nimbus-eth2/research/state_sim.nim

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# beacon_chain
# Copyright (c) 2019-2021 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.
# `state_sim` runs the state transition function in isolation, creating blocks
# and attesting to them as if the network was running as a whole.
import
confutils, stats, times,
strformat,
options, sequtils, random, tables,
../tests/testblockutil,
../beacon_chain/spec/[beaconstate, crypto, datatypes, digest, helpers, validator],
../beacon_chain/extras,
../beacon_chain/ssz/[merkleization, ssz_serialization],
./simutils
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type Timers = enum
tBlock = "Process non-epoch slot with block"
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tEpoch = "Process epoch slot with block"
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tHashBlock = "Tree-hash block"
tShuffle = "Retrieve committee once using get_beacon_committee"
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tAttest = "Combine committee attestations"
proc jsonName(prefix, slot: auto): string =
fmt"{prefix:04}-{shortLog(slot):08}.json"
proc writeJson*(fn, v: auto) =
var f: File
defer: close(f)
Json.saveFile(fn, v, pretty = true)
cli do(slots = SLOTS_PER_EPOCH * 5,
validators = SLOTS_PER_EPOCH * 400, # One per shard is minimum
json_interval = SLOTS_PER_EPOCH,
write_last_json = false,
prefix: int = 0,
attesterRatio {.desc: "ratio of validators that attest in each round"} = 0.82,
validate = true):
let
flags = if validate: {} else: {skipBlsValidation}
(state, _) = loadGenesis(validators, validate)
genesisBlock = get_initial_beacon_block(state.data)
echo "Starting simulation..."
var
attestations = initTable[Slot, seq[Attestation]]()
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latest_block_root = hash_tree_root(genesisBlock.message)
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timers: array[Timers, RunningStat]
attesters: RunningStat
r = initRand(1)
signedBlock: SignedBeaconBlock
cache = StateCache()
proc maybeWrite(last: bool) =
if write_last_json:
if state[].data.slot mod json_interval.uint64 == 0:
write(stdout, ":")
else:
write(stdout, ".")
if last:
writeJson("state.json", state[])
else:
if state[].data.slot mod json_interval.uint64 == 0:
writeJson(jsonName(prefix, state[].data.slot), state[].data)
write(stdout, ":")
else:
write(stdout, ".")
# TODO doAssert against this up-front
# indexed attestation: validator index beyond max validators per committee
# len(indices) <= MAX_VALIDATORS_PER_COMMITTEE
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for i in 0..<slots:
maybeWrite(false)
verifyConsensus(state[].data, attesterRatio)
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let
attestations_idx = state[].data.slot
blockAttestations = attestations.getOrDefault(attestations_idx)
attestations.del attestations_idx
doAssert attestations.lenu64 <=
SLOTS_PER_EPOCH + MIN_ATTESTATION_INCLUSION_DELAY
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let t =
if (state[].data.slot > GENESIS_SLOT and
(state[].data.slot + 1).isEpoch): tEpoch
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else: tBlock
withTimer(timers[t]):
signedBlock = addTestBlock(
state[], latest_block_root, cache, attestations = blockAttestations,
flags = flags)
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latest_block_root = withTimerRet(timers[tHashBlock]):
hash_tree_root(signedBlock.message)
signedBlock.root = latest_block_root
if attesterRatio > 0.0:
# attesterRatio is the fraction of attesters that actually do their
# work for every slot - we'll randomize it deterministically to give
# some variation
let
target_slot = state[].data.slot + MIN_ATTESTATION_INCLUSION_DELAY - 1
committees_per_slot =
get_committee_count_per_slot(state[].data, target_slot.epoch, cache)
let
scass = withTimerRet(timers[tShuffle]):
mapIt(
0 ..< committees_per_slot.int,
get_beacon_committee(state[].data, target_slot, it.CommitteeIndex, cache))
for i, scas in scass:
var
attestation: Attestation
first = true
attesters.push scas.len()
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withTimer(timers[tAttest]):
var agg {.noInit.}: AggregateSignature
for v in scas:
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if (rand(r, high(int)).float * attesterRatio).int <= high(int):
if first:
attestation =
makeAttestation(state[].data, latest_block_root, scas, target_slot,
i.CommitteeIndex, v, cache, flags)
agg.init(attestation.signature.load.get())
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first = false
else:
let att2 =
makeAttestation(state[].data, latest_block_root, scas, target_slot,
i.CommitteeIndex, v, cache, flags)
if not att2.aggregation_bits.overlaps(attestation.aggregation_bits):
Revamp attestation pool This is a revamp of the attestation pool that cleans up several aspects of attestation processing as the network grows larger and block space becomes more precious. The aim is to better exploit the divide between attestation subnets and aggregations by keeping the two kinds separate until it's time to either produce a block or aggregate. This means we're no longer eagerly combining single-vote attestations, but rather wait until the last moment, and then try to add singles to all aggregates, including those coming from the network. Importantly, the branch improves on poor aggregate quality and poor attestation packing in cases where block space is running out. A basic greed scoring mechanism is used to select attestations for blocks - attestations are added based on how much many new votes they bring to the table. * Collect single-vote attestations separately and store these until it's time to make aggregates * Create aggregates based on single-vote attestations * Select _best_ aggregate rather than _first_ aggregate when on aggregation duty * Top up all aggregates with singles when it's time make the attestation cut, thus improving the chances of grabbing the best aggregates out there * Improve aggregation test coverage * Improve bitseq operations * Simplify aggregate signature creation * Make attestation cache temporary instead of storing it in attestation pool - most of the time, blocks are not being produced, no need to keep the data around * Remove redundant aggregate storage that was used only for RPC * Use tables to avoid some linear seeks when looking up attestation data * Fix long cleanup on large slot jumps * Avoid some pointers * Speed up iterating all attestations for a slot (fixes #2490)
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attestation.aggregation_bits.incl(att2.aggregation_bits)
if skipBlsValidation notin flags:
agg.aggregate(att2.signature.load.get())
attestation.signature = agg.finish().toValidatorSig()
if not first:
# add the attestation if any of the validators attested, as given
# by the randomness. We have to delay when the attestation is
# actually added to the block per the attestation delay rule!
let target_slot =
attestation.data.slot + MIN_ATTESTATION_INCLUSION_DELAY - 1
doAssert target_slot > attestations_idx
var target_slot_attestations =
getOrDefault(attestations, target_slot)
target_slot_attestations.add attestation
attestations[target_slot] = target_slot_attestations
flushFile(stdout)
if (state[].data.slot).isEpoch:
echo &" slot: {shortLog(state[].data.slot)} ",
&"epoch: {shortLog(state[].data.get_current_epoch())}"
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maybeWrite(true) # catch that last state as well..
echo "Done!"
printTimers(state[].data, attesters, validate, timers)