# beacon_chain # Copyright (c) 2019-2023 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. # `block_sim` is a block and attestation simulator similar to `state_sim` whose # task is to run the beacon chain without considering the network or the # wall clock. Functionally, it achieves the same as the distributed beacon chain # by producing blocks and attestations as if they were created by separate # nodes, just like a set of `beacon_node` instances would. # # Similar to `state_sim`, but uses the block and attestation pools along with # a database, as if a real node was running. import confutils, chronicles, eth/db/kvstore_sqlite3, chronos/timer, eth/keys, taskpools, ../tests/testblockutil, ../beacon_chain/spec/[forks, state_transition], ../beacon_chain/spec/datatypes/[phase0, altair, bellatrix, deneb], ../beacon_chain/[beacon_chain_db, beacon_clock], ../beacon_chain/el/el_manager, ../beacon_chain/validators/validator_pool, ../beacon_chain/gossip_processing/[batch_validation, gossip_validation], ../beacon_chain/consensus_object_pools/[blockchain_dag, block_quarantine, block_clearance, attestation_pool, sync_committee_msg_pool], ./simutils from std/math import E, ln, sqrt from std/random import Rand, initRand, rand from std/stats import RunningStat from std/strformat import `&` from ../beacon_chain/spec/datatypes/capella import SignedBeaconBlock from ../beacon_chain/spec/beaconstate import get_beacon_committee, get_beacon_proposer_index, get_committee_count_per_slot, get_committee_indices type Timers = enum tBlock = "Process non-epoch slot with block" tEpoch = "Process epoch slot with block" tHashBlock = "Tree-hash block" tSignBlock = "Sign block" tAttest = "Have committee attest to block" tSyncCommittees = "Produce sync committee actions" tReplay = "Replay all produced blocks" template seconds(x: uint64): timer.Duration = timer.seconds(int(x)) func gauss(r: var Rand; mu = 0.0; sigma = 1.0): float = # TODO This is present in Nim 1.4 const K = sqrt(2 / E) var a = 0.0 b = 0.0 while true: a = rand(r, 1.0) b = (2.0 * rand(r, 1.0) - 1.0) * K if b * b <= -4.0 * a * a * ln(a): break mu + sigma * (b / a) from ../beacon_chain/spec/state_transition_block import process_block # TODO The rest of nimbus-eth2 uses only the forked version of these, and in # general it's better for the validator_duties caller to use the forkedstate # version, so isolate these here pending refactoring of block_sim to prefer, # when possible, to also use the forked version. It'll be worth keeping some # example of the non-forked version because it enables fork bootstrapping. proc makeSimulationBlock( cfg: RuntimeConfig, state: var phase0.HashedBeaconState, proposer_index: ValidatorIndex, randao_reveal: ValidatorSig, eth1_data: Eth1Data, graffiti: GraffitiBytes, attestations: seq[Attestation], deposits: seq[Deposit], exits: BeaconBlockValidatorChanges, sync_aggregate: SyncAggregate, execution_payload: bellatrix.ExecutionPayloadForSigning, bls_to_execution_changes: SignedBLSToExecutionChangeList, rollback: RollbackHashedProc[phase0.HashedBeaconState], cache: var StateCache, # TODO: # `verificationFlags` is needed only in tests and can be # removed if we don't use invalid signatures there verificationFlags: UpdateFlags = {}): Result[phase0.BeaconBlock, cstring] = ## Create a block for the given state. The latest block applied to it will ## be used for the parent_root value, and the slot will be take from ## state.slot meaning process_slots must be called up to the slot for which ## the block is to be created. # To create a block, we'll first apply a partial block to the state, skipping # some validations. var blck = partialBeaconBlock( cfg, state, proposer_index, randao_reveal, eth1_data, graffiti, attestations, deposits, exits, sync_aggregate, execution_payload) let res = process_block( cfg, state.data, blck.asSigVerified(), verificationFlags, cache) if res.isErr: rollback(state) return err(res.error()) state.root = hash_tree_root(state.data) blck.state_root = state.root ok(blck) proc makeSimulationBlock( cfg: RuntimeConfig, state: var altair.HashedBeaconState, proposer_index: ValidatorIndex, randao_reveal: ValidatorSig, eth1_data: Eth1Data, graffiti: GraffitiBytes, attestations: seq[Attestation], deposits: seq[Deposit], exits: BeaconBlockValidatorChanges, sync_aggregate: SyncAggregate, execution_payload: bellatrix.ExecutionPayloadForSigning, bls_to_execution_changes: SignedBLSToExecutionChangeList, rollback: RollbackHashedProc[altair.HashedBeaconState], cache: var StateCache, # TODO: # `verificationFlags` is needed only in tests and can be # removed if we don't use invalid signatures there verificationFlags: UpdateFlags = {}): Result[altair.BeaconBlock, cstring] = ## Create a block for the given state. The latest block applied to it will ## be used for the parent_root value, and the slot will be take from ## state.slot meaning process_slots must be called up to the slot for which ## the block is to be created. # To create a block, we'll first apply a partial block to the state, skipping # some validations. var blck = partialBeaconBlock( cfg, state, proposer_index, randao_reveal, eth1_data, graffiti, attestations, deposits, exits, sync_aggregate, execution_payload) # Signatures are verified elsewhere, so don't duplicate inefficiently here let res = process_block( cfg, state.data, blck.asSigVerified(), verificationFlags, cache) if res.isErr: rollback(state) return err(res.error()) state.root = hash_tree_root(state.data) blck.state_root = state.root ok(blck) proc makeSimulationBlock( cfg: RuntimeConfig, state: var bellatrix.HashedBeaconState, proposer_index: ValidatorIndex, randao_reveal: ValidatorSig, eth1_data: Eth1Data, graffiti: GraffitiBytes, attestations: seq[Attestation], deposits: seq[Deposit], exits: BeaconBlockValidatorChanges, sync_aggregate: SyncAggregate, execution_payload: bellatrix.ExecutionPayloadForSigning, bls_to_execution_changes: SignedBLSToExecutionChangeList, rollback: RollbackHashedProc[bellatrix.HashedBeaconState], cache: var StateCache, # TODO: # `verificationFlags` is needed only in tests and can be # removed if we don't use invalid signatures there verificationFlags: UpdateFlags = {}): Result[bellatrix.BeaconBlock, cstring] = ## Create a block for the given state. The latest block applied to it will ## be used for the parent_root value, and the slot will be take from ## state.slot meaning process_slots must be called up to the slot for which ## the block is to be created. # To create a block, we'll first apply a partial block to the state, skipping # some validations. var blck = partialBeaconBlock( cfg, state, proposer_index, randao_reveal, eth1_data, graffiti, attestations, deposits, exits, sync_aggregate, execution_payload) let res = process_block( cfg, state.data, blck.asSigVerified(), verificationFlags, cache) if res.isErr: rollback(state) return err(res.error()) state.root = hash_tree_root(state.data) blck.state_root = state.root ok(blck) proc makeSimulationBlock( cfg: RuntimeConfig, state: var capella.HashedBeaconState, proposer_index: ValidatorIndex, randao_reveal: ValidatorSig, eth1_data: Eth1Data, graffiti: GraffitiBytes, attestations: seq[Attestation], deposits: seq[Deposit], exits: BeaconBlockValidatorChanges, sync_aggregate: SyncAggregate, execution_payload: capella.ExecutionPayloadForSigning, bls_to_execution_changes: SignedBLSToExecutionChangeList, rollback: RollbackHashedProc[capella.HashedBeaconState], cache: var StateCache, # TODO: # `verificationFlags` is needed only in tests and can be # removed if we don't use invalid signatures there verificationFlags: UpdateFlags = {}): Result[capella.BeaconBlock, cstring] = ## Create a block for