from eth2spec.test.helpers.keys import pubkeys, privkeys from eth2spec.utils.bls import bls_sign from eth2spec.utils.merkle_minimal import calc_merkle_tree_from_leaves, get_merkle_proof from eth2spec.utils.ssz.ssz_impl import signing_root, hash_tree_root from eth2spec.utils.ssz.ssz_typing import List def build_deposit_data(spec, pubkey, privkey, amount, withdrawal_credentials, state=None, signed=False): deposit_data = spec.DepositData( pubkey=pubkey, withdrawal_credentials=withdrawal_credentials, amount=amount, ) if signed: sign_deposit_data(spec, deposit_data, privkey, state) return deposit_data def sign_deposit_data(spec, deposit_data, privkey, state=None): if state is None: # Genesis domain = spec.bls_domain(spec.DOMAIN_DEPOSIT) else: domain = spec.get_domain( state, spec.DOMAIN_DEPOSIT, ) signature = bls_sign( message_hash=signing_root(deposit_data), privkey=privkey, domain=domain, ) deposit_data.signature = signature def build_deposit(spec, state, deposit_data_list, pubkey, privkey, amount, withdrawal_credentials, signed): deposit_data = build_deposit_data(spec, pubkey, privkey, amount, withdrawal_credentials, state=state, signed=signed) index = len(deposit_data_list) deposit_data_list.append(deposit_data) root = hash_tree_root(List[spec.DepositData, 2**spec.DEPOSIT_CONTRACT_TREE_DEPTH](*deposit_data_list)) tree = calc_merkle_tree_from_leaves(tuple([d.hash_tree_root() for d in deposit_data_list])) proof = list(get_merkle_proof(tree, item_index=index)) + [(index + 1).to_bytes(32, 'little')] leaf = deposit_data.hash_tree_root() assert spec.verify_merkle_branch(leaf, proof, spec.DEPOSIT_CONTRACT_TREE_DEPTH + 1, index, root) deposit = spec.Deposit(proof=proof, data=deposit_data) return deposit, root, deposit_data_list def prepare_genesis_deposits(spec, genesis_validator_count, amount, signed=False): deposit_data_list = [] genesis_deposits = [] for validator_index in range(genesis_validator_count): pubkey = pubkeys[validator_index] privkey = privkeys[validator_index] # insecurely use pubkey as withdrawal key if no credentials provided withdrawal_credentials = spec.int_to_bytes(spec.BLS_WITHDRAWAL_PREFIX, length=1) + spec.hash(pubkey)[1:] deposit, root, deposit_data_list = build_deposit( spec, None, deposit_data_list, pubkey, privkey, amount, withdrawal_credentials, signed, ) genesis_deposits.append(deposit) return genesis_deposits, root def prepare_state_and_deposit(spec, state, validator_index, amount, withdrawal_credentials=None, signed=False): """ Prepare the state for the deposit, and create a deposit for the given validator, depositing the given amount. """ deposit_data_list = [] pubkey = pubkeys[validator_index] privkey = privkeys[validator_index] # insecurely use pubkey as withdrawal key if no credentials provided if withdrawal_credentials is None: withdrawal_credentials = spec.int_to_bytes(spec.BLS_WITHDRAWAL_PREFIX, length=1) + spec.hash(pubkey)[1:] deposit, root, deposit_data_list = build_deposit( spec, state, deposit_data_list, pubkey, privkey, amount, withdrawal_credentials, signed, ) state.eth1_deposit_index = 0 state.eth1_data.deposit_root = root state.eth1_data.deposit_count = len(deposit_data_list) return deposit