# beacon_chain # Copyright (c) 2018-2021 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. {.push raises: [Defect].} import std/[options, sequtils, tables, sets], stew/[assign2, byteutils, results], metrics, snappy, chronicles, ../spec/[beaconstate, eth2_merkleization, eth2_ssz_serialization, helpers, state_transition, validator], ../spec/datatypes/[phase0, altair, merge], ".."/beacon_chain_db, "."/[block_pools_types, block_quarantine] export eth2_merkleization, eth2_ssz_serialization, block_pools_types, results, beacon_chain_db # https://github.com/ethereum/eth2.0-metrics/blob/master/metrics.md#interop-metrics declareGauge beacon_head_root, "Root of the head block of the beacon chain" declareGauge beacon_head_slot, "Slot of the head block of the beacon chain" # https://github.com/ethereum/eth2.0-metrics/blob/master/metrics.md#interop-metrics declareGauge beacon_finalized_epoch, "Current finalized epoch" # On epoch transition declareGauge beacon_finalized_root, "Current finalized root" # On epoch transition declareGauge beacon_current_justified_epoch, "Current justified epoch" # On epoch transition declareGauge beacon_current_justified_root, "Current justified root" # On epoch transition declareGauge beacon_previous_justified_epoch, "Current previously justified epoch" # On epoch transition declareGauge beacon_previous_justified_root, "Current previously justified root" # On epoch transition declareGauge beacon_reorgs_total_total, "Total occurrences of reorganizations of the chain" # On fork choice; backwards-compat name (used to be a counter) declareGauge beacon_reorgs_total, "Total occurrences of reorganizations of the chain" # Interop copy declareCounter beacon_state_data_cache_hits, "EpochRef hits" declareCounter beacon_state_data_cache_misses, "EpochRef misses" declareCounter beacon_state_rewinds, "State database rewinds" declareGauge beacon_active_validators, "Number of validators in the active validator set" declareGauge beacon_current_active_validators, "Number of validators in the active validator set" # Interop copy declareGauge beacon_pending_deposits, "Number of pending deposits (state.eth1_data.deposit_count - state.eth1_deposit_index)" # On block declareGauge beacon_processed_deposits_total, "Number of total deposits included on chain" # On block logScope: topics = "chaindag" proc putBlock*( dag: ChainDAGRef, signedBlock: ForkyTrustedSignedBeaconBlock) = dag.db.putBlock(signedBlock) proc updateStateData*( dag: ChainDAGRef, state: var StateData, bs: BlockSlot, save: bool, cache: var StateCache) {.gcsafe.} template withStateVars*( stateDataInternal: var StateData, body: untyped): untyped = ## Inject a few more descriptive names for the members of `stateData` - ## the stateData instance may get mutated through these names as well template stateData(): StateData {.inject, used.} = stateDataInternal template stateRoot(): Eth2Digest {.inject, used.} = getStateRoot(stateDataInternal.data) template blck(): BlockRef {.inject, used.} = stateDataInternal.blck template root(): Eth2Digest {.inject, used.} = stateDataInternal.data.root body template withState*( dag: ChainDAGRef, stateData: var StateData, blockSlot: BlockSlot, body: untyped): untyped = ## Helper template that updates stateData to a particular BlockSlot - usage of ## stateData is unsafe outside of block. ## TODO async transformations will lead to a race where stateData gets updated ## while waiting for future to complete - catch this here somehow? block: var cache {.inject.} = StateCache() updateStateData(dag, stateData, blockSlot, false, cache) withStateVars(stateData): body func parent*(bs: BlockSlot): BlockSlot = ## Return a blockslot representing the previous slot, using the parent block ## if the current slot had a block if bs.slot == Slot(0): BlockSlot(blck: nil, slot: Slot(0)) else: BlockSlot( blck: if bs.slot > bs.blck.slot: bs.blck else: bs.blck.parent, slot: bs.slot - 1 ) func parentOrSlot*(bs: BlockSlot): BlockSlot = ## Return a blockslot representing the previous slot, using the parent block ## with the current slot if the current had a block if bs.blck.isNil(): BlockSlot(blck: nil, slot: Slot(0)) elif bs.slot == bs.blck.slot: BlockSlot(blck: bs.blck.parent, slot: bs.slot) else: BlockSlot(blck: bs.blck, slot: bs.slot - 1) func get_effective_balances(validators: openArray[Validator], epoch: Epoch): seq[Gwei] = ## Get the balances from a state as counted for fork choice result.newSeq(validators.len) # zero-init for i in 0 ..