the given state. The latest block applied to it will ## be used for the parent_root value, and the slot will be take from ## state.slot meaning process_slots must be called up to the slot for which ## the block is to be created. # To create a block, we'll first apply a partial block to the state, skipping # some validations. var blck = partialBeaconBlock( cfg, state, proposer_index, randao_reveal, eth1_data, graffiti, attestations, deposits, exits, sync_aggregate, execution_payload) let res = process_block( cfg, state.data, blck.asSigVerified(), verificationFlags, cache) if res.isErr: rollback(state) return err(res.error()) state.root = hash_tree_root(state.data) blck.state_root = state.root ok(blck) proc makeSimulationBlock( cfg: RuntimeConfig, state: var deneb.HashedBeaconState, proposer_index: ValidatorIndex, randao_reveal: ValidatorSig, eth1_data: Eth1Data, graffiti: GraffitiBytes, attestations: seq[Attestation], deposits: seq[Deposit], exits: BeaconBlockValidatorChanges, sync_aggregate: SyncAggregate, execution_payload: deneb.ExecutionPayloadForSigning, bls_to_execution_changes: SignedBLSToExecutionChangeList, rollback: RollbackHashedProc[deneb.HashedBeaconState], cache: var StateCache, # TODO: # `verificationFlags` is needed only in tests and can be # removed if we don't use invalid signatures there verificationFlags: UpdateFlags = {}): Result[deneb.BeaconBlock, cstring] = ## Create a block for the given state. The latest block applied to it will ## be used for the parent_root value, and the slot will be take from ## state.slot meaning process_slots must be called up to the slot for which ## the block is to be created. # To create a block, we'll first apply a partial block to the state, skipping # some validations. var blck = partialBeaconBlock( cfg, state, proposer_index, randao_reveal, eth1_data, graffiti, attestations, deposits, exits, sync_aggregate, execution_payload) let res = process_block( cfg, state.data, blck.asSigVerified(), verificationFlags, cache) if res.isErr: rollback(state) return err(res.error()) state.root = hash_tree_root(state.data) blck.state_root = state.root ok(blck) # TODO confutils is an impenetrable black box. how can a help text be added here? cli do(slots = SLOTS_PER_EPOCH * 6, validators = SLOTS_PER_EPOCH * 400, # One per shard is minimum attesterRatio {.desc: "ratio of validators that attest in each round"} = 0.82, syncCommitteeRatio {.desc: "ratio of validators that perform sync committee actions in each round"} = 0.82, blockRatio {.desc: "ratio of slots with blocks"} = 1.0, replay = true): let (genesisState, depositTreeSnapshot) = loadGenesis(validators, false) genesisTime = float getStateField(genesisState[], genesis_time) var cfg = defaultRuntimeConfig cfg.ALTAIR_FORK_EPOCH = 1.Epoch cfg.BELLATRIX_FORK_EPOCH = 2.Epoch cfg.CAPELLA_FORK_EPOCH = 3.Epoch cfg.DENEB_FORK_EPOCH = 4.Epoch echo "Starting simulation..." let db = BeaconChainDB.new("block_sim_db") defer: db.close() ChainDAGRef.preInit(db, genesisState[]) db.putDepositTreeSnapshot(depositTreeSnapshot) var validatorMonitor = newClone(ValidatorMonitor.init()) dag = ChainDAGRef.init(cfg, db, validatorMonitor, {}) eth1Chain = Eth1Chain.init(cfg, db, 0, default Eth2Digest) merkleizer = DepositsMerkleizer.init(depositTreeSnapshot.depositContractState) taskpool = Taskpool.new() verifier = BatchVerifier(rng: keys.newRng(), taskpool: taskpool) quarantine = newClone(Quarantine.init()) attPool = AttestationPool.init(dag, quarantine) batchCrypto = BatchCrypto.new( keys.newRng(), eager = func(): bool = true, genesis_validators_root = dag.genesis_validators_root, taskpool) syncCommitteePool = newClone SyncCommitteeMsgPool.init(keys.newRng()) timers: array[Timers, RunningStat] attesters: RunningStat r = initRand(1) tmpState = assignClone(dag.headState) eth1Chain.addBlock Eth1Block( number: Eth1BlockNumber 1, timestamp: Eth1BlockTimestamp genesisTime) let replayState = assignClone(dag.headState) proc handleAttestations(slot: Slot) = let attestationHead = dag.head.atSlot(slot) dag.withUpdatedState(tmpState[], attestationHead.toBlockSlotId.expect("not nil")) do: let fork = getStateField(updatedState, fork) genesis_validators_root = getStateField(updatedState, genesis_validators_root) committees_per_slot = get_committee_count_per_slot(updatedState, slot.epoch, cache) for committee_index in get_committee_indices(committees_per_slot): let committee = get_beacon_committee( updatedState, slot, committee_index, cache) for index_in_committee, validator_index in committee: if rand(r, 1.0) <= attesterRatio: let data = makeAttestationData( updatedState, slot, committee_index, bid.root) sig = get_attestation_signature( fork, genesis_validators_root, data, MockPrivKeys[validator_index]) attestation = Attestation.init( [uint64 index_in_committee], committee.len, data, sig.toValidatorSig()).expect("valid data") attPool.addAttestation( attestation, [validator_index], sig, data.slot.start_beacon_time) do: raiseAssert "withUpdatedState failed" proc handleSyncCommitteeActions(slot: Slot) = type Aggregator = object subcommitteeIdx: SyncSubcommitteeIndex validatorIdx: ValidatorIndex selectionProof: ValidatorSig let syncCommittee = @(dag.syncCommitteeParticipants(slot + 1)) genesis_validators_root = dag.genesis_validators_root fork = dag.forkAtEpoch(slot.epoch) messagesTime = slot.attestation_deadline() contributionsTime = slot.sync_contribution_deadline() var aggregators: seq[Aggregator] for subcommitteeIdx in SyncSubcommitteeIndex: for validatorIdx in syncSubcommittee(syncCommittee, subcommitteeIdx): if rand(r, 1.0) > syncCommitteeRatio: continue let validatorPrivKey = MockPrivKeys[validatorIdx] signature = get_sync_committee_message_signature( fork, genesis_validators_root, slot, dag.head.root, validatorPrivKey) msg = SyncCommitteeMessage( slot: slot, beacon_block_root: dag.head.root, validator_index: uint64 validatorIdx, signature: signature.toValidatorSig) let res = waitFor dag.validateSyncCommitteeMessage( batchCrypto, syncCommitteePool, msg, subcommitteeIdx, messagesTime, false) doAssert res.isOk let (positions, cookedSig) = res.get() syncCommitteePool[].addSyncCommitteeMessage( msg.slot, msg.beacon_block_root, msg.validator_index, cookedSig, subcommitteeIdx, positions) let selectionProofSig = get_sync_committee_selection_proof( fork, genesis_validators_root, slot, subcommitteeIdx, validatorPrivKey).toValidatorSig if is_sync_committee_aggregator(selectionProofSig): aggregators.add Aggregator( subcommitteeIdx: subcommitteeIdx, validatorIdx: validatorIdx, selectionProof: selectionProofSig) for aggregator in aggregators: var contribution: SyncCommitteeContribution let contributionWasProduced = syncCommitteePool[].produceContribution( slot, dag.head.root, aggregator.subcommitteeIdx, contribution) if contributionWasProduced: let contributionAndProof = ContributionAndProof( aggregator_index: uint64 aggregator.validatorIdx, contribution: contribution, selection_proof: aggregator.selectionProof) validatorPrivKey = MockPrivKeys[aggregator.validatorIdx.ValidatorIndex] signedContributionAndProof = SignedContributionAndProof( message: contributionAndProof, signature: get_contribution_and_proof_signature( fork, genesis_validators_root, contributionAndProof, validatorPrivKey).toValidatorSig) res = waitFor dag.validateContribution( batchCrypto, syncCommitteePool, signedContributionAndProof, contributionsTime, false) if res.isOk(): syncCommitteePool[].addContribution( signedContributionAndProof, res.get()[0]) else: # We ignore duplicates / already-covered contributions doAssert res.error()[0] == ValidationResult.Ignore proc getNewBlock[T]( state: var ForkedHashedBeaconState, slot: Slot, cache: var