def run(self): to_addr = self.target_address dbloop = task.LoopingCall(Blockchain.Default().PersistBlocks) dbloop.start(.1) Blockchain.Default().PersistBlocks() wallets = [] i = 0 tx_json = '' print("Signing new transaction with 3 of 4 node keys...") for pkey, wif in nodekeys.items(): walletpath = "wallet{}.db3".format(i + 1) if os.path.exists(walletpath): os.remove(walletpath) wallet = UserWallet.Create(path=walletpath, password=mypassword) wallets.append(wallet) print("Importing node private key to to {}".format(walletpath)) prikey = KeyPair.PrivateKeyFromWIF(wif) wallet.CreateKey(prikey) print("Importing multi-sig contract to {}".format(walletpath)) multisig_args = [pkey, '3'] multisig_args.extend(list(nodekeys.keys())) ImportMultiSigContractAddr(wallet, multisig_args) dbloop = task.LoopingCall(wallet.ProcessBlocks) dbloop.start(1) while Blockchain.Default().Height < 2: print("Waiting for wallet to sync...") time.sleep(1) #print("Wallet %s " % json.dumps(wallet.ToJson(), indent=4)) if i == 0: print("Creating spend transaction to {}".format(to_addr)) tx_json = self.begin_send( wallet, ['neo', to_addr, '100000000', multisig_addr]) if tx_json is None: break else: tx_json = self.sign_and_finish(wallet, tx_json) if tx_json == 'success': print( "Finished, {} should now own all the NEO on the private network." .format(to_addr)) break i += 1 self.quit()
def claim_initial_neo(self, target_address): wallets = [] i = 0 tx_json = None dbloops = [] print("Signing new transaction with 3 of 4 node keys...") for pkey, wif in nodekeys.items(): walletpath = "wallet{}.db3".format(i + 1) if os.path.exists(walletpath): os.remove(walletpath) wallet = UserWallet.Create(path=walletpath, password=self.wallet_pwd) wallets.append(wallet) print("Importing node private key to to {}".format(walletpath)) prikey = KeyPair.PrivateKeyFromWIF(wif) wallet.CreateKey(prikey) print("Importing multi-sig contract to {}".format(walletpath)) multisig_args = [pkey, '3'] multisig_args.extend(list(nodekeys.keys())) ImportMultiSigContractAddr(wallet, multisig_args) dbloop = task.LoopingCall(wallet.ProcessBlocks) dbloop.start(1) dbloops.append(dbloop) # print("Wallet %s " % json.dumps(wallet.ToJson(), indent=4)) if i == 0: print( "Creating spend transaction to {}".format(target_address)) tx_json = self.send_neo(wallet, multisig_addr, target_address, '100000000') if tx_json is None: break else: tx_json = self.sign_and_finish(wallet, tx_json) if tx_json == 'success': print( "Finished, {} should now own all the NEO on the private network." .format(target_address)) break i += 1
def do_import(self, arguments): item = get_arg(arguments) if not item: print("please specify something to import") return if item == 'wif': if not self.Wallet: print("Please open a wallet before importing WIF") return wif = get_arg(arguments, 1) if not wif: print("Please supply a valid WIF key") return try: prikey = KeyPair.PrivateKeyFromWIF(wif) key = self.Wallet.CreateKey(prikey) print("Imported key %s " % wif) print("Pubkey: %s \n" % key.PublicKey.encode_point(True).hex()) print("Wallet: %s " % json.dumps(self.Wallet.ToJson(), indent=4)) except ValueError as e: print(str(e)) except Exception as e: print(str(e)) return elif item == 'nep2': if not self.Wallet: print("Please open a wallet before importing a NEP2 key") return nep2_key = get_arg(arguments, 1) if not nep2_key: print("Please supply a valid nep2 encrypted private key") return nep2_passwd = prompt("[Key Password]> ", is_password=True) try: prikey = KeyPair.PrivateKeyFromNEP2(nep2_key, nep2_passwd) key = self.Wallet.CreateKey(prikey) print("Imported nep2 key: %s " % nep2_key) print("Pubkey: %s \n" % key.PublicKey.encode_point(True).hex()) print("Wallet: %s " % json.dumps(self.Wallet.ToJson(), indent=4)) except ValueError as e: print(str(e)) except Exception as e: print(str(e)) return elif item == 'contract': return self.load_smart_contract(arguments) elif item == 'contract_addr': return ImportContractAddr(self.Wallet, arguments[1:]) elif item == 'watch_addr': return ImportWatchAddr(self.Wallet, get_arg(arguments, 1)) elif item == 'multisig_addr': return ImportMultiSigContractAddr(self.Wallet, arguments[1:]) elif item == 'token': return ImportToken(self.Wallet, get_arg(arguments, 1)) else: print("Import of '%s' not implemented" % item)