Notice: This document is a work-in-progress for researchers and implementers.
- Introduction
- Constants
- Preset
- Configuration
- Containers
- Helper functions
- Beacon chain state transition function
Electra is a consensus-layer upgrade containing a number of features. Including:
- EIP-6110: Supply validator deposits on chain
- EIP-7002: Execution layer triggerable exits
- EIP-7251: Increase the MAX_EFFECTIVE_BALANCE
- EIP-7549: Move committee index outside Attestation
- EIP-7691: Blob throughput increase
Note: This specification is built upon Deneb and is under active development.
The following values are (non-configurable) constants used throughout the specification.
Name | Value | Description |
---|---|---|
UNSET_DEPOSIT_REQUESTS_START_INDEX |
uint64(2**64 - 1) |
[New in Electra:EIP6110] Value which indicates no start index has been assigned |
FULL_EXIT_REQUEST_AMOUNT |
uint64(0) |
[New in Electra:EIP7002] Withdrawal amount used to signal a full validator exit |
Name | Value | Description |
---|---|---|
COMPOUNDING_WITHDRAWAL_PREFIX |
Bytes1('0x02') |
[New in Electra:EIP7251] Withdrawal credential prefix for a compounding validator |
Name | Value |
---|---|
DEPOSIT_REQUEST_TYPE |
Bytes1('0x00') |
WITHDRAWAL_REQUEST_TYPE |
Bytes1('0x01') |
CONSOLIDATION_REQUEST_TYPE |
Bytes1('0x02') |
Name | Value | Description |
---|---|---|
MIN_ACTIVATION_BALANCE |
Gwei(2**5 * 10**9) (= 32,000,000,000) |
[New in Electra:EIP7251] Minimum balance for a validator to become active |
MAX_EFFECTIVE_BALANCE_ELECTRA |
Gwei(2**11 * 10**9) (= 2048,000,000,000) |
[New in Electra:EIP7251] Maximum effective balance for a compounding validator |
Name | Value |
---|---|
MIN_SLASHING_PENALTY_QUOTIENT_ELECTRA |
uint64(2**12) (= 4,096) |
WHISTLEBLOWER_REWARD_QUOTIENT_ELECTRA |
uint64(2**12) (= 4,096) |
Name | Value | Unit |
---|---|---|
PENDING_DEPOSITS_LIMIT |
uint64(2**27) (= 134,217,728) |
pending deposits |
PENDING_PARTIAL_WITHDRAWALS_LIMIT |
uint64(2**27) (= 134,217,728) |
pending partial withdrawals |
PENDING_CONSOLIDATIONS_LIMIT |
uint64(2**18) (= 262,144) |
pending consolidations |
Name | Value |
---|---|
MAX_ATTESTER_SLASHINGS_ELECTRA |
2**0 (= 1) |
MAX_ATTESTATIONS_ELECTRA |
2**3 (= 8) |
Name | Value | Description |
---|---|---|
MAX_DEPOSIT_REQUESTS_PER_PAYLOAD |
uint64(2**13) (= 8,192) |
[New in Electra:EIP6110] Maximum number of execution layer deposit requests in each payload |
MAX_WITHDRAWAL_REQUESTS_PER_PAYLOAD |
uint64(2**4) (= 16) |
[New in Electra:EIP7002] Maximum number of execution layer withdrawal requests in each payload |
MAX_CONSOLIDATION_REQUESTS_PER_PAYLOAD |
uint64(2**1) (= 2) |
[New in Electra:EIP7251] Maximum number of execution layer consolidation requests in each payload |
Name | Value | Description |
---|---|---|
MAX_PENDING_PARTIALS_PER_WITHDRAWALS_SWEEP |
uint64(2**3) (= 8) |
[New in Electra:EIP7002] Maximum number of pending partial withdrawals to process per payload |
Name | Value | Description |
---|---|---|
MAX_PENDING_DEPOSITS_PER_EPOCH |
uint64(2**4) (= 16) |
[New in Electra:EIP6110] Maximum number of pending deposits to process per epoch |
Name | Value | Description |
---|---|---|
MAX_BLOBS_PER_BLOCK_ELECTRA |
uint64(9) |
[New in Electra:EIP7691] Maximum number of blobs in a single block limited by MAX_BLOB_COMMITMENTS_PER_BLOCK |
Name | Value |
---|---|
MIN_PER_EPOCH_CHURN_LIMIT_ELECTRA |
Gwei(2**7 * 10**9) (= 128,000,000,000) |
MAX_PER_EPOCH_ACTIVATION_EXIT_CHURN_LIMIT |
Gwei(2**8 * 10**9) (= 256,000,000,000) |
Note: The container is new in EIP7251.
class PendingDeposit(Container):
pubkey: BLSPubkey
withdrawal_credentials: Bytes32
amount: Gwei
signature: BLSSignature
slot: Slot
Note: The container is new in EIP7251.
class PendingPartialWithdrawal(Container):
validator_index: ValidatorIndex
amount: Gwei
withdrawable_epoch: Epoch
Note: The container is new in EIP7251.
class PendingConsolidation(Container):
source_index: ValidatorIndex
target_index: ValidatorIndex
Note: The container is new in EIP6110.
class DepositRequest(Container):
pubkey: BLSPubkey
withdrawal_credentials: Bytes32
amount: Gwei
signature: BLSSignature
index: uint64
Note: The container is new in EIP7251:EIP7002.
class WithdrawalRequest(Container):
source_address: ExecutionAddress
validator_pubkey: BLSPubkey
amount: Gwei
Note: The container is new in EIP7251.
class ConsolidationRequest(Container):
source_address: ExecutionAddress
source_pubkey: BLSPubkey
target_pubkey: BLSPubkey
Note: This container holds requests from the execution layer that are received in
ExecutionPayloadV4
via
the Engine API. These requests are required for CL state transition (see BeaconBlockBody
).