StateCache): T = let finalizedEpochRef = dag.getFinalizedEpochRef() proposerIdx = get_beacon_proposer_index( state, cache, getStateField(state, slot)).get() privKey = MockPrivKeys[proposerIdx] eth1ProposalData = eth1Chain.getBlockProposalData( state, finalizedEpochRef.eth1_data, finalizedEpochRef.eth1_deposit_index) sync_aggregate = when T is phase0.SignedBeaconBlock: SyncAggregate.init() elif T is altair.SignedBeaconBlock or T is bellatrix.SignedBeaconBlock or T is capella.SignedBeaconBlock or T is deneb.SignedBeaconBlock: syncCommitteePool[].produceSyncAggregate(dag.head.root) else: static: doAssert false hashedState = when T is phase0.SignedBeaconBlock: addr state.phase0Data elif T is altair.SignedBeaconBlock: addr state.altairData elif T is bellatrix.SignedBeaconBlock: addr state.bellatrixData elif T is capella.SignedBeaconBlock: addr state.capellaData elif T is deneb.SignedBeaconBlock: addr state.denebData else: static: doAssert false message = makeSimulationBlock( cfg, hashedState[], proposerIdx, get_epoch_signature( getStateField(state, fork), getStateField(state, genesis_validators_root), slot.epoch, privKey).toValidatorSig(), eth1ProposalData.vote, default(GraffitiBytes), attPool.getAttestationsForBlock(state, cache), eth1ProposalData.deposits, BeaconBlockValidatorChanges(), sync_aggregate, when T is deneb.SignedBeaconBlock: default(deneb.ExecutionPayloadForSigning) elif T is capella.SignedBeaconBlock: default(capella.ExecutionPayloadForSigning) else: default(bellatrix.ExecutionPayloadForSigning), static(default(SignedBLSToExecutionChangeList)), noRollback, cache) var newBlock = T( message: message.get() ) let blockRoot = withTimerRet(timers[tHashBlock]): hash_tree_root(newBlock.message) newBlock.root = blockRoot # Careful, state no longer valid after here because of the await.. newBlock.signature = withTimerRet(timers[tSignBlock]): get_block_signature( getStateField(state, fork), getStateField(state, genesis_validators_root), newBlock.message.slot, blockRoot, privKey).toValidatorSig() newBlock # TODO when withUpdatedState's state template doesn't conflict with chronos's # HTTP server's state function, combine all proposeForkBlock functions into a # single generic function. Until https://github.com/nim-lang/Nim/issues/20811 # is fixed, that generic function must take `blockRatio` as a parameter. proc proposePhase0Block(slot: Slot) = if rand(r, 1.0) > blockRatio: return dag.withUpdatedState(tmpState[], dag.getBlockIdAtSlot(slot).expect("block")) do: let newBlock = getNewBlock[phase0.SignedBeaconBlock](updatedState, slot, cache) added = dag.addHeadBlock(verifier, newBlock) do ( blckRef: BlockRef, signedBlock: phase0.TrustedSignedBeaconBlock, epochRef: EpochRef, unrealized: FinalityCheckpoints): # Callback add to fork choice if valid attPool.addForkChoice( epochRef, blckRef, unrealized, signedBlock.message, blckRef.slot.start_beacon_time) dag.updateHead(added[], quarantine[], []) if dag.needStateCachesAndForkChoicePruning(): dag.pruneStateCachesDAG() attPool.prune() do: raiseAssert "withUpdatedState failed" proc proposeAltairBlock(slot: Slot) = if rand(r, 1.0) > blockRatio: return dag.withUpdatedState(tmpState[], dag.getBlockIdAtSlot(slot).expect("block")) do: let newBlock = getNewBlock[altair.SignedBeaconBlock](updatedState, slot, cache) added = dag.addHeadBlock(verifier, newBlock) do ( blckRef: BlockRef, signedBlock: altair.TrustedSignedBeaconBlock, epochRef: EpochRef, unrealized: FinalityCheckpoints): # Callback add to fork choice if valid attPool.addForkChoice( epochRef, blckRef, unrealized, signedBlock.message, blckRef.slot.start_beacon_time) dag.updateHead(added[], quarantine[], []) if dag.needStateCachesAndForkChoicePruning(): dag.pruneStateCachesDAG() attPool.prune() do: raiseAssert "withUpdatedState failed" proc proposeBellatrixBlock(slot: Slot) = if rand(r, 