< result.len: # All non-active validators have a 0 balance let validator = unsafeAddr validators[i] if validator[].is_active_validator(epoch): result[i] = validator[].effective_balance proc updateValidatorKeys*(dag: ChainDAGRef, validators: openArray[Validator]) = # Update validator key cache - must be called every time a valid block is # applied to the state - this is important to ensure that when we sync blocks # without storing a state (non-epoch blocks essentially), the deposits from # those blocks are persisted to the in-database cache of immutable validator # data (but no earlier than that the whole block as been validated) dag.db.updateImmutableValidators(validators) func validatorKey*( dag: ChainDAGRef, index: ValidatorIndex or uint64): Option[CookedPubKey] = ## Returns the validator pubkey for the index, assuming it's been observed ## at any point in time - this function may return pubkeys for indicies that ## are not (yet) part of the head state (if the key has been observed on a ## non-head branch)! dag.db.immutableValidators.load(index) func validatorKey*( epochRef: EpochRef, index: ValidatorIndex or uint64): Option[CookedPubKey] = ## Returns the validator pubkey for the index, assuming it's been observed ## at any point in time - this function may return pubkeys for indicies that ## are not (yet) part of the head state (if the key has been observed on a ## non-head branch)! validatorKey(epochRef.dag, index) func init*( T: type EpochRef, dag: ChainDAGRef, state: StateData, cache: var StateCache): T = let epoch = state.data.get_current_epoch() epochRef = EpochRef( dag: dag, # This gives access to the validator pubkeys through an EpochRef key: state.blck.epochAncestor(epoch), eth1_data: getStateField(state.data, eth1_data), eth1_deposit_index: getStateField(state.data, eth1_deposit_index), current_justified_checkpoint: getStateField(state.data, current_justified_checkpoint), finalized_checkpoint: getStateField(state.data, finalized_checkpoint), shuffled_active_validator_indices: cache.get_shuffled_active_validator_indices(state.data, epoch) ) for i in 0'u64..= b.slot or b.parent.isNil: return (false, depth) doAssert b.slot > b.parent.slot b = b.parent func isAncestorOf*(a, b: BlockRef): bool = let (isAncestor, _) = getDepth(a, b) isAncestor func get_ancestor*(blck: BlockRef, slot: Slot, maxDepth = 100'i64 * 365 * 24 * 60 * 60 div SECONDS_PER_SLOT.int): BlockRef = ## https://github.com/ethereum/eth2.0-specs/blob/v1.0.1/specs/phase0/fork-choice.md#get_ancestor ## Return the most recent block as of the time at `slot` that not more recent ## than `blck` itself doAssert not blck.isNil var blck = blck var depth = 0 while true: if blck.slot <= slot: return blck if blck.parent.isNil: return nil doAssert depth < maxDepth depth += 1 blck = blck.parent func atSlot*(blck: BlockRef, slot: Slot): BlockSlot = ## Return a BlockSlot at a given slot, with the block set to the closest block ## available. If slot comes from before the block, a suitable block ancestor ## will be used, else blck is returned as if all slots after it were empty. ## This helper is useful when imagining what the chain looked like at a ## particular moment in time, or when imagining what it will look like in the ## near future if nothing happens (such as when looking ahead for the next ## block proposal) BlockSlot(blck: blck.get_ancestor(slot), slot: slot) func atEpochStart*(blck: BlockRef, epoch: Epoch): BlockSlot = ## Return the BlockSlot corresponding to the first slot in the given epoch