class ExecutionRequests(Container):
deposits: List[DepositRequest, MAX_DEPOSIT_REQUESTS_PER_PAYLOAD] # [New in Electra:EIP6110]
withdrawals: List[WithdrawalRequest, MAX_WITHDRAWAL_REQUESTS_PER_PAYLOAD] # [New in Electra:EIP7002:EIP7251]
consolidations: List[ConsolidationRequest, MAX_CONSOLIDATION_REQUESTS_PER_PAYLOAD] # [New in Electra:EIP7251]
class SingleAttestation(Container):
committee_index: CommitteeIndex
attester_index: ValidatorIndex
data: AttestationData
signature: BLSSignature
class AttesterSlashing(Container):
attestation_1: IndexedAttestation # [Modified in Electra:EIP7549]
attestation_2: IndexedAttestation # [Modified in Electra:EIP7549]
class BeaconBlockBody(Container):
randao_reveal: BLSSignature
eth1_data: Eth1Data # Eth1 data vote
graffiti: Bytes32 # Arbitrary data
# Operations
proposer_slashings: List[ProposerSlashing, MAX_PROPOSER_SLASHINGS]
attester_slashings: List[AttesterSlashing, MAX_ATTESTER_SLASHINGS_ELECTRA] # [Modified in Electra:EIP7549]
attestations: List[Attestation, MAX_ATTESTATIONS_ELECTRA] # [Modified in Electra:EIP7549]
deposits: List[Deposit, MAX_DEPOSITS]
voluntary_exits: List[SignedVoluntaryExit, MAX_VOLUNTARY_EXITS]
sync_aggregate: SyncAggregate
# Execution
execution_payload: ExecutionPayload
bls_to_execution_changes: List[SignedBLSToExecutionChange, MAX_BLS_TO_EXECUTION_CHANGES]
blob_kzg_commitments: List[KZGCommitment, MAX_BLOB_COMMITMENTS_PER_BLOCK]
execution_requests: ExecutionRequests # [New in Electra]
class Attestation(Container):
aggregation_bits: Bitlist[MAX_VALIDATORS_PER_COMMITTEE * MAX_COMMITTEES_PER_SLOT] # [Modified in Electra:EIP7549]
data: AttestationData
signature: BLSSignature
committee_bits: Bitvector[MAX_COMMITTEES_PER_SLOT] # [New in Electra:EIP7549]
class IndexedAttestation(Container):
# [Modified in Electra:EIP7549]
attesting_indices: List[ValidatorIndex, MAX_VALIDATORS_PER_COMMITTEE * MAX_COMMITTEES_PER_SLOT]
data: AttestationData
signature: BLSSignature
class BeaconState(Container):
# Versioning
genesis_time: uint64
genesis_validators_root: Root
slot: Slot
fork: Fork
# History
latest_block_header: BeaconBlockHeader
block_roots: Vector[Root, SLOTS_PER_HISTORICAL_ROOT]
state_roots: Vector[Root, SLOTS_PER_HISTORICAL_ROOT]
historical_roots: List[Root, HISTORICAL_ROOTS_LIMIT]
# Eth1
eth1_data: Eth1Data
eth1_data_votes: List[Eth1Data, EPOCHS_PER_ETH1_VOTING_PERIOD * SLOTS_PER_EPOCH]
eth1_deposit_index: uint64
# Registry
validators: List[Validator, VALIDATOR_REGISTRY_LIMIT]
balances: List[Gwei, VALIDATOR_REGISTRY_LIMIT]
# Randomness
randao_mixes: Vector[Bytes32, EPOCHS_PER_HISTORICAL_VECTOR]
# Slashings
slashings: Vector[Gwei, EPOCHS_PER_SLASHINGS_VECTOR] # Per-epoch sums of slashed effective balances
# Participation
previous_epoch_participation: List[ParticipationFlags, VALIDATOR_REGISTRY_LIMIT]
current_epoch_participation: List[ParticipationFlags, VALIDATOR_REGISTRY_LIMIT]
# Finality
justification_bits: Bitvector[JUSTIFICATION_BITS_LENGTH] # Bit set for every recent justified epoch
previous_justified_checkpoint: Checkpoint
current_justified_checkpoint: Checkpoint
finalized_checkpoint: Checkpoint
# Inactivity
inactivity_scores: List[uint64, VALIDATOR_REGISTRY_LIMIT]
# Sync
current_sync_committee: SyncCommittee
next_sync_committee: SyncCommittee
# Execution
latest_execution_payload_header: ExecutionPayloadHeader
# Withdrawals
next_withdrawal_index: WithdrawalIndex
next_withdrawal_validator_index: ValidatorIndex
# Deep history valid from Capella onwards
historical_summaries: List[HistoricalSummary, HISTORICAL_ROOTS_LIMIT]
deposit_requests_start_index: uint64 # [New in Electra:EIP6110]
deposit_balance_to_consume: Gwei # [New in Electra:EIP7251]
exit_balance_to_consume: Gwei # [New in Electra:EIP7251]
earliest_exit_epoch: Epoch # [New in Electra:EIP7251]
consolidation_balance_to_consume: Gwei # [New in Electra:EIP7251]
earliest_consolidation_epoch: Epoch # [New in Electra:EIP7251]
pending_deposits: List[PendingDeposit, PENDING_DEPOSITS_LIMIT] # [New in Electra:EIP7251]
# [New in Electra:EIP7251]
pending_partial_withdrawals: List[PendingPartialWithdrawal, PENDING_PARTIAL_WITHDRAWALS_LIMIT]
pending_consolidations: List[PendingConsolidation, PENDING_CONSOLIDATIONS_LIMIT] # [New in Electra:EIP7251]
Note: The function compute_proposer_index
is modified to use MAX_EFFECTIVE_BALANCE_ELECTRA
and to use a 16-bit random value instead of an 8-bit random byte in the effective balance filter.
def compute_proposer_index(state: BeaconState, indices: Sequence[ValidatorIndex], seed: Bytes32) -> ValidatorIndex:
"""
Return from ``indices`` a random index sampled by effective balance.
"""
assert len(indices) > 0
MAX_RANDOM_VALUE = 2**16 - 1 # [Modified in Electra]
i = uint64(0)
total = uint64(len(indices))
while True:
candidate_index = indices[compute_shuffled_index(i % total, total, seed)]
# [Modified in Electra]
random_bytes = hash(seed + uint_to_bytes(i // 16))
offset = i % 16 * 2
random_value = bytes_to_uint64(random_bytes[offset:offset + 2])
effective_balance = state.validators[candidate_index].effective_balance
# [Modified in Electra:EIP7251]
if effective_balance * MAX_RANDOM_VALUE >= MAX_EFFECTIVE_BALANCE_ELECTRA * random_value:
return candidate_index
i += 1
Note: The function is_eligible_for_activation_queue
is modified to use MIN_ACTIVATION_BALANCE
instead of MAX_EFFECTIVE_BALANCE
.
def is_eligible_for_activation_queue(validator: Validator) -> bool:
"""
Check if ``validator`` is eligible to be placed into the activation queue.
"""
return (
validator.activation_eligibility_epoch == FAR_FUTURE_EPOCH
and validator.effective_balance >= MIN_ACTIVATION_BALANCE # [Modified in Electra:EIP7251]
)
def is_compounding_withdrawal_credential(withdrawal_credentials: Bytes32) -> bool:
return withdrawal_credentials[:1] == COMPOUNDING_WITHDRAWAL_PREFIX
def has_compounding_withdrawal_credential(validator: Validator) -> bool:
"""
Check if ``validator`` has an 0x02 prefixed "compounding" withdrawal credential.
"""
return is_compounding_withdrawal_credential(validator.withdrawal_credentials)
def has_execution_withdrawal_credential(validator: Validator) -> bool:
"""
Check if ``validator`` has a 0x01 or 0x02 prefixed withdrawal credential.
"""
return has_compounding_withdrawal_credential(validator) or has_eth1_withdrawal_credential(validator)
Note: The function is_fully_withdrawable_validator
is modified to use has_execution_withdrawal_credential
instead of has_eth1_withdrawal_credential
.
def is_fully_withdrawable_validator(validator: Validator, balance: Gwei, epoch: Epoch) -> bool:
"""
Check if ``validator`` is fully withdrawable.
"""
return (
has_execution_withdrawal_credential(validator) # [Modified in Electra:EIP7251]
and validator.withdrawable_epoch <= epoch
and balance > 0
)
Note: The function is_partially_withdrawable_validator
is modified to use get_max_effective_balance
instead of MAX_EFFECTIVE_BALANCE
and has_execution_withdrawal_credential
instead of has_eth1_withdrawal_credential
.
def is_partially_withdrawable_validator(validator: Validator, balance: Gwei) -> bool:
"""
Check if ``validator`` is partially withdrawable.
