986 lines
36 KiB
Nim
986 lines
36 KiB
Nim
# beacon_chain
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# Copyright (c) 2018-2020 Status Research & Development GmbH
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# Licensed and distributed under either of
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# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
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# at your option. This file may not be copied, modified, or distributed except according to those terms.
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{.push raises: [Defect].}
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import
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std/[options, sequtils, tables, sets],
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metrics, snappy, chronicles,
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../ssz/[ssz_serialization, merkleization], ../beacon_chain_db, ../extras,
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../spec/[
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crypto, datatypes, digest, helpers, validator, state_transition,
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beaconstate],
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block_pools_types, quarantine
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export block_pools_types, helpers
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declareCounter beacon_reorgs_total, "Total occurrences of reorganizations of the chain" # On fork choice
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declareCounter beacon_state_data_cache_hits, "EpochRef hits"
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declareCounter beacon_state_data_cache_misses, "EpochRef misses"
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declareCounter beacon_state_rewinds, "State database rewinds"
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declareGauge beacon_pending_deposits, "Number of pending deposits (state.eth1_data.deposit_count - state.eth1_deposit_index)" # On block
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declareGauge beacon_processed_deposits_total, "Number of total deposits included on chain" # On block
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logScope: topics = "chaindag"
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proc putBlock*(
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dag: var ChainDAGRef, signedBlock: SignedBeaconBlock) =
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dag.db.putBlock(signedBlock)
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proc updateStateData*(
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dag: ChainDAGRef, state: var StateData, bs: BlockSlot, save: bool,
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cache: var StateCache) {.gcsafe.}
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template withState*(
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dag: ChainDAGRef, stateData: var StateData, blockSlot: BlockSlot,
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body: untyped): untyped =
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## Helper template that updates stateData to a particular BlockSlot - usage of
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## stateData is unsafe outside of block.
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## TODO async transformations will lead to a race where stateData gets updated
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## while waiting for future to complete - catch this here somehow?
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var cache {.inject.} = blockSlot.blck.getStateCache(blockSlot.slot.epoch())
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updateStateData(dag, stateData, blockSlot, false, cache)
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template hashedState(): HashedBeaconState {.inject, used.} = stateData.data
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template state(): BeaconState {.inject, used.} = stateData.data.data
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template blck(): BlockRef {.inject, used.} = stateData.blck
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template root(): Eth2Digest {.inject, used.} = stateData.data.root
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body
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func parent*(bs: BlockSlot): BlockSlot =
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## Return a blockslot representing the previous slot, using the parent block
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## if the current slot had a block
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if bs.slot == Slot(0):
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BlockSlot(blck: nil, slot: Slot(0))
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else:
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BlockSlot(
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blck: if bs.slot > bs.blck.slot: bs.blck else: bs.blck.parent,
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slot: bs.slot - 1
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)
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func parentOrSlot*(bs: BlockSlot): BlockSlot =
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## Return a blockslot representing the previous slot, using the parent block
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## with the current slot if the current had a block
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if bs.slot == Slot(0):
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BlockSlot(blck: nil, slot: Slot(0))
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elif bs.slot == bs.blck.slot:
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BlockSlot(blck: bs.blck.parent, slot: bs.slot)
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else:
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BlockSlot(blck: bs.blck, slot: bs.slot - 1)
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func get_effective_balances*(state: BeaconState): seq[Gwei] =
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## Get the balances from a state as counted for fork choice
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result.newSeq(state.validators.len) # zero-init
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let epoch = state.get_current_epoch()
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for i in 0 ..< result.len:
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# All non-active validators have a 0 balance
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template validator: Validator = state.validators[i]
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if validator.is_active_validator(epoch):
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result[i] = validator.effective_balance
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proc init*(
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T: type EpochRef, state: BeaconState, cache: var StateCache,
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prevEpoch: EpochRef): T =
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let
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epoch = state.get_current_epoch()
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epochRef = EpochRef(
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epoch: epoch,
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current_justified_checkpoint: state.current_justified_checkpoint,
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finalized_checkpoint: state.finalized_checkpoint,
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shuffled_active_validator_indices:
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cache.get_shuffled_active_validator_indices(state, epoch))
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for i in 0'u64..<SLOTS_PER_EPOCH:
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let idx = get_beacon_proposer_index(
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state, cache, epoch.compute_start_slot_at_epoch() + i)
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if idx.isSome():
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epochRef.beacon_proposers[i] =
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some((idx.get(), state.validators[idx.get].pubkey))
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# Validator sets typically don't change between epochs - a more efficient
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# scheme could be devised where parts of the validator key set is reused
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# between epochs because in a single history, the validator set only
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# grows - this however is a trivially implementable compromise.
