nimbus-eth2/tests/test_attestation_pool.nim

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# beacon_chain
# Copyright (c) 2018-2024 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 lib
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)
2021-04-12 20:25:09 +00:00
unittest2,
chronicles, chronos,
stew/[byteutils, endians2],
taskpools,
# Internal
../beacon_chain/gossip_processing/[gossip_validation],
../beacon_chain/fork_choice/[fork_choice_types, fork_choice],
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)
2021-04-12 20:25:09 +00:00
../beacon_chain/consensus_object_pools/[
block_quarantine, blockchain_dag, block_clearance, attestation_pool],
../beacon_chain/spec/datatypes/phase0,
../beacon_chain/spec/[beaconstate, helpers, state_transition, validator],
../beacon_chain/beacon_clock,
# Test utilities
./testutil, ./testdbutil, ./testblockutil, ./consensus_spec/fixtures_utils
from std/sequtils import toSeq
from ./testbcutil import addHeadBlock
func combine(tgt: var (phase0.Attestation | electra.Attestation),
src: phase0.Attestation | electra.Attestation) =
## Combine the signature and participation bitfield, with the assumption that
## the same data is being signed - if the signatures overlap, they are not
## combined.
doAssert tgt.data == src.data
# In a BLS aggregate signature, one needs to count how many times a
# particular public key has been added - since we use a single bit per key, we
# can only it once, thus we can never combine signatures that overlap already!
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)
2021-04-12 20:25:09 +00:00
doAssert not tgt.aggregation_bits.overlaps(src.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)
2021-04-12 20:25:09 +00:00
tgt.aggregation_bits.incl(src.aggregation_bits)
var agg {.noinit.}: AggregateSignature
agg.init(tgt.signature.load().get())
agg.aggregate(src.signature.load.get())
tgt.signature = agg.finish().toValidatorSig()
func loadSig(a: phase0.Attestation): CookedSig =
a.signature.load.get()
func loadSig(a: electra.Attestation): CookedSig =
a.signature.load.get()
proc pruneAtFinalization(dag: ChainDAGRef, attPool: AttestationPool) =
if dag.needStateCachesAndForkChoicePruning():
dag.pruneStateCachesDAG()
# pool[].prune() # We test logic without attestation pool / fork choice pruning
suite "Attestation pool processing" & preset():
## For now just test that we can compile and execute block processing with
## mock data.
setup:
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)
2021-04-12 20:25:09 +00:00
# Genesis state that results in 6 members per committee
let rng = HmacDrbgContext.new()
var
validatorMonitor = newClone(ValidatorMonitor.init())
dag = init(
ChainDAGRef, defaultRuntimeConfig, makeTestDB(SLOTS_PER_EPOCH * 6),
validatorMonitor, {})
taskpool = Taskpool.new()
verifier = BatchVerifier.init(rng, taskpool)
quarantine = newClone(Quarantine.init())
pool = newClone(AttestationPool.init(dag, quarantine))
state = newClone(dag.headState)
cache = StateCache()
info = ForkedEpochInfo()
# Slot 0 is a finalized slot - won't be making attestations for it..
2020-05-19 15:46:29 +00:00
check:
process_slots(
dag.cfg, state[], getStateField(state[], slot) + 1, cache, info,
{}).isOk()
test "Attestation from different branch" & preset():
# Create two alternate histories with different shufflings
check process_slots(
dag.cfg, state[], (SLOTS_PER_EPOCH - 2).Slot, cache, info, {}).isOk
var state2 = newClone(state[])
const epoch = 3.Epoch
template fillToEpoch(
state: ref ForkedHashedBeaconState, cache: var StateCache) =
while getStateField(state[], slot).epoch <= epoch:
check process_slots(
dag.cfg, state[], getStateField(state[], slot) + 1, cache, info,
{}).isOk
let
parent_root = withState(state[]): forkyState.latest_block_root
attestations = makeFullAttestations(
state[], parent_root, getStateField(state[], slot), cache)
blck = addTestBlock(
state[], cache, attestations = attestations, cfg = dag.cfg)
check dag.addHeadBlock(
verifier, blck.phase0Data, OnPhase0BlockAdded(nil)).isOk
# History 1 contains all odd blocks
state.fillToEpoch(cache)
# History 2 contains all even blocks
var cache2 = StateCache()
check process_slots(
dag.cfg, state2[], getStateField(state2[], slot) + 1, cache2, info,
{}).isOk
state2.fillToEpoch(cache2)
# The shuffling for epoch 3 among both chains should now be different
let
dependent_root1 = withState(state[]): forkyState.attester_dependent_root
dependent_root2 = withState(state2[]): forkyState.attester_dependent_root
check dependent_root1 != dependent_root2
# Fill pool with attestations from both chains
let
cIndex = 0.CommitteeIndex
att1 = block:
let
slot = getStateField(state[], slot)
parent_root = withState(state[]): forkyState.latest_block_root
committee = get_beacon_committee(state[], slot, cIndex, cache)