"""
max_effective_balance = get_max_effective_balance(validator)
has_max_effective_balance = validator.effective_balance == max_effective_balance # [Modified in Electra:EIP7251]
has_excess_balance = balance > max_effective_balance # [Modified in Electra:EIP7251]
return (
has_execution_withdrawal_credential(validator) # [Modified in Electra:EIP7251]
and has_max_effective_balance
and has_excess_balance
)
def get_committee_indices(committee_bits: Bitvector) -> Sequence[CommitteeIndex]:
return [CommitteeIndex(index) for index, bit in enumerate(committee_bits) if bit]
def get_max_effective_balance(validator: Validator) -> Gwei:
"""
Get max effective balance for ``validator``.
"""
if has_compounding_withdrawal_credential(validator):
return MAX_EFFECTIVE_BALANCE_ELECTRA
else:
return MIN_ACTIVATION_BALANCE
def get_balance_churn_limit(state: BeaconState) -> Gwei:
"""
Return the churn limit for the current epoch.
"""
churn = max(
MIN_PER_EPOCH_CHURN_LIMIT_ELECTRA,
get_total_active_balance(state) // CHURN_LIMIT_QUOTIENT
)
return churn - churn % EFFECTIVE_BALANCE_INCREMENT
def get_activation_exit_churn_limit(state: BeaconState) -> Gwei:
"""
Return the churn limit for the current epoch dedicated to activations and exits.
"""
return min(MAX_PER_EPOCH_ACTIVATION_EXIT_CHURN_LIMIT, get_balance_churn_limit(state))
def get_consolidation_churn_limit(state: BeaconState) -> Gwei:
return get_balance_churn_limit(state) - get_activation_exit_churn_limit(state)
def get_pending_balance_to_withdraw(state: BeaconState, validator_index: ValidatorIndex) -> Gwei:
return sum(
withdrawal.amount for withdrawal in state.pending_partial_withdrawals
if withdrawal.validator_index == validator_index
)
Note: The function get_attesting_indices
is modified to support EIP7549.
def get_attesting_indices(state: BeaconState, attestation: Attestation) -> Set[ValidatorIndex]:
"""
Return the set of attesting indices corresponding to ``aggregation_bits`` and ``committee_bits``.
"""
output: Set[ValidatorIndex] = set()
committee_indices = get_committee_indices(attestation.committee_bits)
committee_offset = 0
for committee_index in committee_indices:
committee = get_beacon_committee(state, attestation.data.slot, committee_index)
committee_attesters = set(
attester_index for i, attester_index in enumerate(committee)
if attestation.aggregation_bits[committee_offset + i]
)
output = output.union(committee_attesters)
committee_offset += len(committee)
return output
Note: The function get_next_sync_committee_indices
is modified to use MAX_EFFECTIVE_BALANCE_ELECTRA
and to use a 16-bit random value instead of an 8-bit random byte in the effective balance filter.
def get_next_sync_committee_indices(state: BeaconState) -> Sequence[ValidatorIndex]:
"""
Return the sync committee indices, with possible duplicates, for the next sync committee.
"""
epoch = Epoch(get_current_epoch(state) + 1)
MAX_RANDOM_VALUE = 2**16 - 1 # [Modified in Electra]
active_validator_indices = get_active_validator_indices(state, epoch)
active_validator_count = uint64(len(active_validator_indices))
seed = get_seed(state, epoch, DOMAIN_SYNC_COMMITTEE)
i = uint64(0)
sync_committee_indices: List[ValidatorIndex] = []
while len(sync_committee_indices) < SYNC_COMMITTEE_SIZE:
shuffled_index = compute_shuffled_index(uint64(i % active_validator_count), active_validator_count, seed)
candidate_index = active_validator_indices[shuffled_index]
# [Modified in Electra]
random_bytes = hash(seed + uint_to_bytes(i // 16))
offset = i % 16 * 2
random_value = bytes_to_uint64(random_bytes[offset:offset + 2])
effective_balance = state.validators[candidate_index].effective_balance
# [Modified in Electra:EIP7251]
if effective_balance * MAX_RANDOM_VALUE >= MAX_EFFECTIVE_BALANCE_ELECTRA * random_value:
sync_committee_indices.append(candidate_index)
i += 1
return sync_committee_indices
Note: The function initiate_validator_exit
is modified to use the new compute_exit_epoch_and_update_churn
function.
def initiate_validator_exit(state: BeaconState, index: ValidatorIndex) -> None:
"""
Initiate the exit of the validator with index ``index``.
"""
# Return if validator already initiated exit
validator = state.validators[index]
if validator.exit_epoch != FAR_FUTURE_EPOCH:
return
# Compute exit queue epoch [Modified in Electra:EIP7251]
exit_queue_epoch = compute_exit_epoch_and_update_churn(state, validator.effective_balance)
# Set validator exit epoch and withdrawable epoch
validator.exit_epoch = exit_queue_epoch
validator.withdrawable_epoch = Epoch(validator.exit_epoch + MIN_VALIDATOR_WITHDRAWABILITY_DELAY)
def switch_to_compounding_validator(state: BeaconState, index: ValidatorIndex) -> None:
validator = state.validators[index]
validator.withdrawal_credentials = COMPOUNDING_WITHDRAWAL_PREFIX + validator.withdrawal_credentials[1:]
queue_excess_active_balance(state, index)
def queue_excess_active_balance(state: BeaconState, index: ValidatorIndex) -> None:
balance = state.balances[index]
if balance > MIN_ACTIVATION_BALANCE:
excess_balance = balance - MIN_ACTIVATION_BALANCE
state.balances[index] = MIN_ACTIVATION_BALANCE
validator = state.validators[index]
# Use bls.G2_POINT_AT_INFINITY as a signature field placeholder
# and GENESIS_SLOT to distinguish from a pending deposit request
state.pending_deposits.append(PendingDeposit(
pubkey=validator.pubkey,
withdrawal_credentials=validator.withdrawal_credentials,
amount=excess_balance,
signature=bls.G2_POINT_AT_INFINITY,
slot=GENESIS_SLOT,
))
def compute_exit_epoch_and_update_churn(state: BeaconState, exit_balance: Gwei) -> Epoch:
earliest_exit_epoch = max(state.earliest_exit_epoch, compute_activation_exit_epoch(get_current_epoch(state)))
per_epoch_churn = get_activation_exit_churn_limit(state)
# New epoch for exits.
if state.earliest_exit_epoch < earliest_exit_epoch:
exit_balance_to_consume = per_epoch_churn
else:
exit_balance_to_consume = state.exit_balance_to_consume
# Exit doesn't fit in the current earliest epoch.
if exit_balance > exit_balance_to_consume:
balance_to_process = exit_balance - exit_balance_to_consume
additional_epochs = (balance_to_process - 1) // per_epoch_churn + 1
earliest_exit_epoch += additional_epochs
exit_balance_to_consume += additional_epochs * per_epoch_churn
# Consume the balance and update state variables.
state.exit_balance_to_consume = exit_balance_to_consume - exit_balance
state.earliest_exit_epoch = earliest_exit_epoch
return state.earliest_exit_epoch
def compute_consolidation_epoch_and_update_churn(state: BeaconState, consolidation_balance: Gwei) -> Epoch:
earliest_consolidation_epoch = max(
state.earliest_consolidation_epoch, compute_activation_exit_epoch(get_current_epoch(state)))
per_epoch_consolidation_churn = get_consolidation_churn_limit(state)
# New epoch for consolidations.
if state.earliest_consolidation_epoch < earliest_consolidation_epoch:
consolidation_balance_to_consume = per_epoch_consolidation_churn
else:
consolidation_balance_to_consume = state.consolidation_balance_to_consume
# Consolidation doesn't fit in the current earliest epoch.
if consolidation_balance > consolidation_balance_to_consume:
balance_to_process = consolidation_balance - consolidation_balance_to_consume
additional_epochs = (balance_to_process - 1) // per_epoch_consolidation_churn + 1
earliest_consolidation_epoch += additional_epochs
consolidation_balance_to_consume += additional_epochs * per_epoch_consolidation_churn
# Consume the balance and update state variables.
state.consolidation_balance_to_consume = consolidation_balance_to_consume - consolidation_balance
state.earliest_consolidation_epoch = earliest_consolidation_epoch
return state.earliest_consolidation_epoch
Note: The function slash_validator
is modified to change how the slashing penalty and proposer/whistleblower rewards are calculated in accordance with EIP7251.
def slash_validator(state: BeaconState,
slashed_index: ValidatorIndex,
whistleblower_index: ValidatorIndex=None) -> None:
"""
Slash the validator with index ``slashed_index``.
"""
epoch = get_current_epoch(state)
initiate_validator_exit(state, slashed_index)
validator = state.validators[slashed_index]
validator.slashed = True
validator.withdrawable_epoch = max(validator.withdrawable_epoch, Epoch(epoch + EPOCHS_PER_SLASHINGS_VECTOR))
state.slashings[epoch % EPOCHS_PER_SLASHINGS_VECTOR] += validator.effective_balance
# [Modified in Electra:EIP7251]
slashing_penalty = validator.effective_balance // MIN_SLASHING_PENALTY_QUOTIENT_ELECTRA
decrease_balance(state, slashed_index, slashing_penalty)
# Apply proposer and whistleblower rewards
proposer_index = get_beacon_proposer_index(state)
if whistleblower_index is None:
whistleblower_index = proposer_index
whistleblower_reward = Gwei(
validator.effective_balance // WHISTLEBLOWER_REWARD_QUOTIENT_ELECTRA) # [Modified in Electra:EIP7251]
proposer_reward = Gwei(whistleblower_reward * PROPOSER_WEIGHT // WEIGHT_DENOMINATOR)
increase_balance(state, proposer_index, proposer_reward)
increase_balance(state, whistleblower_index, Gwei(whistleblower_reward - proposer_reward))
Note: The function process_epoch
is modified to call updated functions and to process pending balance deposits and pending consolidations which are new in Electra.
def process_epoch(state: BeaconState) -> None:
process_justification_and_finalization(state)
process_inactivity_updates(state)
process_rewards_and_penalties(state)
process_registry_updates(state) # [Modified in Electra:EIP7251]
process_slashings(state) # [Modified in Electra:EIP7251]
process_eth1_data_reset(state)
process_pending_deposits(state) # [New in Electra:EIP7251]
process_pending_consolidations(state) # [New in Electra:EIP7251]
process_effective_balance_updates(state) # [Modified in Electra:EIP7251]
process_slashings_reset(state)
process_randao_mixes_reset(state)
process_historical_summaries_update(state)
process_participation_flag_updates(state)
process_sync_committee_updates(state)
Note: The function process_registry_updates
is modified to
use the updated definitions of initiate_validator_exit
and is_eligible_for_activation_queue
and changes how the activation epochs are computed for eligible validators.
def process_registry_updates(state: BeaconState) -> None:
# Process activation eligibility and ejections
for index, validator in enumerate(state.validators):
if is_eligible_for_activation_queue(validator): # [Modified in Electra:EIP7251]
validator.activation_eligibility_epoch = get_current_epoch(state) + 1
if (
is_active_validator(validator, get_current_epoch(state))
and validator.effective_balance <= EJECTION_BALANCE
):
initiate_validator_exit(state, ValidatorIndex(index)) # [Modified in Electra:EIP7251]
# Activate all eligible validators
# [Modified in Electra:EIP7251]
activation_epoch = compute_activation_exit_epoch(get_current_epoch(state))
for validator in state.validators:
if is_eligible_for_activation(state, validator):
validator.activation_epoch = activation_epoch
Note: The function process_slashings
is modified to use a new algorithm to compute correlation penalty.
def process_slashings(state: BeaconState) -> None:
epoch = get_current_epoch(state)
total_balance = get_total_active_balance(state)
adjusted_total_slashing_balance = min(
sum(state.slashings) * PROPORTIONAL_SLASHING_MULTIPLIER_BELLATRIX,
total_balance
)
increment = EFFECTIVE_BALANCE_INCREMENT # Factored out from total balance to avoid uint64 overflow
penalty_per_effective_balance_increment = adjusted_total_slashing_balance // (total_balance // increment)
for index, validator in enumerate(state.validators):
if validator.slashed and epoch + EPOCHS_PER_SLASHINGS_VECTOR // 2 == validator.withdrawable_epoch:
effective_balance_increments = validator.effective_balance // increment
# [Modified in Electra:EIP7251]
penalty = penalty_per_effective_balance_increment * effective_balance_increments
decrease_balance(state, ValidatorIndex(index), penalty)
def apply_pending_deposit(state: BeaconState, deposit: PendingDeposit) -> None:
"""
Applies ``deposit`` to the ``state``.
"""
validator_pubkeys = [v.pubkey for v in state.validators]
if deposit.pubkey not in validator_pubkeys:
# Verify the deposit signature (proof of possession) which is not checked by the deposit contract
if is_valid_deposit_signature(
deposit.pubkey,
deposit.withdrawal_credentials,
deposit.amount,
deposit.signature
):
add_validator_to_registry(state, deposit.pubkey, deposit.withdrawal_credentials, deposit.amount)
else:
validator_index = ValidatorIndex(validator_pubkeys.index(deposit.pubkey))
increase_balance(state, validator_index, deposit.amount)
Iterating over pending_deposits
queue this function runs the following checks before applying pending deposit:
- All Eth1 bridge deposits are processed before the first deposit request gets processed.
- Deposit position in the queue is finalized.
