lighthouse/beacon_node/beacon_chain/src/historical_blocks.rs

use crate::{errors::BeaconChainError as Error, BeaconChain, BeaconChainTypes};
use itertools::Itertools;
use slog::debug;
use state_processing::{
    per_block_processing::ParallelSignatureSets,
    signature_sets::{block_proposal_signature_set_from_parts, Error as SignatureSetError},
};
use std::borrow::Cow;
use std::iter;
use std::time::Duration;
use store::{chunked_vector::BlockRoots, AnchorInfo, ChunkWriter, KeyValueStore};
use types::{Hash256, SignedBeaconBlock, Slot};

/// Use a longer timeout on the pubkey cache.
///
/// It's ok if historical sync is stalled due to writes from forwards block processing.
const PUBKEY_CACHE_LOCK_TIMEOUT: Duration = Duration::from_secs(30);

#[derive(Debug)]
pub enum HistoricalBlockError {
    /// Block is not available (only returned when fetching historic blocks).
    BlockOutOfRange { slot: Slot, oldest_block_slot: Slot },
    /// Block root mismatch, caller should retry with different blocks.
    MismatchedBlockRoot {
        block_root: Hash256,
        expected_block_root: Hash256,
    },
    /// Bad signature, caller should retry with different blocks.
    SignatureSet(SignatureSetError),
    /// Bad signature, caller should retry with different blocks.
    InvalidSignature,
    /// Transitory error, caller should retry with the same blocks.
    ValidatorPubkeyCacheTimeout,
    /// No historical sync needed.
    NoAnchorInfo,
    /// Logic error: should never occur.
    IndexOutOfBounds,
}

impl<T: BeaconChainTypes> BeaconChain<T> {
    /// Store a batch of historical blocks in the database.
    ///
    /// The `blocks` should be given in slot-ascending order. One of the blocks should have a block
    /// root corresponding to the `oldest_block_parent` from the store's `AnchorInfo`.
    ///
    /// The block roots and proposer signatures are verified. If any block doesn't match the parent
    /// root listed in its successor, then the whole batch will be discarded and
    /// `MismatchedBlockRoot` will be returned. If any proposer signature is invalid then
    /// `SignatureSetError` or `InvalidSignature` will be returned.
    ///
    /// To align with sync we allow some excess blocks with slots greater than or equal to
    /// `oldest_block_slot` to be provided. They will be ignored without being checked.
    ///
    /// This function should not be called concurrently with any other function that mutates
    /// the anchor info (including this function itself). If a concurrent mutation occurs that
    /// would violate consistency then an `AnchorInfoConcurrentMutation` error will be returned.
    ///
    /// Return the number of blocks successfully imported.
    pub fn import_historical_block_batch(
        &self,
        blocks: &[SignedBeaconBlock<T::EthSpec>],
    ) -> Result<usize, Error> {
        let anchor_info = self
            .store
            .get_anchor_info()
            .ok_or(HistoricalBlockError::NoAnchorInfo)?;

        // Take all blocks with slots less than the oldest block slot.
        let num_relevant =
            blocks.partition_point(|block| block.slot() < anchor_info.oldest_block_slot);
        let blocks_to_import = &blocks
            .get(..num_relevant)
            .ok_or(HistoricalBlockError::IndexOutOfBounds)?;

        if blocks_to_import.len() != blocks.len() {
            debug!(
                self.log,
                "Ignoring some historic blocks";
                "oldest_block_slot" => anchor_info.oldest_block_slot,
                "total_blocks" => blocks.len(),
                "ignored" => blocks.len().saturating_sub(blocks_to_import.len()),
            );
        }

        if blocks_to_import.is_empty() {
            return Ok(0);
        }

        let mut expected_block_root = anchor_info.oldest_block_parent;
        let mut prev_block_slot = anchor_info.oldest_block_slot;
        let mut chunk_writer =
            ChunkWriter::<BlockRoots, _, _>::new(&self.store.cold_db, prev_block_slot.as_usize())?;

        let mut cold_batch = Vec::with_capacity(blocks.len());
        let mut hot_batch = Vec::with_capacity(blocks.len());

        for block in blocks_to_import.iter().rev() {
            // Check chain integrity.
            let block_root = block.canonical_root();

            if block_root != expected_block_root {
                return Err(HistoricalBlockError::MismatchedBlockRoot {
                    block_root,
                    expected_block_root,
                }
                .into());
            }

            // Store block in the hot database.
            hot_batch.push(self.store.block_as_kv_store_op(&block_root, block));

            // Store block roots, including at all skip slots in the freezer DB.
            for slot in (block.slot().as_usize()..prev_block_slot.as_usize()).rev() {
                chunk_writer.set(slot, block_root, &mut cold_batch)?;
            }

            prev_block_slot = block.slot();
            expected_block_root = block.message().parent_root();

