nodes_sync(
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network,
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beacon_config,
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slot_duration,
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initial_delay,
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sync_timeout,
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)
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.await
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}
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"mixed" => {
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verify_in_between_sync(
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network,
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beacon_config,
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slot_duration,
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initial_delay,
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sync_timeout,
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)
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.await
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}
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"all" => {
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verify_syncing(
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network,
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beacon_config,
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slot_duration,
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initial_delay,
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sync_timeout,
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)
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.await
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}
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_ => Err("Invalid strategy".into()),
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}
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}
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/// Verify one node added after `initial_delay` epochs is in sync
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/// after `sync_timeout` epochs.
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pub async fn verify_one_node_sync<E: EthSpec>(
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network: LocalNetwork<E>,
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beacon_config: ClientConfig,
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slot_duration: Duration,
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initial_delay: u64,
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sync_timeout: u64,
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) -> Result<(), String> {
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let epoch_duration = slot_duration * (E::slots_per_epoch() as u32);
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let network_c = network.clone();
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// Delay for `initial_delay` epochs before adding another node to start syncing
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epoch_delay(
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Epoch::new(initial_delay),
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slot_duration,
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E::slots_per_epoch(),
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)
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.await;
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// Add a beacon node
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network.add_beacon_node(beacon_config).await?;
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// Check every `epoch_duration` if nodes are synced
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// limited to at most `sync_timeout` epochs
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let mut interval = tokio::time::interval(epoch_duration);
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let mut count = 0;
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while let Some(_) = interval.next().await {
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if count >= sync_timeout || !check_still_syncing(&network_c).await? {
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break;
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}
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count += 1;
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}
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let epoch = network.bootnode_epoch().await?;
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verify_all_finalized_at(network, epoch)
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.map_err(|e| format!("One node sync error: {}", e))
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.await
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}
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/// Verify two nodes added after `initial_delay` epochs are in sync
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/// after `sync_timeout` epochs.
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pub async fn verify_two_nodes_sync<E: EthSpec>(
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network: LocalNetwork<E>,
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beacon_config: ClientConfig,
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slot_duration: Duration,
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initial_delay: u64,
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sync_timeout: u64,
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) -> Result<(), String> {
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let epoch_duration = slot_duration * (E::slots_per_epoch() as u32);
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let network_c = network.clone();
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// Delay for `initial_delay` epochs before adding another node to start syncing
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epoch_delay(
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Epoch::new(initial_delay),
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slot_duration,
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E::slots_per_epoch(),
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)
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.await;
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// Add beacon nodes
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network.add_beacon_node(beacon_config.clone()).await?;
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network.add_beacon_node(beacon_config).await?;
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// Check every `epoch_duration` if nodes are synced
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// limited to at most `sync_timeout` epochs
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let mut interval = tokio::time::interval(epoch_duration);
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let mut count = 0;
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while let Some(_) = interval.next().await {
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if count >= sync_timeout || !check_still_syncing(&network_c).await? {
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break;
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}
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count += 1;
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}
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let epoch = network.bootnode_epoch().await?;
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verify_all_finalized_at(network, epoch)
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.map_err(|e| format!("One node sync error: {}", e))
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.await
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}
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/// Add 2 syncing nodes after `initial_delay` epochs,
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/// Add another node after `sync_timeout - 5` epochs and verify all are
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/// in sync after `sync_timeout + 5` epochs.
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pub async fn verify_in_between_sync<E: EthSpec>(
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network: LocalNetwork<E>,
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beacon_config: ClientConfig,
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slot_duration: Duration,
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initial_delay: u64,
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sync_timeout: u64,
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) -> Result<(), String> {
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let epoch_duration = slot_duration * (E::slots_per_epoch() as u32);
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let network_c = network.clone();
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// Delay for `initial_delay` epochs before adding another node to start syncing
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let config1 = beacon_config.clone();
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epoch_delay(
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Epoch::new(initial_delay),
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slot_duration,
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E::slots_per_epoch(),
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)
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.await;
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// Add two beacon nodes
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network.add_beacon_node(beacon_config.clone()).await?;
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network.add_beacon_node(beacon_config).await?;
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// Delay before adding additional syncing nodes.
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epoch_delay(
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Epoch::new(sync_timeout - 5),
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slot_duration,
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E::slots_per_epoch(),
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)
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.await;
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// Add a beacon node
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network.add_beacon_node(config1.clone()).await?;
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// Check every `epoch_duration` if nodes are synced
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// limited to at most `sync_timeout` epochs
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let mut interval = tokio::time::interval(epoch_duration);
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let mut count = 0;
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while let Some(_) = interval.next().await {
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if count >= sync_timeout || !check_still_syncing(&network_c).await? {
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break;
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}
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count += 1;
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}
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let epoch = network.bootnode_epoch().await?;
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verify_all_finalized_at(network, epoch)
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.map_err(|e| format!("One node sync error: {}", e))
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.await
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}
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/// Run syncing strategies one after other.
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pub async fn verify_syncing<E: EthSpec>(
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network: LocalNetwork<E>,
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beacon_config: ClientConfig,
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slot_duration: Duration,
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initial_delay: u64,
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sync_timeout: u64,
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) -> Result<(), String> {
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verify_one_node_sync(
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network.clone(),
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beacon_config.clone(),
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slot_duration,
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initial_delay,
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sync_timeout,
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)
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.await?;
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println!("Completed one node sync");
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verify_two_nodes_sync(
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network.clone(),
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beacon_config.clone(),
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slot_duration,
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initial_delay,
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sync_timeout,
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)
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.await?;
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println!("Completed two node sync");
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verify_in_between_sync(
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network,
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beacon_config,
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slot_duration,
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initial_delay,
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sync_timeout,
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)
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.await?;
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println!("Completed in between sync");
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Ok(())
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}
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pub async fn check_still_syncing<E: EthSpec>(network: &LocalNetwork<E>) -> Result<bool, String> {
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// get syncing status of nodes
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let mut status = Vec::new();
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for remote_node in network.remote_nodes()? {
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status.push(
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remote_node
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.http
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.node()
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.syncing_status()
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.await
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.map(|status| status.is_syncing)
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.map_err(|e| format!("Get syncing status via http failed: {:?}", e))?,
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)
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}
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Ok(status.iter().any(|is_syncing| *is_syncing))
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}
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