def create_bitcoin_address(test_obj): # fee address pk = str(test_obj.hdwallet.get_pubkey(path=FEE_PATH).pubkey) addr = AddressUtil.p2wpkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = FEE_PATH test_obj.addr_dic['fee'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('wpkh({})'.format(str(pk)), network=NETWORK) print('set fee addr: ' + str(addr)) # wpkh main address path = '{}/0/0'.format(ROOT_PATH) pk = str(test_obj.hdwallet.get_pubkey(path=path).pubkey) addr = AddressUtil.p2wpkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = path test_obj.addr_dic['main'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('wpkh({})'.format(str(pk)), network=NETWORK) print('set main addr: ' + str(addr)) # pkh address path = '{}/0/1'.format(ROOT_PATH) pk = str(test_obj.hdwallet.get_pubkey(path=path).pubkey) addr = AddressUtil.p2pkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = path test_obj.addr_dic['p2pkh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('pkh({})'.format(str(pk)), network=NETWORK) print('set p2pkh addr: ' + str(addr)) # wpkh address path = '{}/0/2'.format(ROOT_PATH) pk = str(test_obj.hdwallet.get_pubkey(path=path).pubkey) addr = AddressUtil.p2wpkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = path test_obj.addr_dic['p2wpkh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('wpkh({})'.format(str(pk)), network=NETWORK) print('set p2wpkh addr: ' + str(addr)) # p2sh-p2wpkh address path = '{}/0/3'.format(ROOT_PATH) pk = str(test_obj.hdwallet.get_pubkey(path=path).pubkey) addr = AddressUtil.p2sh_p2wpkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = path test_obj.addr_dic['p2sh-p2wpkh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('sh(wpkh({}))'.format( str(pk)), network=NETWORK) print('set p2sh-p2wpkh addr: ' + str(addr)) # multisig_key path = '{}/0/'.format(ROOT_PATH) path_list = [path + str(i + 1) for i in range(3)] pk1 = str(test_obj.hdwallet.get_pubkey(path=path_list[0]).pubkey) pk2 = str(test_obj.hdwallet.get_pubkey(path=path_list[1]).pubkey) pk3 = str(test_obj.hdwallet.get_pubkey(path=path_list[2]).pubkey) pk_list = [pk1, pk2, pk3] req_num = 2 desc_multi = 'multi({},{},{},{})'.format(req_num, pk1, pk2, pk3) addr = AddressUtil.multisig(req_num, pk_list, HashType.P2SH, network=NETWORK) test_obj.path_dic[str(addr)] = path_list test_obj.addr_dic['p2sh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor( 'sh({})'.format(desc_multi), network=NETWORK) print('set p2sh addr: ' + str(addr)) addr = AddressUtil.multisig(req_num, pk_list, HashType.P2WSH, network=NETWORK) test_obj.path_dic[str(addr)] = path_list test_obj.addr_dic['p2wsh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor( 'wsh({})'.format(desc_multi), network=NETWORK) print('set p2wsh addr: ' + str(addr)) addr = AddressUtil.multisig(req_num, pk_list, HashType.P2SH_P2WSH, network=NETWORK) test_obj.path_dic[str(addr)] = path_list test_obj.addr_dic['p2sh-p2wsh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor( 'sh(wsh({}))'.format(desc_multi), network=NETWORK) print('set p2sh-p2wsh addr: ' + str(addr))