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# The validators root is cached in the state, so we can quickly compare
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# it to see if it remains unchanged - effective balances in the validator
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# information may however result in a different root, even if the public
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# keys are the same
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let validators_root = hash_tree_root(state.validators)
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template sameKeys(a: openArray[ValidatorPubKey], b: openArray[Validator]): bool =
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if a.len != b.len:
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false
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else:
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block:
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var ret = true
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for i, key in a:
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if key != b[i].pubkey:
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ret = false
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break
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ret
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if prevEpoch != nil and (
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prevEpoch.validator_key_store[0] == hash_tree_root(state.validators) or
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sameKeys(prevEpoch.validator_key_store[1][], state.validators.asSeq)):
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epochRef.validator_key_store =
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(validators_root, prevEpoch.validator_key_store[1])
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else:
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epochRef.validator_key_store = (
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hash_tree_root(state.validators),
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newClone(mapIt(state.validators.toSeq, it.pubkey)))
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# When fork choice runs, it will need the effective balance of the justified
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# checkpoint - we pre-load the balances here to avoid rewinding the justified
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# state later and compress them because not all checkpoints end up being used
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# for fork choice - specially during long periods of non-finalization
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proc snappyEncode(inp: openArray[byte]): seq[byte] =
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try:
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snappy.encode(inp)
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except CatchableError as err:
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raiseAssert err.msg
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epochRef.effective_balances_bytes =
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snappyEncode(SSZ.encode(
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List[Gwei, Limit VALIDATOR_REGISTRY_LIMIT](get_effective_balances(state))))
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epochRef
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func effective_balances*(epochRef: EpochRef): seq[Gwei] =
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try:
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SSZ.decode(snappy.decode(epochRef.effective_balances_bytes, uint32.high),
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List[Gwei, Limit VALIDATOR_REGISTRY_LIMIT]).toSeq()
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except CatchableError as exc:
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raiseAssert exc.msg
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func updateKeyStores*(epochRef: EpochRef, blck: BlockRef, finalized: BlockRef) =
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# Because key stores are additive lists, we can use a newer list whereever an
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# older list is expected - all indices in the new list will be valid for the
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# old list also
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var blck = blck
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while blck != nil and blck.slot >= finalized.slot:
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for e in blck.epochRefs:
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e.validator_key_store = epochRef.validator_key_store
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blck = blck.parent
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func link*(parent, child: BlockRef) =
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doAssert (not (parent.root == Eth2Digest() or child.root == Eth2Digest())),
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"blocks missing root!"
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doAssert parent.root != child.root, "self-references not allowed"
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child.parent = parent
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func isAncestorOf*(a, b: BlockRef): bool =
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var b = b
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var depth = 0
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const maxDepth = (100'i64 * 365 * 24 * 60 * 60 div SECONDS_PER_SLOT.int)
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while true:
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if a == b: return true
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# for now, use an assert for block chain length since a chain this long
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# indicates a circular reference here..
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doAssert depth < maxDepth
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depth += 1
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if a.slot >= b.slot or b.parent.isNil:
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return false
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doAssert b.slot > b.parent.slot
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b = b.parent
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func get_ancestor*(blck: BlockRef, slot: Slot,
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maxDepth = 100'i64 * 365 * 24 * 60 * 60 div SECONDS_PER_SLOT.int):
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BlockRef =
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## https://github.com/ethereum/eth2.0-specs/blob/v1.0.0-rc.0/specs/phase0/fork-choice.md#get_ancestor
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## Return the most recent block as of the time at `slot` that not more recent
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## than `blck` itself
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doAssert not blck.isNil
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var blck = blck
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var depth = 0
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while true:
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if blck.slot <= slot:
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return blck
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if blck.parent.isNil:
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return nil
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doAssert depth < maxDepth
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depth += 1
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blck = blck.parent
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func atSlot*(blck: BlockRef, slot: Slot): BlockSlot =
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## Return a BlockSlot at a given slot, with the block set to the closest block
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## available. If slot comes from before the block, a suitable block ancestor
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## will be used, else blck is returned as if all slots after it were empty.
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## This helper is useful when imagining what the chain looked like at a
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## particular moment in time, or when imagining what it will look like in the
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## near future if nothing happens (such as when looking ahead for the next
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## block proposal)
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BlockSlot(blck: blck.get_ancestor(slot), slot: slot)
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func atEpochStart*(blck: BlockRef, epoch: Epoch): BlockSlot =
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## Return the BlockSlot corresponding to the first slot in the given epoch
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atSlot(blck, epoch.compute_start_slot_at_epoch)
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func atEpochEnd*(blck: BlockRef, epoch: Epoch): BlockSlot =
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## Return the BlockSlot corresponding to the last slot in the given epoch
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atSlot(blck, (epoch + 1).compute_start_slot_at_epoch - 1)
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func epochAncestor*(blck: BlockRef, epoch: Epoch): BlockSlot =
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## The state transition works by storing information from blocks in a
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## "working" area until the epoch transition, then batching work collected
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## during the epoch. Thus, last block in the ancestor epochs is the block
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## that has an impact on epoch currently considered.
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##
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## This function returns a BlockSlot pointing to that epoch boundary, ie the
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## boundary where the last block has been applied to the state and epoch
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## processing has been done - we will store epoch caches in that particular
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## block so that any block in the dag that needs it can find it easily. In
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## particular, if empty slot processing is done, there may be multiple epoch
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## caches found there.
