This document provides helper functions to enable full nodes to serve light client data. Full nodes SHOULD implement the described functionality to enable light clients to sync with the network.
This function return the Merkle proof of the given SSZ object object at generalized index index.
def compute_merkle_proof(object: SSZObject,
index: GeneralizedIndex) -> Sequence[Bytes32]:
...def block_to_light_client_header(block: SignedBeaconBlock) -> LightClientHeader:
return LightClientHeader(
beacon=BeaconBlockHeader(
slot=block.message.slot,
proposer_index=block.message.proposer_index,
parent_root=block.message.parent_root,
state_root=block.message.state_root,
body_root=hash_tree_root(block.message.body),
),
)Full nodes are expected to derive light client data from historic blocks and states and provide it to other clients.
To form a LightClientBootstrap, the following objects are needed:
state: the post state of any post-Altair blockblock: the corresponding block
def create_light_client_bootstrap(state: BeaconState,
block: SignedBeaconBlock) -> LightClientBootstrap:
assert compute_epoch_at_slot(state.slot) >= ALTAIR_FORK_EPOCH
assert state.slot == state.latest_block_header.slot
header = state.latest_block_header.copy()
header.state_root = hash_tree_root(state)
assert hash_tree_root(header) == hash_tree_root(block.message)
return LightClientBootstrap(
header=block_to_light_client_header(block),
current_sync_committee=state.current_sync_committee,
current_sync_committee_branch=CurrentSyncCommitteeBranch(
compute_merkle_proof(state, current_sync_committee_gindex_at_slot(state.slot))),
)Full nodes SHOULD provide LightClientBootstrap for all finalized epoch boundary blocks in the epoch range [max(ALTAIR_FORK_EPOCH, current_epoch - MIN_EPOCHS_FOR_BLOCK_REQUESTS), current_epoch] where current_epoch is defined by the current wall-clock time. Full nodes MAY also provide LightClientBootstrap for other blocks.
Blocks are considered to be epoch boundary blocks if their block root can occur as part of a valid Checkpoint, i.e., if their slot is the initial slot of an epoch, or if all following slots through the initial slot of the next epoch are empty (no block proposed / orphaned).
LightClientBootstrap is computed from the block's immediate post state (without applying empty slots).
To form a LightClientUpdate, the following historical states and blocks are needed:
state: the post state of any block with a post-Altair parent blockblock: the corresponding blockattested_state: the post state ofattested_blockattested_block: the block referred to byblock.parent_rootfinalized_block: the block referred to byattested_state.finalized_checkpoint.root, if locally available (may be unavailable, e.g., when using checkpoint sync, or if it was pruned locally)
def create_light_client_update(state: BeaconState,
block: SignedBeaconBlock,
attested_state: BeaconState,
attested_block: SignedBeaconBlock,
finalized_block: Optional[SignedBeaconBlock]) -> LightClientUpdate:
assert compute_epoch_at_slot(attested_state.slot) >= ALTAIR_FORK_EPOCH
assert sum(block.message.body.sync_aggregate.sync_committee_bits) >= MIN_SYNC_COMMITTEE_PARTICIPANTS
assert state.slot == state.latest_block_header.slot
header = state.latest_block_header.copy()
header.state_root = hash_tree_root(state)
assert hash_tree_root(header) == hash_tree_root(block.message)
update_signature_period = compute_sync_committee_period_at_slot(block.message.slot)
assert attested_state.slot == attested_state.latest_block_header.slot
attested_header = attested_state.latest_block_header.copy()
attested_header.state_root = hash_tree_root(attested_state)
assert hash_tree_root(attested_header) == hash_tree_root(attested_block.message) == block.message.parent_root
update_attested_period = compute_sync_committee_period_at_slot(attested_block.message.slot)
update = LightClientUpdate()
update.attested_header = block_to_light_client_header(attested_block)
# `next_sync_committee` is only useful if the message is signed by the current sync committee
if update_attested_period == update_signature_period:
update.next_sync_committee = attested_state.next_sync_committee
update.next_sync_committee_branch = NextSyncCommitteeBranch(
compute_merkle_proof(attested_state, next_sync_committee_gindex_at_slot(attested_state.slot)))
# Indicate finality whenever possible
if finalized_block is not None:
if finalized_block.message.slot != GENESIS_SLOT:
update.finalized_header = block_to_light_client_header(finalized_block)
assert hash_tree_root(update.finalized_header.beacon) == attested_state.finalized_checkpoint.root
else:
assert attested_state.finalized_checkpoint.root == Bytes32()
update.finality_branch = FinalityBranch(
compute_merkle_proof(attested_state, finalized_root_gindex_at_slot(attested_state.slot)))
update.sync_aggregate = block.message.body.sync_aggregate
update.signature_slot = block.message.slot
return updateFull nodes SHOULD provide the best derivable LightClientUpdate (according to is_better_update) for each sync committee period covering any epochs in range [max(ALTAIR_FORK_EPOCH, current_epoch - MIN_EPOCHS_FOR_BLOCK_REQUESTS), current_epoch] where current_epoch is defined by the current wall-clock time. Full nodes MAY also provide LightClientUpdate for other sync committee periods.
LightClientUpdateare assigned to sync committee periods based on theirattested_header.beacon.slotLightClientUpdateare only considered ifcompute_sync_committee_period_at_slot(update.attested_header.beacon.slot) == compute_sync_committee_period_at_slot(update.signature_slot)- Only
LightClientUpdatewithsync_aggregatefrom blocks on the canonical chain as selected by fork choice are considered, regardless of ranking byis_better_update.LightClientUpdatereferring to orphaned blocks SHOULD NOT be provided.
def create_light_client_finality_update(update: LightClientUpdate) -> LightClientFinalityUpdate:
return LightClientFinalityUpdate(
attested_header=update.attested_header,
finalized_header=update.finalized_header,
finality_branch=update.finality_branch,
sync_aggregate=update.sync_aggregate,
signature_slot=update.signature_slot,
)Full nodes SHOULD provide the LightClientFinalityUpdate with the highest attested_header.beacon.slot (if multiple, highest signature_slot) as selected by fork choice, and SHOULD support a push mechanism to deliver new LightClientFinalityUpdate whenever finalized_header changes. If that LightClientFinalityUpdate does not have supermajority (> 2/3) sync committee participation, a second LightClientFinalityUpdate SHOULD be delivered for the same finalized_header once supermajority participation is obtained.
def create_light_client_optimistic_update(update: LightClientUpdate) -> LightClientOptimisticUpdate:
return LightClientOptimisticUpdate(
attested_header=update.attested_header,
sync_aggregate=update.sync_aggregate,
signature_slot=update.signature_slot,
)Full nodes SHOULD provide the LightClientOptimisticUpdate with the highest attested_header.beacon.slot (if multiple, highest signature_slot) as selected by fork choice, and SHOULD support a push mechanism to deliver new LightClientOptimisticUpdate whenever attested_header changes.