nimbus-eth2/beacon_chain/block_pool.nim

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import
bitops, chronicles, options, sequtils, tables,
ssz, beacon_chain_db, state_transition, extras,
beacon_node_types, metrics,
spec/[crypto, datatypes, digest, helpers]
declareCounter beacon_reorgs_total, "Total occurrences of reorganizations of the chain" # On fork choice
logScope: topics = "blkpool"
proc parent*(bs: BlockSlot): BlockSlot =
BlockSlot(
blck: if bs.slot > bs.blck.slot: bs.blck else: bs.blck.parent,
slot: bs.slot - 1
)
proc link(parent, child: BlockRef) =
doAssert (not (parent.root == Eth2Digest() or child.root == Eth2Digest())),
"blocks missing root!"
doAssert parent.root != child.root, "self-references not allowed"
child.parent = parent
parent.children.add(child)
proc init*(T: type BlockRef, root: Eth2Digest, slot: Slot): BlockRef =
BlockRef(
root: root,
slot: slot
)
proc init*(T: type BlockRef, root: Eth2Digest, blck: BeaconBlock): BlockRef =
BlockRef.init(root, blck.slot)
proc findAncestorBySlot*(blck: BlockRef, slot: Slot): BlockSlot =
## Find the first ancestor that has a slot number less than or equal to `slot`
assert(not blck.isNil)
var ret = blck
while ret.parent != nil and ret.slot > slot:
ret = ret.parent
BlockSlot(blck: ret, slot: slot)
proc init*(T: type BlockPool, db: BeaconChainDB): BlockPool =
# TODO we require that the db contains both a head and a tail block -
# asserting here doesn't seem like the right way to go about it however..
let
tailBlockRoot = db.getTailBlock()
headBlockRoot = db.getHeadBlock()
doAssert tailBlockRoot.isSome(), "Missing tail block, database corrupt?"
doAssert headBlockRoot.isSome(), "Missing head block, database corrupt?"
let
tailRoot = tailBlockRoot.get()
tailBlock = db.getBlock(tailRoot).get()
tailRef = BlockRef.init(tailRoot, tailBlock)
headRoot = headBlockRoot.get()
var
blocks = {tailRef.root: tailRef}.toTable()
latestStateRoot = Option[Eth2Digest]()
headRef: BlockRef
if headRoot != tailRoot:
var curRef: BlockRef
for root, blck in db.getAncestors(headRoot):
if root == tailRef.root:
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doAssert(not curRef.isNil)
link(tailRef, curRef)
curRef = curRef.parent
break
let newRef = BlockRef.init(root, blck)
if curRef == nil:
curRef = newRef
headRef = newRef
else:
link(newRef, curRef)
curRef = curRef.parent
blocks[curRef.root] = curRef
if latestStateRoot.isNone() and db.containsState(blck.state_root):
latestStateRoot = some(blck.state_root)
doAssert curRef == tailRef,
"head block does not lead to tail, database corrupt?"
else:
headRef = tailRef
var blocksBySlot = initTable[uint64, seq[BlockRef]]()
for _, b in tables.pairs(blocks):
let slot = db.getBlock(b.root).get().slot
blocksBySlot.mgetOrPut(slot.uint64, @[]).add(b)