def create_bitcoin_address(test_obj): # fee address pk = str(test_obj.hdwallet.get_pubkey(path=FEE_PATH).pubkey) addr = AddressUtil.p2wpkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = FEE_PATH test_obj.addr_dic['fee'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('wpkh({})'.format(str(pk)), network=NETWORK) print('set fee addr: ' + str(addr)) path2 = FEE_PATH + '/0' sk = test_obj.hdwallet.get_privkey(path=path2).privkey test_obj.blind_key_dic[str(addr)] = sk ct_addr = ConfidentialAddress(addr, sk.pubkey) test_obj.ct_addr_dic[str(addr)] = ct_addr print('set fee ct_addr: ' + str(ct_addr)) # gen address pk = str(test_obj.hdwallet.get_pubkey(path=GEN_PATH).pubkey) addr = AddressUtil.p2wpkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = FEE_PATH test_obj.addr_dic['gen'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('wpkh({})'.format(str(pk)), network=NETWORK) print('set gen addr: ' + str(addr)) path2 = GEN_PATH + '/0' sk = test_obj.hdwallet.get_privkey(path=path2).privkey test_obj.blind_key_dic[str(addr)] = sk ct_addr = ConfidentialAddress(addr, sk.pubkey) test_obj.ct_addr_dic[str(addr)] = ct_addr print('set gen ct_addr: ' + str(ct_addr)) # wpkh main address path = '{}/0/0'.format(ROOT_PATH) pk = str(test_obj.hdwallet.get_pubkey(path=path).pubkey) addr = AddressUtil.p2wpkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = path test_obj.addr_dic['main'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('wpkh({})'.format(str(pk)), network=NETWORK) print('set main addr: ' + str(addr)) path2 = path + '/0' sk = test_obj.hdwallet.get_privkey(path=path2).privkey test_obj.blind_key_dic[str(addr)] = sk ct_addr = ConfidentialAddress(addr, sk.pubkey) test_obj.ct_addr_dic[str(addr)] = ct_addr print('set main ct_addr: ' + str(ct_addr)) # pkh address path = '{}/0/1'.format(ROOT_PATH) pk = str(test_obj.hdwallet.get_pubkey(path=path).pubkey) addr = AddressUtil.p2pkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = path test_obj.addr_dic['p2pkh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('pkh({})'.format(str(pk)), network=NETWORK) print('set p2pkh addr: ' + str(addr)) path2 = path + '/0' sk = test_obj.hdwallet.get_privkey(path=path2).privkey test_obj.blind_key_dic[str(addr)] = sk ct_addr = ConfidentialAddress(addr, sk.pubkey) test_obj.ct_addr_dic[str(addr)] = ct_addr print('set p2pkh ct_addr: ' + str(ct_addr)) # wpkh address path = '{}/0/2'.format(ROOT_PATH) pk = str(test_obj.hdwallet.get_pubkey(path=path).pubkey) addr = AddressUtil.p2wpkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = path test_obj.addr_dic['p2wpkh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('wpkh({})'.format(str(pk)), network=NETWORK) print('set p2wpkh addr: ' + str(addr)) path2 = path + '/0' sk = test_obj.hdwallet.get_privkey(path=path2).privkey test_obj.blind_key_dic[str(addr)] = sk ct_addr = ConfidentialAddress(addr, sk.pubkey) test_obj.ct_addr_dic[str(addr)] = ct_addr print('set p2wpkh ct_addr: ' + str(ct_addr)) # p2sh-p2wpkh address path = '{}/0/3'.format(ROOT_PATH) pk = str(test_obj.hdwallet.get_pubkey(path=path).pubkey) addr = AddressUtil.p2sh_p2wpkh(pk, network=NETWORK) test_obj.path_dic[str(addr)] = path test_obj.addr_dic['p2sh-p2wpkh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor('sh(wpkh({}))'.format( str(pk)), network=NETWORK) print('set p2sh-p2wpkh addr: ' + str(addr)) path2 = path + '/0' sk = test_obj.hdwallet.get_privkey(path=path2).privkey test_obj.blind_key_dic[str(addr)] = sk ct_addr = ConfidentialAddress(addr, sk.pubkey) test_obj.ct_addr_dic[str(addr)] = ct_addr print('set p2sh-p2wpkh ct_addr: ' + str(ct_addr)) # multisig_key