nimbus-eth2/research/block_sim.nim

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# beacon_chain
# Copyright (c) 2019-2022 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.
# `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
math, stats, times, strformat,
tables, options, random, tables, os,
confutils, chronicles, eth/db/kvstore_sqlite3,
chronos/timer, eth/keys, taskpools,
../tests/testblockutil,
../beacon_chain/spec/[
beaconstate, forks, helpers, signatures, state_transition],
../beacon_chain/spec/datatypes/[phase0, altair, bellatrix],
../beacon_chain/[beacon_chain_db, beacon_clock],
../beacon_chain/eth1/eth1_monitor,
../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
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)
# 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, depositContractSnapshot) = loadGenesis(validators, false)
genesisBlock = get_initial_beacon_block(genesisState[])
genesisTime = float getStateField(genesisState[], genesis_time)
var
cfg = defaultRuntimeConfig
Implement split preset/config support (#2710) * Implement split preset/config support This is the initial bulk refactor to introduce runtime config values in a number of places, somewhat replacing the existing mechanism of loading network metadata. It still needs more work, this is the initial refactor that introduces runtime configuration in some of the places that need it. The PR changes the way presets and constants work, to match the spec. In particular, a "preset" now refers to the compile-time configuration while a "cfg" or "RuntimeConfig" is the dynamic part. A single binary can support either mainnet or minimal, but not both. Support for other presets has been removed completely (can be readded, in case there's need). There's a number of outstanding tasks: * `SECONDS_PER_SLOT` still needs fixing * loading custom runtime configs needs redoing * checking constants against YAML file * yeerongpilly support `build/nimbus_beacon_node --network=yeerongpilly --discv5:no --log-level=DEBUG` * load fork epoch from config * fix fork digest sent in status * nicer error string for request failures * fix tools * one more * fixup * fixup * fixup * use "standard" network definition folder in local testnet Files are loaded from their standard locations, including genesis etc, to conform to the format used in the `eth2-networks` repo. * fix launch scripts, allow unknown config values * fix base config of rest test * cleanups * bundle mainnet config using common loader * fix spec links and names * only include supported preset in binary * drop yeerongpilly, add altair-devnet-0, support boot_enr.yaml
2021-07-12 13:01:38 +00:00
cfg.ALTAIR_FORK_EPOCH = 32.Slot.epoch
cfg.BELLATRIX_FORK_EPOCH = 96.Slot.epoch
echo "Starting simulation..."
let db = BeaconChainDB.new("block_sim_db")
defer: db.close()
ChainDAGRef.preInit(db, genesisState[], genesisState[], genesisBlock)
putInitialDepositContractSnapshot(db, depositContractSnapshot)
var
validatorMonitor = newClone(ValidatorMonitor.init())
dag = ChainDAGRef.init(cfg, db, validatorMonitor, {})
eth1Chain = Eth1Chain.init(cfg, db)
merkleizer = DepositsMerkleizer.init(depositContractSnapshot.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, 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)
Prune `BlockRef` on finalization (#3513) Up til now, the block dag has been using `BlockRef`, a structure adapted for a full DAG, to represent all of chain history. This is a correct and simple design, but does not exploit the linearity of the chain once parts of it finalize. By pruning the in-memory `BlockRef` structure at finalization, we save, at the time of writing, a cool ~250mb (or 25%:ish) chunk of memory landing us at a steady state of ~750mb normal memory usage for a validating node. Above all though, we prevent memory usage from growing proportionally with the length of the chain, something that would not be sustainable over time - instead, the steady state memory usage is roughly determined by the validator set size which grows much more slowly. With these changes, the core should remain sustainable memory-wise post-merge all the way to withdrawals (when the validator set is expected to grow). In-memory indices are still used for the "hot" unfinalized portion of the chain - this ensure that consensus performance remains unchanged. What changes is that for historical access, we use a db-based linear slot index which is cache-and-disk-friendly, keeping the cost for accessing historical data at a similar level as before, achieving the savings at no percievable cost to functionality or performance. A nice collateral benefit is the almost-instant startup since we no longer load any large indicies at dag init. The cost of this functionality instead can be found in the complexity of having to deal with two ways of traversing the chain - by `BlockRef` and by slot. * use `BlockId` instead of `BlockRef` where finalized / historical data may be required * simplify clearance pre-advancement * remove dag.finalizedBlocks (~50:ish mb) * remove `getBlockAtSlot` - use `getBlockIdAtSlot` instead * `parent` and `atSlot` for `BlockId` now require a `ChainDAGRef` instance, unlike `BlockRef` traversal * prune `BlockRef` parents on finality (~200:ish mb) * speed up ChainDAG init by not loading finalized history index * mess up light client server error handling - this need revisiting :)
