# 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: [].} {.used.} import # Status libraries chronos, # Beacon chain internals ../beacon_chain/consensus_object_pools/ [block_clearance, block_quarantine, blockchain_dag], ../beacon_chain/gossip_processing/light_client_processor, ../beacon_chain/spec/[beacon_time, light_client_sync, state_transition], # Test utilities ./testutil, ./testdbutil from ./testbcutil import addHeadBlock suite "Light client processor" & preset(): const # Test config, should be long enough to cover interesting transitions lowPeriod = 0.SyncCommitteePeriod lastPeriodWithSupermajority = 4.SyncCommitteePeriod highPeriod = 6.SyncCommitteePeriod let cfg = block: # Fork schedule so that each `LightClientDataFork` is covered static: doAssert ConsensusFork.high == ConsensusFork.Electra var res = defaultRuntimeConfig res.ALTAIR_FORK_EPOCH = 1.Epoch res.BELLATRIX_FORK_EPOCH = 2.Epoch res.CAPELLA_FORK_EPOCH = (EPOCHS_PER_SYNC_COMMITTEE_PERIOD * 1).Epoch res.DENEB_FORK_EPOCH = (EPOCHS_PER_SYNC_COMMITTEE_PERIOD * 2).Epoch res.ELECTRA_FORK_EPOCH = (EPOCHS_PER_SYNC_COMMITTEE_PERIOD * 3).Epoch res const numValidators = SLOTS_PER_EPOCH let validatorMonitor = newClone(ValidatorMonitor.init()) dag = ChainDAGRef.init( cfg, makeTestDB(numValidators, cfg = cfg), validatorMonitor, {}, lcDataConfig = LightClientDataConfig( serve: true, importMode: LightClientDataImportMode.OnlyNew)) quarantine = newClone(Quarantine.init()) rng = HmacDrbgContext.new() taskpool = Taskpool.new() var verifier =BatchVerifier.init(rng, taskpool) var cache: StateCache proc addBlocks(blocks: uint64, syncCommitteeRatio: float) = for blck in makeTestBlocks( dag.headState, cache, blocks.int, attested = true, syncCommitteeRatio = syncCommitteeRatio, cfg = cfg): let added = withBlck(blck): const nilCallback = (consensusFork.OnBlockAddedCallback)(nil) dag.addHeadBlock(verifier, forkyBlck, nilCallback) doAssert added.isOk() dag.updateHead(added[], quarantine[], []) addBlocks(SLOTS_PER_EPOCH, 0.82) let genesis_validators_root = dag.genesis_validators_root trustedBlockRoot = dag.head.root proc getTrustedBlockRoot(): Option[Eth2Digest] = some trustedBlockRoot for period in lowPeriod .. highPeriod: const numFilledEpochsPerPeriod = 3 let slot = ((period + 1).start_epoch - numFilledEpochsPerPeriod).start_slot var info: ForkedEpochInfo doAssert process_slots(cfg, dag.headState, slot, cache, info, flags = {}).isOk() let syncCommitteeRatio = if period > lastPeriodWithSupermajority: 0.62 else: 0.82 addBlocks(numFilledEpochsPerPeriod * SLOTS_PER_EPOCH, syncCommitteeRatio) for finalizationMode in LightClientFinalizationMode: let testNameSuffix = " (" & $finalizationMode & ")" & preset() setup: var time = chronos.seconds(0) proc getBeaconTime(): BeaconTime = BeaconTime(ns_since_genesis: time.nanoseconds) func setTimeToSlot(slot: Slot) = time = chronos.seconds((slot * SECONDS_PER_SLOT).int64) var numOnStoreInitializedCalls = 0 func onStoreInitialized() = inc numOnStoreInitializedCalls let store = (ref ForkedLightClientStore)() var processor = LightClientProcessor.new( false, "", "", cfg, genesis_validators_root, finalizationMode, store, getBeaconTime, getTrustedBlockRoot, onStoreInitialized) res: Result[bool, VerifierError] test "Sync" & testNameSuffix: var bootstrap = dag.getLightClientBootstrap(trustedBlockRoot) check bootstrap.kind > LightClientDataFork.None withForkyBootstrap(bootstrap): when lcDataFork > LightClientDataFork.None: setTimeToSlot(forkyBootstrap.header.beacon.slot) res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), bootstrap) check: res.isOk numOnStoreInitializedCalls == 1 store[].kind > LightClientDataFork.None # Reduce stack size by making this a `proc` proc applyPeriodWithSupermajority(period: SyncCommitteePeriod) = let update = dag.getLightClientUpdateForPeriod(period) check update.kind > LightClientDataFork.None withForkyUpdate(update): when lcDataFork > LightClientDataFork.None: setTimeToSlot(forkyUpdate.signature_slot) res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), update) check update.kind <= store[].kind withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: bootstrap.migrateToDataFork(lcDataFork) template forkyBootstrap: untyped = bootstrap.forky(lcDataFork) let upgraded = update.migratingToDataFork(lcDataFork) template forkyUpdate: untyped = upgraded.forky(lcDataFork) check: res.isOk if forkyUpdate.finalized_header.beacon.slot > forkyBootstrap.header.beacon.slot: forkyStore.finalized_header == forkyUpdate.finalized_header else: forkyStore.finalized_header == forkyBootstrap.header forkyStore.optimistic_header == forkyUpdate.attested_header for period in lowPeriod .. lastPeriodWithSupermajority: applyPeriodWithSupermajority(period) # Reduce stack size by making this a `proc` proc applyPeriodWithoutSupermajority( period: SyncCommitteePeriod, update: ref ForkedLightClientUpdate) = for i in 0 ..