            // If we've reached genesis, add the genesis block root to the batch and set the
            // anchor slot to 0 to indicate completion.
            if expected_block_root == self.genesis_block_root {
                let genesis_slot = self.spec.genesis_slot;
                chunk_writer.set(
                    genesis_slot.as_usize(),
                    self.genesis_block_root,
                    &mut cold_batch,
                )?;
                prev_block_slot = genesis_slot;
                expected_block_root = Hash256::zero();
                break;
            }
        }
        chunk_writer.write(&mut cold_batch)?;

        // Verify signatures in one batch, holding the pubkey cache lock for the shortest duration
        // possible. For each block fetch the parent root from its successor. Slicing from index 1
        // is safe because we've already checked that `blocks_to_import` is non-empty.
        let pubkey_cache = self
            .validator_pubkey_cache
            .try_read_for(PUBKEY_CACHE_LOCK_TIMEOUT)
            .ok_or(HistoricalBlockError::ValidatorPubkeyCacheTimeout)?;
        let block_roots = blocks_to_import
            .get(1..)
            .ok_or(HistoricalBlockError::IndexOutOfBounds)?
            .iter()
            .map(|block| block.parent_root())
            .chain(iter::once(anchor_info.oldest_block_parent));
        let signature_set = blocks_to_import
            .iter()
            .zip_eq(block_roots)
            .map(|(block, block_root)| {
                block_proposal_signature_set_from_parts(
                    block,
                    Some(block_root),
                    block.message().proposer_index(),
                    &self.spec.fork_at_epoch(block.message().epoch()),
                    self.genesis_validators_root,
                    |validator_index| pubkey_cache.get(validator_index).map(Cow::Borrowed),
                    &self.spec,
                )
            })
            .collect::<Result<Vec<_>, _>>()
            .map_err(HistoricalBlockError::SignatureSet)
            .map(ParallelSignatureSets::from)?;
        if !signature_set.verify() {
            return Err(HistoricalBlockError::InvalidSignature.into());
        }
        drop(pubkey_cache);

        // Write the I/O batches to disk, writing the blocks themselves first, as it's better
        // for the hot DB to contain extra blocks than for the cold DB to point to blocks that
        // do not exist.
        self.store.hot_db.do_atomically(hot_batch)?;
        self.store.cold_db.do_atomically(cold_batch)?;

        // Update the anchor.
        let new_anchor = AnchorInfo {
            oldest_block_slot: prev_block_slot,
            oldest_block_parent: expected_block_root,
            ..anchor_info
        };
        let backfill_complete = new_anchor.block_backfill_complete();
        self.store
            .compare_and_set_anchor_info_with_write(Some(anchor_info), Some(new_anchor))?;

        // If backfill has completed and the chain is configured to reconstruct historic states,
        // send a message to the background migrator instructing it to begin reconstruction.
        if backfill_complete && self.config.reconstruct_historic_states {
            self.store_migrator.process_reconstruction();
        }

        Ok(blocks_to_import.len())
    }
}
Implement checkpoint sync (#2244) ## Issue Addressed Closes #1891 Closes #1784 ## Proposed Changes Implement checkpoint sync for Lighthouse, enabling it to start from a weak subjectivity checkpoint. ## Additional Info - [x] Return unavailable status for out-of-range blocks requested by peers (#2561) - [x] Implement sync daemon for fetching historical blocks (#2561) - [x] Verify chain hashes (either in `historical_blocks.rs` or the calling module) - [x] Consistency check for initial block + state - [x] Fetch the initial state and block from a beacon node HTTP endpoint - [x] Don't crash fetching beacon states by slot from the API - [x] Background service for state reconstruction, triggered by CLI flag or API call. Considered out of scope for this PR: - Drop the requirement to provide the `--checkpoint-block` (this would require some pretty heavy refactoring of block verification) Co-authored-by: Diva M <divma@protonmail.com> 2021-09-22 00:37:28 +00:00			`use crate::{errors::BeaconChainError as Error, BeaconChain, BeaconChainTypes};`
			`use itertools::Itertools;`
			`use slog::debug;`
			`use state_processing::{`
			`per_block_processing::ParallelSignatureSets,`
			`signature_sets::{block_proposal_signature_set_from_parts, Error as SignatureSetError},`
			`};`
			`use std::borrow::Cow;`
			`use std::iter;`
			`use std::time::Duration;`
			`use store::{chunked_vector::BlockRoots, AnchorInfo, ChunkWriter, KeyValueStore};`
			`use types::{Hash256, SignedBeaconBlock, Slot};`

			`/// Use a longer timeout on the pubkey cache.`
			`///`
			`/// It's ok if historical sync is stalled due to writes from forwards block processing.`
			`const PUBKEY_CACHE_LOCK_TIMEOUT: Duration = Duration::from_secs(30);`

