473 lines
18 KiB
Rust
473 lines
18 KiB
Rust
pub use crate::{common::genesis_deposits, interop::interop_genesis_state};
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pub use eth1::Config as Eth1Config;
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use eth1::{DepositLog, Eth1Block, Service as Eth1Service};
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use slog::{debug, error, info, trace, Logger};
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use state_processing::{
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eth2_genesis_time, initialize_beacon_state_from_eth1, is_valid_genesis_state,
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per_block_processing::process_deposit, process_activations,
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};
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use std::sync::{
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atomic::{AtomicU64, AtomicUsize, Ordering},
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Arc,
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};
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use std::time::Duration;
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use tokio::time::delay_for;
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use types::{BeaconState, ChainSpec, Deposit, Eth1Data, EthSpec, Hash256};
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/// The number of blocks that are pulled per request whilst waiting for genesis.
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const BLOCKS_PER_GENESIS_POLL: usize = 99;
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/// Stats about the eth1 genesis process.
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pub struct Statistics {
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highest_processed_block: AtomicU64,
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active_validator_count: AtomicUsize,
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total_deposit_count: AtomicUsize,
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latest_timestamp: AtomicU64,
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}
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/// Provides a service that connects to some Eth1 HTTP JSON-RPC endpoint and maintains a cache of
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/// eth1 blocks and deposits, listening for the eth1 block that triggers eth2 genesis and returning
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/// the genesis `BeaconState`.
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///
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/// Is a wrapper around the `Service` struct of the `eth1` crate.
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#[derive(Clone)]
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pub struct Eth1GenesisService {
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/// The underlying service. Access to this object is only required for testing and diagnosis.
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pub eth1_service: Eth1Service,
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/// Statistics about genesis progress.
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stats: Arc<Statistics>,
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}
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impl Eth1GenesisService {
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/// Creates a new service. Does not attempt to connect to the Eth1 node.
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///
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/// Modifies the given `config` to make it more suitable to the task of listening to genesis.
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pub fn new(config: Eth1Config, log: Logger, spec: ChainSpec) -> Self {
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let config = Eth1Config {
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// Truncating the block cache makes searching for genesis more
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// complicated.
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block_cache_truncation: None,
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// Scan large ranges of blocks when awaiting genesis.
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blocks_per_log_query: 1_000,
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// Only perform a few log requests each time the eth1 node is polled.
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//
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// For small testnets this makes finding genesis much faster,
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// as it usually happens within 1,000 blocks.
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max_log_requests_per_update: Some(5),
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// Only perform a few logs requests each time the eth1 node is polled.
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//
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// For small testnets, this is much faster as they do not have
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// a `MIN_GENESIS_SECONDS`, so after `MIN_GENESIS_VALIDATOR_COUNT`
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// has been reached only a single block needs to be read.
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max_blocks_per_update: Some(BLOCKS_PER_GENESIS_POLL),
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..config
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};
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Self {
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eth1_service: Eth1Service::new(config, log, spec),
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stats: Arc::new(Statistics {
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highest_processed_block: AtomicU64::new(0),
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active_validator_count: AtomicUsize::new(0),
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total_deposit_count: AtomicUsize::new(0),
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latest_timestamp: AtomicU64::new(0),
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}),
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}
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}
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/// Returns the first eth1 block that has enough deposits that it's a (potentially invalid)
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/// candidate for genesis.
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fn first_candidate_eth1_block(&self, min_genesis_active_validator_count: usize) -> Option<u64> {
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if self.eth1_service.deposit_cache_len() < min_genesis_active_validator_count {
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None
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} else {
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self.eth1_service
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.deposits()
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.read()
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.cache
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.get(min_genesis_active_validator_count.saturating_sub(1))
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.map(|log| log.block_number)
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}
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}
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/// Scans the Eth1 chain, returning a genesis state once it has been discovered.
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///
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/// ## Returns
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///
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/// - `Ok(state)` once the canonical eth2 genesis state has been discovered.
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/// - `Err(e)` if there is some internal error during updates.
