def convert_deposit_log_to_deposit_data( deposit_log: DepositLog) -> DepositData: return DepositData.create( pubkey=deposit_log.pubkey, withdrawal_credentials=deposit_log.withdrawal_credentials, amount=deposit_log.amount, signature=deposit_log.signature, )
def _process_logs(self, logs: Sequence[DepositLog], block_number: BlockNumber) -> None: """ Store deposit data from the log in database, and increase the corresponding block's `deposit_count`. """ seq_deposit_data = tuple( DepositData.create( pubkey=log.pubkey, withdrawal_credentials=log.withdrawal_credentials, amount=log.amount, signature=log.signature, ) for log in logs) self._db.add_deposit_data_batch(seq_deposit_data, block_number)
def create_mock_deposit_data(*, config: Eth2Config, pubkey: BLSPubkey, privkey: int, withdrawal_credentials: Hash32, amount: Gwei = None) -> DepositData: if amount is None: amount = config.MAX_EFFECTIVE_BALANCE data = DepositData.create(pubkey=pubkey, withdrawal_credentials=withdrawal_credentials, amount=amount) signature = sign_proof_of_possession(deposit_data=data, privkey=privkey) return data.set("signature", signature)
def create_deposit_data( public_key: BLSPubkey, private_key: int, withdrawal_credentials: Hash32, amount: Gwei, ) -> DepositData: message = DepositMessage.create( pubkey=public_key, withdrawal_credentials=withdrawal_credentials, amount=amount ) signature = sign_proof_of_possession(deposit_message=message, privkey=private_key) return DepositData.create( pubkey=public_key, withdrawal_credentials=withdrawal_credentials, amount=amount, signature=signature, )
def sample_deposit_params(sample_deposit_data_params, deposit_contract_tree_depth): return { "proof": (b"\x22" * 32,) * (deposit_contract_tree_depth + 1), "data": DepositData.create(**sample_deposit_data_params), }
def test_defaults(sample_deposit_data_params): deposit_data = DepositData.create(**sample_deposit_data_params) assert deposit_data.pubkey == sample_deposit_data_params["pubkey"] assert deposit_data.amount == sample_deposit_data_params["amount"]