let
# The head state is necessary to find out what we considered to be the
# finalized epoch last time we saved something.
headStateRoot =
if latestStateRoot.isSome():
latestStateRoot.get()
else:
db.getBlock(tailRef.root).get().state_root
# TODO right now, because we save a state at every epoch, this *should*
# be the latest justified state or newer, meaning it's enough for
# establishing what we consider to be the finalized head. This logic
# will need revisiting however
headState = db.getState(headStateRoot).get()
finalizedHead =
More 0.8.0 updates (#311) * replace BeaconState.finalized_{epoch,root} with BeaconState.finalized_checkpoint; rename get_delayed_activation_exit_epoch(...) to compute_activation_exit_epoch(...) and mark as 0.8.0; update get_churn_limit(...)/get_validator_churn_limit(...) to 0.8.0; update process_registry_updates(...) to 0.8.0 * update process_crosslinks(...) to 0.8.0; mark compute_start_slot_of_epoch(...) and get_committee_count(...) as 0.8.0 * mark Fork, is_slashable_validator(...), and get_beacon_proposer_index(...) as 0.8.0 * rename LATEST_SLASHED_EXIT_LENGTH to EPOCHS_PER_SLASHINGS_VECTOR; update process_slashings(...) to 0.8.0; remove pointless type conversion warning in get_previous_epoch(...) * convert remaining references to finalized_epoch to finalized_checkpoint.epoch * update slash_validator(...) to 0.8.0; mark inital value, Gwei, and time constants as 0.8.0; mark hash(...) and processBlockHeader(...) as 0.8.0 * rename WHISTLEBLOWING_REWARD_QUOTIENT to WHISTLEBLOWER_REWARD_QUOTIENT; rename LATEST_ACTIVE_INDEX_ROOTS_LENGTH to EPOCHS_PER_HISTORICAL_VECTOR (randao will also get merged into this); remove get_active_index_root(...); mark time parameter, signature domain types, and max operations per block constants as 0.8.0; update rewards and penalties constants to 0.8.0 * update is_valid_indexed_attestation(...) to 0.8.0; mark process_slot(...) as 0.8.0 * replace BeaconState.{current,previous}_justified_{epoch,root} with BeaconState.{current,previous}_justified_checkpoint
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headRef.findAncestorBySlot(
headState.finalized_checkpoint.epoch.compute_start_slot_of_epoch())
justifiedSlot =
headState.current_justified_checkpoint.epoch.compute_start_slot_of_epoch()
justifiedHead = headRef.findAncestorBySlot(justifiedSlot)
head = Head(blck: headRef, justified: justifiedHead)
doAssert justifiedHead.slot >= finalizedHead.slot,
"justified head comes before finalized head - database corrupt?"
BlockPool(
pending: initTable[Eth2Digest, BeaconBlock](),
missing: initTable[Eth2Digest, MissingBlock](),
blocks: blocks,
blocksBySlot: blocksBySlot,
tail: tailRef,
head: head,
finalizedHead: finalizedHead,
db: db,
heads: @[head]
)
proc addSlotMapping(pool: BlockPool, slot: uint64, br: BlockRef) =
proc addIfMissing(s: var seq[BlockRef], v: BlockRef) =
if v notin s:
s.add(v)
pool.blocksBySlot.mgetOrPut(slot, @[]).addIfMissing(br)
proc updateStateData*(
pool: BlockPool, state: var StateData, bs: BlockSlot) {.gcsafe.}
proc add*(
pool: var BlockPool, state: var StateData, blockRoot: Eth2Digest,
blck: BeaconBlock): BlockRef {.gcsafe.}
proc addResolvedBlock(
pool: var BlockPool, state: var StateData, blockRoot: Eth2Digest,
blck: BeaconBlock, parent: BlockRef): BlockRef =
logScope: pcs = "block_resolution"
let blockRef = BlockRef.init(blockRoot, blck)
link(parent, blockRef)
pool.blocks[blockRoot] = blockRef
pool.addSlotMapping(blck.slot.uint64, blockRef)
# Resolved blocks should be stored in database
pool.db.putBlock(blockRoot, blck)