makeAttestation(state[], parent_root, committee[0], cache)
att2 = block:
let
slot = getStateField(state2[], slot)
parent_root = withState(state2[]): forkyState.latest_block_root
committee = get_beacon_committee(state2[], slot, cIndex, cache2)
makeAttestation(state2[], parent_root, committee[0], cache2)
maxSlot = max(att1.data.slot, att2.data.slot)
# Advance time so attestations become valid
check:
process_slots(
dag.cfg, state[], maxSlot + MIN_ATTESTATION_INCLUSION_DELAY,
cache, info, {}).isOk
process_slots(
dag.cfg, state2[], maxSlot + MIN_ATTESTATION_INCLUSION_DELAY,
cache2, info, {}).isOk
# They should remain valid only within a compatible state
withState(state[]):
check:
check_attestation(forkyState.data, att1, {}, cache).isOk
check_attestation(forkyState.data, att2, {}, cache).isErr
withState(state2[]):
check:
check_attestation(forkyState.data, att1, {}, cache2).isErr
check_attestation(forkyState.data, att2, {}, cache2).isOk
# If signature checks are skipped, state incompatibility is not detected
let flags = {skipBlsValidation}
withState(state[]):
check:
check_attestation(forkyState.data, att1, flags, cache).isOk
check_attestation(forkyState.data, att2, flags, cache).isOk
withState(state2[]):
check:
check_attestation(forkyState.data, att1, flags, cache2).isOk
check_attestation(forkyState.data, att2, flags, cache2).isOk
# An additional compatibility check catches that (used in block production)
withState(state[]):
check:
check_attestation_compatible(dag, forkyState, att1).isOk
check_attestation_compatible(dag, forkyState, att2).isErr
withState(state2[]):
check:
check_attestation_compatible(dag, forkyState, att1).isErr
check_attestation_compatible(dag, forkyState, att2).isOk
test "Can add and retrieve simple attestations" & preset():
let
# Create an attestation for slot 1!
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)
2021-04-12 20:25:09 +00:00
bc0 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
attestation = makeAttestation(
state[], state[].latest_block_root, bc0[0], cache)
pool[].addAttestation(
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)
2021-04-12 20:25:09 +00:00
attestation, @[bc0[0]], attestation.loadSig,
attestation.data.slot.start_beacon_time)
2020-05-19 15:46:29 +00:00
check:
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)
2021-04-12 20:25:09 +00:00
# Added attestation, should get it back
toSeq(pool[].attestations(Opt.none(Slot), Opt.none(CommitteeIndex))) ==
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)
2021-04-12 20:25:09 +00:00
@[attestation]
toSeq(pool[].attestations(
Opt.some(attestation.data.slot), Opt.none(CommitteeIndex))) ==
@[attestation]
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)
2021-04-12 20:25:09 +00:00
toSeq(pool[].attestations(
Opt.some(attestation.data.slot), Opt.some(attestation.data.index.CommitteeIndex))) ==
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)
2021-04-12 20:25:09 +00:00
@[attestation]
toSeq(pool[].attestations(Opt.none(Slot), Opt.some(attestation.data.index.CommitteeIndex))) ==
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)
2021-04-12 20:25:09 +00:00
@[attestation]
toSeq(pool[].attestations(Opt.some(
attestation.data.slot + 1), Opt.none(CommitteeIndex))) == []
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)
2021-04-12 20:25:09 +00:00
toSeq(pool[].attestations(
Opt.none(Slot), Opt.some(CommitteeIndex(attestation.data.index + 1)))) == []
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)
2021-04-12 20:25:09 +00:00
process_slots(
defaultRuntimeConfig, state[],
getStateField(state[], slot) + MIN_ATTESTATION_INCLUSION_DELAY, cache,
info, {}).isOk()
let attestations = pool[].getAttestationsForBlock(state[], cache)
check:
attestations.len == 1
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)
2021-04-12 20:25:09 +00:00
pool[].getAggregatedAttestation(1.Slot, 0.CommitteeIndex).isSome()
let
root1 = addTestBlock(
state[], cache, attestations = attestations,
nextSlot = false).phase0Data.root
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)
2021-04-12 20:25:09 +00:00
bc1 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
att1 = makeAttestation(state[], root1, bc1[0], cache)
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)
2021-04-12 20:25:09 +00:00
check:
withState(state[]): forkyState.latest_block_root == root1
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)
2021-04-12 20:25:09 +00:00
process_slots(
defaultRuntimeConfig, state[],
getStateField(state[], slot) + MIN_ATTESTATION_INCLUSION_DELAY, cache,
info, {}).isOk()
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)
2021-04-12 20:25:09 +00:00
withState(state[]): forkyState.latest_block_root == root1
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)
2021-04-12 20:25:09 +00:00
check:
# shouldn't include already-included attestations
pool[].getAttestationsForBlock(state[], cache) == []
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)
2021-04-12 20:25:09 +00:00
pool[].addAttestation(
att1, @[bc1[0]], att1.loadSig, att1.data.slot.start_beacon_time)
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)
2021-04-12 20:25:09 +00:00
check:
# but new ones should go in
pool[].getAttestationsForBlock(state[], cache).len() == 1
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)
2021-04-12 20:25:09 +00:00
let
att2 = makeAttestation(state[], root1, bc1[1], cache)
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)
2021-04-12 20:25:09 +00:00
pool[].addAttestation(
att2, @[bc1[1]], att2.loadSig, att2.data.slot.start_beacon_time)
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)
2021-04-12 20:25:09 +00:00
let
combined = pool[].getAttestationsForBlock(state[], cache)
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)
2021-04-12 20:25:09 +00:00
check:
# New attestations should be combined with old attestations
combined.len() == 1
combined[0].aggregation_bits.countOnes() == 2
pool[].addAttestation(
combined[0], @[bc1[1], bc1[0]], combined[0].loadSig,
combined[0].data.slot.start_beacon_time)
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)
2021-04-12 20:25:09 +00:00
check:
# readding the combined attestation shouldn't have an effect
pool[].getAttestationsForBlock(state[], cache).len() == 1
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)
2021-04-12 20:25:09 +00:00
let
# Someone votes for a different root
att3 = makeAttestation(state[], ZERO_HASH, bc1[2], cache)
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)
2021-04-12 20:25:09 +00:00
pool[].addAttestation(
att3, @[bc1[2]], att3.loadSig, att3.data.slot.start_beacon_time)
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)
2021-04-12 20:25:09 +00:00
check:
# We should now get both attestations for the block, but the aggregate
# should be the one with the most votes
pool[].getAttestationsForBlock(state[], cache).len() == 2
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)
2021-04-12 20:25:09 +00:00
pool[].getAggregatedAttestation(2.Slot, 0.CommitteeIndex).
get().aggregation_bits.countOnes() == 2
pool[].getAggregatedAttestation(2.Slot, hash_tree_root(att2.data)).
get().aggregation_bits.countOnes() == 2
let
# Someone votes for a different root
att4 = makeAttestation(state[], ZERO_HASH, bc1[2], cache)
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)
2021-04-12 20:25:09 +00:00
pool[].addAttestation(
att4, @[bc1[2]], att3.loadSig, att3.data.slot.start_beacon_time)
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)
2021-04-12 20:25:09 +00:00
test "Working with aggregates" & preset():
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)
2021-04-12 20:25:09 +00:00
let
# Create an attestation for slot 1!
bc0 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
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)
2021-04-12 20:25:09 +00:00
var
att0 = makeAttestation(
state[], state[].latest_block_root, bc0[0], cache)
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)
2021-04-12 20:25:09 +00:00
att0x = att0
att1 = makeAttestation(
state[], state[].latest_block_root, bc0[1], cache)
att2 = makeAttestation(
state[], state[].latest_block_root, bc0[2], cache)
att3 = makeAttestation(
state[], state[].latest_block_root, bc0[3], cache)
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)
2021-04-12 20:25:09 +00:00
# Both attestations include member 2 but neither is a subset of the other
att0.combine(att2)
att1.combine(att2)
check:
not pool[].covers(att0.data, att0.aggregation_bits)
pool[].addAttestation(
att0, @[bc0[0], bc0[2]], att0.loadSig, att0.data.slot.start_beacon_time)
pool[].addAttestation(
att1, @[bc0[1], bc0[2]], att1.loadSig, att1.data.slot.start_beacon_time)
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)
2021-04-12 20:25:09 +00:00
check:
process_slots(
defaultRuntimeConfig, state[],
getStateField(state[], slot) + MIN_ATTESTATION_INCLUSION_DELAY, cache,
info, {}).isOk()
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)
2021-04-12 20:25:09 +00:00
check:
pool[].covers(att0.data, att0.aggregation_bits)
pool[].getAttestationsForBlock(state[], cache).len() == 2
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)
2021-04-12 20:25:09 +00:00
# Can get either aggregate here, random!
pool[].getAggregatedAttestation(1.Slot, 0.CommitteeIndex).isSome()
# Add in attestation 3 - both aggregates should now have it added
pool[].addAttestation(
att3, @[bc0[3]], att3.loadSig, att3.data.slot.start_beacon_time)
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)
2021-04-12 20:25:09 +00:00
block:
let attestations = pool[].getAttestationsForBlock(state[], cache)
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)
2021-04-12 20:25:09 +00:00
check:
attestations.len() == 2
attestations[0].aggregation_bits.countOnes() == 3
# Can get either aggregate here, random!
pool[].getAggregatedAttestation(1.Slot, 0.CommitteeIndex).isSome()
# Add in attestation 0 as single - attestation 1 is now a superset of the
# aggregates in the pool, so everything else should be removed
pool[].addAttestation(
att0x, @[bc0[0]], att0x.loadSig, att0x.data.slot.start_beacon_time)
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)
2021-04-12 20:25:09 +00:00
block:
let attestations = pool[].getAttestationsForBlock(state[], cache)
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)
2021-04-12 20:25:09 +00:00
check:
attestations.len() == 1
attestations[0].aggregation_bits.countOnes() == 4
pool[].getAggregatedAttestation(1.Slot, 0.CommitteeIndex).isSome()
test "Everyone voting for something different" & preset():
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)
2021-04-12 20:25:09 +00:00
var attestations: int
for i in 0..<SLOTS_PER_EPOCH:
var root: Eth2Digest
root.data[0..<8] = toBytesBE(i.uint64)
let
bc0 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
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)
2021-04-12 20:25:09 +00:00
for j in 0..<bc0.len():
root.data[8..<16] = toBytesBE(j.uint64)
let att = makeAttestation(state[], root, bc0[j], cache)
pool[].addAttestation(
att, @[bc0[j]], att.loadSig, att.data.slot.start_beacon_time)
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)
2021-04-12 20:25:09 +00:00
inc attestations
check:
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
process_slots(
defaultRuntimeConfig, state[],
getStateField(state[], slot) + 1, cache, info, {}).isOk()
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)
2021-04-12 20:25:09 +00:00
doAssert attestations.uint64 > MAX_ATTESTATIONS,
"6*SLOTS_PER_EPOCH validators > 128 mainnet MAX_ATTESTATIONS"
check:
# Fill block with attestations
pool[].getAttestationsForBlock(state[], cache).lenu64() ==
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)
2021-04-12 20:25:09 +00:00
MAX_ATTESTATIONS
pool[].getAggregatedAttestation(
getStateField(state[], slot) - 1, 0.CommitteeIndex).isSome()
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)
2021-04-12 20:25:09 +00:00
test "Attestations may arrive in any order" & preset():
var cache = StateCache()
let
# Create an attestation for slot 1!
bc0 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
attestation0 = makeAttestation(
state[], state[].latest_block_root, bc0[0], cache)
2020-05-19 15:46:29 +00:00
check:
process_slots(
defaultRuntimeConfig, state[], getStateField(state[], slot) + 1,
cache, info, {}).isOk()
let
bc1 = get_beacon_committee(state[],
getStateField(state[], slot), 0.CommitteeIndex, cache)
attestation1 = makeAttestation(
state[], state[].latest_block_root, bc1[0], cache)
# test reverse order
pool[].addAttestation(
attestation1, @[bc1[0]], attestation1.loadSig,
attestation1.data.slot.start_beacon_time)
pool[].addAttestation(
attestation0, @[bc0[0]], attestation0.loadSig,
attestation0.data.slot.start_beacon_time)
let attestations = pool[].getAttestationsForBlock(state[], cache)
check:
attestations.len == 1
test "Attestations should be combined" & preset():
var cache = StateCache()
let
# Create an attestation for slot 1!
bc0 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
attestation0 =
makeAttestation(state[], state[].latest_block_root, bc0[0], cache)
attestation1 =
makeAttestation(state[], state[].latest_block_root, bc0[1], cache)
pool[].addAttestation(
attestation0, @[bc0[0]], attestation0.loadSig,
attestation0.data.slot.start_beacon_time)
pool[].addAttestation(
attestation1, @[bc0[1]], attestation1.loadSig,
attestation1.data.slot.start_beacon_time)
2020-05-19 15:46:29 +00:00
check:
process_slots(
defaultRuntimeConfig, state[],
MIN_ATTESTATION_INCLUSION_DELAY.Slot + 1, cache, info, {}).isOk()
let attestations = pool[].getAttestationsForBlock(state[], cache)
check:
attestations.len == 1
test "Attestations may overlap, bigger first" & preset():
var cache = StateCache()
var
# Create an attestation for slot 1!
bc0 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
attestation0 = makeAttestation(
state[], state[].latest_block_root, bc0[0], cache)
attestation1 = makeAttestation(
state[], state[].latest_block_root, bc0[1], cache)
attestation0.combine(attestation1)
pool[].addAttestation(
attestation0, @[bc0[0]], attestation0.loadSig,
attestation0.data.slot.start_beacon_time)
pool[].addAttestation(
attestation1, @[bc0[1]], attestation1.loadSig,
attestation1.data.slot.start_beacon_time)
2020-05-19 15:46:29 +00:00
check:
process_slots(
defaultRuntimeConfig, state[],
MIN_ATTESTATION_INCLUSION_DELAY.Slot + 1, cache, info, {}).isOk()
let attestations = pool[].getAttestationsForBlock(state[], cache)
check:
attestations.len == 1
test "Attestations may overlap, smaller first" & preset():
var cache = StateCache()