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var blck = blck
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while blck.slot.epoch >= epoch and not blck.parent.isNil:
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blck = blck.parent
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blck.atEpochStart(epoch)
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proc getStateCache*(blck: BlockRef, epoch: Epoch): StateCache =
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# When creating a state cache, we want the current and the previous epoch
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# information to be preloaded as both of these are used in state transition
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# functions
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var res = StateCache()
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template load(e: Epoch) =
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let ancestor = blck.epochAncestor(epoch)
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for epochRef in ancestor.blck.epochRefs:
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if epochRef.epoch == e:
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res.shuffled_active_validator_indices[epochRef.epoch] =
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epochRef.shuffled_active_validator_indices
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if epochRef.epoch == epoch:
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for i, idx in epochRef.beacon_proposers:
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res.beacon_proposer_indices[
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epoch.compute_start_slot_at_epoch + i] =
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if idx.isSome: some(idx.get()[0]) else: none(ValidatorIndex)
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break
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load(epoch)
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if epoch > 0:
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load(epoch - 1)
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res
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func init(T: type BlockRef, root: Eth2Digest, slot: Slot): BlockRef =
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BlockRef(
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root: root,
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slot: slot
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)
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func init*(T: type BlockRef, root: Eth2Digest, blck: SomeBeaconBlock): BlockRef =
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BlockRef.init(root, blck.slot)
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proc init*(T: type ChainDAGRef,
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preset: RuntimePreset,
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db: BeaconChainDB,
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updateFlags: UpdateFlags = {}): ChainDAGRef =
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# TODO we require that the db contains both a head and a tail block -
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# asserting here doesn't seem like the right way to go about it however..
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let
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tailBlockRoot = db.getTailBlock()
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headBlockRoot = db.getHeadBlock()
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doAssert tailBlockRoot.isSome(), "Missing tail block, database corrupt?"
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doAssert headBlockRoot.isSome(), "Missing head block, database corrupt?"
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let
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tailRoot = tailBlockRoot.get()
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tailBlock = db.getBlock(tailRoot).get()
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tailRef = BlockRef.init(tailRoot, tailBlock.message)
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headRoot = headBlockRoot.get()
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let genesisRef = if tailBlock.message.slot == GENESIS_SLOT:
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tailRef
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else:
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let
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genesisBlockRoot = db.getGenesisBlockRoot()
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genesisBlock = db.getBlock(genesisBlockRoot).expect(
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"preInit should have initialized the database with a genesis block")
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BlockRef.init(genesisBlockRoot, genesisBlock.message)
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var
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blocks = {tailRef.root: tailRef}.toTable()
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headRef: BlockRef
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if genesisRef != tailRef:
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blocks[genesisRef.root] = genesisRef
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if headRoot != tailRoot:
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var curRef: BlockRef
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for blck in db.getAncestors(headRoot):
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if blck.root == tailRef.root:
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doAssert(not curRef.isNil)
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link(tailRef, curRef)
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curRef = curRef.parent
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break
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let newRef = BlockRef.init(blck.root, blck.message)
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if curRef == nil:
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curRef = newRef
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headRef = newRef
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else:
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link(newRef, curRef)
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curRef = curRef.parent
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blocks[curRef.root] = curRef
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trace "Populating block dag", key = curRef.root, val = curRef
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doAssert curRef == tailRef,
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"head block does not lead to tail, database corrupt?"
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else:
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headRef = tailRef
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var
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cur = headRef.atSlot(headRef.slot)
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tmpState = (ref StateData)()
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# Now that we have a head block, we need to find the most recent state that
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# we have saved in the database
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while cur.blck != nil:
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let root = db.getStateRoot(cur.blck.root, cur.slot)
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if root.isSome():
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if db.getState(root.get(), tmpState.data.data, noRollback):
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tmpState.data.root = root.get()
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tmpState.blck = cur.blck
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break
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if cur.blck.parent != nil and
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cur.blck.slot.epoch != epoch(cur.blck.parent.slot):
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# We store the state of the parent block with the epoch processing applied
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# in the database!
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cur = cur.blck.parent.atEpochStart(cur.blck.slot.epoch)
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else:
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# Moves back slot by slot, in case a state for an empty slot was saved
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cur = cur.parent
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if tmpState.blck == nil:
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warn "No state found in head history, database corrupt?"
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# TODO Potentially we could recover from here instead of crashing - what
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# would be a good recovery model?
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raiseAssert "No state found in head history, database corrupt?"
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let res = ChainDAGRef(
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blocks: blocks,
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tail: tailRef,
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head: headRef,
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genesis: genesisRef,
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db: db,
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heads: @[headRef],
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headState: tmpState[],
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tmpState: tmpState[],
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clearanceState: tmpState[],
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# The only allowed flag right now is verifyFinalization, as the others all
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# allow skipping some validation.
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updateFlags: {verifyFinalization} * updateFlags,
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runtimePreset: preset,
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)
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doAssert res.updateFlags in [{}, {verifyFinalization}]
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var cache: StateCache
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res.updateStateData(res.headState, headRef.atSlot(headRef.slot), false, cache)
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# We presently save states on the epoch boundary - it means that the latest
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# state we loaded might be older than head block - nonetheless, it will be
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# from the same epoch as the head, thus the finalized and justified slots are
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# the same - these only change on epoch boundaries.