			`#[derive(Debug)]`
			`pub enum HistoricalBlockError {`
			`/// Block is not available (only returned when fetching historic blocks).`
			`BlockOutOfRange { slot: Slot, oldest_block_slot: Slot },`
			`/// Block root mismatch, caller should retry with different blocks.`
			`MismatchedBlockRoot {`
			`block_root: Hash256,`
			`expected_block_root: Hash256,`
			`},`
			`/// Bad signature, caller should retry with different blocks.`
			`SignatureSet(SignatureSetError),`
			`/// Bad signature, caller should retry with different blocks.`
			`InvalidSignature,`
			`/// Transitory error, caller should retry with the same blocks.`
			`ValidatorPubkeyCacheTimeout,`
			`/// No historical sync needed.`
			`NoAnchorInfo,`
			`/// Logic error: should never occur.`
			`IndexOutOfBounds,`
			`}`

			`impl<T: BeaconChainTypes> BeaconChain<T> {`
			`/// Store a batch of historical blocks in the database.`
			`///`
			/// The `blocks` should be given in slot-ascending order. One of the blocks should have a block
			/// root corresponding to the `oldest_block_parent` from the store's `AnchorInfo`.
			`///`
			`/// The block roots and proposer signatures are verified. If any block doesn't match the parent`
			`/// root listed in its successor, then the whole batch will be discarded and`
			/// `MismatchedBlockRoot` will be returned. If any proposer signature is invalid then
			/// `SignatureSetError` or `InvalidSignature` will be returned.
			`///`
			`/// To align with sync we allow some excess blocks with slots greater than or equal to`
			/// `oldest_block_slot` to be provided. They will be ignored without being checked.
			`///`
			`/// This function should not be called concurrently with any other function that mutates`
			`/// the anchor info (including this function itself). If a concurrent mutation occurs that`
			/// would violate consistency then an `AnchorInfoConcurrentMutation` error will be returned.
			`///`
			`/// Return the number of blocks successfully imported.`
			`pub fn import_historical_block_batch(`
			`&self,`
			`blocks: &[SignedBeaconBlock<T::EthSpec>],`
			`) -> Result<usize, Error> {`
			`let anchor_info = self`
			`.store`
			`.get_anchor_info()`
			`.ok_or(HistoricalBlockError::NoAnchorInfo)?;`

			`// Take all blocks with slots less than the oldest block slot.`
			`let num_relevant =`
			`blocks.partition_point(\|block\| block.slot() < anchor_info.oldest_block_slot);`
			`let blocks_to_import = &blocks`
			`.get(..num_relevant)`
			`.ok_or(HistoricalBlockError::IndexOutOfBounds)?;`

			`if blocks_to_import.len() != blocks.len() {`
			`debug!(`
			`self.log,`
			`"Ignoring some historic blocks";`
			`"oldest_block_slot" => anchor_info.oldest_block_slot,`
			`"total_blocks" => blocks.len(),`
			`"ignored" => blocks.len().saturating_sub(blocks_to_import.len()),`
			`);`
			`}`

			`if blocks_to_import.is_empty() {`
			`return Ok(0);`
			`}`

			`let mut expected_block_root = anchor_info.oldest_block_parent;`
			`let mut prev_block_slot = anchor_info.oldest_block_slot;`
			`let mut chunk_writer =`
			`ChunkWriter::<BlockRoots, _, _>::new(&self.store.cold_db, prev_block_slot.as_usize())?;`

			`let mut cold_batch = Vec::with_capacity(blocks.len());`
			`let mut hot_batch = Vec::with_capacity(blocks.len());`

			`for block in blocks_to_import.iter().rev() {`
			`// Check chain integrity.`
			`let block_root = block.canonical_root();`

			`if block_root != expected_block_root {`
			`return Err(HistoricalBlockError::MismatchedBlockRoot {`
			`block_root,`
			`expected_block_root,`
			`}`
			`.into());`
			`}`

			`// Store block in the hot database.`
			`hot_batch.push(self.store.block_as_kv_store_op(&block_root, block));`

			`// Store block roots, including at all skip slots in the freezer DB.`
			`for slot in (block.slot().as_usize()..prev_block_slot.as_usize()).rev() {`
			`chunk_writer.set(slot, block_root, &mut cold_batch)?;`
			`}`

			`prev_block_slot = block.slot();`
			`expected_block_root = block.message().parent_root();`

			`// If we've reached genesis, add the genesis block root to the batch and set the`
			`// anchor slot to 0 to indicate completion.`
			`if expected_block_root == self.genesis_block_root {`
			`let genesis_slot = self.spec.genesis_slot;`
			`chunk_writer.set(`
			`genesis_slot.as_usize(),`
			`self.genesis_block_root,`
			`&mut cold_batch,`
			`)?;`
			`prev_block_slot = genesis_slot;`
			`expected_block_root = Hash256::zero();`
			`break;`
			`}`
			`}`
			`chunk_writer.write(&mut cold_batch)?;`