var
# Create an attestation for slot 1!
bc0 = get_beacon_committee(state[],
getStateField(state[], slot), 0.CommitteeIndex, cache)
attestation0 = makeAttestation(
state[], state[].latest_block_root, bc0[0], cache)
attestation1 = makeAttestation(
state[], state[].latest_block_root, bc0[1], cache)
attestation0.combine(attestation1)
pool[].addAttestation(
attestation1, @[bc0[1]], attestation1.loadSig,
attestation1.data.slot.start_beacon_time)
pool[].addAttestation(
attestation0, @[bc0[0]], attestation0.loadSig,
attestation0.data.slot.start_beacon_time)
2020-05-19 15:46:29 +00:00
check:
process_slots(
defaultRuntimeConfig, state[],
MIN_ATTESTATION_INCLUSION_DELAY.Slot + 1, cache, info, {}).isOk()
let attestations = pool[].getAttestationsForBlock(state[], cache)
check:
attestations.len == 1
test "Fork choice returns latest block with no attestations":
var cache = StateCache()
let
b1 = addTestBlock(state[], cache).phase0Data
b1Add = dag.addHeadBlock(verifier, b1) do (
blckRef: BlockRef, signedBlock: phase0.TrustedSignedBeaconBlock,
epochRef: EpochRef, unrealized: FinalityCheckpoints):
# Callback add to fork choice if valid
pool[].addForkChoice(
epochRef, blckRef, unrealized, signedBlock.message,
blckRef.slot.start_beacon_time)
let head =
pool[].selectOptimisticHead(b1Add[].slot.start_beacon_time).get().blck
check:
head == b1Add[]
let
b2 = addTestBlock(state[], cache).phase0Data
b2Add = dag.addHeadBlock(verifier, b2) do (
blckRef: BlockRef, signedBlock: phase0.TrustedSignedBeaconBlock,
epochRef: EpochRef, unrealized: FinalityCheckpoints):
# Callback add to fork choice if valid
pool[].addForkChoice(
epochRef, blckRef, unrealized, signedBlock.message,
blckRef.slot.start_beacon_time)
let head2 =
pool[].selectOptimisticHead(b2Add[].slot.start_beacon_time).get().blck
check:
head2 == b2Add[]
test "Fork choice returns block with attestation":
var cache = StateCache()
let
b10 = makeTestBlock(state[], cache).phase0Data
b10Add = dag.addHeadBlock(verifier, b10) do (
blckRef: BlockRef, signedBlock: phase0.TrustedSignedBeaconBlock,
epochRef: EpochRef, unrealized: FinalityCheckpoints):
# Callback add to fork choice if valid
pool[].addForkChoice(
epochRef, blckRef, unrealized, signedBlock.message,
blckRef.slot.start_beacon_time)
let head =
pool[].selectOptimisticHead(b10Add[].slot.start_beacon_time).get().blck
check:
head == b10Add[]
# Add a block too late to be timely enough to be proposer-boosted, which
# would otherwise cause it to be selected as head
let
b11 = makeTestBlock(state[], cache,
graffiti = GraffitiBytes [1'u8, 0, 0, 0 ,0 ,0 ,0 ,0 ,0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
).phase0Data
b11Add = dag.addHeadBlock(verifier, b11) do (
blckRef: BlockRef, signedBlock: phase0.TrustedSignedBeaconBlock,
epochRef: EpochRef, unrealized: FinalityCheckpoints):
# Callback add to fork choice if valid
pool[].addForkChoice(
epochRef, blckRef, unrealized, signedBlock.message,
blckRef.slot.start_beacon_time + SECONDS_PER_SLOT.int64.seconds)
bc1 = get_beacon_committee(
state[], getStateField(state[], slot) - 1, 1.CommitteeIndex,
cache)
attestation0 = makeAttestation(state[], b10.root, bc1[0], cache)
pool[].addAttestation(
attestation0, @[bc1[0]], attestation0.loadSig,
attestation0.data.slot.start_beacon_time)
let head2 =
pool[].selectOptimisticHead(b10Add[].slot.start_beacon_time).get().blck
check:
# Single vote for b10 and no votes for b11
head2 == b10Add[]
let
attestation1 = makeAttestation(state[], b11.root, bc1[1], cache)
attestation2 = makeAttestation(state[], b11.root, bc1[2], cache)
pool[].addAttestation(
attestation1, @[bc1[1]], attestation1.loadSig,
attestation1.data.slot.start_beacon_time)
let head3 =
pool[].selectOptimisticHead(b10Add[].slot.start_beacon_time).get().blck
let bigger = if b11.root.data < b10.root.data: b10Add else: b11Add
check:
# Ties broken lexicographically in spec -> ?
head3 == bigger[]
pool[].addAttestation(
attestation2, @[bc1[2]], attestation2.loadSig,
attestation2.data.slot.start_beacon_time)
let head4 =
pool[].selectOptimisticHead(b11Add[].slot.start_beacon_time).get().blck
check:
# Two votes for b11
head4 == b11Add[]
test "Trying to add a block twice tags the second as an error":
var cache = StateCache()
let
b10 = makeTestBlock(state[], cache).phase0Data
b10Add = dag.addHeadBlock(verifier, b10) do (
blckRef: BlockRef, signedBlock: phase0.TrustedSignedBeaconBlock,
epochRef: EpochRef, unrealized: FinalityCheckpoints):
# Callback add to fork choice if valid
pool[].addForkChoice(
epochRef, blckRef, unrealized, signedBlock.message,
blckRef.slot.start_beacon_time)
let head =
pool[].selectOptimisticHead(b10Add[].slot.start_beacon_time).get().blck
check:
head == b10Add[]
# -------------------------------------------------------------
# Add back the old block to ensure we have a duplicate error
let b10_clone = b10 # Assumes deep copy
let b10Add_clone = dag.addHeadBlock(verifier, b10_clone) do (
blckRef: BlockRef, signedBlock: phase0.TrustedSignedBeaconBlock,
epochRef: EpochRef, unrealized: FinalityCheckpoints):
# Callback add to fork choice if valid
pool[].addForkChoice(
epochRef, blckRef, unrealized, signedBlock.message,
blckRef.slot.start_beacon_time)
doAssert: b10Add_clone.error == VerifierError.Duplicate
test "Trying to add a duplicate block from an old pruned epoch is tagged as an error":
# Note: very sensitive to stack usage
2022-04-14 15:39:37 +00:00
dag.updateFlags.incl {skipBlsValidation}
var cache = StateCache()
let
b10 = addTestBlock(state[], cache).phase0Data
b10Add = dag.addHeadBlock(verifier, b10) do (
blckRef: BlockRef, signedBlock: phase0.TrustedSignedBeaconBlock,
epochRef: EpochRef, unrealized: FinalityCheckpoints):
# Callback add to fork choice if valid
pool[].addForkChoice(
epochRef, blckRef, unrealized, signedBlock.message,
blckRef.slot.start_beacon_time)
let head =
pool[].selectOptimisticHead(b10Add[].slot.start_beacon_time).get().blck
doAssert: head == b10Add[]
# -------------------------------------------------------------
let b10_clone = b10 # Assumes deep copy
# -------------------------------------------------------------
# Pass an epoch
var attestations: seq[phase0.Attestation]
for epoch in 0 ..< 5:
let start_slot = start_slot(Epoch epoch)
let committees_per_slot =
get_committee_count_per_slot(state[], Epoch epoch, cache)
for slot in start_slot ..< start_slot + SLOTS_PER_EPOCH:
let new_block = addTestBlock(
state[], cache, attestations = attestations).phase0Data
let blockRef = dag.addHeadBlock(verifier, new_block) do (
blckRef: BlockRef, signedBlock: phase0.TrustedSignedBeaconBlock,
epochRef: EpochRef, unrealized: FinalityCheckpoints):
# Callback add to fork choice if valid
pool[].addForkChoice(
epochRef, blckRef, unrealized, signedBlock.message,
blckRef.slot.start_beacon_time)
let head =
pool[].selectOptimisticHead(
blockRef[].slot.start_beacon_time).get().blck
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)
2021-04-12 20:25:09 +00:00
doAssert: head == blockRef[]
2023-03-02 16:13:35 +00:00
dag.updateHead(head, quarantine[], [])
pruneAtFinalization(dag, pool[])
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attestations.setLen(0)
for committee_index in get_committee_indices(committees_per_slot):
let committee = get_beacon_committee(
state[], getStateField(state[], slot), committee_index,
cache)
# Create a bitfield filled with the given count per attestation,
# exactly on the right-most part of the committee field.
var aggregation_bits = init(CommitteeValidatorsBits, committee.len)
for v in 0 ..< committee.len * 2 div 3 + 1:
aggregation_bits[v] = true
attestations.add phase0.Attestation(
aggregation_bits: aggregation_bits,
data: makeAttestationData(state[], getStateField(state[], slot),
committee_index, blockRef.get().root)
# signature: ValidatorSig()
)
cache = StateCache()
# -------------------------------------------------------------
# Prune
doAssert: dag.finalizedHead.slot != 0
pool[].prune()
doAssert: b10.root notin pool.forkChoice.backend
# Add back the old block to ensure we have a duplicate error
let b10Add_clone = dag.addHeadBlock(verifier, b10_clone) do (
blckRef: BlockRef, signedBlock: phase0.TrustedSignedBeaconBlock,
epochRef: EpochRef, unrealized: FinalityCheckpoints):
# Callback add to fork choice if valid
pool[].addForkChoice(
epochRef, blckRef, unrealized, signedBlock.message,
blckRef.slot.start_beacon_time)
doAssert: b10Add_clone.error == VerifierError.Duplicate
suite "Attestation pool electra processing" & preset():