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# When we start from a snapshot state, the `finalized_checkpoint` in the
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# snapshot will point to an even older state, but we trust the tail state
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# (the snapshot) to be finalized, hence the `max` expression below.
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let finalizedEpoch = max(res.headState.data.data.finalized_checkpoint.epoch,
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tailRef.slot.epoch)
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res.finalizedHead = headRef.atEpochStart(finalizedEpoch)
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res.clearanceState = res.headState
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info "Block dag initialized",
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head = shortLog(headRef),
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finalizedHead = shortLog(res.finalizedHead),
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tail = shortLog(tailRef),
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totalBlocks = blocks.len
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res
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proc findEpochRef*(blck: BlockRef, epoch: Epoch): EpochRef = # may return nil!
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let ancestor = blck.epochAncestor(epoch)
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doAssert ancestor.blck != nil
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for epochRef in ancestor.blck.epochRefs:
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if epochRef.epoch == epoch:
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return epochRef
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proc getEpochRef*(dag: ChainDAGRef, blck: BlockRef, epoch: Epoch): EpochRef =
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let epochRef = blck.findEpochRef(epoch)
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if epochRef != nil:
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beacon_state_data_cache_hits.inc
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return epochRef
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beacon_state_data_cache_misses.inc
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let
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ancestor = blck.epochAncestor(epoch)
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dag.withState(dag.tmpState, ancestor):
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let
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prevEpochRef = if dag.tail.slot.epoch >= epoch: nil
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else: blck.findEpochRef(epoch - 1)
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newEpochRef = EpochRef.init(state, cache, prevEpochRef)
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# TODO consider constraining the number of epochrefs per state
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if ancestor.blck.slot >= dag.finalizedHead.blck.slot:
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# Only cache epoch information for unfinalized blocks - earlier states
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# are seldomly used (ie RPC), so no need to cache
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ancestor.blck.epochRefs.add newEpochRef
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newEpochRef.updateKeyStores(blck.parent, dag.finalizedHead.blck)
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newEpochRef
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proc getState(
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dag: ChainDAGRef, state: var StateData, stateRoot: Eth2Digest,
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blck: BlockRef): bool =
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let restoreAddr =
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# Any restore point will do as long as it's not the object being updated
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if unsafeAddr(state) == unsafeAddr(dag.headState):
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unsafeAddr dag.tmpState
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else:
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unsafeAddr dag.headState
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func restore(v: var BeaconState) =
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assign(v, restoreAddr[].data.data)
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|
|
if not dag.db.getState(stateRoot, state.data.data, restore):
|
|
return false
|
|
|
|
state.blck = blck
|
|
state.data.root = stateRoot
|
|
|
|
true
|
|
|
|
proc getState(dag: ChainDAGRef, state: var StateData, bs: BlockSlot): bool =
|
|
## Load a state from the database given a block and a slot - this will first
|
|
## lookup the state root in the state root table then load the corresponding
|
|
## state, if it exists
|
|
if not bs.slot.isEpoch:
|
|
return false # We only ever save epoch states - no need to hit database
|
|
|
|
# TODO earlier versions would store the epoch state with a the epoch block
|
|
# applied - we generally shouldn't hit the database for such states but
|
|
# will do so in a transitionary upgrade period!
|
|
|
|
if (let stateRoot = dag.db.getStateRoot(bs.blck.root, bs.slot);
|
|
stateRoot.isSome()):
|
|
return dag.getState(state, stateRoot.get(), bs.blck)
|
|
|
|
false
|
|
|
|
proc putState*(dag: ChainDAGRef, state: StateData) =
|
|
# Store a state and its root
|
|
logScope:
|
|
blck = shortLog(state.blck)
|
|
stateSlot = shortLog(state.data.data.slot)
|
|
stateRoot = shortLog(state.data.root)
|
|
|
|
# As a policy, we only store epoch boundary states without the epoch block
|
|
# (if it exists) applied - the rest can be reconstructed by loading an epoch
|
|
# boundary state and applying the missing blocks.
|
|
# We also avoid states that were produced with empty slots only - we should
|
|
# not call this function for states that don't have a follow-up block
|
|
if not state.data.data.slot.isEpoch:
|
|
trace "Not storing non-epoch state"
|
|
return
|
|
|
|
if state.data.data.slot.epoch != (state.blck.slot.epoch + 1):
|
|
trace "Not storing state that isn't an immediate epoch successor to its block"
|
|
return
|
|
|
|
if dag.db.containsState(state.data.root):
|
|
return
|
|
|
|
debug "Storing state"
|
|
# Ideally we would save the state and the root lookup cache in a single
|
|
# transaction to prevent database inconsistencies, but the state loading code
|
|
# is resilient against one or the other going missing
|
|
dag.db.putState(state.data.root, state.data.data)
|
|
dag.db.putStateRoot(state.blck.root, state.data.data.slot, state.data.root)
|
|
|
|
func getRef*(dag: ChainDAGRef, root: Eth2Digest): BlockRef =
|
|
## Retrieve a resolved block reference, if available
|
|
dag.blocks.getOrDefault(root, nil)