2022-03-17 17:42:56 +00:00
dag.withUpdatedState(tmpState[], attestationHead.toBlockSlotId.expect("not nil")) do:
let
fork = getStateField(state, fork)
genesis_validators_root = getStateField(state, genesis_validators_root)
committees_per_slot =
get_committee_count_per_slot(state, slot.epoch, cache)
for committee_index in get_committee_indices(committees_per_slot):
let committee = get_beacon_committee(
state, slot, committee_index, cache)
for index_in_committee, validator_index in committee:
if rand(r, 1.0) <= attesterRatio:
let
data = makeAttestationData(
Prune `BlockRef` on finalization (#3513) Up til now, the block dag has been using `BlockRef`, a structure adapted for a full DAG, to represent all of chain history. This is a correct and simple design, but does not exploit the linearity of the chain once parts of it finalize. By pruning the in-memory `BlockRef` structure at finalization, we save, at the time of writing, a cool ~250mb (or 25%:ish) chunk of memory landing us at a steady state of ~750mb normal memory usage for a validating node. Above all though, we prevent memory usage from growing proportionally with the length of the chain, something that would not be sustainable over time - instead, the steady state memory usage is roughly determined by the validator set size which grows much more slowly. With these changes, the core should remain sustainable memory-wise post-merge all the way to withdrawals (when the validator set is expected to grow). In-memory indices are still used for the "hot" unfinalized portion of the chain - this ensure that consensus performance remains unchanged. What changes is that for historical access, we use a db-based linear slot index which is cache-and-disk-friendly, keeping the cost for accessing historical data at a similar level as before, achieving the savings at no percievable cost to functionality or performance. A nice collateral benefit is the almost-instant startup since we no longer load any large indicies at dag init. The cost of this functionality instead can be found in the complexity of having to deal with two ways of traversing the chain - by `BlockRef` and by slot. * use `BlockId` instead of `BlockRef` where finalized / historical data may be required * simplify clearance pre-advancement * remove dag.finalizedBlocks (~50:ish mb) * remove `getBlockAtSlot` - use `getBlockIdAtSlot` instead * `parent` and `atSlot` for `BlockId` now require a `ChainDAGRef` instance, unlike `BlockRef` traversal * prune `BlockRef` parents on finality (~200:ish mb) * speed up ChainDAG init by not loading finalized history index * mess up light client server error handling - this need revisiting :)
2022-03-17 17:42:56 +00:00
state, 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
Speed up altair block processing 2x (#3115) * Speed up altair block processing >2x Like #3089, this PR drastially speeds up historical REST queries and other long state replays. * cache sync committee validator indices * use ~80mb less memory for validator pubkey mappings * batch-verify sync aggregate signature (fixes #2985) * document sync committee hack with head block vs sync message block * add batch signature verification failure tests Before: ``` ../env.sh nim c -d:release -r ncli_db --db:mainnet_0/db bench --start-slot:-1000 All time are ms Average, StdDev, Min, Max, Samples, Test Validation is turned off meaning that no BLS operations are performed 5830.675, 0.000, 5830.675, 5830.675, 1, Initialize DB 0.481, 1.878, 0.215, 59.167, 981, Load block from database 8422.566, 0.000, 8422.566, 8422.566, 1, Load state from database 6.996, 1.678, 0.042, 14.385, 969, Advance slot, non-epoch 93.217, 8.318, 84.192, 122.209, 32, Advance slot, epoch 20.513, 23.665, 11.510, 201.561, 981, Apply block, no slot processing 0.000, 0.000, 0.000, 0.000, 0, Database load 0.000, 0.000, 0.000, 0.000, 0, Database store ``` After: ``` 7081.422, 0.000, 7081.422, 7081.422, 1, Initialize DB 0.553, 2.122, 0.175, 66.692, 981, Load block from database 5439.446, 0.000, 5439.446, 5439.446, 1, Load state from database 6.829, 1.575, 0.043, 12.156, 969, Advance slot, non-epoch 94.716, 2.749, 88.395, 100.026, 32, Advance slot, epoch 11.636, 23.766, 4.889, 205.250, 981, Apply block, no slot processing 0.000, 0.000, 0.000, 0.000, 0, Database load 0.000, 0.000, 0.000, 0.000, 0, Database store ``` * add comment
