lighthouse/testing/simulator/src/eth1_sim.rs

use crate::{checks, LocalNetwork, E};
use clap::ArgMatches;
use eth1::http::Eth1NetworkId;
use eth1_test_rig::GanacheEth1Instance;
use futures::prelude::*;
use node_test_rig::{
    environment::EnvironmentBuilder, testing_client_config, testing_validator_config,
    ClientGenesis, ValidatorFiles,
};
use rayon::prelude::*;
use std::net::{IpAddr, Ipv4Addr};
use std::time::Duration;
use types::{Epoch, EthSpec, MainnetEthSpec};

pub fn run_eth1_sim(matches: &ArgMatches) -> Result<(), String> {
    let node_count = value_t!(matches, "nodes", usize).expect("missing nodes default");
    let validators_per_node = value_t!(matches, "validators_per_node", usize)
        .expect("missing validators_per_node default");
    let speed_up_factor =
        value_t!(matches, "speed_up_factor", u64).expect("missing speed_up_factor default");
    let continue_after_checks = matches.is_present("continue_after_checks");

    println!("Beacon Chain Simulator:");
    println!(" nodes:{}", node_count);
    println!(" validators_per_node:{}", validators_per_node);
    println!(" continue_after_checks:{}", continue_after_checks);

    // Generate the directories and keystores required for the validator clients.
    let validator_files = (0..node_count)
        .into_par_iter()
        .map(|i| {
            println!(
                "Generating keystores for validator {} of {}",
                i + 1,
                node_count
            );

            let indices =
                (i * validators_per_node..(i + 1) * validators_per_node).collect::<Vec<_>>();
            ValidatorFiles::with_keystores(&indices).unwrap()
        })
        .collect::<Vec<_>>();

    let log_level = "debug";
    let log_format = None;

    let mut env = EnvironmentBuilder::minimal()
        .async_logger(log_level, log_format)?
        .multi_threaded_tokio_runtime()?
        .build()?;

    let eth1_block_time = Duration::from_millis(15_000 / speed_up_factor);

    let spec = &mut env.eth2_config.spec;

    spec.milliseconds_per_slot /= speed_up_factor;
    spec.eth1_follow_distance = 16;
    spec.genesis_delay = eth1_block_time.as_secs() * spec.eth1_follow_distance * 2;
    spec.min_genesis_time = 0;
    spec.min_genesis_active_validator_count = 64;
    spec.seconds_per_eth1_block = 1;

    let slot_duration = Duration::from_millis(spec.milliseconds_per_slot);
    let initial_validator_count = spec.min_genesis_active_validator_count as usize;
    let total_validator_count = validators_per_node * node_count;
    let deposit_amount = env.eth2_config.spec.max_effective_balance;

    let context = env.core_context();

    let main_future = async {
        /*
         * Deploy the deposit contract, spawn tasks to keep creating new blocks and deposit
         * validators.
         */
        let ganache_eth1_instance = GanacheEth1Instance::new().await?;
        let deposit_contract = ganache_eth1_instance.deposit_contract;
        let network_id = ganache_eth1_instance.ganache.network_id();
        let ganache = ganache_eth1_instance.ganache;
        let eth1_endpoint = ganache.endpoint();
        let deposit_contract_address = deposit_contract.address();

        // Start a timer that produces eth1 blocks on an interval.
        tokio::spawn(async move {
            let mut interval = tokio::time::interval(eth1_block_time);
            while interval.next().await.is_some() {
                let _ = ganache.evm_mine().await;
            }
        });

        // Submit deposits to the deposit contract.
        tokio::spawn(async move {
            for i in 0..total_validator_count {
                println!("Submitting deposit for validator {}...", i);
                let _ = deposit_contract
                    .deposit_deterministic_async::<E>(i, deposit_amount)
                    .await;
            }
        });

        let mut beacon_config = testing_client_config();

        beacon_config.genesis = ClientGenesis::DepositContract;
        beacon_config.eth1.endpoint = eth1_endpoint;
        beacon_config.eth1.deposit_contract_address = deposit_contract_address;
        beacon_config.eth1.deposit_contract_deploy_block = 0;
        beacon_config.eth1.lowest_cached_block_number = 0;
        beacon_config.eth1.follow_distance = 1;
        beacon_config.dummy_eth1_backend = false;
        beacon_config.sync_eth1_chain = true;
        beacon_config.eth1.network_id = Eth1NetworkId::Custom(network_id);

        beacon_config.network.enr_address = Some(IpAddr::V4(Ipv4Addr::new(127, 0, 0, 1)));

        /*
         * Create a new `LocalNetwork` with one beacon node.
         */
        let network = LocalNetwork::new(context, beacon_config.clone()).await?;

        /*
         * One by one, add beacon nodes to the network.
         */
        for _ in 0..node_count - 1 {
            network.add_beacon_node(beacon_config.clone()).await?;
        }

        /*
         * One by one, add validators to the network.
         */
        for (i, files) in validator_files.into_iter().enumerate() {
            network
                .add_validator_client(testing_validator_config(), i, files)
                .await?;
        }

        /*
         * Start the checks that ensure the network performs as expected.
         *
         * We start these checks immediately after the validators have started. This means we're
         * relying on the validator futures to all return immediately after genesis so that these
         * tests start at the right time. Whilst this is works well for now, it's subject to
         * breakage by changes to the VC.
         */
        let (finalization, block_prod, validator_count, onboarding) = futures::join!(
            // Check that the chain finalizes at the first given opportunity.
            checks::verify_first_finalization(network.clone(), slot_duration),
            // Check that a block is produced at every slot.
            checks::verify_full_block_production_up_to(
                network.clone(),
                Epoch::new(4).start_slot(MainnetEthSpec::slots_per_epoch()),
                slot_duration,
            ),
            // Check that the chain starts with the expected validator count.
            checks::verify_initial_validator_count(
                network.clone(),
                slot_duration,
                initial_validator_count,
            ),
            // Check that validators greater than `spec.min_genesis_active_validator_count` are
            // onboarded at the first possible opportunity.
            checks::verify_validator_onboarding(
                network.clone(),
                slot_duration,
                total_validator_count,
            )
        );

        block_prod?;
        finalization?;
        validator_count?;
        onboarding?;

        // The `final_future` either completes immediately or never completes, depending on the value
        // of `continue_after_checks`.

        if continue_after_checks {
            future::pending::<()>().await;
        }
        /*
         * End the simulation by dropping the network. This will kill all running beacon nodes and
         * validator clients.
         */
        println!(
            "Simulation complete. Finished with {} beacon nodes and {} validator clients",
            network.beacon_node_count(),
            network.validator_client_count()
        );

        // Be explicit about dropping the network, as this kills all the nodes. This ensures
        // all the checks have adequate time to pass.
        drop(network);
        Ok::<(), String>(())
    };

    env.runtime().block_on(main_future).unwrap();
    Ok(())
}