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pub async fn wait_for_genesis_state<E: EthSpec>(
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&self,
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update_interval: Duration,
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spec: ChainSpec,
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) -> Result<BeaconState<E>, String> {
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let eth1_service = &self.eth1_service;
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let log = ð1_service.log;
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let mut sync_blocks = false;
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let mut highest_processed_block = None;
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info!(
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log,
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"Importing eth1 deposit logs";
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);
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loop {
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let update_result = eth1_service
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.update_deposit_cache()
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.await
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.map_err(|e| format!("{:?}", e));
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if let Err(e) = update_result {
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error!(
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log,
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"Failed to update eth1 deposit cache";
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"error" => e
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)
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}
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self.stats
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.total_deposit_count
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.store(eth1_service.deposit_cache_len(), Ordering::Relaxed);
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if !sync_blocks {
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if let Some(viable_eth1_block) = self
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.first_candidate_eth1_block(spec.min_genesis_active_validator_count as usize)
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{
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info!(
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log,
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"Importing eth1 blocks";
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);
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self.eth1_service.set_lowest_cached_block(viable_eth1_block);
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sync_blocks = true
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} else {
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info!(
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log,
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"Waiting for more deposits";
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"min_genesis_active_validators" => spec.min_genesis_active_validator_count,
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"total_deposits" => eth1_service.deposit_cache_len(),
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);
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delay_for(update_interval).await;
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continue;
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}
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}
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// Download new eth1 blocks into the cache.
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let blocks_imported = match eth1_service.update_block_cache().await {
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Ok(outcome) => {
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debug!(
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log,
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"Imported eth1 blocks";
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"latest_block_timestamp" => eth1_service.latest_block_timestamp(),
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"cache_head" => eth1_service.highest_safe_block(),
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"count" => outcome.blocks_imported,
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);
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outcome.blocks_imported
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}
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Err(e) => {
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error!(
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log,
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"Failed to update eth1 block cache";
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"error" => format!("{:?}", e)
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);
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0
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}
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};
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// Scan the new eth1 blocks, searching for genesis.
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if let Some(genesis_state) =
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self.scan_new_blocks::<E>(&mut highest_processed_block, &spec)?
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{
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info!(
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log,
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"Genesis ceremony complete";
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"genesis_validators" => genesis_state
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.get_active_validator_indices(E::genesis_epoch(), &spec)
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.map_err(|e| format!("Genesis validators error: {:?}", e))?
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.len(),
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"genesis_time" => genesis_state.genesis_time,
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);
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break Ok(genesis_state);
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}
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// Drop all the scanned blocks as they are no longer required.
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eth1_service.clear_block_cache();
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// Load some statistics from the atomics.
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let active_validator_count = self.stats.active_validator_count.load(Ordering::Relaxed);
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let total_deposit_count = self.stats.total_deposit_count.load(Ordering::Relaxed);
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let latest_timestamp = self.stats.latest_timestamp.load(Ordering::Relaxed);
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// Perform some logging.
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if timestamp_can_trigger_genesis(latest_timestamp, &spec)? {
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// Indicate that we are awaiting adequate active validators.
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if (active_validator_count as u64) < spec.min_genesis_active_validator_count {
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info!(
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log,
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"Waiting for more validators";
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"min_genesis_active_validators" => spec.min_genesis_active_validator_count,
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"active_validators" => active_validator_count,
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"total_deposits" => total_deposit_count,
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"valid_deposits" => eth1_service.get_valid_signature_count().unwrap_or(0),
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);
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}
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} else {
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info!(
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log,
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"Waiting for adequate eth1 timestamp";
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"genesis_delay" => spec.genesis_delay,
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"genesis_time" => spec.min_genesis_time,
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"latest_eth1_timestamp" => latest_timestamp,
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);
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}
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// If we imported the full number of blocks, poll again in a short amount of time.
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//
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// We assume that if we imported a large chunk of blocks then we're some distance from
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// the head and we should sync faster.
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if blocks_imported >= BLOCKS_PER_GENESIS_POLL {
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delay_for(Duration::from_millis(50)).await;
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} else {
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delay_for(update_interval).await;
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}
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}
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}
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/// Processes any new blocks that have appeared since this function was last run.