1.0) > blockRatio: return dag.withUpdatedState(tmpState[], dag.getBlockIdAtSlot(slot).expect("block")) do: let newBlock = getNewBlock[bellatrix.SignedBeaconBlock](updatedState, slot, cache) added = dag.addHeadBlock(verifier, newBlock) do ( blckRef: BlockRef, signedBlock: bellatrix.TrustedSignedBeaconBlock, epochRef: EpochRef, unrealized: FinalityCheckpoints): # Callback add to fork choice if valid attPool.addForkChoice( epochRef, blckRef, unrealized, signedBlock.message, blckRef.slot.start_beacon_time) dag.updateHead(added[], quarantine[], []) if dag.needStateCachesAndForkChoicePruning(): dag.pruneStateCachesDAG() attPool.prune() do: raiseAssert "withUpdatedState failed" proc proposeCapellaBlock(slot: Slot) = if rand(r, 1.0) > blockRatio: return dag.withUpdatedState(tmpState[], dag.getBlockIdAtSlot(slot).expect("block")) do: let newBlock = getNewBlock[capella.SignedBeaconBlock](updatedState, slot, cache) added = dag.addHeadBlock(verifier, newBlock) do ( blckRef: BlockRef, signedBlock: capella.TrustedSignedBeaconBlock, epochRef: EpochRef, unrealized: FinalityCheckpoints): # Callback add to fork choice if valid attPool.addForkChoice( epochRef, blckRef, unrealized, signedBlock.message, blckRef.slot.start_beacon_time) dag.updateHead(added[], quarantine[], []) if dag.needStateCachesAndForkChoicePruning(): dag.pruneStateCachesDAG() attPool.prune() do: raiseAssert "withUpdatedState failed" proc proposeDenebBlock(slot: Slot) = if rand(r, 1.0) > blockRatio: return dag.withUpdatedState(tmpState[], dag.getBlockIdAtSlot(slot).expect("block")) do: let newBlock = getNewBlock[deneb.SignedBeaconBlock](updatedState, slot, cache) added = dag.addHeadBlock(verifier, newBlock) do ( blckRef: BlockRef, signedBlock: deneb.TrustedSignedBeaconBlock, epochRef: EpochRef, unrealized: FinalityCheckpoints): # Callback add to fork choice if valid attPool.addForkChoice( epochRef, blckRef, unrealized, signedBlock.message, blckRef.slot.start_beacon_time) dag.updateHead(added[], quarantine[], []) if dag.needStateCachesAndForkChoicePruning(): dag.pruneStateCachesDAG() attPool.prune() do: raiseAssert "withUpdatedState failed" var lastEth1BlockAt = genesisTime eth1BlockNum = 1000 for i in 0.. now: break inc eth1BlockNum var eth1Block = Eth1Block( hash: makeFakeHash(eth1BlockNum), number: Eth1BlockNumber eth1BlockNum, timestamp: Eth1BlockTimestamp nextBlockTime) let newDeposits = int clamp(gauss(r, 5.0, 8.0), 0.0, 1000.0) for i in 0 ..< newDeposits: let validatorIdx = merkleizer.getChunkCount.int let d = makeDeposit(validatorIdx, {skipBlsValidation}) eth1Block.deposits.add d merkleizer.addChunk hash_tree_root(d).data eth1Block.depositRoot = merkleizer.getDepositsRoot eth1Block.depositCount = merkleizer.getChunkCount eth1Chain.addBlock eth1Block lastEth1BlockAt = nextBlockTime if blockRatio > 0.0: withTimer(timers[t]): case dag.cfg.consensusForkAtEpoch(slot.epoch) of ConsensusFork.Deneb: proposeDenebBlock(slot) of ConsensusFork.Capella: proposeCapellaBlock(slot) of ConsensusFork.Bellatrix: proposeBellatrixBlock(slot) of ConsensusFork.Altair: proposeAltairBlock(slot) of ConsensusFork.Phase0: proposePhase0Block(slot) if attesterRatio > 0.0: withTimer(timers[tAttest]): handleAttestations(slot) if syncCommitteeRatio > 0.0: withTimer(timers[tSyncCommittees]): handleSyncCommitteeActions(slot) syncCommitteePool[].pruneData(slot) # TODO if attestation pool was smarter, it would include older attestations # too! verifyConsensus(dag.headState, attesterRatio * blockRatio) if t == tEpoch: echo &". slot: {shortLog(slot)} ", &"epoch: {shortLog(slot.epoch)}" else: write(stdout, ".") flushFile(stdout) if replay: withTimer(timers[tReplay]): var cache = StateCache() doAssert dag.updateState( replayState[], dag.getBlockIdAtSlot(Slot(slots)).expect("block"), false, cache) echo "Done!" printTimers(dag.headState, attesters, true, timers)