- Deposit does not exceed the
MAX_PENDING_DEPOSITS_PER_EPOCH
limit. - Deposit does not exceed the activation churn limit.
def process_pending_deposits(state: BeaconState) -> None:
next_epoch = Epoch(get_current_epoch(state) + 1)
available_for_processing = state.deposit_balance_to_consume + get_activation_exit_churn_limit(state)
processed_amount = 0
next_deposit_index = 0
deposits_to_postpone = []
is_churn_limit_reached = False
finalized_slot = compute_start_slot_at_epoch(state.finalized_checkpoint.epoch)
for deposit in state.pending_deposits:
# Do not process deposit requests if Eth1 bridge deposits are not yet applied.
if (
# Is deposit request
deposit.slot > GENESIS_SLOT and
# There are pending Eth1 bridge deposits
state.eth1_deposit_index < state.deposit_requests_start_index
):
break
# Check if deposit has been finalized, otherwise, stop processing.
if deposit.slot > finalized_slot:
break
# Check if number of processed deposits has not reached the limit, otherwise, stop processing.
if next_deposit_index >= MAX_PENDING_DEPOSITS_PER_EPOCH:
break
# Read validator state
is_validator_exited = False
is_validator_withdrawn = False
validator_pubkeys = [v.pubkey for v in state.validators]
if deposit.pubkey in validator_pubkeys:
validator = state.validators[ValidatorIndex(validator_pubkeys.index(deposit.pubkey))]
is_validator_exited = validator.exit_epoch < FAR_FUTURE_EPOCH
is_validator_withdrawn = validator.withdrawable_epoch < next_epoch
if is_validator_withdrawn:
# Deposited balance will never become active. Increase balance but do not consume churn
apply_pending_deposit(state, deposit)
elif is_validator_exited:
# Validator is exiting, postpone the deposit until after withdrawable epoch
deposits_to_postpone.append(deposit)
else:
# Check if deposit fits in the churn, otherwise, do no more deposit processing in this epoch.
is_churn_limit_reached = processed_amount + deposit.amount > available_for_processing
if is_churn_limit_reached:
break
# Consume churn and apply deposit.
processed_amount += deposit.amount
apply_pending_deposit(state, deposit)
# Regardless of how the deposit was handled, we move on in the queue.
next_deposit_index += 1
state.pending_deposits = state.pending_deposits[next_deposit_index:] + deposits_to_postpone
# Accumulate churn only if the churn limit has been hit.
if is_churn_limit_reached:
state.deposit_balance_to_consume = available_for_processing - processed_amount
else:
state.deposit_balance_to_consume = Gwei(0)
def process_pending_consolidations(state: BeaconState) -> None:
next_epoch = Epoch(get_current_epoch(state) + 1)
next_pending_consolidation = 0
for pending_consolidation in state.pending_consolidations:
source_validator = state.validators[pending_consolidation.source_index]
if source_validator.slashed:
next_pending_consolidation += 1
continue
if source_validator.withdrawable_epoch > next_epoch:
break
# Calculate the consolidated balance
source_effective_balance = min(
state.balances[pending_consolidation.source_index], source_validator.effective_balance)
# Move active balance to target. Excess balance is withdrawable.
decrease_balance(state, pending_consolidation.source_index, source_effective_balance)
increase_balance(state, pending_consolidation.target_index, source_effective_balance)
next_pending_consolidation += 1
state.pending_consolidations = state.pending_consolidations[next_pending_consolidation:]
Note: The function process_effective_balance_updates
is modified to use the new limit for the maximum effective balance.
def process_effective_balance_updates(state: BeaconState) -> None:
# Update effective balances with hysteresis
for index, validator in enumerate(state.validators):
balance = state.balances[index]
HYSTERESIS_INCREMENT = uint64(EFFECTIVE_BALANCE_INCREMENT // HYSTERESIS_QUOTIENT)
DOWNWARD_THRESHOLD = HYSTERESIS_INCREMENT * HYSTERESIS_DOWNWARD_MULTIPLIER
UPWARD_THRESHOLD = HYSTERESIS_INCREMENT * HYSTERESIS_UPWARD_MULTIPLIER
# [Modified in Electra:EIP7251]
max_effective_balance = get_max_effective_balance(validator)
if (
balance + DOWNWARD_THRESHOLD < validator.effective_balance
or validator.effective_balance + UPWARD_THRESHOLD < balance
):
validator.effective_balance = min(balance - balance % EFFECTIVE_BALANCE_INCREMENT, max_effective_balance)
@dataclass
class NewPayloadRequest(object):
execution_payload: ExecutionPayload
versioned_hashes: Sequence[VersionedHash]
parent_beacon_block_root: Root
execution_requests: ExecutionRequests # [New in Electra]
Note: The function is_valid_block_hash
is modified to include the additional execution_requests_list
.
def is_valid_block_hash(self: ExecutionEngine,
execution_payload: ExecutionPayload,
parent_beacon_block_root: Root,
execution_requests_list: Sequence[bytes]) -> bool:
"""
Return ``True`` if and only if ``execution_payload.block_hash`` is computed correctly.
"""
...
Note: The function notify_new_payload
is modified to include the additional execution_requests_list
.
def notify_new_payload(self: ExecutionEngine,
execution_payload: ExecutionPayload,
parent_beacon_block_root: Root,
execution_requests_list: Sequence[bytes]) -> bool:
"""
Return ``True`` if and only if ``execution_payload`` and ``execution_requests_list``
are valid with respect to ``self.execution_state``.
"""
...
Note: The function verify_and_notify_new_payload
is modified to pass the additional parameter
execution_requests_list
when calling is_valid_block_hash
and notify_new_payload
in Electra.
def verify_and_notify_new_payload(self: ExecutionEngine,
new_payload_request: NewPayloadRequest) -> bool:
"""
Return ``True`` if and only if ``new_payload_request`` is valid with respect to ``self.execution_state``.
"""
execution_payload = new_payload_request.execution_payload
parent_beacon_block_root = new_payload_request.parent_beacon_block_root
execution_requests_list = get_execution_requests_list(new_payload_request.execution_requests) # [New in Electra]
if b'' in execution_payload.transactions:
return False
# [Modified in Electra]
if not self.is_valid_block_hash(
execution_payload,
parent_beacon_block_root,
execution_requests_list):
return False
if not self.is_valid_versioned_hashes(new_payload_request):
return False
# [Modified in Electra]
if not self.notify_new_payload(
execution_payload,
parent_beacon_block_root,
execution_requests_list):
return False
return True
def process_block(state: BeaconState, block: BeaconBlock) -> None:
process_block_header(state, block)
process_withdrawals(state, block.body.execution_payload) # [Modified in Electra:EIP7251]
process_execution_payload(state, block.body, EXECUTION_ENGINE) # [Modified in Electra:EIP6110]
process_randao(state, block.body)
process_eth1_data(state, block.body)
process_operations(state, block.body) # [Modified in Electra:EIP6110:EIP7002:EIP7549:EIP7251]
process_sync_aggregate(state, block.body.sync_aggregate)
Note: The function get_expected_withdrawals
is modified to support EIP7251.