atSlot(blck, epoch.compute_start_slot_at_epoch) func epochAncestor*(blck: BlockRef, epoch: Epoch): EpochKey = ## The state transition works by storing information from blocks in a ## "working" area until the epoch transition, then batching work collected ## during the epoch. Thus, last block in the ancestor epochs is the block ## that has an impact on epoch currently considered. ## ## This function returns a BlockSlot pointing to that epoch boundary, ie the ## boundary where the last block has been applied to the state and epoch ## processing has been done. var blck = blck while blck.slot.epoch >= epoch and not blck.parent.isNil: blck = blck.parent EpochKey(epoch: epoch, blck: blck) func findEpochRef*( dag: ChainDAGRef, blck: BlockRef, epoch: Epoch): EpochRef = # may return nil! let ancestor = blck.epochAncestor(epoch) doAssert ancestor.blck != nil for i in 0.. 0: load(epoch - 1) func init(T: type BlockRef, root: Eth2Digest, slot: Slot): BlockRef = BlockRef( root: root, slot: slot ) func init*(T: type BlockRef, root: Eth2Digest, blck: SomeSomeBeaconBlock): BlockRef = BlockRef.init(root, blck.slot) func contains*(dag: ChainDAGRef, root: Eth2Digest): bool = KeyedBlockRef.asLookupKey(root) in dag.blocks proc containsBlock( cfg: RuntimeConfig, db: BeaconChainDB, blck: BlockRef): bool = case cfg.blockForkAtEpoch(blck.slot.epoch) of BeaconBlockFork.Phase0: db.containsBlockPhase0(blck.root) of BeaconBlockFork.Altair: db.containsBlockAltair(blck.root) of BeaconBlockFork.Merge: db.containsBlockMerge(blck.root) func isStateCheckpoint(bs: BlockSlot): bool = ## State checkpoints are the points in time for which we store full state ## snapshots, which later serve as rewind starting points when replaying state ## transitions from database, for example during reorgs. ## # As a policy, we only store epoch boundary states without the epoch block # (if it exists) applied - the rest can be reconstructed by loading an epoch # boundary state and applying the missing blocks. # We also avoid states that were produced with empty slots only - as such, # there is only a checkpoint for the first epoch after a block. # The tail block also counts as a state checkpoint! (bs.slot == bs.blck.slot and bs.blck.parent == nil) or (bs.slot.isEpoch and bs.slot.epoch == (bs.blck.slot.epoch + 1)) proc getStateData( db: BeaconChainDB, cfg: RuntimeConfig, state: var StateData, bs: BlockSlot, rollback: RollbackProc): bool = if not bs.isStateCheckpoint(): return false let root = db.getStateRoot(bs.blck.root, bs.slot) if not root.isSome(): return false let expectedFork = cfg.stateForkAtEpoch(bs.slot.epoch) if state.data.kind != expectedFork: state.data = (ref ForkedHashedBeaconState)(kind: expectedFork)[] case expectedFork of BeaconStateFork.Merge: if not db.getState(root.get(), state.data.mergeData.data, rollback): return false of BeaconStateFork.Altair: if not db.getState(root.get(), state.data.altairData.data, rollback): return false of BeaconStateFork.Phase0: if not db.getState(root.get(), state.data.phase0Data.data, rollback): return false state.blck = bs.blck setStateRoot(state.data, root.get()) true proc getForkedBlock(db: BeaconChainDB, root: Eth2Digest): Opt[ForkedTrustedSignedBeaconBlock] = # When we only have a digest, we don't know which fork it's from so we try # them one by one - this should be used sparingly if (let blck = db.getMergeBlock(root); blck.isSome()): ok(ForkedTrustedSignedBeaconBlock.init(blck.get())) elif (let blck = db.getAltairBlock(root); blck.isSome()): ok(ForkedTrustedSignedBeaconBlock.init(blck.get())) elif (let blck = db.getPhase0Block(root); blck.isSome()): ok(ForkedTrustedSignedBeaconBlock.init(blck.get())) else: err() proc init*(T: type ChainDAGRef, cfg: RuntimeConfig, db: BeaconChainDB, updateFlags: UpdateFlags, onBlockCb: OnBlockCallback = nil, onHeadCb: OnHeadCallback = nil, onReorgCb: OnReorgCallback = nil, onFinCb: OnFinalizedCallback = nil): ChainDAGRef = # TODO we require that the db contains both a head and a tail block - # asserting here