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///
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/// Blocks are always tested in increasing order, starting with the lowest unknown block
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/// number in the cache.
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///
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/// ## Returns
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///
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/// - `Ok(Some(eth1_block))` if a previously-unprocessed block would trigger Eth2 genesis.
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/// - `Ok(None)` if none of the new blocks would trigger genesis, or there were no new blocks.
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/// - `Err(_)` if there was some internal error.
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fn scan_new_blocks<E: EthSpec>(
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&self,
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highest_processed_block: &mut Option<u64>,
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spec: &ChainSpec,
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) -> Result<Option<BeaconState<E>>, String> {
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let eth1_service = &self.eth1_service;
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let log = ð1_service.log;
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for block in eth1_service.blocks().read().iter() {
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// It's possible that the block and deposit caches aren't synced. Ignore any blocks
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// which are not safe for both caches.
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//
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// Don't update the highest processed block since we want to come back and process this
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// again later.
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if eth1_service
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.highest_safe_block()
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.map_or(true, |n| block.number > n)
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{
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continue;
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}
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// Ignore any block that has already been processed or update the highest processed
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// block.
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if highest_processed_block.map_or(false, |highest| highest >= block.number) {
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continue;
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} else {
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self.stats
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.highest_processed_block
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.store(block.number, Ordering::Relaxed);
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self.stats
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.latest_timestamp
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.store(block.timestamp, Ordering::Relaxed);
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*highest_processed_block = Some(block.number)
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}
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// Ignore any block with an insufficient timestamp.
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if !timestamp_can_trigger_genesis(block.timestamp, spec)? {
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trace!(
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log,
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"Insufficient block timestamp";
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"genesis_delay" => spec.genesis_delay,
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"min_genesis_time" => spec.min_genesis_time,
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"eth1_block_timestamp" => block.timestamp,
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"eth1_block_number" => block.number,
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);
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continue;
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}
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let valid_signature_count = eth1_service
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.get_valid_signature_count_at_block(block.number)
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.unwrap_or(0);
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if (valid_signature_count as u64) < spec.min_genesis_active_validator_count {
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trace!(
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log,
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"Insufficient valid signatures";
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"genesis_delay" => spec.genesis_delay,
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"valid_signature_count" => valid_signature_count,
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"min_validator_count" => spec.min_genesis_active_validator_count,
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"eth1_block_number" => block.number,
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);
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continue;
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}
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// Generate a potential beacon state for this eth1 block.
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//
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// Note: this state is fully valid, some fields have been bypassed to make verification
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// faster.
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let state = self.cheap_state_at_eth1_block::<E>(block, &spec)?;
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let active_validator_count = state
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.get_active_validator_indices(E::genesis_epoch(), spec)
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.map_err(|e| format!("Genesis validators error: {:?}", e))?
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.len();
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self.stats
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.active_validator_count
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.store(active_validator_count, Ordering::Relaxed);
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if is_valid_genesis_state(&state, spec) {
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let genesis_state = self
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.genesis_from_eth1_block(block.clone(), &spec)
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.map_err(|e| format!("Failed to generate valid genesis state : {}", e))?;
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return Ok(Some(genesis_state));
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} else {
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trace!(
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log,
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"Insufficient active validators";
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"min_genesis_active_validator_count" => format!("{}", spec.min_genesis_active_validator_count),
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"active_validators" => active_validator_count,
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"eth1_block_number" => block.number,
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);
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}
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}
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Ok(None)
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}
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/// Produces an eth2 genesis `BeaconState` from the given `eth1_block`. The caller should have
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/// verified that `eth1_block` produces a valid genesis state.
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///
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/// ## Returns
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///
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/// - `Ok(genesis_state)`: if all went well.
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/// - `Err(e)`: if the given `eth1_block` was not a viable block to trigger genesis or there was
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/// an internal error.
