370 lines
14 KiB
Nim
370 lines
14 KiB
Nim
# beacon_chain
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# Copyright (c) 2018-2022 Status Research & Development GmbH
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# Licensed and distributed under either of
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# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
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# at your option. This file may not be copied, modified, or distributed except according to those terms.
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{.push raises: [Defect].}
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import
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chronicles,
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stew/[assign2, results],
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../spec/[beaconstate, forks, signatures, signatures_batch, state_transition],
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"."/[block_dag, blockchain_dag, blockchain_dag_light_client]
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export results, signatures_batch, block_dag, blockchain_dag
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# Clearance
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# ---------------------------------------------
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#
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# This module is in charge of making the
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# "quarantined" network blocks
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# pass the firewall and be stored in the chain DAG
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logScope:
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topics = "clearance"
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proc addResolvedHeadBlock(
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dag: ChainDAGRef,
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state: var ForkedHashedBeaconState,
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trustedBlock: ForkyTrustedSignedBeaconBlock,
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parent: BlockRef, cache: var StateCache,
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onBlockAdded: OnPhase0BlockAdded | OnAltairBlockAdded | OnBellatrixBlockAdded,
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stateDataDur, sigVerifyDur, stateVerifyDur: Duration
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): BlockRef =
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doAssert state.matches_block_slot(
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trustedBlock.root, trustedBlock.message.slot),
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"Given state must have the new block applied"
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let
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blockRoot = trustedBlock.root
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blockRef = BlockRef.init(blockRoot, trustedBlock.message)
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startTick = Moment.now()
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link(parent, blockRef)
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dag.forkBlocks.incl(KeyedBlockRef.init(blockRef))
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# Resolved blocks should be stored in database
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dag.putBlock(trustedBlock)
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let putBlockTick = Moment.now()
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var foundHead: bool
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for head in dag.heads.mitems():
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if head.isAncestorOf(blockRef):
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head = blockRef
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foundHead = true
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break
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if not foundHead:
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dag.heads.add(blockRef)
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# Regardless of the chain we're on, the deposits come in the same order so
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# as soon as we import a block, we'll also update the shared public key
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# cache
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dag.updateValidatorKeys(getStateField(state, validators).asSeq())
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# Getting epochRef with the state will potentially create a new EpochRef
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let
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epochRef = dag.getEpochRef(state, cache)
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epochRefTick = Moment.now()
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debug "Block resolved",
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blockRoot = shortLog(blockRoot),
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blck = shortLog(trustedBlock.message),
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heads = dag.heads.len(),
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stateDataDur, sigVerifyDur, stateVerifyDur,
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putBlockDur = putBlockTick - startTick,
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epochRefDur = epochRefTick - putBlockTick
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# Update light client data
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dag.processNewBlockForLightClient(state, trustedBlock, parent)
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# Notify others of the new block before processing the quarantine, such that
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# notifications for parents happens before those of the children
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if onBlockAdded != nil:
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onBlockAdded(blockRef, trustedBlock, epochRef)
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if not(isNil(dag.onBlockAdded)):
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dag.onBlockAdded(ForkedTrustedSignedBeaconBlock.init(trustedBlock))
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blockRef
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proc checkStateTransition(
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dag: ChainDAGRef, signedBlock: ForkySigVerifiedSignedBeaconBlock,
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cache: var StateCache): Result[void, BlockError] =
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## Ensure block can be applied on a state
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func restore(v: var ForkedHashedBeaconState) =
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assign(dag.clearanceState, dag.headState)
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let res = state_transition_block(
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dag.cfg, dag.clearanceState, signedBlock,
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cache, dag.updateFlags, restore)
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if res.isErr():
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info "Invalid block",
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blockRoot = shortLog(signedBlock.root),
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blck = shortLog(signedBlock.message),
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error = res.error()
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err(BlockError.Invalid)
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else:
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ok()
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proc advanceClearanceState*(dag: ChainDAGRef) =
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# When the chain is synced, the most likely block to be produced is the block
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# right after head - we can exploit this assumption and advance the state
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# to that slot before the block arrives, thus allowing us to do the expensive
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# epoch transition ahead of time.
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# Notably, we use the clearance state here because that's where the block will
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# first be seen - later, this state will be copied to the head state!
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let advanced = withState(dag.clearanceState):
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state.data.slot > state.data.latest_block_header.slot
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if not advanced:
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let next = getStateField(dag.clearanceState, slot) + 1
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let startTick = Moment.now()
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var
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cache = StateCache()
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info = ForkedEpochInfo()
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dag.advanceSlots(dag.clearanceState, next, true, cache, info)
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debug "Prepared clearance state for next block",
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next, updateStateDur = Moment.now() - startTick
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proc addHeadBlock*(
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dag: ChainDAGRef, verifier: var BatchVerifier,
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signedBlock: ForkySignedBeaconBlock,
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onBlockAdded: OnPhase0BlockAdded | OnAltairBlockAdded |
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OnBellatrixBlockAdded
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): Result[BlockRef, BlockError] =
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## Try adding a block to the chain, verifying first that it passes the state
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## transition function and contains correct cryptographic signature.