			`// Verify signatures in one batch, holding the pubkey cache lock for the shortest duration`
			`// possible. For each block fetch the parent root from its successor. Slicing from index 1`
			// is safe because we've already checked that `blocks_to_import` is non-empty.
			`let pubkey_cache = self`
			`.validator_pubkey_cache`
			`.try_read_for(PUBKEY_CACHE_LOCK_TIMEOUT)`
			`.ok_or(HistoricalBlockError::ValidatorPubkeyCacheTimeout)?;`
			`let block_roots = blocks_to_import`
			`.get(1..)`
			`.ok_or(HistoricalBlockError::IndexOutOfBounds)?`
			`.iter()`
			`.map(\|block\| block.parent_root())`
			`.chain(iter::once(anchor_info.oldest_block_parent));`
			`let signature_set = blocks_to_import`
			`.iter()`
			`.zip_eq(block_roots)`
			`.map(\|(block, block_root)\| {`
			`block_proposal_signature_set_from_parts(`
			`block,`
			`Some(block_root),`
			`block.message().proposer_index(),`
			`&self.spec.fork_at_epoch(block.message().epoch()),`
			`self.genesis_validators_root,`
			`\|validator_index\| pubkey_cache.get(validator_index).map(Cow::Borrowed),`
			`&self.spec,`
			`)`
			`})`
			`.collect::<Result<Vec<_>, _>>()`
			`.map_err(HistoricalBlockError::SignatureSet)`
			`.map(ParallelSignatureSets::from)?;`
			`if !signature_set.verify() {`
			`return Err(HistoricalBlockError::InvalidSignature.into());`
			`}`
			`drop(pubkey_cache);`

			`// Write the I/O batches to disk, writing the blocks themselves first, as it's better`
			`// for the hot DB to contain extra blocks than for the cold DB to point to blocks that`
			`// do not exist.`
			`self.store.hot_db.do_atomically(hot_batch)?;`
			`self.store.cold_db.do_atomically(cold_batch)?;`

			`// Update the anchor.`
			`let new_anchor = AnchorInfo {`
			`oldest_block_slot: prev_block_slot,`
			`oldest_block_parent: expected_block_root,`
			`..anchor_info`
			`};`
			`let backfill_complete = new_anchor.block_backfill_complete();`
			`self.store`
Fix I/O atomicity issues with checkpoint sync (#2671) ## Issue Addressed This PR addresses an issue found by @YorickDowne during testing of v2.0.0-rc.0. Due to a lack of atomic database writes on checkpoint sync start-up, it was possible for the database to get into an inconsistent state from which it couldn't recover without `--purge-db`. The core of the issue was that the store's anchor info was being stored _before_ the `PersistedBeaconChain`. If a crash occured so that anchor info was stored but _not_ the `PersistedBeaconChain`, then on restart Lighthouse would think the database was unitialized and attempt to compare-and-swap a `None` value, but would actually find the stale info from the previous run. ## Proposed Changes The issue is fixed by writing the anchor info, the split point, and the `PersistedBeaconChain` atomically on start-up. Some type-hinting ugliness was required, which could possibly be cleaned up in future refactors. 2021-10-05 03:53:17 +00:00			`.compare_and_set_anchor_info_with_write(Some(anchor_info), Some(new_anchor))?;`
Implement checkpoint sync (#2244) ## Issue Addressed Closes #1891 Closes #1784 ## Proposed Changes Implement checkpoint sync for Lighthouse, enabling it to start from a weak subjectivity checkpoint. ## Additional Info - [x] Return unavailable status for out-of-range blocks requested by peers (#2561) - [x] Implement sync daemon for fetching historical blocks (#2561) - [x] Verify chain hashes (either in `historical_blocks.rs` or the calling module) - [x] Consistency check for initial block + state - [x] Fetch the initial state and block from a beacon node HTTP endpoint - [x] Don't crash fetching beacon states by slot from the API - [x] Background service for state reconstruction, triggered by CLI flag or API call. Considered out of scope for this PR: - Drop the requirement to provide the `--checkpoint-block` (this would require some pretty heavy refactoring of block verification) Co-authored-by: Diva M <divma@protonmail.com> 2021-09-22 00:37:28 +00:00
			`// If backfill has completed and the chain is configured to reconstruct historic states,`
			`// send a message to the background migrator instructing it to begin reconstruction.`
			`if backfill_complete && self.config.reconstruct_historic_states {`
			`self.store_migrator.process_reconstruction();`
			`}`

			`Ok(blocks_to_import.len())`
			`}`
			`}`