path = '{}/0/'.format(ROOT_PATH) path_list = [path + str(i + 1) for i in range(3)] pk1 = str(test_obj.hdwallet.get_pubkey(path=path_list[0]).pubkey) pk2 = str(test_obj.hdwallet.get_pubkey(path=path_list[1]).pubkey) pk3 = str(test_obj.hdwallet.get_pubkey(path=path_list[2]).pubkey) pk_list = [pk1, pk2, pk3] req_num = 2 desc_multi = 'multi({},{},{},{})'.format(req_num, pk1, pk2, pk3) addr = AddressUtil.multisig(req_num, pk_list, HashType.P2SH, network=NETWORK) test_obj.path_dic[str(addr)] = path_list test_obj.addr_dic['p2sh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor( 'sh({})'.format(desc_multi), network=NETWORK) print('set p2sh addr: ' + str(addr)) path2 = MULTISIG_CT_PATH_BASE + '1' sk = test_obj.hdwallet.get_privkey(path=path2).privkey test_obj.blind_key_dic[str(addr)] = sk ct_addr = ConfidentialAddress(addr, sk.pubkey) test_obj.ct_addr_dic[str(addr)] = ct_addr print('set p2sh ct_addr: ' + str(ct_addr)) addr = AddressUtil.multisig(req_num, pk_list, HashType.P2WSH, network=NETWORK) test_obj.path_dic[str(addr)] = path_list test_obj.addr_dic['p2wsh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor( 'wsh({})'.format(desc_multi), network=NETWORK) print('set p2wsh addr: ' + str(addr)) path2 = MULTISIG_CT_PATH_BASE + '2' sk = test_obj.hdwallet.get_privkey(path=path2).privkey test_obj.blind_key_dic[str(addr)] = sk ct_addr = ConfidentialAddress(addr, sk.pubkey) test_obj.ct_addr_dic[str(addr)] = ct_addr print('set p2wsh ct_addr: ' + str(ct_addr)) addr = AddressUtil.multisig(req_num, pk_list, HashType.P2SH_P2WSH, network=NETWORK) test_obj.path_dic[str(addr)] = path_list test_obj.addr_dic['p2sh-p2wsh'] = addr test_obj.desc_dic[str(addr)] = parse_descriptor( 'sh(wsh({}))'.format(desc_multi), network=NETWORK) print('set p2sh-p2wsh addr: ' + str(addr)) path2 = MULTISIG_CT_PATH_BASE + '3' sk = test_obj.hdwallet.get_privkey(path=path2).privkey test_obj.blind_key_dic[str(addr)] = sk ct_addr = ConfidentialAddress(addr, sk.pubkey) test_obj.ct_addr_dic[str(addr)] = ct_addr print('set p2sh-p2wsh ct_addr: ' + str(ct_addr)) # master blinding key path = '{}/0/1001'.format(ROOT_PATH) sk = str(test_obj.hdwallet.get_privkey(path=path).privkey) test_obj.master_blinding_key = sk print('set master blinding key: ' + sk)
resp = None _network = req.get('network', 'mainnet') if req.get('isElements', False) and (_network.lower() == Network.REGTEST.as_str()): _network = Network.ELEMENTS_REGTEST if name == 'Address.Create': _hash_type = HashType.get(req['hashType']) if _hash_type == HashType.P2PKH: resp = AddressUtil.p2pkh(req['keyData']['hex'], network=_network) elif _hash_type == HashType.P2WPKH: resp = AddressUtil.p2wpkh(req['keyData']['hex'], network=_network) elif _hash_type == HashType.P2SH_P2WPKH: resp = AddressUtil.p2sh_p2wpkh(req['keyData']['hex'], network=_network) elif _hash_type == HashType.P2SH: resp = AddressUtil.p2sh(req['keyData']['hex'], network=_network) elif _hash_type == HashType.P2WSH: resp = AddressUtil.p2wsh(req['keyData']['hex'], network=_network) elif _hash_type == HashType.P2SH_P2WSH: resp = AddressUtil.p2sh_p2wsh(req['keyData']['hex'], network=_network) elif name == 'Address.GetInfo': resp = AddressUtil.parse(req['address']) elif name == 'Address.MultisigAddresses': resp = AddressUtil.get_multisig_address_list(req['redeemScript'], req['hashType'], network=_network)