## For now just test that we can compile and execute block processing with
## mock data.
setup:
# Genesis state that results in 6 members per committee (2 committees total)
const TOTAL_COMMITTEES = 2
let rng = HmacDrbgContext.new()
var
validatorMonitor = newClone(ValidatorMonitor.init())
cfg = genesisTestRuntimeConfig(ConsensusFork.Electra)
dag = init(
ChainDAGRef, cfg,
makeTestDB(TOTAL_COMMITTEES * TARGET_COMMITTEE_SIZE*SLOTS_PER_EPOCH * 6, cfg = cfg),
validatorMonitor, {})
taskpool = Taskpool.new()
verifier = BatchVerifier.init(rng, taskpool)
quarantine = newClone(Quarantine.init())
pool = newClone(AttestationPool.init(dag, quarantine))
state = newClone(dag.headState)
cache = StateCache()
info = ForkedEpochInfo()
# Slot 0 is a finalized slot - won't be making attestations for it..
check:
process_slots(
dag.cfg,
state[],
getStateField(state[], slot) + MIN_ATTESTATION_INCLUSION_DELAY,
cache,
info,
{}).isOk()
test "Can add and retrieve simple electra attestations" & preset():
let
# Create an attestation for slot 1!
bc0 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
attestation = makeElectraAttestation(
state[], state[].latest_block_root, bc0[0], cache)
pool[].addAttestation(
attestation, @[bc0[0]], attestation.loadSig,
attestation.data.slot.start_beacon_time)
check:
process_slots(
defaultRuntimeConfig, state[],
getStateField(state[], slot) + MIN_ATTESTATION_INCLUSION_DELAY, cache,
info, {}).isOk()
let attestations = pool[].getElectraAttestationsForBlock(state[], cache)
check:
attestations.len == 1
let
root1 = addTestBlock(
state[], cache, electraAttestations = attestations,
nextSlot = false).electraData.root
bc1 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
att1 = makeElectraAttestation(state[], root1, bc1[0], cache)
check:
withState(state[]): forkyState.latest_block_root == root1
process_slots(
defaultRuntimeConfig, state[],
getStateField(state[], slot) + MIN_ATTESTATION_INCLUSION_DELAY, cache,
info, {}).isOk()
withState(state[]): forkyState.latest_block_root == root1
check:
# shouldn't include already-included attestations
pool[].getElectraAttestationsForBlock(state[], cache) == []
pool[].addAttestation(
att1, @[bc1[0]], att1.loadSig, att1.data.slot.start_beacon_time)
check:
# but new ones should go in
pool[].getElectraAttestationsForBlock(state[], cache).len() == 1
let
att2 = makeElectraAttestation(state[], root1, bc1[1], cache)
pool[].addAttestation(
att2, @[bc1[1]], att2.loadSig, att2.data.slot.start_beacon_time)
let
combined = pool[].getElectraAttestationsForBlock(state[], cache)
check:
# New attestations should be combined with old attestations
combined.len() == 1
combined[0].aggregation_bits.countOnes() == 2
pool[].addAttestation(
combined[0], @[bc1[1], bc1[0]], combined[0].loadSig,
combined[0].data.slot.start_beacon_time)
check:
# readding the combined attestation shouldn't have an effect
pool[].getElectraAttestationsForBlock(state[], cache).len() == 1
let
# Someone votes for a different root
att3 = makeElectraAttestation(state[], ZERO_HASH, bc1[2], cache)
pool[].addAttestation(
att3, @[bc1[2]], att3.loadSig, att3.data.slot.start_beacon_time)
check:
# We should now get both attestations for the block, but the aggregate
# should be the one with the most votes
pool[].getElectraAttestationsForBlock(state[], cache).len() == 2
pool[].getElectraAggregatedAttestation(2.Slot, combined[0].data.beacon_block_root,
0.CommitteeIndex).get().aggregation_bits.countOnes() == 2
pool[].getElectraAggregatedAttestation(2.Slot, hash_tree_root(att2.data), 0.CommitteeIndex).
