lighthouse/beacon_node/beacon_chain/src/fork_revert.rs

use crate::{BeaconForkChoiceStore, BeaconSnapshot};
use fork_choice::{CountUnrealized, ForkChoice, PayloadVerificationStatus};
use itertools::process_results;
use proto_array::CountUnrealizedFull;
use slog::{info, warn, Logger};
use state_processing::state_advance::complete_state_advance;
use state_processing::{
    per_block_processing, per_block_processing::BlockSignatureStrategy, ConsensusContext,
    VerifyBlockRoot,
};
use std::sync::Arc;
use std::time::Duration;
use store::{iter::ParentRootBlockIterator, HotColdDB, ItemStore};
use types::{BeaconState, ChainSpec, EthSpec, ForkName, Hash256, SignedBeaconBlock, Slot};

const CORRUPT_DB_MESSAGE: &str = "The database could be corrupt. Check its file permissions or \
                                  consider deleting it by running with the --purge-db flag.";

/// Revert the head to the last block before the most recent hard fork.
///
/// This function is destructive and should only be used if there is no viable alternative. It will
/// cause the reverted blocks and states to be completely forgotten, lying dormant in the database
/// forever.
///
/// Return the `(head_block_root, head_block)` that should be used post-reversion.
pub fn revert_to_fork_boundary<E: EthSpec, Hot: ItemStore<E>, Cold: ItemStore<E>>(
    current_slot: Slot,
    head_block_root: Hash256,
    store: Arc<HotColdDB<E, Hot, Cold>>,
    spec: &ChainSpec,
    log: &Logger,
) -> Result<(Hash256, SignedBeaconBlock<E>), String> {
    let current_fork = spec.fork_name_at_slot::<E>(current_slot);
    let fork_epoch = spec
        .fork_epoch(current_fork)
        .ok_or_else(|| format!("Current fork '{}' never activates", current_fork))?;

    if current_fork == ForkName::Base {
        return Err(format!(
            "Cannot revert to before phase0 hard fork. {}",
            CORRUPT_DB_MESSAGE
        ));
    }

    warn!(
        log,
        "Reverting invalid head block";
        "target_fork" => %current_fork,
        "fork_epoch" => fork_epoch,
    );
    let block_iter = ParentRootBlockIterator::fork_tolerant(&store, head_block_root);

    let (block_root, blinded_block) = process_results(block_iter, |mut iter| {
        iter.find_map(|(block_root, block)| {
            if block.slot() < fork_epoch.start_slot(E::slots_per_epoch()) {
                Some((block_root, block))
            } else {
                info!(
                    log,
                    "Reverting block";
                    "block_root" => ?block_root,
                    "slot" => block.slot(),
                );
                None
            }
        })
    })
    .map_err(|e| {
        format!(
            "Error fetching blocks to revert: {:?}. {}",
            e, CORRUPT_DB_MESSAGE
        )
    })?
    .ok_or_else(|| format!("No pre-fork blocks found. {}", CORRUPT_DB_MESSAGE))?;

    let block = store
        .make_full_block(&block_root, blinded_block)
        .map_err(|e| format!("Unable to add payload to new head block: {:?}", e))?;

    Ok((block_root, block))
}

/// Reset fork choice to the finalized checkpoint of the supplied head state.
///
/// The supplied `head_block_root` should correspond to the most recently applied block on
/// `head_state`.
///
/// This function avoids quirks of fork choice initialization by replaying all of the blocks from
/// the checkpoint to the head.
///
/// See this issue for details: https://github.com/ethereum/consensus-specs/issues/2566
///
/// It will fail if the finalized state or any of the blocks to replay are unavailable.
///
/// WARNING: this function is destructive and causes fork choice to permanently forget all
/// chains other than the chain leading to `head_block_root`. It should only be used in extreme
/// circumstances when there is no better alternative.
pub fn reset_fork_choice_to_finalization<E: EthSpec, Hot: ItemStore<E>, Cold: ItemStore<E>>(
    head_block_root: Hash256,
    head_state: &BeaconState<E>,
    store: Arc<HotColdDB<E, Hot, Cold>>,
    current_slot: Option<Slot>,
    spec: &ChainSpec,
    count_unrealized_config: CountUnrealized,
    count_unrealized_full_config: CountUnrealizedFull,
) -> Result<ForkChoice<BeaconForkChoiceStore<E, Hot, Cold>, E>, String> {
    // Fetch finalized block.
    let finalized_checkpoint = head_state.finalized_checkpoint();
    let finalized_block_root = finalized_checkpoint.root;
    let finalized_block = store
        .get_full_block(&finalized_block_root)
        .map_err(|e| format!("Error loading finalized block: {:?}", e))?
        .ok_or_else(|| {
            format!(
                "Finalized block missing for revert: {:?}",
                finalized_block_root
            )
        })?;