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fn genesis_from_eth1_block<E: EthSpec>(
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&self,
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eth1_block: Eth1Block,
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spec: &ChainSpec,
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) -> Result<BeaconState<E>, String> {
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let deposit_logs = self
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.eth1_service
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.deposits()
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.read()
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.cache
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.iter()
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.take_while(|log| log.block_number <= eth1_block.number)
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.map(|log| log.deposit_data.clone())
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.collect::<Vec<_>>();
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let genesis_state = initialize_beacon_state_from_eth1(
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eth1_block.hash,
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eth1_block.timestamp,
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genesis_deposits(deposit_logs, &spec)?,
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&spec,
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)
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.map_err(|e| format!("Unable to initialize genesis state: {:?}", e))?;
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if is_valid_genesis_state(&genesis_state, &spec) {
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Ok(genesis_state)
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} else {
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Err("Generated state was not valid.".to_string())
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}
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}
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/// Generates an incomplete `BeaconState` for some `eth1_block` that can be used for checking
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/// to see if that `eth1_block` triggers eth2 genesis.
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///
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/// ## Notes
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///
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/// The returned `BeaconState` should **not** be used as the genesis state, it is
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/// incomplete.
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fn cheap_state_at_eth1_block<E: EthSpec>(
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&self,
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eth1_block: &Eth1Block,
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spec: &ChainSpec,
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) -> Result<BeaconState<E>, String> {
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let genesis_time = eth2_genesis_time(eth1_block.timestamp, spec)
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.map_err(|e| format!("Unable to set genesis time: {:?}", e))?;
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let mut state: BeaconState<E> = BeaconState::new(
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genesis_time,
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Eth1Data {
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block_hash: Hash256::zero(),
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deposit_root: Hash256::zero(),
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deposit_count: 0,
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},
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&spec,
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);
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self.deposit_logs_at_block(eth1_block.number)
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.iter()
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.map(|deposit_log| Deposit {
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// Generate a bogus proof.
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//
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// The deposits are coming directly from our own deposit tree to there's no need to
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// make proofs about their inclusion in it.
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proof: vec![Hash256::zero(); spec.deposit_contract_tree_depth as usize].into(),
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data: deposit_log.deposit_data.clone(),
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})
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.try_for_each(|deposit| {
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// Skip proof verification (see comment about bogus proof generation).
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const PROOF_VERIFICATION: bool = false;
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// Note: presently all the signatures are verified each time this function is
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// run.
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//
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// It would be more efficient to pre-verify signatures, filter out the invalid
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// ones and disable verification for `process_deposit`.
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//
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// Such an optimization would only be useful in a scenario where `MIN_GENESIS_TIME`
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// is reached _prior_ to `MIN_ACTIVE_VALIDATOR_COUNT`. I suspect this won't be the
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// case for mainnet, so we defer this optimization.
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process_deposit(&mut state, &deposit, spec, PROOF_VERIFICATION)
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.map_err(|e| format!("Error whilst processing deposit: {:?}", e))
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})?;
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process_activations(&mut state, spec)
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.map_err(|e| format!("Error whilst processing activations: {:?}", e))?;
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Ok(state)
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}
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/// Returns all deposit logs included in `block_number` and all prior blocks.
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fn deposit_logs_at_block(&self, block_number: u64) -> Vec<DepositLog> {
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self.eth1_service
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.deposits()
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.read()
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.cache
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.iter()
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.take_while(|log| log.block_number <= block_number)
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.cloned()
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.collect()
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}
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/// Returns statistics about eth1 genesis.
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pub fn statistics(&self) -> &Statistics {
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&self.stats
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}
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/// Returns the `Service` contained in `self`.
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pub fn into_core_service(self) -> Eth1Service {
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self.eth1_service
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}
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}
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/// Returns `false` for a timestamp that would result in a genesis time that is earlier than
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/// `MIN_GENESIS_TIME`.
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fn timestamp_can_trigger_genesis(timestamp: u64, spec: &ChainSpec) -> Result<bool, String> {
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eth2_genesis_time(timestamp, spec)
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.map(|t| t >= spec.min_genesis_time)
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.map_err(|e| format!("Arith error when during genesis calculation: {:?}", e))
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}
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