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##
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## Cryptographic checks can be skipped by adding skipBLSValidation to
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## dag.updateFlags
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logScope:
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blockRoot = shortLog(signedBlock.root)
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blck = shortLog(signedBlock.message)
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signature = shortLog(signedBlock.signature)
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template blck(): untyped = signedBlock.message # shortcuts without copy
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template blockRoot(): untyped = signedBlock.root
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# If the block we get is older than what we finalized already, we drop it.
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# One way this can happen is that we start request a block and finalization
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# happens in the meantime - the block we requested will then be stale
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# by the time it gets here.
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if blck.slot <= dag.finalizedHead.slot:
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let existing = dag.getBlockIdAtSlot(blck.slot)
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# The exact slot match ensures we reject blocks that were orphaned in
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# the finalized chain
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if existing.isSome:
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if existing.get().bid.slot == blck.slot and
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existing.get().bid.root == blockRoot:
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debug "Duplicate block"
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return err(BlockError.Duplicate)
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# Block is older than finalized, but different from the block in our
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# canonical history: it must be from an unviable branch
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debug "Block from unviable fork",
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existing = shortLog(existing.get()),
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finalizedHead = shortLog(dag.finalizedHead),
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tail = shortLog(dag.tail)
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return err(BlockError.UnviableFork)
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# Check non-finalized blocks as well
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if dag.containsForkBlock(blockRoot):
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return err(BlockError.Duplicate)
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let parent = dag.getBlockRef(blck.parent_root).valueOr:
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# There are two cases where the parent won't be found: we don't have it or
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# it has been finalized already, and as a result the branch the new block
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# is on is no longer a viable fork candidate - we can't tell which is which
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# at this stage, but we can check if we've seen the parent block previously
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# and thus prevent requests for it to be downloaded again.
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let parentId = dag.getBlockId(blck.parent_root)
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if parentId.isSome():
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debug "Block unviable due to pre-finalized-checkpoint parent",
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parentId = parentId.get()
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return err(BlockError.UnviableFork)
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debug "Block parent unknown or finalized already", parentId
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return err(BlockError.MissingParent)
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if parent.slot >= blck.slot:
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# A block whose parent is newer than the block itself is clearly invalid -
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# discard it immediately
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debug "Block older than parent",
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parent = shortLog(parent)
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return err(BlockError.Invalid)
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# The block is resolved, now it's time to validate it to ensure that the
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# blocks we add to the database are clean for the given state
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let startTick = Moment.now()
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# The clearance state works as the canonical
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# "let's make things permanent" point and saves things to the database -
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# storing things is slow, so we don't want to do so before there's a
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# reasonable chance that the information will become more permanently useful -
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# by the time a new block reaches this point, the parent block will already
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# have "established" itself in the network to some degree at least.
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var cache = StateCache()
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let clearanceBlock =
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parent.atSlot(signedBlock.message.slot).toBlockslotId.expect("not nil")
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if not updateState(
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dag, dag.clearanceState, clearanceBlock, true, cache):
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# We should never end up here - the parent must be a block no older than and
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# rooted in the finalized checkpoint, hence we should always be able to
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# load its corresponding state
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error "Unable to load clearance state for parent block, database corrupt?",
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parent = shortLog(parent.atSlot(signedBlock.message.slot)),
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clearanceBlock = shortLog(clearanceBlock)
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return err(BlockError.MissingParent)
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let stateDataTick = Moment.now()
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# First, batch-verify all signatures in block
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if skipBLSValidation notin dag.updateFlags:
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# TODO: remove skipBLSValidation
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var sigs: seq[SignatureSet]
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if (let e = sigs.collectSignatureSets(
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signedBlock, dag.db.immutableValidators,
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dag.clearanceState, cache); e.isErr()):
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# A PublicKey or Signature isn't on the BLS12-381 curve
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info "Unable to load signature sets",
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err = e.error()
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return err(BlockError.Invalid)
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if not verifier.batchVerify(sigs):
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info "Block signature verification failed",
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signature = shortLog(signedBlock.signature)
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return err(BlockError.Invalid)
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let sigVerifyTick = Moment.now()
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? checkStateTransition(dag, signedBlock.asSigVerified(), cache)
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let stateVerifyTick = Moment.now()
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# Careful, clearanceState.data has been updated but not blck - we need to
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# create the BlockRef first!