# TODO this is a bit ugly - we update state.data outside of this function then
# set the rest here - need a blockRef to update it. Clean this up -
# hopefully it won't be necessary by the time hash caching and the rest
# is done..
doAssert state.data.data.slot == blockRef.slot
state.blck = blockRef
# This block *might* have caused a justification - make sure we stow away
# that information:
More 0.8.0 updates (#311) * replace BeaconState.finalized_{epoch,root} with BeaconState.finalized_checkpoint; rename get_delayed_activation_exit_epoch(...) to compute_activation_exit_epoch(...) and mark as 0.8.0; update get_churn_limit(...)/get_validator_churn_limit(...) to 0.8.0; update process_registry_updates(...) to 0.8.0 * update process_crosslinks(...) to 0.8.0; mark compute_start_slot_of_epoch(...) and get_committee_count(...) as 0.8.0 * mark Fork, is_slashable_validator(...), and get_beacon_proposer_index(...) as 0.8.0 * rename LATEST_SLASHED_EXIT_LENGTH to EPOCHS_PER_SLASHINGS_VECTOR; update process_slashings(...) to 0.8.0; remove pointless type conversion warning in get_previous_epoch(...) * convert remaining references to finalized_epoch to finalized_checkpoint.epoch * update slash_validator(...) to 0.8.0; mark inital value, Gwei, and time constants as 0.8.0; mark hash(...) and processBlockHeader(...) as 0.8.0 * rename WHISTLEBLOWING_REWARD_QUOTIENT to WHISTLEBLOWER_REWARD_QUOTIENT; rename LATEST_ACTIVE_INDEX_ROOTS_LENGTH to EPOCHS_PER_HISTORICAL_VECTOR (randao will also get merged into this); remove get_active_index_root(...); mark time parameter, signature domain types, and max operations per block constants as 0.8.0; update rewards and penalties constants to 0.8.0 * update is_valid_indexed_attestation(...) to 0.8.0; mark process_slot(...) as 0.8.0 * replace BeaconState.{current,previous}_justified_{epoch,root} with BeaconState.{current,previous}_justified_checkpoint
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let justifiedSlot =
state.data.data.current_justified_checkpoint.epoch.compute_start_slot_of_epoch()
var foundHead: Option[Head]
for head in pool.heads.mitems():
if head.blck.root == blck.parent_root:
if head.justified.slot != justifiedSlot:
head.justified = blockRef.findAncestorBySlot(justifiedSlot)
foundHead = some(head)
break
if foundHead.isNone():
foundHead = some(Head(
blck: blockRef,
justified: blockRef.findAncestorBySlot(justifiedSlot)))
pool.heads.add(foundHead.get())
info "Block resolved",
blck = shortLog(blck),
blockRoot = shortLog(blockRoot),
justifiedRoot = shortLog(foundHead.get().justified.blck.root),
justifiedSlot = shortLog(foundHead.get().justified.slot),
cat = "filtering"
# Now that we have the new block, we should see if any of the previously
# unresolved blocks magically become resolved
# TODO there are more efficient ways of doing this that don't risk
# running out of stack etc
let retries = pool.pending
for k, v in retries:
discard pool.add(state, k, v)
blockRef
proc add*(
pool: var BlockPool, state: var StateData, blockRoot: Eth2Digest,
blck: BeaconBlock): BlockRef {.gcsafe.} =
## return the block, if resolved...
## the state parameter may be updated to include the given block, if
## everything checks out
# TODO reevaluate passing the state in like this
doAssert blockRoot == signing_root(blck)
logScope: pcs = "block_addition"
# Already seen this block??
if blockRoot in pool.blocks:
debug "Block already exists",
blck = shortLog(blck),
blockRoot = shortLog(blockRoot),
cat = "filtering"
return pool.blocks[blockRoot]
pool.missing.del(blockRoot)
# If the block we get is older than what we finalized already, we drop it.
# One way this can happen is that we start resolving a block and finalization
# happens in the meantime - the block we requested will then be stale
# by the time it gets here.
if blck.slot <= pool.finalizedHead.slot:
debug "Old block, dropping",
blck = shortLog(blck),
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tailSlot = shortLog(pool.tail.slot),
blockRoot = shortLog(blockRoot),
cat = "filtering"
return
let parent = pool.blocks.getOrDefault(blck.parent_root)
if parent != nil:
# The block might have been in either of these - we don't want any more
# work done on its behalf
pool.pending.del(blockRoot)
# The block is resolved, now it's time to validate it to ensure that the
# blocks we add to the database are clean for the given state
# TODO if the block is from the future, we should not be resolving it (yet),
# but maybe we should use it as a hint that our clock is wrong?
updateStateData(pool, state, BlockSlot(blck: parent, slot: blck.slot - 1))
if not state_transition(state.data, blck, {}):
# TODO find a better way to log all this block data
notice "Invalid block",
blck = shortLog(blck),
blockRoot = shortLog(blockRoot),
cat = "filtering"
return
return pool.addResolvedBlock(state, blockRoot, blck, parent)
pool.pending[blockRoot] = blck
# TODO possibly, it makes sense to check the database - that would allow sync
# to simply fill up the database with random blocks the other clients
# think are useful - but, it would also risk filling the database with
# junk that's not part of the block graph
if blck.parent_root in pool.missing or
blck.parent_root in pool.pending:
return
# This is an unresolved block - put its parent on the missing list for now...
# TODO if we receive spam blocks, one heurestic to implement might be to wait
# for a couple of attestations to appear before fetching parents - this
# would help prevent using up network resources for spam - this serves
# two purposes: one is that attestations are likely to appear for the
# block only if it's valid / not spam - the other is that malicious
# validators that are not proposers can sign invalid blocks and send
# them out without penalty - but signing invalid attestations carries
# a risk of being slashed, making attestations a more valuable spam
# filter.
# TODO when we receive the block, we don't know how many others we're missing
# from that branch, so right now, we'll just do a blind guess
debug "Unresolved block (parent missing)",
blck = shortLog(blck),
blockRoot = shortLog(blockRoot),
cat = "filtering"
let parentSlot = blck.slot - 1
pool.missing[blck.parent_root] = MissingBlock(
slots:
# The block is at least two slots ahead - try to grab whole history
if parentSlot > pool.head.blck.slot:
parentSlot - pool.head.blck.slot
else:
# It's a sibling block from a branch that we're missing - fetch one
# epoch at a time
max(1.uint64, SLOTS_PER_EPOCH.uint64 -
(parentSlot.uint64 mod SLOTS_PER_EPOCH.uint64))
)
proc getRef*(pool: BlockPool, root: Eth2Digest): BlockRef =
## Retrieve a resolved block reference, if available
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pool.blocks.getOrDefault(root)
proc getBlockRange*(pool: BlockPool, headBlock: Eth2Digest,
startSlot: Slot, skipStep: Natural,
output: var openarray[BlockRef]): Natural =
## This function populates an `output` buffer of blocks
## with a range starting from `startSlot` and skipping
## every `skipTest` number of blocks.
##
## Please note that the function may not necessarily
## populate the entire buffer. The values will be written
## in a way such that the last block is placed at the end
## of the buffer while the first indices of the buffer
## may remain unwritten.
##
## The result value of the function will be the index of
## the first block in the resulting buffer. If no values
## were written to the buffer, the result will be equal to
## `buffer.len`. In other words, you can use the function
## like this:
##
## var buffer: array[N, BlockRef]
## let startPos = pool.getBlockRange(headBlock, startSlot, skipStep, buffer)
## for i in startPos ..< buffer.len:
## echo buffer[i].slot
##
result = output.len
var b = pool.getRef(headBlock)
if b == nil or b.slot < startSlot:
return
template skip(n: int) =
for i in 0 ..< n:
b = b.parent
if b == nil: return
# We must compute the last block that is eligible for inclusion
# in the results. This will be a block with a slot number that's
# aligned to the stride of the requested block range, so we first
# compute the steps needed to get to an aligned position:
var blocksToSkip = b.slot.int mod skipStep
let alignedHeadSlot = b.slot.int - blocksToSkip
# Then we see if this aligned position is within our wanted
# range. If it's outside it, we must skip more blocks:
let lastWantedSlot = startSlot.int + output.len * skipStep
if alignedHeadSlot > lastWantedSlot:
blocksToSkip += (alignedHeadSlot - lastWantedSlot)
# Finally, we skip the computed number of blocks
skip blocksToSkip
# From here, we can just write out the requested block range:
while b != nil and result > 0:
dec result
output[result] = b
skip skipStep
proc get*(pool: BlockPool, blck: BlockRef): BlockData =
## Retrieve the associated block body of a block reference
doAssert (not blck.isNil), "Trying to get nil BlockRef"
let data = pool.db.getBlock(blck.root)
doAssert data.isSome, "BlockRef without backing data, database corrupt?"
BlockData(data: data.get(), refs: blck)
proc get*(pool: BlockPool, root: Eth2Digest): Option[BlockData] =
## Retrieve a resolved block reference and its associated body, if available
let refs = pool.getRef(root)
if not refs.isNil:
some(pool.get(refs))
else:
none(BlockData)
proc getOrResolve*(pool: var BlockPool, root: Eth2Digest): BlockRef =
## Fetch a block ref, or nil if not found (will be added to list of
## blocks-to-resolve)
result = pool.getRef(root)
if result.isNil:
pool.missing[root] = MissingBlock(slots: 1)
iterator blockRootsForSlot*(pool: BlockPool, slot: uint64|Slot): Eth2Digest =
for br in pool.blocksBySlot.getOrDefault(slot.uint64, @[]):