2021-11-24 12:43:50 +00:00
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:
Speed up altair block processing 2x (#3115) * Speed up altair block processing >2x Like #3089, this PR drastially speeds up historical REST queries and other long state replays. * cache sync committee validator indices * use ~80mb less memory for validator pubkey mappings * batch-verify sync aggregate signature (fixes #2985) * document sync committee hack with head block vs sync message block * add batch signature verification failure tests Before: ``` ../env.sh nim c -d:release -r ncli_db --db:mainnet_0/db bench --start-slot:-1000 All time are ms Average, StdDev, Min, Max, Samples, Test Validation is turned off meaning that no BLS operations are performed 5830.675, 0.000, 5830.675, 5830.675, 1, Initialize DB 0.481, 1.878, 0.215, 59.167, 981, Load block from database 8422.566, 0.000, 8422.566, 8422.566, 1, Load state from database 6.996, 1.678, 0.042, 14.385, 969, Advance slot, non-epoch 93.217, 8.318, 84.192, 122.209, 32, Advance slot, epoch 20.513, 23.665, 11.510, 201.561, 981, Apply block, no slot processing 0.000, 0.000, 0.000, 0.000, 0, Database load 0.000, 0.000, 0.000, 0.000, 0, Database store ``` After: ``` 7081.422, 0.000, 7081.422, 7081.422, 1, Initialize DB 0.553, 2.122, 0.175, 66.692, 981, Load block from database 5439.446, 0.000, 5439.446, 5439.446, 1, Load state from database 6.829, 1.575, 0.043, 12.156, 969, Advance slot, non-epoch 94.716, 2.749, 88.395, 100.026, 32, Advance slot, epoch 11.636, 23.766, 4.889, 205.250, 981, Apply block, no slot processing 0.000, 0.000, 0.000, 0.000, 0, Database load 0.000, 0.000, 0.000, 0.000, 0, Database store ``` * add comment
2021-11-24 12:43:50 +00:00
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)
doAssert res.isOk
discard syncCommitteePool[].addContribution(
signedContributionAndProof, res.get()[0])
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:
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
else:
static: doAssert false
message = makeBeaconBlock(
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,
BeaconBlockExits(),
sync_aggregate,
default(ExecutionPayload),
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
proc proposePhase0Block(slot: Slot) =
if rand(r, 1.0) > blockRatio:
return
Prune `BlockRef` on finalization (#3513) Up til now, the block dag has been using `BlockRef`, a structure adapted for a full DAG, to represent all of chain history. This is a correct and simple design, but does not exploit the linearity of the chain once parts of it finalize. By pruning the in-memory `BlockRef` structure at finalization, we save, at the time of writing, a cool ~250mb (or 25%:ish) chunk of memory landing us at a steady state of ~750mb normal memory usage for a validating node. Above all though, we prevent memory usage from growing proportionally with the length of the chain, something that would not be sustainable over time - instead, the steady state memory usage is roughly determined by the validator set size which grows much more slowly. With these changes, the core should remain sustainable memory-wise post-merge all the way to withdrawals (when the validator set is expected to grow). In-memory indices are still used for the "hot" unfinalized portion of the chain - this ensure that consensus performance remains unchanged. What changes is that for historical access, we use a db-based linear slot index which is cache-and-disk-friendly, keeping the cost for accessing historical data at a similar level as before, achieving the savings at no percievable cost to functionality or performance. A nice collateral benefit is the almost-instant startup since we no longer load any large indicies at dag init. The cost of this functionality instead can be found in the complexity of having to deal with two ways of traversing the chain - by `BlockRef` and by slot. * use `BlockId` instead of `BlockRef` where finalized / historical data may be required * simplify clearance pre-advancement * remove dag.finalizedBlocks (~50:ish mb) * remove `getBlockAtSlot` - use `getBlockIdAtSlot` instead * `parent` and `atSlot` for `BlockId` now require a `ChainDAGRef` instance, unlike `BlockRef` traversal * prune `BlockRef` parents on finality (~200:ish mb) * speed up ChainDAG init by not loading finalized history index * mess up light client server error handling - this need revisiting :)
2022-03-17 17:42:56 +00:00