def get_expected_withdrawals(state: BeaconState) -> Tuple[Sequence[Withdrawal], uint64]:
epoch = get_current_epoch(state)
withdrawal_index = state.next_withdrawal_index
validator_index = state.next_withdrawal_validator_index
withdrawals: List[Withdrawal] = []
processed_partial_withdrawals_count = 0
# [New in Electra:EIP7251] Consume pending partial withdrawals
for withdrawal in state.pending_partial_withdrawals:
if withdrawal.withdrawable_epoch > epoch or len(withdrawals) == MAX_PENDING_PARTIALS_PER_WITHDRAWALS_SWEEP:
break
validator = state.validators[withdrawal.validator_index]
has_sufficient_effective_balance = validator.effective_balance >= MIN_ACTIVATION_BALANCE
has_excess_balance = state.balances[withdrawal.validator_index] > MIN_ACTIVATION_BALANCE
if validator.exit_epoch == FAR_FUTURE_EPOCH and has_sufficient_effective_balance and has_excess_balance:
withdrawable_balance = min(
state.balances[withdrawal.validator_index] - MIN_ACTIVATION_BALANCE,
withdrawal.amount)
withdrawals.append(Withdrawal(
index=withdrawal_index,
validator_index=withdrawal.validator_index,
address=ExecutionAddress(validator.withdrawal_credentials[12:]),
amount=withdrawable_balance,
))
withdrawal_index += WithdrawalIndex(1)
processed_partial_withdrawals_count += 1
# Sweep for remaining.
bound = min(len(state.validators), MAX_VALIDATORS_PER_WITHDRAWALS_SWEEP)
for _ in range(bound):
validator = state.validators[validator_index]
# [Modified in Electra:EIP7251]
partially_withdrawn_balance = sum(
withdrawal.amount for withdrawal in withdrawals if withdrawal.validator_index == validator_index)
balance = state.balances[validator_index] - partially_withdrawn_balance
if is_fully_withdrawable_validator(validator, balance, epoch):
withdrawals.append(Withdrawal(
index=withdrawal_index,
validator_index=validator_index,
address=ExecutionAddress(validator.withdrawal_credentials[12:]),
amount=balance,
))
withdrawal_index += WithdrawalIndex(1)
elif is_partially_withdrawable_validator(validator, balance):
withdrawals.append(Withdrawal(
index=withdrawal_index,
validator_index=validator_index,
address=ExecutionAddress(validator.withdrawal_credentials[12:]),
amount=balance - get_max_effective_balance(validator), # [Modified in Electra:EIP7251]
))
withdrawal_index += WithdrawalIndex(1)
if len(withdrawals) == MAX_WITHDRAWALS_PER_PAYLOAD:
break
validator_index = ValidatorIndex((validator_index + 1) % len(state.validators))
return withdrawals, processed_partial_withdrawals_count
Note: The function process_withdrawals
is modified to support EIP7251.
def process_withdrawals(state: BeaconState, payload: ExecutionPayload) -> None:
# [Modified in Electra:EIP7251]
expected_withdrawals, processed_partial_withdrawals_count = get_expected_withdrawals(state)
assert payload.withdrawals == expected_withdrawals
for withdrawal in expected_withdrawals:
decrease_balance(state, withdrawal.validator_index, withdrawal.amount)
# Update pending partial withdrawals [New in Electra:EIP7251]
state.pending_partial_withdrawals = state.pending_partial_withdrawals[processed_partial_withdrawals_count:]
# Update the next withdrawal index if this block contained withdrawals
if len(expected_withdrawals) != 0:
latest_withdrawal = expected_withdrawals[-1]
state.next_withdrawal_index = WithdrawalIndex(latest_withdrawal.index + 1)
# Update the next validator index to start the next withdrawal sweep
if len(expected_withdrawals) == MAX_WITHDRAWALS_PER_PAYLOAD:
# Next sweep starts after the latest withdrawal's validator index
next_validator_index = ValidatorIndex((expected_withdrawals[-1].validator_index + 1) % len(state.validators))
state.next_withdrawal_validator_index = next_validator_index
else:
# Advance sweep by the max length of the sweep if there was not a full set of withdrawals
next_index = state.next_withdrawal_validator_index + MAX_VALIDATORS_PER_WITHDRAWALS_SWEEP
next_validator_index = ValidatorIndex(next_index % len(state.validators))
state.next_withdrawal_validator_index = next_validator_index
Note: Encodes execution requests as defined by EIP-7685.
def get_execution_requests_list(execution_requests: ExecutionRequests) -> Sequence[bytes]:
requests = [
(DEPOSIT_REQUEST_TYPE, execution_requests.deposits),
(WITHDRAWAL_REQUEST_TYPE, execution_requests.withdrawals),
(CONSOLIDATION_REQUEST_TYPE, execution_requests.consolidations),
]
return [
request_type + ssz_serialize(request_data)
for request_type, request_data in requests
if len(request_data) != 0
]
Note: The function process_execution_payload
is modified to pass execution_requests
into execution_engine.verify_and_notify_new_payload
(via the updated NewPayloadRequest
).
def process_execution_payload(state: BeaconState, body: BeaconBlockBody, execution_engine: ExecutionEngine) -> None:
payload = body.execution_payload
# Verify consistency of the parent hash with respect to the previous execution payload header
assert payload.parent_hash == state.latest_execution_payload_header.block_hash
# Verify prev_randao
assert payload.prev_randao == get_randao_mix(state, get_current_epoch(state))
# Verify timestamp
assert payload.timestamp == compute_timestamp_at_slot(state, state.slot)
# Verify commitments are under limit
assert len(body.blob_kzg_commitments) <= MAX_BLOBS_PER_BLOCK_ELECTRA # [Modified in Electra:EIP7691]
# Verify the execution payload is valid
versioned_hashes = [kzg_commitment_to_versioned_hash(commitment) for commitment in body.blob_kzg_commitments]
assert execution_engine.verify_and_notify_new_payload(
NewPayloadRequest(
execution_payload=payload,
versioned_hashes=versioned_hashes,
parent_beacon_block_root=state.latest_block_header.parent_root,
execution_requests=body.execution_requests, # [New in Electra]
)
)
# Cache execution payload header
state.latest_execution_payload_header = ExecutionPayloadHeader(
parent_hash=payload.parent_hash,
fee_recipient=payload.fee_recipient,
state_root=payload.state_root,
receipts_root=payload.receipts_root,
logs_bloom=payload.logs_bloom,
prev_randao=payload.prev_randao,
block_number=payload.block_number,
gas_limit=payload.gas_limit,
gas_used=payload.gas_used,
timestamp=payload.timestamp,
extra_data=payload.extra_data,
base_fee_per_gas=payload.base_fee_per_gas,
block_hash=payload.block_hash,
transactions_root=hash_tree_root(payload.transactions),
withdrawals_root=hash_tree_root(payload.withdrawals),
blob_gas_used=payload.blob_gas_used,
excess_blob_gas=payload.excess_blob_gas,
)
Note: The function process_operations
is modified to support all of the new functionality in Electra.
def process_operations(state: BeaconState, body: BeaconBlockBody) -> None:
# [Modified in Electra:EIP6110]
# Disable former deposit mechanism once all prior deposits are processed
eth1_deposit_index_limit = min(state.eth1_data.deposit_count, state.deposit_requests_start_index)
if state.eth1_deposit_index < eth1_deposit_index_limit:
assert len(body.deposits) == min(MAX_DEPOSITS, eth1_deposit_index_limit - state.eth1_deposit_index)
else:
assert len(body.deposits) == 0
def for_ops(operations: Sequence[Any], fn: Callable[[BeaconState, Any], None]) -> None:
for operation in operations:
fn(state, operation)
for_ops(body.proposer_slashings, process_proposer_slashing)
for_ops(body.attester_slashings, process_attester_slashing)
for_ops(body.attestations, process_attestation) # [Modified in Electra:EIP7549]
for_ops(body.deposits, process_deposit)
for_ops(body.voluntary_exits, process_voluntary_exit) # [Modified in Electra:EIP7251]
for_ops(body.bls_to_execution_changes, process_bls_to_execution_change)
for_ops(body.execution_requests.deposits, process_deposit_request) # [New in Electra:EIP6110]
for_ops(body.execution_requests.withdrawals, process_withdrawal_request) # [New in Electra:EIP7002:EIP7251]
for_ops(body.execution_requests.consolidations, process_consolidation_request) # [New in Electra:EIP7251]
Note: The function is modified to support EIP7549.