yield br.root
proc checkMissing*(pool: var BlockPool): seq[FetchRecord] =
## Return a list of blocks that we should try to resolve from other client -
## to be called periodically but not too often (once per slot?)
var done: seq[Eth2Digest]
for k, v in pool.missing.mpairs():
if v.tries > 8:
done.add(k)
else:
inc v.tries
for k in done:
# TODO Need to potentially remove from pool.pending - this is currently a
# memory leak here!
pool.missing.del(k)
# simple (simplistic?) exponential backoff for retries..
for k, v in pool.missing.pairs():
if v.tries.popcount() == 1:
result.add(FetchRecord(root: k, historySlots: v.slots))
proc skipAndUpdateState(
state: var HashedBeaconState, blck: BeaconBlock, flags: UpdateFlags,
afterUpdate: proc (state: HashedBeaconState)): bool =
process_slots(state, blck.slot - 1)
afterUpdate(state)
let ok = state_transition(state, blck, flags)
afterUpdate(state)
ok
proc maybePutState(pool: BlockPool, state: HashedBeaconState, blck: BlockRef) =
# TODO we save state at every epoch start but never remove them - we also
# potentially save multiple states per slot if reorgs happen, meaning
# we could easily see a state explosion
# TODO this is out of sync with epoch def now, I think -- (slot + 1) mod foo.
logScope: pcs = "save_state_at_epoch_start"
if state.data.slot mod SLOTS_PER_EPOCH == 0:
if not pool.db.containsState(state.root):
info "Storing state",
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stateSlot = shortLog(state.data.slot),
stateRoot = shortLog(state.root),
cat = "caching"
pool.db.putState(state.root, state.data)
# TODO this should be atomic with the above write..
pool.db.putStateRoot(blck.root, state.data.slot, state.root)
proc rewindState(pool: BlockPool, state: var StateData, bs: BlockSlot):
seq[BlockData] =
logScope: pcs = "replay_state"
var ancestors = @[pool.get(bs.blck)]
# Common case: the last block applied is the parent of the block to apply:
if not bs.blck.parent.isNil and state.blck.root == bs.blck.parent.root and
state.data.data.slot < bs.slot:
return ancestors
# It appears that the parent root of the proposed new block is different from
# what we expected. We will have to rewind the state to a point along the
# chain of ancestors of the new block. We will do this by loading each
# successive parent block and checking if we can find the corresponding state
# in the database.
var
stateRoot = pool.db.getStateRoot(bs.blck.root, bs.slot)
curBs = bs
while stateRoot.isNone():
let parBs = curBs.parent()
if parBs.blck.isNil:
break # Bug probably!
if parBs.blck != curBs.blck:
ancestors.add(pool.get(parBs.blck))
if (let tmp = pool.db.getStateRoot(parBs.blck.root, parBs.slot); tmp.isSome()):
if pool.db.containsState(tmp.get):
stateRoot = tmp
break
curBs = parBs
if stateRoot.isNone():
# TODO this should only happen if the database is corrupt - we walked the
# list of parent blocks and couldn't find a corresponding state in the
# database, which should never happen (at least we should have the
# tail state in there!)
error "Couldn't find ancestor state root!",
blockRoot = shortLog(bs.blck.root),
cat = "crash"
doAssert false, "Oh noes, we passed big bang!"
let
ancestor = ancestors[^1]
ancestorState = pool.db.getState(stateRoot.get())
if ancestorState.isNone():
# TODO this should only happen if the database is corrupt - we walked the
# list of parent blocks and couldn't find a corresponding state in the
# database, which should never happen (at least we should have the
# tail state in there!)
error "Couldn't find ancestor state or block parent missing!",
blockRoot = shortLog(bs.blck.root),
cat = "crash"
doAssert false, "Oh noes, we passed big bang!"