dag.withUpdatedState(tmpState[], dag.getBlockIdAtSlot(slot).expect("block")) do:
let
newBlock = getNewBlock[phase0.SignedBeaconBlock](state, 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
Prune `BlockRef` on finalization (#3513) Up til now, the block dag has been using `BlockRef`, a structure adapted for a full DAG, to represent all of chain history. This is a correct and simple design, but does not exploit the linearity of the chain once parts of it finalize. By pruning the in-memory `BlockRef` structure at finalization, we save, at the time of writing, a cool ~250mb (or 25%:ish) chunk of memory landing us at a steady state of ~750mb normal memory usage for a validating node. Above all though, we prevent memory usage from growing proportionally with the length of the chain, something that would not be sustainable over time - instead, the steady state memory usage is roughly determined by the validator set size which grows much more slowly. With these changes, the core should remain sustainable memory-wise post-merge all the way to withdrawals (when the validator set is expected to grow). In-memory indices are still used for the "hot" unfinalized portion of the chain - this ensure that consensus performance remains unchanged. What changes is that for historical access, we use a db-based linear slot index which is cache-and-disk-friendly, keeping the cost for accessing historical data at a similar level as before, achieving the savings at no percievable cost to functionality or performance. A nice collateral benefit is the almost-instant startup since we no longer load any large indicies at dag init. The cost of this functionality instead can be found in the complexity of having to deal with two ways of traversing the chain - by `BlockRef` and by slot. * use `BlockId` instead of `BlockRef` where finalized / historical data may be required * simplify clearance pre-advancement * remove dag.finalizedBlocks (~50:ish mb) * remove `getBlockAtSlot` - use `getBlockIdAtSlot` instead * `parent` and `atSlot` for `BlockId` now require a `ChainDAGRef` instance, unlike `BlockRef` traversal * prune `BlockRef` parents on finality (~200:ish mb) * speed up ChainDAG init by not loading finalized history index * mess up light client server error handling - this need revisiting :)
2022-03-17 17:42:56 +00:00
dag.withUpdatedState(tmpState[], dag.getBlockIdAtSlot(slot).expect("block")) do:
let
newBlock = getNewBlock[altair.SignedBeaconBlock](state, 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
Prune `BlockRef` on finalization (#3513) Up til now, the block dag has been using `BlockRef`, a structure adapted for a full DAG, to represent all of chain history. This is a correct and simple design, but does not exploit the linearity of the chain once parts of it finalize. By pruning the in-memory `BlockRef` structure at finalization, we save, at the time of writing, a cool ~250mb (or 25%:ish) chunk of memory landing us at a steady state of ~750mb normal memory usage for a validating node. Above all though, we prevent memory usage from growing proportionally with the length of the chain, something that would not be sustainable over time - instead, the steady state memory usage is roughly determined by the validator set size which grows much more slowly. With these changes, the core should remain sustainable memory-wise post-merge all the way to withdrawals (when the validator set is expected to grow). In-memory indices are still used for the "hot" unfinalized portion of the chain - this ensure that consensus performance remains unchanged. What changes is that for historical access, we use a db-based linear slot index which is cache-and-disk-friendly, keeping the cost for accessing historical data at a similar level as before, achieving the savings at no percievable cost to functionality or performance. A nice collateral benefit is the almost-instant startup since we no longer load any large indicies at dag init. The cost of this functionality instead can be found in the complexity of having to deal with two ways of traversing the chain - by `BlockRef` and by slot. * use `BlockId` instead of `BlockRef` where finalized / historical data may be required * simplify clearance pre-advancement * remove dag.finalizedBlocks (~50:ish mb) * remove `getBlockAtSlot` - use `getBlockIdAtSlot` instead * `parent` and `atSlot` for `BlockId` now require a `ChainDAGRef` instance, unlike `BlockRef` traversal * prune `BlockRef` parents on finality (~200:ish mb) * speed up ChainDAG init by not loading finalized history index * mess up light client server error handling - this need revisiting :)
2022-03-17 17:42:56 +00:00
dag.withUpdatedState(tmpState[], dag.getBlockIdAtSlot(slot).expect("block")) do:
let