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ok addResolvedHeadBlock(
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dag, dag.clearanceState,
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signedBlock.asTrusted(),
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parent, cache,
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onBlockAdded,
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stateDataDur = stateDataTick - startTick,
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sigVerifyDur = sigVerifyTick - stateDataTick,
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stateVerifyDur = stateVerifyTick - sigVerifyTick)
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proc addBackfillBlock*(
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dag: ChainDAGRef,
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signedBlock: ForkySignedBeaconBlock): Result[void, BlockError] =
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## When performing checkpoint sync, we need to backfill historical blocks
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## in order to respond to GetBlocksByRange requests. Backfill blocks are
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## added in backwards order, one by one, based on the `parent_root` of the
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## earliest block we know about.
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##
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## Because only one history is relevant when backfilling, one doesn't have to
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## consider forks or other finalization-related issues - a block is either
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## valid and finalized, or not.
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logScope:
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blockRoot = shortLog(signedBlock.root)
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blck = shortLog(signedBlock.message)
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signature = shortLog(signedBlock.signature)
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backfill = (dag.backfill.slot, shortLog(dag.backfill.parent_root))
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template blck(): untyped = signedBlock.message # shortcuts without copy
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template blockRoot(): untyped = signedBlock.root
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let startTick = Moment.now()
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if blck.slot >= dag.backfill.slot:
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let existing = dag.getBlockIdAtSlot(blck.slot)
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if existing.isSome:
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if existing.get().bid.slot == blck.slot and
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existing.get().bid.root == blockRoot:
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# We should not call the block added callback for blocks that already
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# existed in the pool, as that may confuse consumers such as the fork
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# choice.
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debug "Duplicate block"
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return err(BlockError.Duplicate)
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# Block is older than finalized, but different from the block in our
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# canonical history: it must be from an unviable branch
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debug "Block from unviable fork",
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existing = shortLog(existing.get()),
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finalizedHead = shortLog(dag.finalizedHead)
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return err(BlockError.UnviableFork)
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if blck.slot == dag.genesis.slot and
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dag.backfill.parent_root == dag.genesis.root:
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if blockRoot != dag.genesis.root:
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# We've matched the backfill blocks all the way back to genesis via the
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# `parent_root` chain and ended up at a different genesis - one way this
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# can happen is when an invalid `--network` parameter is given during
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# startup (though in theory, we check that - maybe the database was
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# swapped or something?).
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fatal "Checkpoint given during initial startup inconsistent with genesis block - wrong network used when starting the node?",
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genesis = shortLog(dag.genesis), tail = shortLog(dag.tail),
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head = shortLog(dag.head)
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quit 1
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dag.backfill = blck.toBeaconBlockSummary()
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dag.db.finalizedBlocks.insert(blck.slot, blockRoot)
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notice "Received final block during backfill, backfill complete"
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# Backfill done - dag.backfill.slot now points to genesis block just like
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# it would if we loaded a fully synced database - returning duplicate
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# here is appropriate, though one could also call it ... ok?
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return err(BlockError.Duplicate)
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if dag.backfill.parent_root != blockRoot:
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debug "Block does not match expected backfill root"
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return err(BlockError.MissingParent) # MissingChild really, but ..
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# If the hash is correct, the block itself must be correct, but the root does
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# not cover the signature, which we check next
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let proposerKey = dag.validatorKey(blck.proposer_index)
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if proposerKey.isNone():
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# We've verified that the block root matches our expectations by following
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# the chain of parents all the way from checkpoint. If all those blocks
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# were valid, the proposer_index in this block must also be valid, and we
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# should have a key for it but we don't: this is either a bug on our from
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# which we cannot recover, or an invalid checkpoint state was given in which
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# case we're in trouble.
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fatal "Invalid proposer in backfill block - checkpoint state corrupt?",
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head = shortLog(dag.head), tail = shortLog(dag.tail),
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genesis = shortLog(dag.genesis)
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quit 1
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if not verify_block_signature(
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dag.forkAtEpoch(blck.slot.epoch),
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getStateField(dag.headState, genesis_validators_root),
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blck.slot,
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signedBlock.root,
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proposerKey.get(),
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signedBlock.signature):
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info "Block signature verification failed"
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return err(BlockError.Invalid)
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let sigVerifyTick = Moment.now
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dag.putBlock(signedBlock.asTrusted())
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dag.db.finalizedBlocks.insert(blck.slot, blockRoot)
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dag.backfill = blck.toBeaconBlockSummary()
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let putBlockTick = Moment.now
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debug "Block backfilled",
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sigVerifyDur = sigVerifyTick - startTick,
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putBlockDur = putBlocktick - sigVerifyTick
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ok()
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