|
|
|
|
func getBlockRange*(
|
|
dag: ChainDAGRef, startSlot: Slot, skipStep: uint64,
|
|
output: var openArray[BlockRef]): Natural =
|
|
## This function populates an `output` buffer of blocks
|
|
## with a slots ranging from `startSlot` up to, but not including,
|
|
## `startSlot + skipStep * output.len`, skipping any slots that don't have
|
|
## a block.
|
|
##
|
|
## Blocks will be written to `output` from the end without gaps, even if
|
|
## a block is missing in a particular slot. The return value shows how
|
|
## many slots were missing blocks - to iterate over the result, start
|
|
## at this index.
|
|
##
|
|
## If there were no blocks in the range, `output.len` will be returned.
|
|
let
|
|
requestedCount = output.lenu64
|
|
headSlot = dag.head.slot
|
|
|
|
trace "getBlockRange entered",
|
|
head = shortLog(dag.head.root), requestedCount, startSlot, skipStep, headSlot
|
|
|
|
if startSlot < dag.tail.slot or headSlot <= startSlot or requestedCount == 0:
|
|
return output.len # Identical to returning an empty set of block as indicated above
|
|
|
|
let
|
|
runway = uint64(headSlot - startSlot)
|
|
|
|
# This is the number of blocks that will follow the start block
|
|
extraBlocks = min(runway div skipStep, requestedCount - 1)
|
|
|
|
# If `skipStep` is very large, `extraBlocks` should be 0 from
|
|
# the previous line, so `endSlot` will be equal to `startSlot`:
|
|
endSlot = startSlot + extraBlocks * skipStep
|
|
|
|
var
|
|
b = dag.head.atSlot(endSlot)
|
|
o = output.len
|
|
|
|
# Process all blocks that follow the start block (may be zero blocks)
|
|
for i in 1..extraBlocks:
|
|
if b.blck.slot == b.slot:
|
|
dec o
|
|
output[o] = b.blck
|
|
for j in 1..skipStep:
|
|
b = b.parent
|
|
|
|
# We should now be at the start block.
|
|
# Like any "block slot", it may be a missing/skipped block:
|
|
if b.blck.slot == b.slot:
|
|
dec o
|
|
output[o] = b.blck
|
|
|
|
o # Return the index of the first non-nil item in the output
|
|
|
|
func getBlockBySlot*(dag: ChainDAGRef, slot: Slot): BlockRef =
|
|
## Retrieves the first block in the current canonical chain
|
|
## with slot number less or equal to `slot`.
|
|
dag.head.atSlot(slot).blck
|
|
|
|
func getBlockByPreciseSlot*(dag: ChainDAGRef, slot: Slot): BlockRef =
|
|
## Retrieves a block from the canonical chain with a slot
|
|
## number equal to `slot`.
|
|
let found = dag.getBlockBySlot(slot)
|
|
if found.slot != slot: found else: nil
|
|
|
|
proc get*(dag: ChainDAGRef, blck: BlockRef): BlockData =
|
|
## Retrieve the associated block body of a block reference
|
|
doAssert (not blck.isNil), "Trying to get nil BlockRef"
|
|
|
|
let data = dag.db.getBlock(blck.root)
|
|
doAssert data.isSome, "BlockRef without backing data, database corrupt?"
|
|
|
|
BlockData(data: data.get(), refs: blck)
|
|
|
|
proc get*(dag: ChainDAGRef, root: Eth2Digest): Option[BlockData] =
|
|
## Retrieve a resolved block reference and its associated body, if available
|
|
let refs = dag.getRef(root)
|
|
|
|
if not refs.isNil:
|
|
some(dag.get(refs))
|
|
else:
|
|
none(BlockData)
|
|
|
|
proc advanceSlots(
|
|
dag: ChainDAGRef, state: var StateData, slot: Slot, save: bool,
|
|
cache: var StateCache) =
|
|
# Given a state, advance it zero or more slots by applying empty slot
|
|
# processing - the state must be positions at a slot before or equal to the
|
|
# target
|
|
doAssert state.data.data.slot <= slot
|
|
while state.data.data.slot < slot:
|
|
doAssert process_slots(
|
|
state.data, state.data.data.slot + 1, cache,
|
|
dag.updateFlags),
|
|
"process_slots shouldn't fail when state slot is correct"
|
|
if save:
|
|
dag.putState(state)
|
|
|
|
proc applyBlock(
|
|
dag: ChainDAGRef,
|
|
state: var StateData, blck: BlockData, flags: UpdateFlags,
|
|
cache: var StateCache): bool =
|
|
# Apply a single block to the state - the state must be positioned at the
|
|
# parent of the block with a slot lower than the one of the block being
|
|
# applied
|
|
doAssert state.blck == blck.refs.parent
|
|
|
|
var statePtr = unsafeAddr state # safe because `restore` is locally scoped
|
|
func restore(v: var HashedBeaconState) =
|
|
doAssert (addr(statePtr.data) == addr v)
|
|
statePtr[] = dag.headState
|
|
|
|
let ok = state_transition(
|
|
dag.runtimePreset, state.data, blck.data,
|
|
cache, flags + dag.updateFlags + {slotProcessed}, restore)
|
|
if ok:
|
|
state.blck = blck.refs
|
|
|
|
ok
|
|
|
|
proc updateStateData*(
|
|
dag: ChainDAGRef, state: var StateData, bs: BlockSlot, save: bool,
|
|
cache: var StateCache) =
|
|
## Rewind or advance state such that it matches the given block and slot -
|
|
## this may include replaying from an earlier snapshot if blck is on a
|
|
## different branch or has advanced to a higher slot number than slot
|
|
## If slot is higher than blck.slot, replay will fill in with empty/non-block
|
|
## slots, else it is ignored
|
|
|
|
# First, see if we're already at the requested block. If we are, also check
|
|
# that the state has not been advanced past the desired block - if it has,
|
|
# an earlier state must be loaded since there's no way to undo the slot
|
|
# transitions
|
|
|
|
var
|
|
ancestors: seq[BlockRef]