trace "Replaying state transitions",
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stateSlot = shortLog(state.data.data.slot),
ancestorStateRoot = shortLog(ancestor.data.state_root),
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ancestorStateSlot = shortLog(ancestorState.get().slot),
slot = shortLog(bs.slot),
blockRoot = shortLog(bs.blck.root),
ancestors = ancestors.len,
cat = "replay_state"
state.data.data = ancestorState.get()
state.data.root = stateRoot.get()
state.blck = ancestor.refs
ancestors
proc updateStateData*(pool: BlockPool, state: var StateData, bs: BlockSlot) =
## 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
# We need to check the slot because the state might have moved forwards
# without blocks
if state.blck.root == bs.blck.root and state.data.data.slot <= bs.slot:
if state.data.data.slot != bs.slot:
# Might be that we're moving to the same block but later slot
process_slots(state.data, bs.slot)
pool.maybePutState(state.data, bs.blck)
return # State already at the right spot
let ancestors = rewindState(pool, state, bs)
# If we come this far, we found the state root. The last block on the stack
# is the one that produced this particular state, so we can pop it
# TODO it might be possible to use the latest block hashes from the state to
# do this more efficiently.. whatever!
# Time to replay all the blocks between then and now. We skip one because
# it's the one that we found the state with, and it has already been
# applied
for i in countdown(ancestors.len - 2, 0):
let ok =
skipAndUpdateState(state.data, ancestors[i].data, {skipValidation}) do(
state: HashedBeaconState):
pool.maybePutState(state, ancestors[i].refs)
doAssert ok, "Blocks in database should never fail to apply.."
# TODO check if this triggers rest of state transition, or should
process_slots(state.data, bs.slot)
pool.maybePutState(state.data, bs.blck)
state.blck = bs.blck
proc loadTailState*(pool: BlockPool): StateData =
## Load the state associated with the current tail in the pool
let stateRoot = pool.db.getBlock(pool.tail.root).get().state_root
StateData(
data: HashedBeaconState(
data: pool.db.getState(stateRoot).get(),
root: stateRoot),
blck: pool.tail
)
func isAncestorOf*(a, b: BlockRef): bool =
if a == b:
true
elif a.slot >= b.slot or b.parent.isNil:
false
else:
a.isAncestorOf(b.parent)
proc updateHead*(pool: BlockPool, state: var StateData, blck: BlockRef) =
## 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.
logScope: pcs = "fork_choice"
if pool.head.blck == blck:
info "No head block update",
headBlockRoot = shortLog(blck.root),
headBlockSlot = shortLog(blck.slot),
cat = "fork_choice"
return
let
lastHead = pool.head
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pool.db.putHeadBlock(blck.root)
# Start off by making sure we have the right state
updateStateData(pool, state, BlockSlot(blck: blck, slot: blck.slot))
let justifiedSlot = state.data.data
.current_justified_checkpoint
.epoch
.compute_start_slot_of_epoch()
pool.head = Head(blck: blck, justified: blck.findAncestorBySlot(justifiedSlot))
if lastHead.blck != blck.parent:
info "Updated No head block (new parent)",
lastHeadRoot = shortLog(lastHead.blck.root),
parentRoot = shortLog(blck.parent.root),
stateRoot = shortLog(state.data.root),
headBlockRoot = shortLog(state.blck.root),
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stateSlot = shortLog(state.data.data.slot),
justifiedEpoch = shortLog(state.data.data.current_justified_checkpoint.epoch),
finalizedEpoch = shortLog(state.data.data.finalized_checkpoint.epoch),
cat = "fork_choice"
# A reasonable criterion for "reorganizations of the chain"
# TODO if multiple heads have gotten skipped, could fire at
# spurious times
beacon_reorgs_total.inc()
else:
info "Updated No head block",
stateRoot = shortLog(state.data.root),
headBlockRoot = shortLog(state.blck.root),
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stateSlot = shortLog(state.data.data.slot),
justifiedEpoch = shortLog(state.data.data.current_justified_checkpoint.epoch),
finalizedEpoch = shortLog(state.data.data.finalized_checkpoint.epoch),
cat = "fork_choice"