def process_attestation(state: BeaconState, attestation: Attestation) -> None:
data = attestation.data
assert data.target.epoch in (get_previous_epoch(state), get_current_epoch(state))
assert data.target.epoch == compute_epoch_at_slot(data.slot)
assert data.slot + MIN_ATTESTATION_INCLUSION_DELAY <= state.slot
# [Modified in Electra:EIP7549]
assert data.index == 0
committee_indices = get_committee_indices(attestation.committee_bits)
committee_offset = 0
for committee_index in committee_indices:
assert committee_index < get_committee_count_per_slot(state, data.target.epoch)
committee = get_beacon_committee(state, data.slot, committee_index)
committee_attesters = set(
attester_index for i, attester_index in enumerate(committee)
if attestation.aggregation_bits[committee_offset + i]
)
assert len(committee_attesters) > 0
committee_offset += len(committee)
# Bitfield length matches total number of participants
assert len(attestation.aggregation_bits) == committee_offset
# Participation flag indices
participation_flag_indices = get_attestation_participation_flag_indices(state, data, state.slot - data.slot)
# Verify signature
assert is_valid_indexed_attestation(state, get_indexed_attestation(state, attestation))
# Update epoch participation flags
if data.target.epoch == get_current_epoch(state):
epoch_participation = state.current_epoch_participation
else:
epoch_participation = state.previous_epoch_participation
proposer_reward_numerator = 0
for index in get_attesting_indices(state, attestation):
for flag_index, weight in enumerate(PARTICIPATION_FLAG_WEIGHTS):
if flag_index in participation_flag_indices and not has_flag(epoch_participation[index], flag_index):
epoch_participation[index] = add_flag(epoch_participation[index], flag_index)
proposer_reward_numerator += get_base_reward(state, index) * weight
# Reward proposer
proposer_reward_denominator = (WEIGHT_DENOMINATOR - PROPOSER_WEIGHT) * WEIGHT_DENOMINATOR // PROPOSER_WEIGHT
proposer_reward = Gwei(proposer_reward_numerator // proposer_reward_denominator)
increase_balance(state, get_beacon_proposer_index(state), proposer_reward)
Note: The function is modified to use MAX_EFFECTIVE_BALANCE_ELECTRA
for compounding withdrawal credential.
def get_validator_from_deposit(pubkey: BLSPubkey, withdrawal_credentials: Bytes32, amount: uint64) -> Validator:
validator = Validator(
pubkey=pubkey,
withdrawal_credentials=withdrawal_credentials,
effective_balance=Gwei(0),
slashed=False,
activation_eligibility_epoch=FAR_FUTURE_EPOCH,
activation_epoch=FAR_FUTURE_EPOCH,
exit_epoch=FAR_FUTURE_EPOCH,
withdrawable_epoch=FAR_FUTURE_EPOCH,
)
# [Modified in Electra:EIP7251]
max_effective_balance = get_max_effective_balance(validator)
validator.effective_balance = min(amount - amount % EFFECTIVE_BALANCE_INCREMENT, max_effective_balance)
return validator
Note: The function add_validator_to_registry
is modified to use the modified get_validator_from_deposit
.
def add_validator_to_registry(state: BeaconState,
pubkey: BLSPubkey,
withdrawal_credentials: Bytes32,
amount: uint64) -> None:
index = get_index_for_new_validator(state)
validator = get_validator_from_deposit(pubkey, withdrawal_credentials, amount) # [Modified in Electra:EIP7251]
set_or_append_list(state.validators, index, validator)
set_or_append_list(state.balances, index, amount)
set_or_append_list(state.previous_epoch_participation, index, ParticipationFlags(0b0000_0000))
set_or_append_list(state.current_epoch_participation, index, ParticipationFlags(0b0000_0000))
set_or_append_list(state.inactivity_scores, index, uint64(0))
Note: The function apply_deposit
is modified to support EIP7251.
def apply_deposit(state: BeaconState,
pubkey: BLSPubkey,
withdrawal_credentials: Bytes32,
amount: uint64,
signature: BLSSignature) -> None:
validator_pubkeys = [v.pubkey for v in state.validators]
if pubkey not in validator_pubkeys:
# Verify the deposit signature (proof of possession) which is not checked by the deposit contract
if is_valid_deposit_signature(pubkey, withdrawal_credentials, amount, signature):
add_validator_to_registry(state, pubkey, withdrawal_credentials, Gwei(0)) # [Modified in Electra:EIP7251]
else:
return
# Increase balance by deposit amount
# [Modified in Electra:EIP7251]
state.pending_deposits.append(PendingDeposit(
pubkey=pubkey,
withdrawal_credentials=withdrawal_credentials,
amount=amount,
signature=signature,
slot=GENESIS_SLOT # Use GENESIS_SLOT to distinguish from a pending deposit request
))
def is_valid_deposit_signature(pubkey: BLSPubkey,
withdrawal_credentials: Bytes32,
amount: uint64,
signature: BLSSignature) -> bool:
deposit_message = DepositMessage(
pubkey=pubkey,
withdrawal_credentials=withdrawal_credentials,
amount=amount,
)
domain = compute_domain(DOMAIN_DEPOSIT) # Fork-agnostic domain since deposits are valid across forks
signing_root = compute_signing_root(deposit_message, domain)
return bls.Verify(pubkey, signing_root, signature)
Note: The function process_deposit
is modified to to use the modified apply_deposit
.
def process_deposit(state: BeaconState, deposit: Deposit) -> None:
# Verify the Merkle branch
assert is_valid_merkle_branch(
leaf=hash_tree_root(deposit.data),
branch=deposit.proof,
depth=DEPOSIT_CONTRACT_TREE_DEPTH + 1, # Add 1 for the List length mix-in
index=state.eth1_deposit_index,
root=state.eth1_data.deposit_root,
)
# Deposits must be processed in order
state.eth1_deposit_index += 1
# [Modified in Electra:EIP7251]
apply_deposit(
state=state,
pubkey=deposit.data.pubkey,
withdrawal_credentials=deposit.data.withdrawal_credentials,
amount=deposit.data.amount,
signature=deposit.data.signature,
)
Note: The function process_voluntary_exit
is modified to ensure the validator has no pending withdrawals in the queue.
