# beacon_chain # Copyright (c) 2022-2024 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: [].} import chronicles, web3/engine_api_types, ./beacon_node logScope: topics = "beacnde" func shouldSyncOptimistically*(node: BeaconNode, wallSlot: Slot): bool = let optimisticHeader = node.lightClient.optimisticHeader withForkyHeader(optimisticHeader): when lcDataFork > LightClientDataFork.None: shouldSyncOptimistically( optimisticSlot = forkyHeader.beacon.slot, dagSlot = getStateField(node.dag.headState, slot), wallSlot = wallSlot) else: false proc initLightClient*( node: BeaconNode, rng: ref HmacDrbgContext, cfg: RuntimeConfig, forkDigests: ref ForkDigests, getBeaconTime: GetBeaconTimeFn, genesis_validators_root: Eth2Digest) = template config(): auto = node.config # Creating a light client is not dependent on `syncLightClient` # because the light client module also handles gossip subscriptions # for broadcasting light client data as a server. let optimisticHandler = proc( signedBlock: ForkedSignedBeaconBlock ): Future[void] {.async: (raises: [CancelledError]).} = withBlck(signedBlock): when consensusFork >= ConsensusFork.Bellatrix: if forkyBlck.message.is_execution_block: template payload(): auto = forkyBlck.message.body.execution_payload if not payload.block_hash.isZero: discard await node.elManager.newExecutionPayload( forkyBlck.message) else: discard optimisticProcessor = initOptimisticProcessor( getBeaconTime, optimisticHandler) shouldInhibitSync = func(): bool = if node.syncManager != nil: not node.syncManager.inProgress # No LC sync needed if DAG is in sync else: false lightClient = createLightClient( node.network, rng, config, cfg, forkDigests, getBeaconTime, genesis_validators_root, LightClientFinalizationMode.Strict, shouldInhibitSync = shouldInhibitSync) if config.syncLightClient: proc onOptimisticHeader( lightClient: LightClient, optimisticHeader: ForkedLightClientHeader) = if node.optimisticFcuFut != nil: return withForkyHeader(optimisticHeader): when lcDataFork > LightClientDataFork.None: let bid = forkyHeader.beacon.toBlockId() logScope: opt = bid dag = node.dag.head.bid wallSlot = node.currentSlot when lcDataFork >= LightClientDataFork.Capella: let consensusFork = node.dag.cfg.consensusForkAtEpoch(bid.slot.epoch) blockHash = forkyHeader.execution.block_hash # Retain optimistic head for other `forkchoiceUpdated` callers. # May temporarily block `forkchoiceUpdated` calls, e.g., Geth: # - Refuses `newPayload`: "Ignoring payload while snap syncing" # - Refuses `fcU`: "Forkchoice requested unknown head" # Once DAG sync catches up or as new optimistic heads are fetched # the situation recovers debug "New LC optimistic header" node.consensusManager[].setOptimisticHead(bid, blockHash) if not node.consensusManager[] .shouldSyncOptimistically(node.currentSlot): return # engine_forkchoiceUpdated let beaconHead = node.attestationPool[].getBeaconHead(nil) withConsensusFork(consensusFork): when lcDataForkAtConsensusFork(consensusFork) == lcDataFork: node.optimisticFcuFut = node.elManager.forkchoiceUpdated( headBlockHash = blockHash, safeBlockHash = beaconHead.safeExecutionBlockHash, finalizedBlockHash = beaconHead.finalizedExecutionBlockHash, payloadAttributes = Opt.none consensusFork.PayloadAttributes) node.optimisticFcuFut.addCallback do (future: pointer): node.optimisticFcuFut = nil else: # The execution block hash is only available from Capella onward info "Ignoring new LC optimistic header until Capella" lightClient.onOptimisticHeader = onOptimisticHeader lightClient.trustedBlockRoot = config.trustedBlockRoot elif config.trustedBlockRoot.isSome: warn "Ignoring `trustedBlockRoot`, light client not enabled", syncLightClient = config.syncLightClient, trustedBlockRoot = config.trustedBlockRoot node.optimisticProcessor = optimisticProcessor node.lightClient = lightClient proc startLightClient*(node: BeaconNode) = if not node.config.syncLightClient: return node.lightClient.start() proc installLightClientMessageValidators*(node: BeaconNode) = let eth2Processor = if node.config.lightClientDataServe: # Process gossip using both full node and light client node.processor elif node.config.syncLightClient: # Only process gossip using light client nil else: # Light client topics will never be subscribed to, no validators needed return node.lightClient.installMessageValidators(eth2Processor) proc updateLightClientGossipStatus*( node: BeaconNode, slot: Slot, dagIsBehind: bool) = let isBehind = if node.config.lightClientDataServe: # Forward DAG's readiness to handle light client gossip dagIsBehind else: # Full node is not interested in gossip true node.lightClient.updateGossipStatus(slot, some isBehind) proc updateLightClientFromDag*(node: BeaconNode) = if not node.config.syncLightClient: return if node.config.trustedBlockRoot.isSome: return let dagHead = node.dag.finalizedHead dagPeriod = dagHead.slot.sync_committee_period if dagHead.slot < node.dag.cfg.ALTAIR_FORK_EPOCH.start_slot: return let lcHeader = node.lightClient.finalizedHeader withForkyHeader(lcHeader): when lcDataFork > LightClientDataFork.None: if dagPeriod <= forkyHeader.beacon.slot.sync_committee_period: return let bdata = node.dag.getForkedBlock(dagHead.blck.bid).valueOr: return var header {.noinit.}: ForkedLightClientHeader withBlck(bdata): const lcDataFork = lcDataForkAtConsensusFork(consensusFork) when lcDataFork > LightClientDataFork.None: header = ForkedLightClientHeader.init( forkyBlck.toLightClientHeader(lcDataFork)) else: raiseAssert "Unreachable" let current_sync_committee = block: let tmpState = assignClone(node.dag.headState) node.dag.currentSyncCommitteeForPeriod(tmpState[], dagPeriod).valueOr: return node.lightClient.resetToFinalizedHeader(header, current_sync_committee)