    // Advance finalized state to finalized epoch (to handle skipped slots).
    let finalized_state_root = finalized_block.state_root();
    let mut finalized_state = store
        .get_state(&finalized_state_root, Some(finalized_block.slot()))
        .map_err(|e| format!("Error loading finalized state: {:?}", e))?
        .ok_or_else(|| {
            format!(
                "Finalized block state missing from database: {:?}",
                finalized_state_root
            )
        })?;
    let finalized_slot = finalized_checkpoint.epoch.start_slot(E::slots_per_epoch());
    complete_state_advance(
        &mut finalized_state,
        Some(finalized_state_root),
        finalized_slot,
        spec,
    )
    .map_err(|e| {
        format!(
            "Error advancing finalized state to finalized epoch: {:?}",
            e
        )
    })?;
    let finalized_snapshot = BeaconSnapshot {
        beacon_block_root: finalized_block_root,
        beacon_block: Arc::new(finalized_block),
        beacon_state: finalized_state,
    };

    let fc_store = BeaconForkChoiceStore::get_forkchoice_store(store.clone(), &finalized_snapshot)
        .map_err(|e| format!("Unable to reset fork choice store for revert: {e:?}"))?;

    let mut fork_choice = ForkChoice::from_anchor(
        fc_store,
        finalized_block_root,
        &finalized_snapshot.beacon_block,
        &finalized_snapshot.beacon_state,
        current_slot,
        count_unrealized_full_config,
        spec,
    )
    .map_err(|e| format!("Unable to reset fork choice for revert: {:?}", e))?;

    // Replay blocks from finalized checkpoint back to head.
    // We do not replay attestations presently, relying on the absence of other blocks
    // to guarantee `head_block_root` as the head.
    let blocks = store
        .load_blocks_to_replay(finalized_slot + 1, head_state.slot(), head_block_root)
        .map_err(|e| format!("Error loading blocks to replay for fork choice: {:?}", e))?;

    let mut state = finalized_snapshot.beacon_state;
    let blocks_len = blocks.len();
    for (i, block) in blocks.into_iter().enumerate() {
        complete_state_advance(&mut state, None, block.slot(), spec)
            .map_err(|e| format!("State advance failed: {:?}", e))?;

        let mut ctxt = ConsensusContext::new(block.slot())
            .set_proposer_index(block.message().proposer_index());
        per_block_processing(
            &mut state,
            &block,
            BlockSignatureStrategy::NoVerification,
            VerifyBlockRoot::True,
            &mut ctxt,
            spec,
        )
        .map_err(|e| format!("Error replaying block: {:?}", e))?;

        // Setting this to unverified is the safest solution, since we don't have a way to
        // retro-actively determine if they were valid or not.
        //
        // This scenario is so rare that it seems OK to double-verify some blocks.
        let payload_verification_status = PayloadVerificationStatus::Optimistic;

        // Because we are replaying a single chain of blocks, we only need to calculate unrealized
        // justification for the last block in the chain.
        let is_last_block = i + 1 == blocks_len;
        let count_unrealized = if is_last_block {
            count_unrealized_config
        } else {
            CountUnrealized::False
        };

        fork_choice
            .on_block(
                block.slot(),
                block.message(),
                block.canonical_root(),
                // Reward proposer boost. We are reinforcing the canonical chain.
                Duration::from_secs(0),
                &state,
                payload_verification_status,
                spec,
                count_unrealized,
            )
            .map_err(|e| format!("Error applying replayed block to fork choice: {:?}", e))?;
    }

    Ok(fork_choice)
}