def process_voluntary_exit(state: BeaconState, signed_voluntary_exit: SignedVoluntaryExit) -> None:
voluntary_exit = signed_voluntary_exit.message
validator = state.validators[voluntary_exit.validator_index]
# Verify the validator is active
assert is_active_validator(validator, get_current_epoch(state))
# Verify exit has not been initiated
assert validator.exit_epoch == FAR_FUTURE_EPOCH
# Exits must specify an epoch when they become valid; they are not valid before then
assert get_current_epoch(state) >= voluntary_exit.epoch
# Verify the validator has been active long enough
assert get_current_epoch(state) >= validator.activation_epoch + SHARD_COMMITTEE_PERIOD
# Only exit validator if it has no pending withdrawals in the queue
assert get_pending_balance_to_withdraw(state, voluntary_exit.validator_index) == 0 # [New in Electra:EIP7251]
# Verify signature
domain = compute_domain(DOMAIN_VOLUNTARY_EXIT, CAPELLA_FORK_VERSION, state.genesis_validators_root)
signing_root = compute_signing_root(voluntary_exit, domain)
assert bls.Verify(validator.pubkey, signing_root, signed_voluntary_exit.signature)
# Initiate exit
initiate_validator_exit(state, voluntary_exit.validator_index)
def process_withdrawal_request(
state: BeaconState,
withdrawal_request: WithdrawalRequest
) -> None:
amount = withdrawal_request.amount
is_full_exit_request = amount == FULL_EXIT_REQUEST_AMOUNT
# If partial withdrawal queue is full, only full exits are processed
if len(state.pending_partial_withdrawals) == PENDING_PARTIAL_WITHDRAWALS_LIMIT and not is_full_exit_request:
return
validator_pubkeys = [v.pubkey for v in state.validators]
# Verify pubkey exists
request_pubkey = withdrawal_request.validator_pubkey
if request_pubkey not in validator_pubkeys:
return
index = ValidatorIndex(validator_pubkeys.index(request_pubkey))
validator = state.validators[index]
# Verify withdrawal credentials
has_correct_credential = has_execution_withdrawal_credential(validator)
is_correct_source_address = (
validator.withdrawal_credentials[12:] == withdrawal_request.source_address
)
if not (has_correct_credential and is_correct_source_address):
return
# Verify the validator is active
if not is_active_validator(validator, get_current_epoch(state)):
return
# Verify exit has not been initiated
if validator.exit_epoch != FAR_FUTURE_EPOCH:
return
# Verify the validator has been active long enough
if get_current_epoch(state) < validator.activation_epoch + SHARD_COMMITTEE_PERIOD:
return
pending_balance_to_withdraw = get_pending_balance_to_withdraw(state, index)
if is_full_exit_request:
# Only exit validator if it has no pending withdrawals in the queue
if pending_balance_to_withdraw == 0:
initiate_validator_exit(state, index)
return
has_sufficient_effective_balance = validator.effective_balance >= MIN_ACTIVATION_BALANCE
has_excess_balance = state.balances[index] > MIN_ACTIVATION_BALANCE + pending_balance_to_withdraw
# Only allow partial withdrawals with compounding withdrawal credentials
if has_compounding_withdrawal_credential(validator) and has_sufficient_effective_balance and has_excess_balance:
to_withdraw = min(
state.balances[index] - MIN_ACTIVATION_BALANCE - pending_balance_to_withdraw,
amount
)
exit_queue_epoch = compute_exit_epoch_and_update_churn(state, to_withdraw)
withdrawable_epoch = Epoch(exit_queue_epoch + MIN_VALIDATOR_WITHDRAWABILITY_DELAY)
state.pending_partial_withdrawals.append(PendingPartialWithdrawal(
validator_index=index,
amount=to_withdraw,
withdrawable_epoch=withdrawable_epoch,
))
def process_deposit_request(state: BeaconState, deposit_request: DepositRequest) -> None:
# Set deposit request start index
if state.deposit_requests_start_index == UNSET_DEPOSIT_REQUESTS_START_INDEX:
state.deposit_requests_start_index = deposit_request.index
# Create pending deposit
state.pending_deposits.append(PendingDeposit(
pubkey=deposit_request.pubkey,
withdrawal_credentials=deposit_request.withdrawal_credentials,
amount=deposit_request.amount,
signature=deposit_request.signature,
slot=state.slot,
))
def is_valid_switch_to_compounding_request(
state: BeaconState,
consolidation_request: ConsolidationRequest
) -> bool:
# Switch to compounding requires source and target be equal
if consolidation_request.source_pubkey != consolidation_request.target_pubkey:
return False
# Verify pubkey exists
source_pubkey = consolidation_request.source_pubkey
validator_pubkeys = [v.pubkey for v in state.validators]
if source_pubkey not in validator_pubkeys:
return False
source_validator = state.validators[ValidatorIndex(validator_pubkeys.index(source_pubkey))]
# Verify request has been authorized
if source_validator.withdrawal_credentials[12:] != consolidation_request.source_address:
return False
# Verify source withdrawal credentials
if not has_eth1_withdrawal_credential(source_validator):
return False
# Verify the source is active
current_epoch = get_current_epoch(state)
if not is_active_validator(source_validator, current_epoch):
return False
# Verify exit for source has not been initiated
if source_validator.exit_epoch != FAR_FUTURE_EPOCH:
return False
return True
def process_consolidation_request(
state: BeaconState,
consolidation_request: ConsolidationRequest
) -> None:
if is_valid_switch_to_compounding_request(state, consolidation_request):
validator_pubkeys = [v.pubkey for v in state.validators]
request_source_pubkey = consolidation_request.source_pubkey
source_index = ValidatorIndex(validator_pubkeys.index(request_source_pubkey))
switch_to_compounding_validator(state, source_index)
return
# Verify that source != target, so a consolidation cannot be used as an exit.
if consolidation_request.source_pubkey == consolidation_request.target_pubkey:
return
# If the pending consolidations queue is full, consolidation requests are ignored
if len(state.pending_consolidations) == PENDING_CONSOLIDATIONS_LIMIT:
return
# If there is too little available consolidation churn limit, consolidation requests are ignored
if get_consolidation_churn_limit(state) <= MIN_ACTIVATION_BALANCE:
return
validator_pubkeys = [v.pubkey for v in state.validators]
# Verify pubkeys exists
request_source_pubkey = consolidation_request.source_pubkey
request_target_pubkey = consolidation_request.target_pubkey
if request_source_pubkey not in validator_pubkeys:
return
if request_target_pubkey not in validator_pubkeys:
return
source_index = ValidatorIndex(validator_pubkeys.index(request_source_pubkey))
target_index = ValidatorIndex(validator_pubkeys.index(request_target_pubkey))
source_validator = state.validators[source_index]
target_validator = state.validators[target_index]
# Verify source withdrawal credentials
has_correct_credential = has_execution_withdrawal_credential(source_validator)
is_correct_source_address = (
source_validator.withdrawal_credentials[12:] == consolidation_request.source_address
)
if not (has_correct_credential and is_correct_source_address):
return
# Verify that target has compounding withdrawal credentials
if not has_compounding_withdrawal_credential(target_validator):
return
# Verify the source and the target are active
current_epoch = get_current_epoch(state)
if not is_active_validator(source_validator, current_epoch):
return
if not is_active_validator(target_validator, current_epoch):
return
# Verify exits for source and target have not been initiated
if source_validator.exit_epoch != FAR_FUTURE_EPOCH:
return
if target_validator.exit_epoch != FAR_FUTURE_EPOCH:
return
# Verify the source has been active long enough
if current_epoch < source_validator.activation_epoch + SHARD_COMMITTEE_PERIOD:
return
# Verify the source has no pending withdrawals in the queue
if get_pending_balance_to_withdraw(state, source_index) > 0:
return
# Initiate source validator exit and append pending consolidation
source_validator.exit_epoch = compute_consolidation_epoch_and_update_churn(
state, source_validator.effective_balance
)
source_validator.withdrawable_epoch = Epoch(
source_validator.exit_epoch + MIN_VALIDATOR_WITHDRAWABILITY_DELAY
)
state.pending_consolidations.append(PendingConsolidation(
source_index=source_index,
target_index=target_index
))