# beacon_chain # Copyright (c) 2018-2022 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 chronicles, chronos, ../spec/datatypes/base, ../consensus_object_pools/[blockchain_dag, block_quarantine, attestation_pool], ../eth1/eth1_monitor type ConsensusManager* = object expectedSlot: Slot expectedBlockReceived: Future[bool] # Validated & Verified # ---------------------------------------------------------------- dag*: ChainDAGRef attestationPool*: ref AttestationPool # Missing info # ---------------------------------------------------------------- quarantine*: ref Quarantine # Execution layer integration # ---------------------------------------------------------------- eth1Monitor*: Eth1Monitor # Initialization # ------------------------------------------------------------------------------ func new*(T: type ConsensusManager, dag: ChainDAGRef, attestationPool: ref AttestationPool, quarantine: ref Quarantine, eth1Monitor: Eth1Monitor ): ref ConsensusManager = (ref ConsensusManager)( dag: dag, attestationPool: attestationPool, quarantine: quarantine, eth1Monitor: eth1Monitor ) # Consensus Management # ----------------------------------------------------------------------------------- proc checkExpectedBlock(self: var ConsensusManager) = if self.expectedBlockReceived == nil: return if self.dag.head.slot < self.expectedSlot: return self.expectedBlockReceived.complete(true) self.expectedBlockReceived = nil # Don't keep completed futures around! proc expectBlock*(self: var ConsensusManager, expectedSlot: Slot): Future[bool] = ## Return a future that will complete when a head is selected whose slot is ## equal or greater than the given slot, or a new expectation is created if self.expectedBlockReceived != nil: # Reset the old future to not leave it hanging.. an alternative would be to # cancel it, but it doesn't make any practical difference for now self.expectedBlockReceived.complete(false) let fut = newFuture[bool]("ConsensusManager.expectBlock") self.expectedSlot = expectedSlot self.expectedBlockReceived = fut # It might happen that by the time we're expecting a block, it might have # already been processed! self.checkExpectedBlock() return fut from eth/async_utils import awaitWithTimeout from web3/engine_api_types import ForkchoiceUpdatedResponse, PayloadExecutionStatus, PayloadStatusV1 func `$`(h: BlockHash): string = $h.asEth2Digest proc runForkchoiceUpdated*( eth1Monitor: Eth1Monitor, headBlockRoot, finalizedBlockRoot: Eth2Digest): Future[PayloadExecutionStatus] {.async.} = # Allow finalizedBlockRoot to be 0 to avoid sync deadlocks. # # https://github.com/ethereum/EIPs/blob/master/EIPS/eip-3675.md#pos-events # has "Before the first finalized block occurs in the system the finalized # block hash provided by this event is stubbed with # `0x0000000000000000000000000000000000000000000000000000000000000000`." # and # https://github.com/ethereum/consensus-specs/blob/v1.2.0-rc.1/specs/bellatrix/validator.md#executionpayload # notes "`finalized_block_hash` is the hash of the latest finalized execution # payload (`Hash32()` if none yet finalized)" doAssert not headBlockRoot.isZero try: # Minimize window for Eth1 monitor to shut down connection await eth1Monitor.ensureDataProvider() let fcuR = awaitWithTimeout( forkchoiceUpdated( eth1Monitor, headBlockRoot, finalizedBlockRoot), FORKCHOICEUPDATED_TIMEOUT): debug "runForkchoiceUpdated: forkchoiceUpdated timed out" ForkchoiceUpdatedResponse( payloadStatus: PayloadStatusV1(status: PayloadExecutionStatus.syncing)) debug "runForkchoiceUpdated: ran forkchoiceUpdated", headBlockRoot, finalizedBlockRoot, payloadStatus = $fcuR.payloadStatus.status, latestValidHash = $fcuR.payloadStatus.latestValidHash, validationError = $fcuR.payloadStatus.validationError return fcuR.payloadStatus.status except CatchableError as err: debug "runForkchoiceUpdated: forkchoiceUpdated failed", err = err.msg return PayloadExecutionStatus.syncing proc updateExecutionClientHead(self: ref ConsensusManager, newHead: BlockRef) {.async.} = if self.eth1Monitor.isNil: return let executionHeadRoot = self.dag.loadExecutionBlockRoot(newHead) if executionHeadRoot.isZero: # Blocks without execution payloads can't be optimistic. self.dag.markBlockVerified(self.quarantine[], newHead.root) return # Can't use dag.head here because it hasn't been updated yet let payloadExecutionStatus = await self.eth1Monitor.runForkchoiceUpdated( executionHeadRoot, self.dag.loadExecutionBlockRoot(self.dag.finalizedHead.blck)) case payloadExecutionStatus of PayloadExecutionStatus.valid: self.dag.markBlockVerified(self.quarantine[], newHead.root) of PayloadExecutionStatus.invalid, PayloadExecutionStatus.invalid_block_hash: self.dag.markBlockInvalid(newHead.root) self.quarantine[].addUnviable(newHead.root) of PayloadExecutionStatus.accepted, PayloadExecutionStatus.syncing: self.dag.optimisticRoots.incl newHead.root proc updateHead*(self: var ConsensusManager, newHead: BlockRef) = ## Trigger fork choice and update the DAG with the new head block ## This does not automatically prune the DAG after finalization ## `pruneFinalized` must be called for pruning. # Store the new head in the chain DAG - this may cause epochs to be # justified and finalized self.dag.updateHead(newHead, self.quarantine[]) self.checkExpectedBlock() proc updateHead*(self: var ConsensusManager, wallSlot: Slot) = ## Trigger fork choice and update the DAG with the new head block ## This does not automatically prune the DAG after finalization ## `pruneFinalized` must be called for pruning. # Grab the new head according to our latest attestation data let newHead = self.attestationPool[].selectOptimisticHead( wallSlot.start_beacon_time).valueOr: warn "Head selection failed, using previous head", head = shortLog(self.dag.head), wallSlot return if self.dag.loadExecutionBlockRoot(newHead).isZero: # Blocks without execution payloads can't be optimistic. self.dag.markBlockVerified(self.quarantine[], newHead.root) self.updateHead(newHead) proc updateHeadWithExecution*(self: ref ConsensusManager, newHead: BlockRef) {.async.} = ## Trigger fork choice and update the DAG with the new head block ## This does not automatically prune the DAG after finalization ## `pruneFinalized` must be called for pruning. # Grab the new head according to our latest attestation data try: # Ensure dag.updateHead has most current information await self.updateExecutionClientHead(newHead) # Store the new head in the chain DAG - this may cause epochs to be # justified and finalized self.dag.updateHead(newHead, self.quarantine[]) self[].checkExpectedBlock() except CatchableError as exc: debug "updateHeadWithExecution error", error = exc.msg proc pruneStateCachesAndForkChoice*(self: var ConsensusManager) = ## Prune unneeded and invalidated data after finalization ## - the DAG state checkpoints ## - the DAG EpochRef ## - the attestation pool/fork choice # Cleanup DAG & fork choice if we have a finalized head if self.dag.needStateCachesAndForkChoicePruning(): self.dag.pruneStateCachesDAG() self.attestationPool[].prune()