newBlock = getNewBlock[bellatrix.SignedBeaconBlock](state, 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"
var
lastEth1BlockAt = genesisTime
eth1BlockNum = 1000
for i in 0..<slots:
let
slot = Slot(i + 1)
t =
if slot.is_epoch: tEpoch
else: tBlock
now = genesisTime + float(slot * SECONDS_PER_SLOT)
while true:
let nextBlockTime = lastEth1BlockAt +
Implement split preset/config support (#2710) * Implement split preset/config support This is the initial bulk refactor to introduce runtime config values in a number of places, somewhat replacing the existing mechanism of loading network metadata. It still needs more work, this is the initial refactor that introduces runtime configuration in some of the places that need it. The PR changes the way presets and constants work, to match the spec. In particular, a "preset" now refers to the compile-time configuration while a "cfg" or "RuntimeConfig" is the dynamic part. A single binary can support either mainnet or minimal, but not both. Support for other presets has been removed completely (can be readded, in case there's need). There's a number of outstanding tasks: * `SECONDS_PER_SLOT` still needs fixing * loading custom runtime configs needs redoing * checking constants against YAML file * yeerongpilly support `build/nimbus_beacon_node --network=yeerongpilly --discv5:no --log-level=DEBUG` * load fork epoch from config * fix fork digest sent in status * nicer error string for request failures * fix tools * one more * fixup * fixup * fixup * use "standard" network definition folder in local testnet Files are loaded from their standard locations, including genesis etc, to conform to the format used in the `eth2-networks` repo. * fix launch scripts, allow unknown config values * fix base config of rest test * cleanups * bundle mainnet config using common loader * fix spec links and names * only include supported preset in binary * drop yeerongpilly, add altair-devnet-0, support boot_enr.yaml
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max(1.0, gauss(r, float defaultRuntimeConfig.SECONDS_PER_ETH1_BLOCK, 3.0))
if nextBlockTime > 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
2022-04-14 15:39:37 +00:00
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.stateForkAtEpoch(slot.epoch)
of BeaconStateFork.Bellatrix: proposeBellatrixBlock(slot)
of BeaconStateFork.Altair: proposeAltairBlock(slot)
of BeaconStateFork.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(
Prune `BlockRef` on finalization (#3513) Up til now, the block dag has been using `BlockRef`, a structure adapted for a full DAG, to represent all of chain history. This is a correct and simple design, but does not exploit the linearity of the chain once parts of it finalize. By pruning the in-memory `BlockRef` structure at finalization, we save, at the time of writing, a cool ~250mb (or 25%:ish) chunk of memory landing us at a steady state of ~750mb normal memory usage for a validating node. Above all though, we prevent memory usage from growing proportionally with the length of the chain, something that would not be sustainable over time - instead, the steady state memory usage is roughly determined by the validator set size which grows much more slowly. With these changes, the core should remain sustainable memory-wise post-merge all the way to withdrawals (when the validator set is expected to grow). In-memory indices are still used for the "hot" unfinalized portion of the chain - this ensure that consensus performance remains unchanged. What changes is that for historical access, we use a db-based linear slot index which is cache-and-disk-friendly, keeping the cost for accessing historical data at a similar level as before, achieving the savings at no percievable cost to functionality or performance. A nice collateral benefit is the almost-instant startup since we no longer load any large indicies at dag init. The cost of this functionality instead can be found in the complexity of having to deal with two ways of traversing the chain - by `BlockRef` and by slot. * use `BlockId` instead of `BlockRef` where finalized / historical data may be required * simplify clearance pre-advancement * remove dag.finalizedBlocks (~50:ish mb) * remove `getBlockAtSlot` - use `getBlockIdAtSlot` instead * `parent` and `atSlot` for `BlockId` now require a `ChainDAGRef` instance, unlike `BlockRef` traversal * prune `BlockRef` parents on finality (~200:ish mb) * speed up ChainDAG init by not loading finalized history index * mess up light client server error handling - this need revisiting :)
2022-03-17 17:42:56 +00:00
replayState[], dag.getBlockIdAtSlot(Slot(slots)).expect("block"),
false, cache)
echo "Done!"
printTimers(dag.headState, attesters, true, timers)