< 2: # Reduce stack size by making this a `proc` proc applyInitial(update: ref ForkedLightClientUpdate) = res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), update[]) check update[].kind <= store[].kind if finalizationMode == LightClientFinalizationMode.Optimistic or period == lastPeriodWithSupermajority + 1: if finalizationMode == LightClientFinalizationMode.Optimistic or i == 0: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: let upgraded = newClone( update[].migratingToDataFork(lcDataFork)) template forkyUpdate: untyped = upgraded[].forky(lcDataFork) check: res.isOk forkyStore.best_valid_update.isSome forkyStore.best_valid_update.get.matches(forkyUpdate) else: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: let upgraded = newClone( update[].migratingToDataFork(lcDataFork)) template forkyUpdate: untyped = upgraded[].forky(lcDataFork) check: res.isErr res.error == VerifierError.Duplicate forkyStore.best_valid_update.isSome forkyStore.best_valid_update.get.matches(forkyUpdate) else: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: let upgraded = newClone( update[].migratingToDataFork(lcDataFork)) template forkyUpdate: untyped = upgraded[].forky(lcDataFork) check: res.isErr res.error == VerifierError.MissingParent forkyStore.best_valid_update.isSome not forkyStore.best_valid_update.get.matches(forkyUpdate) applyInitial(update) # Reduce stack size by making this a `proc` proc applyDuplicate(update: ref ForkedLightClientUpdate) = res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), update[]) check update[].kind <= store[].kind if finalizationMode == LightClientFinalizationMode.Optimistic or period == lastPeriodWithSupermajority + 1: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: let upgraded = newClone( update[].migratingToDataFork(lcDataFork)) template forkyUpdate: untyped = upgraded[].forky(lcDataFork) check: res.isErr res.error == VerifierError.Duplicate forkyStore.best_valid_update.isSome forkyStore.best_valid_update.get.matches(forkyUpdate) else: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: let upgraded = newClone( update[].migratingToDataFork(lcDataFork)) template forkyUpdate: untyped = upgraded[].forky(lcDataFork) check: res.isErr res.error == VerifierError.MissingParent forkyStore.best_valid_update.isSome not forkyStore.best_valid_update.get.matches(forkyUpdate) applyDuplicate(update) time += chronos.minutes(15) for _ in 0 ..< 150: applyDuplicate(update) time += chronos.seconds(5) time += chronos.minutes(15) res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), update[]) check update[].kind <= store[].kind if finalizationMode == LightClientFinalizationMode.Optimistic: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: let upgraded = newClone( update[].migratingToDataFork(lcDataFork)) template forkyUpdate: untyped = upgraded[].forky(lcDataFork) check: res.isErr res.error == VerifierError.Duplicate forkyStore.best_valid_update.isNone if forkyStore.finalized_header == forkyUpdate.attested_header: break check forkyStore.finalized_header == forkyUpdate.finalized_header elif period == lastPeriodWithSupermajority + 1: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: let upgraded = newClone( update[].migratingToDataFork(lcDataFork)) template forkyUpdate: untyped = upgraded[].forky(lcDataFork) check: res.isErr res.error == VerifierError.Duplicate forkyStore.best_valid_update.isSome forkyStore.best_valid_update.get.matches(forkyUpdate) else: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: let upgraded = newClone( update[].migratingToDataFork(lcDataFork)) template forkyUpdate: untyped = upgraded[].forky(lcDataFork) check: res.isErr res.error == VerifierError.MissingParent forkyStore.best_valid_update.isSome not forkyStore.best_valid_update.get.matches(forkyUpdate) for period in lastPeriodWithSupermajority + 1 .. highPeriod: let update = newClone(dag.getLightClientUpdateForPeriod(period)) check update[].kind > LightClientDataFork.None withForkyUpdate(update[]): when lcDataFork > LightClientDataFork.None: setTimeToSlot(forkyUpdate.signature_slot) applyPeriodWithoutSupermajority(period, update) if finalizationMode == LightClientFinalizationMode.Optimistic: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: let upgraded = newClone( update[].migratingToDataFork(lcDataFork)) template forkyUpdate: untyped = upgraded[].forky(lcDataFork) check forkyStore.finalized_header == forkyUpdate.attested_header else: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: let upgraded = newClone( update[].migratingToDataFork(lcDataFork)) template forkyUpdate: untyped = upgraded[].forky(lcDataFork) check forkyStore.finalized_header != forkyUpdate.attested_header var oldFinalized {.noinit.}: ForkedLightClientHeader withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: oldFinalized = ForkedLightClientHeader.init( forkyStore.finalized_header) else: raiseAssert "Unreachable" let finalityUpdate = dag.getLightClientFinalityUpdate() check finalityUpdate.kind > LightClientDataFork.None withForkyFinalityUpdate(finalityUpdate): when lcDataFork > LightClientDataFork.None: setTimeToSlot(forkyFinalityUpdate.signature_slot) res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), finalityUpdate) check finalityUpdate.kind <= store[].kind if res.isOk: withForkyStore(store[]): when lcDataFork > LightClientDataFork.None: oldFinalized.migrateToDataFork(lcDataFork) template forkyOldFinalized: untyped = oldFinalized.forky(lcDataFork) let upgraded = finalityUpdate.migratingToDataFork(lcDataFork) template forkyUpdate: untyped = upgraded.forky(lcDataFork) check: finalizationMode == LightClientFinalizationMode.Optimistic forkyStore.finalized_header == forkyOldFinalized forkyStore.best_valid_update.isSome forkyStore.best_valid_update.get.matches(forkyUpdate) forkyStore.optimistic_header == forkyUpdate.attested_header elif finalizationMode == LightClientFinalizationMode.Optimistic: check res.error == VerifierError.Duplicate else: check res.error == VerifierError.MissingParent check numOnStoreInitializedCalls == 1 test "Invalid bootstrap" & testNameSuffix: var bootstrap = dag.getLightClientBootstrap(trustedBlockRoot) check bootstrap.kind > LightClientDataFork.None withForkyBootstrap(bootstrap): when lcDataFork > LightClientDataFork.None: forkyBootstrap.header.beacon.slot.inc() setTimeToSlot(forkyBootstrap.header.beacon.slot) res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), bootstrap) check: res.isErr res.error == VerifierError.Invalid numOnStoreInitializedCalls == 0 test "Duplicate bootstrap" & testNameSuffix: let bootstrap = dag.getLightClientBootstrap(trustedBlockRoot) check bootstrap.kind > LightClientDataFork.None withForkyBootstrap(bootstrap): when lcDataFork > LightClientDataFork.None: setTimeToSlot(forkyBootstrap.header.beacon.slot) res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), bootstrap) check: res.isOk numOnStoreInitializedCalls == 1 res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), bootstrap) check: res.isErr res.error == VerifierError.Duplicate numOnStoreInitializedCalls == 1 test "Missing bootstrap (update)" & testNameSuffix: let update = dag.getLightClientUpdateForPeriod(lowPeriod) check update.kind > LightClientDataFork.None withForkyUpdate(update): when lcDataFork > LightClientDataFork.None: setTimeToSlot(forkyUpdate.signature_slot) res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), update) check: res.isErr res.error == VerifierError.MissingParent numOnStoreInitializedCalls == 0 test "Missing bootstrap (finality update)" & testNameSuffix: let finalityUpdate = dag.getLightClientFinalityUpdate() check finalityUpdate.kind > LightClientDataFork.None withForkyFinalityUpdate(finalityUpdate): when lcDataFork > LightClientDataFork.None: setTimeToSlot(forkyFinalityUpdate.signature_slot) res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), finalityUpdate) check: res.isErr res.error == VerifierError.MissingParent numOnStoreInitializedCalls == 0 test "Missing bootstrap (optimistic update)" & testNameSuffix: let optimisticUpdate = dag.getLightClientOptimisticUpdate() check optimisticUpdate.kind > LightClientDataFork.None withForkyOptimisticUpdate(optimisticUpdate): when lcDataFork > LightClientDataFork.None: setTimeToSlot(forkyOptimisticUpdate.signature_slot) res = processor[].storeObject( MsgSource.gossip, getBeaconTime(), optimisticUpdate) check: res.isErr res.error == VerifierError.MissingParent numOnStoreInitializedCalls == 0