doesn't seem like the right way to go about it however.. let tailBlockRoot = db.getTailBlock() headBlockRoot = db.getHeadBlock() doAssert tailBlockRoot.isSome(), "Missing tail block, database corrupt?" doAssert headBlockRoot.isSome(), "Missing head block, database corrupt?" let tailRoot = tailBlockRoot.get() tailBlock = db.getForkedBlock(tailRoot).get() tailRef = withBlck(tailBlock): BlockRef.init(tailRoot, blck.message) headRoot = headBlockRoot.get() let genesisRef = if tailBlock.slot == GENESIS_SLOT: tailRef else: let genesisBlockRoot = db.getGenesisBlock().expect( "preInit should have initialized the database with a genesis block root") genesisBlock = db.getForkedBlock(genesisBlockRoot).expect( "preInit should have initialized the database with a genesis block") withBlck(genesisBlock): BlockRef.init(genesisBlockRoot, blck.message) var blocks: HashSet[KeyedBlockRef] headRef: BlockRef blocks.incl(KeyedBlockRef.init(tailRef)) if genesisRef != tailRef: blocks.incl(KeyedBlockRef.init(genesisRef)) if headRoot != tailRoot: var curRef: BlockRef for blck in db.getAncestorSummaries(headRoot): if blck.root == tailRef.root: doAssert(not curRef.isNil) link(tailRef, curRef) curRef = curRef.parent break let newRef = BlockRef.init(blck.root, blck.summary.slot) if curRef == nil: curRef = newRef else: link(newRef, curRef) curRef = curRef.parent # Don't include blocks on incorrect hardforks if headRef == nil and cfg.containsBlock(db, newRef): headRef = newRef blocks.incl(KeyedBlockRef.init(curRef)) trace "Populating block dag", key = curRef.root, val = curRef if curRef != tailRef: fatal "Head block does not lead to tail - database corrupt?", genesisRef, tailRef, headRef, curRef, tailRoot, headRoot, blocks = blocks.len() quit 1 else: headRef = tailRef # Because of incorrect hardfork check, there might be no head block, in which # case it's equivalent to the tail block if headRef == nil: headRef = tailRef var cur = headRef.atSlot(headRef.slot) tmpState = (ref StateData)() # Now that we have a head block, we need to find the most recent state that # we have saved in the database while cur.blck != nil and not getStateData(db, cfg, tmpState[], cur, noRollback): cur = cur.parentOrSlot() if tmpState.blck == nil: warn "No state found in head history, database corrupt?", genesisRef, tailRef, headRef, tailRoot, headRoot, blocks = blocks.len() # TODO Potentially we could recover from here instead of crashing - what # would be a good recovery model? quit 1 case tmpState.data.kind of BeaconStateFork.Phase0: if tmpState.data.phase0Data.data.fork != genesisFork(cfg): error "State from database does not match network, check --network parameter", genesisRef, tailRef, headRef, tailRoot, headRoot, blocks = blocks.len(), stateFork = tmpState.data.phase0Data.data.fork, configFork = genesisFork(cfg) quit 1 of BeaconStateFork.Altair: if tmpState.data.altairData.data.fork != altairFork(cfg): error "State from database does not match network, check --network parameter", genesisRef, tailRef, headRef, tailRoot, headRoot, blocks = blocks.len(), stateFork = tmpState.data.altairData.data.fork, configFork = altairFork(cfg) quit 1 of BeaconStateFork.Merge: if tmpState.data.mergeData.data.fork != mergeFork(cfg): error "State from database does not match network, check --network parameter", genesisRef, tailRef, headRef, tailRoot, headRoot, blocks = blocks.len(), stateFork = tmpState.data.mergeData.data.fork, configFork = mergeFork(cfg) quit 1 let dag = ChainDAGRef( blocks: blocks, tail: tailRef, genesis: genesisRef, db: db, forkDigests: newClone ForkDigests.init( cfg, getStateField(tmpState.data, genesis_validators_root)), heads: @[headRef], headState: tmpState[], epochRefState: tmpState[], clearanceState: tmpState[], # The only allowed flag right now is verifyFinalization, as the others all # allow skipping some validation. updateFlags: {verifyFinalization} * updateFlags, cfg: cfg, onBlockAdded: onBlockCb, onHeadChanged: onHeadCb, onReorgHappened: onReorgCb, onFinHappened: onFinCb ) doAssert cfg.GENESIS_FORK_VERSION != cfg.ALTAIR_FORK_VERSION doAssert cfg.GENESIS_FORK_VERSION != cfg.MERGE_FORK_VERSION doAssert cfg.ALTAIR_FORK_VERSION != cfg.MERGE_FORK_VERSION doAssert cfg.ALTAIR_FORK_EPOCH <= cfg.MERGE_FORK_EPOCH doAssert dag.updateFlags in [{}, {verifyFinalization}] var cache: StateCache dag.updateStateData(dag.headState, headRef.atSlot(headRef.slot), false, cache) # We presently save states on the epoch boundary - it means that the latest # state we loaded might be older than head block - nonetheless, it will be # from the same epoch as the head, thus the finalized and justified slots are # the same - these only change on epoch boundaries. # When we start from a snapshot state, the `finalized_checkpoint` in the # snapshot will point to an even older state, but we trust the tail state # (the snapshot) to be finalized, hence the `max` expression below. let finalizedEpoch = max(getStateField(dag.headState.data, finalized_checkpoint).epoch, tailRef.slot.epoch) dag.finalizedHead = headRef.atEpochStart(finalizedEpoch) dag.clearanceState = dag.headState # Pruning metadata dag.lastPrunePoint = dag.finalizedHead # Fill validator key cache in case we're loading an old database that doesn't # have a cache dag.updateValidatorKeys(getStateField(dag.headState.data, validators).asSeq()) withState(dag.headState.data): when stateFork >= BeaconStateFork.Altair: dag.headSyncCommittees = state.data.get_sync_committee_cache(cache) info "Block dag initialized", head = shortLog(headRef), finalizedHead = shortLog(dag.finalizedHead), tail = shortLog(tailRef), totalBlocks = blocks.len dag template genesisValidatorsRoot*(dag: ChainDAGRef): Eth2Digest = getStateField(dag.headState.data, genesis_validators_root) func getEpochRef*( dag: ChainDAGRef, state: StateData, cache: var StateCache): EpochRef = let blck = state.blck epoch = state.data.get_current_epoch() var epochRef = dag.findEpochRef(blck, epoch) if epochRef == nil: epochRef = EpochRef.init(dag, state, cache) if epoch >= dag.finalizedHead.slot.epoch(): # Only cache epoch information for unfinalized blocks - earlier states # are seldomly used (ie RPC), so no need to cache # Because we put a cap on the number of epochRefs we store, we want to # prune the least useful state - for now, we'll assume that to be the # oldest epochRef we know about. var oldest = 0 for x in 0..= 250.millis: # This might indicate there's a cache that's not in order or a disk that is # too slow - for now, it's here for investigative purposes and the cutoff # time might need tuning info "State replayed" elif ancestors.len > 0: debug "State replayed" else: trace "State advanced" # Normal case! proc delState(dag: ChainDAGRef, bs: BlockSlot) = # Delete state state and mapping for a particular block+slot if not isStateCheckpoint(bs): return # We only ever save epoch states if (let root = dag.db.getStateRoot(bs.blck.root, bs.slot); root.isSome()): dag.db.delState(root.get()) dag.db.delStateRoot(bs.blck.root, bs.slot) proc pruneBlocksDAG(dag: ChainDAGRef) = ## This prunes the block DAG ## This does NOT prune the cached state checkpoints and EpochRef ## This must be done after a new finalization point is reached ## to invalidate pending blocks or attestations referring ## to a now invalid fork. ## ## This does NOT update the `dag.lastPrunePoint` field. ## as the caches and fork choice can be pruned at a later time. # Clean up block refs, walking block by block let startTick = Moment.now() # Finalization means that we choose a single chain as the canonical one - # it also means we're no longer interested in any branches from that chain # up to the finalization point let hlen = dag.heads.len for i in 0..