get().aggregation_bits.countOnes() == 2
# requests to get and aggregate from different committees should be empty
pool[].getElectraAggregatedAttestation(
2.Slot, combined[0].data.beacon_block_root, 1.CommitteeIndex).isNone()
let
# Someone votes for a different root
att4 = makeElectraAttestation(state[], ZERO_HASH, bc1[2], cache)
pool[].addAttestation(
att4, @[bc1[2]], att3.loadSig, att3.data.slot.start_beacon_time)
test "Attestations with disjoint comittee bits and equal data into single on-chain aggregate" & preset():
let
bc0 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
bc1 = get_beacon_committee(
state[], getStateField(state[], slot), 1.CommitteeIndex, cache)
# atestation from committee 1
attestation_1 = makeElectraAttestation(
state[], state[].latest_block_root, bc0[0], cache)
# atestation from different committee with same data as
# attestaton 1
attestation_2 = makeElectraAttestation(
state[], state[].latest_block_root, bc1[1], cache)
pool[].addAttestation(
attestation_1, @[bc0[0]], attestation_1.loadSig,
attestation_1.data.slot.start_beacon_time)
pool[].addAttestation(
attestation_2, @[bc0[1]], attestation_2.loadSig,
attestation_2.data.slot.start_beacon_time)
check:
process_slots(
defaultRuntimeConfig, state[],
getStateField(state[], slot) + MIN_ATTESTATION_INCLUSION_DELAY, cache,
info, {}).isOk()
let attestations = pool[].getElectraAttestationsForBlock(state[], cache)
check:
# A single inal chain aggregated attestation should be created
# with same data and joint committee,aggregation bits
attestations.len == 1
attestations[0].aggregation_bits.countOnes() == 2
attestations[0].committee_bits.countOnes() == 2
test "Aggregated attestations with disjoint comittee bits into a single on-chain aggregate" & preset():
let
bc0 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
bc1 = get_beacon_committee(
state[], getStateField(state[], slot), 1.CommitteeIndex, cache)
# atestation from first committee
attestation_1 = makeElectraAttestation(
state[], state[].latest_block_root, bc0[0], cache)
# another attestation from first committee with same data
attestation_2 = makeElectraAttestation(
state[], state[].latest_block_root, bc0[1], cache)
# atestation from different committee with same data as
# attestaton 1
attestation_3 = makeElectraAttestation(
state[], state[].latest_block_root, bc1[1], cache)
pool[].addAttestation(
attestation_1, @[bc0[0]], attestation_1.loadSig,
attestation_1.data.slot.start_beacon_time)
pool[].addAttestation(
attestation_2, @[bc0[1]], attestation_2.loadSig,
attestation_2.data.slot.start_beacon_time)
pool[].addAttestation(
attestation_3, @[bc1[1]], attestation_3.loadSig,
attestation_3.data.slot.start_beacon_time)
check:
process_slots(
defaultRuntimeConfig, state[],
getStateField(state[], slot) + MIN_ATTESTATION_INCLUSION_DELAY, cache,
info, {}).isOk()
let attestations = pool[].getElectraAttestationsForBlock(state[], cache)
check:
# A single final chain aggregated attestation should be created
# with same data, 2 committee bits and 3 aggregation bits
attestations.len == 1
attestations[0].aggregation_bits.countOnes() == 3
attestations[0].committee_bits.countOnes() == 2
test "Working with electra aggregates" & preset():
let
# Create an attestation for slot 1!
bc0 = get_beacon_committee(
state[], getStateField(state[], slot), 0.CommitteeIndex, cache)
var
att0 = makeElectraAttestation(
state[], state[].latest_block_root, bc0[0], cache)
att0x = att0
att1 = makeElectraAttestation(
state[], state[].latest_block_root, bc0[1], cache)
att2 = makeElectraAttestation(
state[], state[].latest_block_root, bc0[2], cache)
att3 = makeElectraAttestation(
state[], state[].latest_block_root, bc0[3], cache)
# Both attestations include member 2 but neither is a subset of the other
att0.combine(att2)
att1.combine(att2)
check:
not pool[].covers(att0.data, att0.aggregation_bits)
pool[].addAttestation(
att0, @[bc0[0], bc0[2]], att0.loadSig, att0.data.slot.start_beacon_time)
pool[].addAttestation(
att1, @[bc0[1], bc0[2]], att1.loadSig, att1.data.slot.start_beacon_time)
check:
process_slots(
defaultRuntimeConfig, state[],
getStateField(state[], slot) + MIN_ATTESTATION_INCLUSION_DELAY, cache,
info, {}).isOk()
check:
pool[].getElectraAttestationsForBlock(state[], cache).len() == 1
# Can get either aggregate here, random!
pool[].getElectraAggregatedAttestation(
1.Slot, att0.data.beacon_block_root, 0.CommitteeIndex).isSome()
# Add in attestation 3 - both aggregates should now have it added
pool[].addAttestation(
att3, @[bc0[3]], att3.loadSig, att3.data.slot.start_beacon_time)
block:
let attestations = pool[].getElectraAttestationsForBlock(state[], cache)
check:
attestations.len() == 1
attestations[0].aggregation_bits.countOnes() == 6
# Can get either aggregate here, random!
pool[].getElectraAggregatedAttestation(
1.Slot, attestations[0].data.beacon_block_root, 0.CommitteeIndex).isSome()
# Add in attestation 0 as single - attestation 1 is now a superset of the
# aggregates in the pool, so everything else should be removed
pool[].addAttestation(
att0x, @[bc0[0]], att0x.loadSig, att0x.data.slot.start_beacon_time)
block:
let attestations = pool[].getElectraAttestationsForBlock(state[], cache)
check:
attestations.len() == 1
attestations[0].aggregation_bits.countOnes() == 4
pool[].getElectraAggregatedAttestation(
1.Slot, attestations[0].data.beacon_block_root, 0.CommitteeIndex).isSome()