|
|
cur = bs
|
|
found = false
|
|
|
|
template canAdvance(state: StateData, bs: BlockSlot): bool =
|
|
# The block is the same and we're at an early enough slot - the state can
|
|
# be used to arrive at the desired blockslot
|
|
state.blck == bs.blck and state.data.data.slot <= bs.slot
|
|
|
|
# First, run a quick check if we can simply apply a few blocks to an in-memory
|
|
# state - any in-memory state will be faster than loading from database.
|
|
# The limit here how many blocks we apply is somewhat arbitrary but two full
|
|
# epochs (might be more slots if there are skips) seems like a good enough
|
|
# first guess.
|
|
# This happens in particular during startup where we replay blocks
|
|
# sequentially to grab their votes.
|
|
const RewindBlockThreshold = 64
|
|
while ancestors.len < RewindBlockThreshold:
|
|
if canAdvance(state, cur):
|
|
found = true
|
|
break
|
|
|
|
if canAdvance(dag.headState, cur):
|
|
assign(state, dag.headState)
|
|
found = true
|
|
break
|
|
|
|
if canAdvance(dag.clearanceState, cur):
|
|
assign(state, dag.clearanceState)
|
|
found = true
|
|
break
|
|
|
|
if cur.slot == cur.blck.slot:
|
|
# This is not an empty slot, so the block will need to be applied to
|
|
# eventually reach bs
|
|
ancestors.add(cur.blck)
|
|
|
|
if cur.blck.parent == nil:
|
|
break
|
|
|
|
# Moving slot by slot helps find states that were advanced with empty slots
|
|
cur = cur.parentOrSlot
|
|
|
|
# Let's see if we're within a few epochs of the state block - then we can
|
|
# simply replay blocks without loading the whole state
|
|
|
|
if not found:
|
|
debug "UpdateStateData cache miss",
|
|
bs, stateBlock = state.blck, stateSlot = state.data.data.slot
|
|
|
|
# Either the state is too new or was created by applying a different block.
|
|
# We'll now resort to loading the state from the database then reapplying
|
|
# blocks until we reach the desired point in time.
|
|
|
|
cur = bs
|
|
ancestors.setLen(0)
|
|
|
|
# Look for a state in the database and load it - as long as it cannot be
|
|
# found, keep track of the blocks that are needed to reach it from the
|
|
# state that eventually will be found
|
|
while not dag.getState(state, cur):
|
|
# There's no state saved for this particular BlockSlot combination, keep
|
|
# looking...
|
|
if cur.blck.parent != nil and
|
|
cur.blck.slot.epoch != epoch(cur.blck.parent.slot):
|
|
# We store the state of the parent block with the epoch processing applied
|
|
# in the database - we'll need to apply the block however!
|
|
ancestors.add(cur.blck)
|
|
cur = cur.blck.parent.atEpochStart(cur.blck.slot.epoch)
|
|
else:
|
|
if cur.slot == cur.blck.slot:
|
|
# This is not an empty slot, so the block will need to be applied to
|
|
# eventually reach bs
|
|
ancestors.add(cur.blck)
|
|
|
|
# Moves back slot by slot, in case a state for an empty slot was saved
|
|
cur = cur.parent
|
|
|
|
beacon_state_rewinds.inc()
|
|
|
|
let
|
|
startSlot {.used.} = state.data.data.slot # used in logs below
|
|
startRoot {.used.} = state.data.root
|
|
# Time to replay all the blocks between then and now
|
|
for i in countdown(ancestors.len - 1, 0):
|
|
# Because the ancestors are in the database, there's no need to persist them
|
|
# again. Also, because we're applying blocks that were loaded from the
|
|
# database, we can skip certain checks that have already been performed
|
|
# before adding the block to the database.
|
|
let ok =
|
|
dag.applyBlock(state, dag.get(ancestors[i]), {}, cache)
|
|
doAssert ok, "Blocks in database should never fail to apply.."