= BeaconStateFork.Altair: let period = sync_committee_period(slot) curPeriod = sync_committee_period(state.data.slot) if period == curPeriod: @(dag.headSyncCommittees.current_sync_committee) elif period == curPeriod + 1: @(dag.headSyncCommittees.next_sync_committee) else: @[] else: @[] func getSubcommitteePositionsAux( dag: ChainDAGRef, syncCommittee: openArray[ValidatorIndex], subcommitteeIdx: SyncSubcommitteeIndex, validatorIdx: uint64): seq[uint64] = let validatorKey = dag.validatorKey(validatorIdx) if validatorKey.isNone(): return @[] let validatorPubKey = validatorKey.get().toPubKey for pos, key in toSeq(syncCommittee.syncSubcommittee(subcommitteeIdx)): if validatorIdx == uint64(key): result.add uint64(pos) func getSubcommitteePositions*(dag: ChainDAGRef, slot: Slot, subcommitteeIdx: SyncSubcommitteeIndex, validatorIdx: uint64): seq[uint64] = withState(dag.headState.data): when stateFork >= BeaconStateFork.Altair: let period = sync_committee_period(slot) curPeriod = sync_committee_period(state.data.slot) template search(syncCommittee: openArray[ValidatorIndex]): seq[uint64] = dag.getSubcommitteePositionsAux( syncCommittee, subcommitteeIdx, validatorIdx) if period == curPeriod: search(dag.headSyncCommittees.current_sync_committee) elif period == curPeriod + 1: search(dag.headSyncCommittees.next_sync_committee) else: @[] else: @[] template syncCommitteeParticipants*( dag: ChainDAGRef, slot: Slot, subcommitteeIdx: SyncSubcommitteeIndex): seq[ValidatorIndex] = toSeq(syncSubcommittee(dag.syncCommitteeParticipants(slot), subcommitteeIdx)) iterator syncCommitteeParticipants*( dag: ChainDAGRef, slot: Slot, subcommitteeIdx: SyncSubcommitteeIndex, aggregationBits: SyncCommitteeAggregationBits): ValidatorIndex = for pos, valIdx in pairs(dag.syncCommitteeParticipants(slot, subcommitteeIdx)): if pos < aggregationBits.bits and aggregationBits[pos]: yield valIdx func needStateCachesAndForkChoicePruning*(dag: ChainDAGRef): bool = dag.lastPrunePoint != dag.finalizedHead proc pruneStateCachesDAG*(dag: ChainDAGRef) = ## This prunes the cached state checkpoints and EpochRef ## This does NOT prune the state associated with invalidated blocks on a fork ## They are pruned via `pruneBlocksDAG` ## ## This updates the `dag.lastPrunePoint` variable doAssert dag.needStateCachesAndForkChoicePruning() let startTick = Moment.now() block: # Remove states, walking slot by slot # We remove all state checkpoints that come _before_ the current finalized # head, as we might frequently be asked to replay states from the # finalized checkpoint and onwards (for example when validating blocks and # attestations) var cur = dag.finalizedHead.stateCheckpoint.parentOrSlot prev = dag.lastPrunePoint.stateCheckpoint.parentOrSlot while cur.blck != nil and cur != prev: # TODO This is a quick fix to prune some states from the database, but # not all, pending a smarter storage - the downside of pruning these # states is that certain rewinds will take longer # After long periods of non-finalization, it can also take some time to # release all these states! if cur.slot.epoch mod 32 != 0 and cur.slot != dag.tail.slot: dag.delState(cur) cur = cur.parentOrSlot let statePruneTick = Moment.now() block: # Clean up old EpochRef instances # After finalization, we can clear up the epoch cache and save memory - # it will be recomputed if needed for i in 0..= BeaconStateFork.Altair: dag.headSyncCommittees = state.data.get_sync_committee_cache(cache) let finalizedHead = newHead.atEpochStart( getStateField(dag.headState.data, finalized_checkpoint).epoch) doAssert (not finalizedHead.blck.isNil), "Block graph should always lead to a finalized block" let (isAncestor, ancestorDepth) = lastHead.getDepth(newHead) if not(isAncestor): notice "Updated head block with chain reorg", lastHead = shortLog(lastHead), headParent = shortLog(newHead.parent), stateRoot = shortLog(getStateRoot(dag.headState.data)), headBlock = shortLog(dag.headState.blck), stateSlot = shortLog(getStateField(dag.headState.data, slot)), justified = shortLog(getStateField( dag.headState.data, current_justified_checkpoint)), finalized = shortLog(getStateField( dag.headState.data, finalized_checkpoint)) if not(isNil(dag.onReorgHappened)): let data = ReorgInfoObject.init(dag.head.slot, uint64(ancestorDepth), lastHead.root, newHead.root, lastHeadStateRoot, getStateRoot(dag.headState.data)) dag.onReorgHappened(data) # A