# beacon_chain # Copyright (c) 2018-2020 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: [Defect].} import deques, sequtils, tables, options, chronicles, stew/[byteutils], json_serialization/std/sets, ./spec/[beaconstate, datatypes, crypto, digest, helpers, validator], ./extras, ./block_pool, ./block_pools/candidate_chains, ./beacon_node_types logScope: topics = "attpool" func init*(T: type AttestationPool, blockPool: BlockPool): T = ## Initialize an AttestationPool from the blockPool `headState` ## The `finalized_root` works around the finalized_checkpoint of the genesis block ## holding a zero_root. # TODO blockPool is only used when resolving orphaned attestations - it should # probably be removed as a dependency of AttestationPool (or some other # smart refactoring) T( mapSlotsToAttestations: initDeque[AttestationsSeen](), blockPool: blockPool, unresolved: initTable[Eth2Digest, UnresolvedAttestation](), ) proc combine*(tgt: var Attestation, src: Attestation, flags: UpdateFlags) = ## Combine the signature and participation bitfield, with the assumption that ## the same data is being signed - if the signatures overlap, they are not ## combined. # TODO: Exported only for testing, all usage are internals 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! if not tgt.aggregation_bits.overlaps(src.aggregation_bits): tgt.aggregation_bits.combine(src.aggregation_bits) if skipBlsValidation notin flags: tgt.signature.aggregate(src.signature) else: trace "Ignoring overlapping attestations" proc slotIndex( pool: var AttestationPool, state: BeaconState, attestationSlot: Slot): int = ## Grow and garbage collect pool, returning the deque index of the slot # We keep a sliding window of attestations, roughly from the last finalized # epoch to now, because these are the attestations that may affect the voting # outcome. Some of these attestations will already have been added to blocks, # while others are fresh off the network. # TODO only the latest vote of each validator counts. Can we use that somehow? logScope: pcs = "atp_slot_maintenance" doAssert attestationSlot >= pool.startingSlot, """ We should have checked in validate that attestation is newer than finalized_slot and we never prune things before that, per below condition! """ & ", attestationSlot: " & $shortLog(attestationSlot) & ", startingSlot: " & $shortLog(pool.startingSlot) if pool.mapSlotsToAttestations.len == 0: # Because the first attestations may arrive in any order, we'll make sure # to start counting at the last finalized epoch start slot - anything # earlier than that is thrown out by the above check info "First attestation!", attestationSlot = $shortLog(attestationSlot), cat = "init" pool.startingSlot = state.finalized_checkpoint.epoch.compute_start_slot_at_epoch() if pool.startingSlot + pool.mapSlotsToAttestations.len.uint64 <= attestationSlot: trace "Growing attestation pool", attestationSlot = $shortLog(attestationSlot), startingSlot = $shortLog(pool.startingSlot), cat = "caching" # Make sure there's a pool entry for every slot, even when there's a gap while pool.startingSlot + pool.mapSlotsToAttestations.len.uint64 <= attestationSlot: pool.mapSlotsToAttestations.addLast(AttestationsSeen()) if pool.startingSlot < state.finalized_checkpoint.epoch.compute_start_slot_at_epoch(): debug "Pruning attestation pool", startingSlot = $shortLog(pool.startingSlot), finalizedSlot = $shortLog( state.finalized_checkpoint .epoch.compute_start_slot_at_epoch()), cat = "pruning" # TODO there should be a better way to remove a whole epoch of stuff.. while pool.startingSlot < state.finalized_checkpoint.epoch.compute_start_slot_at_epoch(): pool.mapSlotsToAttestations.popFirst() pool.startingSlot += 1 int(attestationSlot - pool.startingSlot) func updateLatestVotes( pool: var AttestationPool, state: BeaconState, attestationSlot: Slot, participants: seq[ValidatorIndex], blck: BlockRef) = for validator in participants: let pubKey = state.validators[validator].pubkey current = pool.latestAttestations.getOrDefault(pubKey) if current.isNil or current.slot < attestationSlot: pool.latestAttestations[pubKey] = blck func get_attesting_indices_seq(state: BeaconState, attestation_data: AttestationData, bits: CommitteeValidatorsBits, cache: var StateCache): seq[ValidatorIndex] = toSeq(items(get_attesting_indices( state, attestation_data, bits, cache))) func addUnresolved(pool: var AttestationPool, attestation: Attestation) = pool.unresolved[attestation.data.beacon_block_root] = UnresolvedAttestation( attestation: attestation, ) proc addResolved(pool: var AttestationPool, blck: BlockRef, attestation: Attestation) = doAssert blck.root == attestation.data.beacon_block_root # TODO Which state should we use to validate the attestation? It seems # reasonable to involve the head being voted for as well as the intended # slot of the attestation - double-check this with spec # TODO: How fast is state rewind? # Can this be a DOS vector. # TODO: filter valid attestation as much as possible before state rewind # TODO: the below check does not respect the inclusion delay # we should use isValidAttestationSlot instead if blck.slot > attestation.data.slot: notice "Invalid attestation (too new!)", attestation = shortLog(attestation), blockSlot = shortLog(blck.slot) return # if not isValidAttestationSlot(attestation.data.slot, blck.slot): # # Logging in isValidAttestationSlot # return # Get a temporary state at the (block, slot) targeted by the attestation updateStateData( pool.blockPool, pool.blockPool.tmpState, BlockSlot(blck: blck, slot: attestation.data.slot)) template state(): BeaconState = pool.blockPool.tmpState.data.data # Check that the attestation is indeed valid # TODO: we might want to split checks that depend # on the state and those that don't to cheaply # discard invalid attestations before rewinding state. # TODO: stateCache usage var stateCache = get_empty_per_epoch_cache() if not isValidAttestationTargetEpoch(state, attestation): notice "Invalid attestation", attestation = shortLog(attestation), current_epoch = get_current_epoch(state), cat = "filtering" return # TODO inefficient data structures.. var cache = getEpochCache(blck, state) let attestationSlot = attestation.data.slot idx = pool.slotIndex(state, attestationSlot) attestationsSeen = addr pool.mapSlotsToAttestations[idx] validation = Validation( aggregation_bits: attestation.aggregation_bits, aggregate_signature: attestation.signature) participants = get_attesting_indices_seq( state, attestation.data, validation.aggregation_bits, cache) var found = false for a in attestationsSeen.attestations.mitems(): if a.data == attestation.data: for v in a.validations: if validation.aggregation_bits.isSubsetOf(v.aggregation_bits): # The validations in the new attestation are a subset of one of the # attestations that we already have on file - no need to add this # attestation to the database # TODO what if the new attestation is useful for creating bigger # sets by virtue of not overlapping with some other attestation # and therefore being useful after all? trace "Ignoring subset attestation", existingParticipants = get_attesting_indices_seq( state, a.data, v.aggregation_bits, cache), newParticipants = participants, cat = "filtering" found = true break if not found: # Attestations in the pool that are a subset of the new attestation # can now be removed per same logic as above trace "Removing subset attestations", existingParticipants = a.validations.filterIt( it.aggregation_bits.isSubsetOf(validation.aggregation_bits) ).mapIt(get_attesting_indices_seq( state, a.data, it.aggregation_bits, cache)), newParticipants = participants, cat = "pruning" a.validations.keepItIf( not it.aggregation_bits.isSubsetOf(validation.aggregation_bits)) a.validations.add(validation) pool.updateLatestVotes(state, attestationSlot, participants, a.blck) info "Attestation resolved", attestation = shortLog(attestation), validations = a.validations.len(), current_epoch = get_current_epoch(state), blockSlot = shortLog(blck.slot), cat = "filtering" found = true break if not found: attestationsSeen.attestations.add(AttestationEntry( data: attestation.data, blck: blck, validations: @[validation] )) pool.updateLatestVotes(state, attestationSlot, participants, blck) info "Attestation resolved", attestation = shortLog(attestation), current_epoch = get_current_epoch(state), validations = 1, blockSlot = shortLog(blck.slot), cat = "filtering" proc add*(pool: var AttestationPool, attestation: Attestation) = ## Add a verified attestation to the fork choice context logScope: pcs = "atp_add_attestation" # Fetch the target block or notify the block pool that it's needed let blck = pool.blockPool.getOrResolve(attestation.data.beacon_block_root) # If the block exist, add it to the fork choice context # Otherwise delay until it resolves if blck.isNil: pool.addUnresolved(attestation) return pool.addResolved(blck, attestation) proc getAttestationsForSlot*(pool: AttestationPool, newBlockSlot: Slot): Option[AttestationsSeen] = if newBlockSlot < (GENESIS_SLOT + MIN_ATTESTATION_INCLUSION_DELAY): debug "Too early for attestations", newBlockSlot = shortLog(newBlockSlot), cat = "query" return none(AttestationsSeen) if pool.mapSlotsToAttestations.len == 0: # startingSlot not set yet! info "No attestations found (pool empty)", newBlockSlot = shortLog(newBlockSlot), cat = "query" return none(AttestationsSeen) let # TODO in theory we could include attestations from other slots also, but # we're currently not tracking which attestations have already been included # in blocks on the fork we're aiming for.. this is a conservative approach # that's guaranteed to not include any duplicates, because it's the first # time the attestations are up for inclusion! attestationSlot = newBlockSlot - MIN_ATTESTATION_INCLUSION_DELAY if attestationSlot < pool.startingSlot or attestationSlot >= pool.startingSlot + pool.mapSlotsToAttestations.len.uint64: info "No attestations matching the slot range", attestationSlot = shortLog(attestationSlot), startingSlot = shortLog(pool.startingSlot), endingSlot = shortLog(pool.startingSlot + pool.mapSlotsToAttestations.len.uint64), cat = "query" return none(AttestationsSeen) let slotDequeIdx = int(attestationSlot - pool.startingSlot) some(pool.mapSlotsToAttestations[slotDequeIdx]) proc getAttestationsForBlock*(pool: AttestationPool, state: BeaconState): seq[Attestation] = ## Retrieve attestations that may be added to a new block at the slot of the ## given state logScope: pcs = "retrieve_attestation" # TODO this shouldn't really need state -- it's to recheck/validate, but that # should be refactored let newBlockSlot = state.slot var attestations: seq[AttestationEntry] # This isn't maximally efficient -- iterators or other approaches would # avoid lots of memory allocations -- but this provides a more flexible # base upon which to experiment with, and isn't yet profiling hot-path, # while avoiding penalizing slow attesting too much (as, in the spec it # is supposed to be available two epochs back; it's not meant as). This # isn't a good solution, either -- see the set-packing comment below as # one issue. It also creates problems with lots of repeat attestations, # as a bunch of synchronized beacon_nodes do almost the opposite of the # intended thing -- sure, _blocks_ have to be popular (via attestation) # but _attestations_ shouldn't have to be so frequently repeated, as an # artifact of this state-free, identical-across-clones choice basis. In # addResolved, too, the new attestations get added to the end, while in # these functions, it's reading from the beginning, et cetera. This all # needs a single unified strategy. const LOOKBACK_WINDOW = 3 for i in max(1, newBlockSlot.int64 - LOOKBACK_WINDOW) .. newBlockSlot.int64: let maybeSlotData = getAttestationsForSlot(pool, i.Slot) if maybeSlotData.isSome: insert(attestations, maybeSlotData.get.attestations) if attestations.len == 0: return var cache = get_empty_per_epoch_cache() for a in attestations: var # https://github.com/ethereum/eth2.0-specs/blob/v0.11.1/specs/phase0/validator.md#construct-attestation attestation = Attestation( aggregation_bits: a.validations[0].aggregation_bits, data: a.data, signature: a.validations[0].aggregate_signature ) # TODO what's going on here is that when producing a block, we need to # include only such attestations that will not cause block validation # to fail. How this interacts with voting and the acceptance of # attestations into the pool in general is an open question that needs # revisiting - for example, when attestations are added, against which # state should they be validated, if at all? # TODO we're checking signatures here every time which is very slow and we don't want # to include a broken attestation if not check_attestation(state, attestation, {}, cache): warn "Attestation no longer validates...", cat = "query" continue for v in a.validations[1..^1]: # TODO We need to select a set of attestations that maximise profit by # adding the largest combined attestation set that we can find - this # unfortunately looks an awful lot like # https://en.wikipedia.org/wiki/Set_packing - here we just iterate # and naively add as much as possible in one go, by we could also # add the same attestation data twice, as long as there's at least # one new attestation in there if not attestation.aggregation_bits.overlaps(v.aggregation_bits): attestation.aggregation_bits.combine(v.aggregation_bits) attestation.signature.aggregate(v.aggregate_signature) result.add(attestation) if result.len >= MAX_ATTESTATIONS: debug "getAttestationsForBlock: returning early after hitting MAX_ATTESTATIONS", attestationSlot = newBlockSlot - 1 return proc resolve*(pool: var AttestationPool) = ## Check attestations in our unresolved deque ## if they can be integrated to the fork choice logScope: pcs = "atp_resolve" var done: seq[Eth2Digest] resolved: seq[tuple[blck: BlockRef, attestation: Attestation]] for k, v in pool.unresolved.mpairs(): if (let blck = pool.blockPool.getRef(k); not blck.isNil()): resolved.add((blck, v.attestation)) done.add(k) elif v.tries > 8: done.add(k) else: inc v.tries for k in done: pool.unresolved.del(k) for a in resolved: pool.addResolved(a.blck, a.attestation) func latestAttestation*( pool: AttestationPool, pubKey: ValidatorPubKey): BlockRef = pool.latestAttestations.getOrDefault(pubKey) # https://github.com/ethereum/eth2.0-specs/blob/v0.8.4/specs/core/0_fork-choice.md # The structure of this code differs from the spec since we use a different # strategy for storing states and justification points - it should nonetheless # be close in terms of functionality. func lmdGhost*( pool: AttestationPool, start_state: BeaconState, start_block: BlockRef): BlockRef = # TODO: a Fenwick Tree datastructure to keep track of cumulated votes # in O(log N) complexity # https://en.wikipedia.org/wiki/Fenwick_tree # Nim implementation for cumulative frequencies at # https://github.com/numforge/laser/blob/990e59fffe50779cdef33aa0b8f22da19e1eb328/benchmarks/random_sampling/fenwicktree.nim let active_validator_indices = get_active_validator_indices( start_state, compute_epoch_at_slot(start_state.slot)) var latest_messages: seq[tuple[validator: ValidatorIndex, blck: BlockRef]] for i in active_validator_indices: let pubKey = start_state.validators[i].pubkey if (let vote = pool.latestAttestation(pubKey); not vote.isNil): latest_messages.add((i, vote)) # TODO: update to 0.10.1: https://github.com/ethereum/eth2.0-specs/pull/1589/files#diff-9fc3792aa94456eb29506fa77f77b918R143 template get_latest_attesting_balance(blck: BlockRef): uint64 = var res: uint64 for validator_index, target in latest_messages.items(): if get_ancestor(target, blck.slot) == blck: res += start_state.validators[validator_index].effective_balance res var head = start_block while true: if head.children.len() == 0: return head if head.children.len() == 1: head = head.children[0] else: var winner = head.children[0] winCount = get_latest_attesting_balance(winner) for i in 1..