|
|
|
|
# ...and make sure to process empty slots as requested
|
|
dag.advanceSlots(state, bs.slot, save, cache)
|
|
|
|
trace "State updated",
|
|
blocks = ancestors.len,
|
|
slots = state.data.data.slot - startSlot,
|
|
stateRoot = shortLog(state.data.root),
|
|
stateSlot = state.data.data.slot,
|
|
startRoot = shortLog(startRoot),
|
|
startSlot,
|
|
blck = shortLog(bs),
|
|
found
|
|
|
|
proc delState(dag: ChainDAGRef, bs: BlockSlot) =
|
|
# Delete state state and mapping for a particular block+slot
|
|
if not bs.slot.isEpoch:
|
|
return # We only ever save epoch states
|
|
if (let root = dag.db.getStateRoot(bs.blck.root, bs.slot); root.isSome()):
|
|
dag.db.delState(root.get())
|
|
dag.db.delStateRoot(bs.blck.root, bs.slot)
|
|
|
|
proc updateHead*(
|
|
dag: ChainDAGRef, newHead: BlockRef, quarantine: var QuarantineRef) =
|
|
## Update what we consider to be the current head, as given by the fork
|
|
## choice.
|
|
## The choice of head affects the choice of finalization point - the order
|
|
## of operations naturally becomes important here - after updating the head,
|
|
## blocks that were once considered potential candidates for a tree will
|
|
## now fall from grace, or no longer be considered resolved.
|
|
doAssert not newHead.isNil()
|
|
doAssert not newHead.parent.isNil() or newHead.slot <= dag.tail.slot
|
|
logScope:
|
|
newHead = shortLog(newHead)
|
|
|
|
if dag.head == newHead:
|
|
trace "No head block update"
|
|
|
|
return
|
|
|
|
let
|
|
lastHead = dag.head
|
|
dag.db.putHeadBlock(newHead.root)
|
|
|
|
# Start off by making sure we have the right state - as a special case, we'll
|
|
# check the last block that was cleared by clearance - it might be just the
|
|
# thing we're looking for
|
|
|
|
if dag.clearanceState.blck == newHead and
|
|
dag.clearanceState.data.data.slot == newHead.slot:
|
|
assign(dag.headState, dag.clearanceState)
|
|
else:
|
|
var cache = getStateCache(newHead, newHead.slot.epoch())
|
|
updateStateData(
|
|
dag, dag.headState, newHead.atSlot(newHead.slot), false, cache)
|
|
|
|
dag.head = newHead
|
|
|
|
if not lastHead.isAncestorOf(newHead):
|
|
notice "Updated head block with chain reorg",
|
|
lastHead = shortLog(lastHead),
|
|
headParent = shortLog(newHead.parent),
|
|
stateRoot = shortLog(dag.headState.data.root),
|
|
headBlock = shortLog(dag.headState.blck),
|
|
stateSlot = shortLog(dag.headState.data.data.slot),
|
|
justified = shortLog(dag.headState.data.data.current_justified_checkpoint),
|
|
finalized = shortLog(dag.headState.data.data.finalized_checkpoint)
|
|
|
|
# A reasonable criterion for "reorganizations of the chain"
|
|
quarantine.clearQuarantine()
|
|
beacon_reorgs_total.inc()
|
|
else:
|
|
debug "Updated head block",
|
|
stateRoot = shortLog(dag.headState.data.root),
|
|
headBlock = shortLog(dag.headState.blck),
|
|
stateSlot = shortLog(dag.headState.data.data.slot),
|
|
justified = shortLog(dag.headState.data.data.current_justified_checkpoint),
|
|
finalized = shortLog(dag.headState.data.data.finalized_checkpoint)
|
|
let
|
|
finalizedHead = newHead.atEpochStart(
|
|
dag.headState.data.data.finalized_checkpoint.epoch)
|
|
|
|
# https://github.com/ethereum/eth2.0-metrics/blob/master/metrics.md#additional-metrics
|
|
if dag.headState.data.data.eth1_data.deposit_count < high(int64).uint64:
|
|
beacon_pending_deposits.set(
|
|
dag.headState.data.data.eth1_data.deposit_count.int64 -
|
|
dag.headState.data.data.eth1_deposit_index.int64)
|
|
beacon_processed_deposits_total.set(
|
|
dag.headState.data.data.eth1_deposit_index.int64)
|
|
|
|
doAssert (not finalizedHead.blck.isNil),
|
|
"Block graph should always lead to a finalized block"
|
|
|
|
if finalizedHead != dag.finalizedHead:
|
|
block: # Remove states, walking slot by slot
|
|
discard
|
|
var cur = finalizedHead
|
|
while cur != dag.finalizedHead:
|
|
# TODO This is a quick fix to prune some states from the database, but
|
|
# not all, pending a smarter storage - the downside of pruning these
|
|
# states is that certain rewinds will take longer
|
|
# After long periods of non-finalization, it can also take some time to
|
|
# release all these states!
|
|
if cur.slot.epoch mod 32 != 0 and cur.slot != dag.tail.slot:
|
|
dag.delState(cur)
|
|
cur = cur.parentOrSlot
|
|
|
|
block: # Clean up block refs, walking block by block
|
|
# Finalization means that we choose a single chain as the canonical one -
|
|
# it also means we're no longer interested in any branches from that chain
|
|
# up to the finalization point
|
|
let hlen = dag.heads.len
|
|
for i in 0..<hlen:
|
|
let n = hlen - i - 1
|
|
let head = dag.heads[n]
|
|
if finalizedHead.blck.isAncestorOf(head):
|
|
continue
|
|
|
|
var cur = head.atSlot(head.slot)
|
|
while not cur.blck.isAncestorOf(finalizedHead.blck):
|
|
# TODO there may be more empty states here: those that have a slot
|
|
# higher than head.slot and those near the branch point - one
|
|
# needs to be careful though because those close to the branch
|
|
# point should not necessarily be cleaned up
|
|
dag.delState(cur)
|
|
|
|
if cur.blck.slot == cur.slot:
|
|
dag.blocks.del(cur.blck.root)
|
|
dag.db.delBlock(cur.blck.root)
|
|
|
|
if cur.blck.parent.isNil:
|
|
break
|
|
cur = cur.parentOrSlot
|
|
|
|
dag.heads.del(n)
|
|
block: # Clean up old EpochRef instances
|
|
# After finalization, we can clear up the epoch cache and save memory -
|
|
# it will be recomputed if needed
|
|
# TODO don't store recomputed pre-finalization epoch refs
|
|
var tmp = finalizedHead.blck
|
|
while tmp != dag.finalizedHead.blck:
|
|
# leave the epoch cache in the last block of the epoch..
|
|
tmp = tmp.parent
|
|
tmp.epochRefs = @[]
|
|
|
|
dag.finalizedHead = finalizedHead
|
|
|
|
notice "Reached new finalization checkpoint",
|
|
finalizedHead = shortLog(finalizedHead),
|
|
heads = dag.heads.len
|
|
|
|
proc isInitialized*(T: type ChainDAGRef, db: BeaconChainDB): bool =
|
|
let
|
|
headBlockRoot = db.getHeadBlock()
|
|
tailBlockRoot = db.getTailBlock()
|
|
|
|
if not (headBlockRoot.isSome() and tailBlockRoot.isSome()):
|
|
return false
|
|
|
|
let
|
|
headBlock = db.getBlock(headBlockRoot.get())
|
|
tailBlock = db.getBlock(tailBlockRoot.get())
|
|
|
|
if not (headBlock.isSome() and tailBlock.isSome()):
|
|
return false
|
|
|
|
if not db.containsState(tailBlock.get().message.state_root):
|
|
return false
|
|
|
|
true
|
|
|
|
proc preInit*(
|
|
T: type ChainDAGRef, db: BeaconChainDB,
|
|
genesisState, tailState: BeaconState, tailBlock: SignedBeaconBlock) =
|
|
# write a genesis state, the way the ChainDAGRef expects it to be stored in
|
|
# database
|
|
# TODO probably should just init a block pool with the freshly written
|
|
# state - but there's more refactoring needed to make it nice - doing
|
|
# a minimal patch for now..
|
|
doAssert tailBlock.message.state_root == hash_tree_root(tailState)
|
|
notice "New database from snapshot",
|
|
blockRoot = shortLog(tailBlock.root),
|
|
stateRoot = shortLog(tailBlock.message.state_root),
|
|
fork = tailState.fork,
|
|
validators = tailState.validators.len()
|
|
|
|
db.putState(tailState)
|
|
db.putBlock(tailBlock)
|
|
db.putTailBlock(tailBlock.root)
|
|
db.putHeadBlock(tailBlock.root)
|
|
db.putStateRoot(tailBlock.root, tailState.slot, tailBlock.message.state_root)
|
|
|
|
if tailState.slot == GENESIS_SLOT:
|
|
db.putGenesisBlockRoot(tailBlock.root)
|
|
else:
|
|
doAssert genesisState.slot == GENESIS_SLOT
|
|
db.putState(genesisState)
|
|
let genesisBlock = get_initial_beacon_block(genesisState)
|
|
db.putBlock(genesisBlock)
|
|
db.putStateRoot(genesisBlock.root, GENESIS_SLOT, genesisBlock.message.state_root)
|
|
db.putGenesisBlockRoot(genesisBlock.root)
|
|
|
|
proc setTailState*(dag: ChainDAGRef,
|
|
checkpointState: BeaconState,
|
|
checkpointBlock: SignedBeaconBlock) =
|
|
# TODO
|
|
# Delete all records up to the tail node. If the tail node is not
|
|
# in the database, init the dabase in a way similar to `preInit`.
|
|
discard
|
|
|
|
proc getGenesisBlockData*(dag: ChainDAGRef): BlockData =
|
|
dag.get(dag.genesis)
|
|
|
|
proc getGenesisBlockSlot*(dag: ChainDAGRef): BlockSlot =
|
|
let blockData = dag.getGenesisBlockData()
|
|
BlockSlot(blck: blockData.refs, slot: GENESIS_SLOT)
|
|
|
|
proc getProposer*(
|
|
dag: ChainDAGRef, head: BlockRef, slot: Slot):
|
|
Option[(ValidatorIndex, ValidatorPubKey)] =
|
|
let
|
|
epochRef = dag.getEpochRef(head, slot.compute_epoch_at_slot())
|
|
slotInEpoch = slot - slot.compute_epoch_at_slot().compute_start_slot_at_epoch()
|
|
|
|
epochRef.beacon_proposers[slotInEpoch]
|