reasonable criterion for "reorganizations of the chain" quarantine.clearQuarantine() beacon_reorgs_total_total.inc() beacon_reorgs_total.inc() else: debug "Updated head block", head = shortLog(dag.headState.blck), stateRoot = shortLog(getStateRoot(dag.headState.data)), justified = shortLog(getStateField( dag.headState.data, current_justified_checkpoint)), finalized = shortLog(getStateField( dag.headState.data, finalized_checkpoint)) if not(isNil(dag.onHeadChanged)): let currentEpoch = epoch(newHead.slot) let currentDutyDepRoot = if currentEpoch > Epoch(0): dag.head.atSlot( compute_start_slot_at_epoch(currentEpoch) - 1).blck.root else: dag.genesis.root previousDutyDepRoot = if currentEpoch > Epoch(1): dag.head.atSlot( compute_start_slot_at_epoch(currentEpoch - 1) - 1).blck.root else: dag.genesis.root epochTransition = (finalizedHead != dag.finalizedHead) let data = HeadChangeInfoObject.init(dag.head.slot, dag.head.root, getStateRoot(dag.headState.data), epochTransition, previousDutyDepRoot, currentDutyDepRoot) dag.onHeadChanged(data) # https://github.com/ethereum/eth2.0-metrics/blob/master/metrics.md#additional-metrics # both non-negative, so difference can't overflow or underflow int64 beacon_pending_deposits.set( getStateField(dag.headState.data, eth1_data).deposit_count.toGaugeValue - getStateField(dag.headState.data, eth1_deposit_index).toGaugeValue) beacon_processed_deposits_total.set( getStateField(dag.headState.data, eth1_deposit_index).toGaugeValue) beacon_head_root.set newHead.root.toGaugeValue beacon_head_slot.set newHead.slot.toGaugeValue if lastHead.slot.epoch != newHead.slot.epoch: # Epoch updated - in theory, these could happen when the wall clock # changes epoch, even if there is no new block / head, but we'll delay # updating them until a block confirms the change beacon_current_justified_epoch.set( getStateField( dag.headState.data, current_justified_checkpoint).epoch.toGaugeValue) beacon_current_justified_root.set( getStateField( dag.headState.data, current_justified_checkpoint).root.toGaugeValue) beacon_previous_justified_epoch.set( getStateField( dag.headState.data, previous_justified_checkpoint).epoch.toGaugeValue) beacon_previous_justified_root.set( getStateField( dag.headState.data, previous_justified_checkpoint).root.toGaugeValue) let epochRef = getEpochRef(dag, newHead, newHead.slot.epoch) number_of_active_validators = epochRef.shuffled_active_validator_indices.lenu64().toGaugeValue beacon_active_validators.set(number_of_active_validators) beacon_current_active_validators.set(number_of_active_validators) if finalizedHead != dag.finalizedHead: info "Reached new finalization checkpoint", head = shortLog(dag.headState.blck), stateRoot = shortLog(getStateRoot(dag.headState.data)), justified = shortLog(getStateField( dag.headState.data, current_justified_checkpoint)), finalized = shortLog(getStateField( dag.headState.data, finalized_checkpoint)) dag.finalizedHead = finalizedHead beacon_finalized_epoch.set(getStateField( dag.headState.data, finalized_checkpoint).epoch.toGaugeValue) beacon_finalized_root.set(getStateField( dag.headState.data, finalized_checkpoint).root.toGaugeValue) # Pruning the block dag is required every time the finalized head changes # in order to clear out blocks that are no longer viable and should # therefore no longer be considered as part of the chain we're following dag.pruneBlocksDAG() # Send notification about new finalization point via callback. if not(isNil(dag.onFinHappened)): let epoch = getStateField( dag.headState.data, finalized_checkpoint).epoch let blckRoot = getStateField( dag.headState.data, finalized_checkpoint).root let data = FinalizationInfoObject.init(blckRoot, getStateRoot(dag.headState.data), epoch) dag.onFinHappened(data) proc isInitialized*(T: type ChainDAGRef, db: BeaconChainDB): bool = # Lightweight check to see if we have the minimal information needed to # load up a database - we don't check