let
# TODO there might not be a block at the epoch boundary - what then?
finalizedHead =
More 0.8.0 updates (#311) * replace BeaconState.finalized_{epoch,root} with BeaconState.finalized_checkpoint; rename get_delayed_activation_exit_epoch(...) to compute_activation_exit_epoch(...) and mark as 0.8.0; update get_churn_limit(...)/get_validator_churn_limit(...) to 0.8.0; update process_registry_updates(...) to 0.8.0 * update process_crosslinks(...) to 0.8.0; mark compute_start_slot_of_epoch(...) and get_committee_count(...) as 0.8.0 * mark Fork, is_slashable_validator(...), and get_beacon_proposer_index(...) as 0.8.0 * rename LATEST_SLASHED_EXIT_LENGTH to EPOCHS_PER_SLASHINGS_VECTOR; update process_slashings(...) to 0.8.0; remove pointless type conversion warning in get_previous_epoch(...) * convert remaining references to finalized_epoch to finalized_checkpoint.epoch * update slash_validator(...) to 0.8.0; mark inital value, Gwei, and time constants as 0.8.0; mark hash(...) and processBlockHeader(...) as 0.8.0 * rename WHISTLEBLOWING_REWARD_QUOTIENT to WHISTLEBLOWER_REWARD_QUOTIENT; rename LATEST_ACTIVE_INDEX_ROOTS_LENGTH to EPOCHS_PER_HISTORICAL_VECTOR (randao will also get merged into this); remove get_active_index_root(...); mark time parameter, signature domain types, and max operations per block constants as 0.8.0; update rewards and penalties constants to 0.8.0 * update is_valid_indexed_attestation(...) to 0.8.0; mark process_slot(...) as 0.8.0 * replace BeaconState.{current,previous}_justified_{epoch,root} with BeaconState.{current,previous}_justified_checkpoint
2019-07-05 08:30:05 +00:00
blck.findAncestorBySlot(
state.data.data.finalized_checkpoint.epoch.compute_start_slot_of_epoch())
doAssert (not finalizedHead.blck.isNil),
"Block graph should always lead to a finalized block"
if finalizedHead != pool.finalizedHead:
info "Finalized block",
finalizedBlockRoot = shortLog(finalizedHead.blck.root),
2019-08-15 16:01:55 +00:00
finalizedBlockSlot = shortLog(finalizedHead.slot),
headBlockRoot = shortLog(blck.root),
headBlockSlot = shortLog(blck.slot),
cat = "fork_choice"
var cur = finalizedHead.blck
while cur != pool.finalizedHead.blck:
# 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
# TODO technically, if we remove from children the gc should free the block
# because it should become orphaned, via mark&sweep if nothing else,
# though this needs verification
# TODO what about attestations? we need to drop those too, though they
# *should* be pretty harmless
# TODO remove from database as well.. here, or using some GC-like setup
# that periodically cleans it up?
for child in cur.parent.children:
if child != cur:
pool.blocks.del(child.root)
cur.parent.children = @[cur]
cur = cur.parent
pool.finalizedHead = finalizedHead
let hlen = pool.heads.len
for i in 0..<hlen:
let n = hlen - i - 1
if pool.heads[n].blck.slot < pool.finalizedHead.blck.slot and
not pool.heads[n].blck.isAncestorOf(pool.finalizedHead.blck):
pool.heads.del(n)
proc latestJustifiedBlock*(pool: BlockPool): BlockSlot =
## Return the most recent block that is justified and at least as recent
## as the latest finalized block
doAssert pool.heads.len > 0,
"We should have at least the genesis block in heaads"
doAssert (not pool.head.blck.isNil()),
"Genesis block will be head, if nothing else"
# Prefer stability: use justified block from current head to break ties!
result = pool.head.justified
for head in pool.heads[1 ..< ^0]:
if head.justified.slot > result.slot:
result = head.justified
proc preInit*(
T: type BlockPool, db: BeaconChainDB, state: BeaconState, blck: BeaconBlock) =
# write a genesis state, the way the BlockPool expects it to be stored in
# database
# TODO probably should just init a blockpool with the freshly written
# state - but there's more refactoring needed to make it nice - doing
# a minimal patch for now..
let
blockRoot = signing_root(blck)
notice "New database from snapshot",
blockRoot = shortLog(blockRoot),
stateRoot = shortLog(blck.state_root),
fork = state.fork,
validators = state.validators.len(),
cat = "initialization"
db.putState(state)
db.putBlock(blck)
db.putTailBlock(blockRoot)
db.putHeadBlock(blockRoot)
db.putStateRoot(blockRoot, blck.slot, blck.state_root)