head here - if something is wrong with # head, it's likely an initialized, but corrupt database - init will detect # that let genesisBlockRoot = db.getGenesisBlock() tailBlockRoot = db.getTailBlock() if not (genesisBlockRoot.isSome() and tailBlockRoot.isSome()): return false let genesisBlock = db.getForkedBlock(genesisBlockRoot.get()) tailBlock = db.getForkedBlock(tailBlockRoot.get()) if not (genesisBlock.isSome() and tailBlock.isSome()): return false let genesisStateRoot = withBlck(genesisBlock.get()): blck.message.state_root tailStateRoot = withBlck(tailBlock.get()): blck.message.state_root if not ( db.containsState(genesisStateRoot) and db.containsState(tailStateRoot)): return false true proc preInit*( T: type ChainDAGRef, db: BeaconChainDB, genesisState, tailState: ForkedHashedBeaconState, tailBlock: ForkedTrustedSignedBeaconBlock) = # write a genesis state, the way the ChainDAGRef expects it to be stored in # database # TODO probably should just init a block pool with the freshly written # state - but there's more refactoring needed to make it nice - doing # a minimal patch for now.. logScope: genesisStateRoot = getStateRoot(genesisState) genesisStateSlot = getStateField(genesisState, slot) tailStateRoot = getStateRoot(tailState) tailStateSlot = getStateField(tailState, slot) let genesisBlockRoot = withState(genesisState): if state.root != getStateRoot(tailState): # Different tail and genesis if state.data.slot >= getStateField(tailState, slot): fatal "Tail state must be newer or the same as genesis state" quit 1 let tail_genesis_validators_root = getStateField(tailState, genesis_validators_root) if state.data.genesis_validators_root != tail_genesis_validators_root: fatal "Tail state doesn't match genesis validators root, it is likely from a different network!", genesis_validators_root = shortLog(state.data.genesis_validators_root), tail_genesis_validators_root = shortLog(tail_genesis_validators_root) quit 1 let blck = get_initial_beacon_block(state) db.putGenesisBlock(blck.root) db.putBlock(blck) db.putStateRoot(state.latest_block_root(), state.data.slot, state.root) db.putState(state.root, state.data) blck.root else: # tail and genesis are the same withBlck(tailBlock): db.putGenesisBlock(blck.root) blck.root withState(tailState): withBlck(tailBlock): # When looking up the state root of the tail block, we don't use the # BlockSlot->state_root map, so the only way the init code can find the # state is through the state root in the block - this could be relaxed # down the line if blck.message.state_root != state.root: fatal "State must match the given block", tailBlck = shortLog(blck) quit 1 db.putBlock(blck) db.putTailBlock(blck.root) db.putHeadBlock(blck.root) db.putStateRoot(state.latest_block_root(), state.data.slot, state.root) db.putState(state.root, state.data) notice "New database from snapshot", genesisBlockRoot = shortLog(genesisBlockRoot), genesisStateRoot = shortLog(getStateRoot(genesisState)), tailBlockRoot = shortLog(blck.root), tailStateRoot = shortLog(state.root), fork = state.data.fork, validators = state.data.validators.len() proc getGenesisBlockData*(dag: ChainDAGRef): BlockData = dag.get(dag.genesis) func getGenesisBlockSlot*(dag: ChainDAGRef): BlockSlot = BlockSlot(blck: dag.genesis, slot: GENESIS_SLOT) proc getProposer*( dag: ChainDAGRef, head: BlockRef, slot: Slot): Option[ValidatorIndex] = let epochRef = dag.getEpochRef(head, slot.compute_epoch_at_slot()) slotInEpoch = slot - slot.compute_epoch_at_slot().compute_start_slot_at_epoch() let proposer = epochRef.beacon_proposers[slotInEpoch] if proposer.isSome(): if proposer.get().uint64 >= dag.db.immutableValidators.lenu64(): # Sanity check - it should never happen that the key cache doesn't contain # a key for the selected proposer - that would mean that we somehow # created validators in the state without updating the cache! warn "Proposer key not found", keys = dag.db.immutableValidators.lenu64(), proposer = proposer.get() return none(ValidatorIndex) proposer