Exemplo n.º 1
0
def test_txsize_excess_100000bytes(conftest_args):
    gas_wanted = 7500000
    gas_price = 100
    tx_amount = 1

    # in protocol v0 v1, TxSizeLimit is 1200000 bytes
    # in protocol V2, TxSizeLimit is 100000 bytes
    data = 'ff' * 50000

    memo = 'test_normal_transaction_with_data_excess_100000bytes'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    upgrade_info = htdfrpc.get_upgrade_info()
    protocol_version = int(
        upgrade_info['current_version']['UpgradeInfo']['Protocol']['version'])

    from_addr = Address(conftest_args['ADDRESS'])

    new_to_addr = HtdfPrivateKey('').address
    # to_addr = Address('htdf1jrh6kxrcr0fd8gfgdwna8yyr9tkt99ggmz9ja2')
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    assert from_acc is not None
    assert from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=new_to_addr,
        amount_satoshi=tx_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo).build_and_sign(private_key=private_key)

    if protocol_version < 2:  # v0 and v1
        # TODO:
        pass
    elif protocol_version == 2:  # v2

        try:
            tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
            print('tx_hash: {}'.format(tx_hash))

            assert True == False

        except Exception as e:
            errmsg = '{}'.format(e)
            print(e)
            pass
    else:
        raise Exception("invalid protocol version {}".format(protocol_version))
    pass
Exemplo n.º 2
0
def test_contract_htdf_faucet_deposit(conftest_args):
    with open('sol/htdf_faucet_sol_HtdfFaucet.abi', 'r') as abifile:
        # abi = abifile.readlines()
        abijson = abifile.read()
        # print(abijson)
        abi = json.loads(abijson)

    assert len(htdf_faucet_contract_address) > 0
    contract_address = Address(htdf_faucet_contract_address[0])
    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    hc = HtdfContract(rpc=htdfrpc, address=contract_address, abi=abi)

    deposit_amount = htdf_to_satoshi(10)
    deposit_tx = hc.functions.deposit().buildTransaction_htdf()
    data = remove_0x_prefix(deposit_tx['data'])

    from_addr = Address(conftest_args['ADDRESS'])
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)
    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=contract_address,
        amount_satoshi=deposit_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=100,
        gas_wanted=200000,
        data=data,
        memo='htdf_faucet.deposit()').build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    assert tx['logs'][0]['success'] == True

    time.sleep(8)  # wait for chain state update

    contract_acc = htdfrpc.get_account_info(address=contract_address.address)
    assert contract_acc is not None
    assert contract_acc.balance_satoshi == deposit_amount
    pass
Exemplo n.º 3
0
def test_normal_tx_send(conftest_args, to_addr):
    gas_wanted = 200000
    gas_price = 100
    tx_amount = 101 * 10**8
    data = ''
    memo = 'test_normal_transaction'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    from_addr = Address(conftest_args['ADDRESS'])

    # new_to_addr = HtdfPrivateKey('').address
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    assert from_acc is not None
    assert from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=to_addr,
        amount_satoshi=tx_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    mempool = htdfrpc.get_mempool_trasactions()
    pprint(mempool)

    memtx = htdfrpc.get_mempool_transaction(transaction_hash=tx_hash)
    pprint(memtx)

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    tx = htdfrpc.get_transaction(transaction_hash=tx_hash)
Exemplo n.º 4
0
def test_create_hrc20_token_contract(conftest_args):
    """
    test create hrc20 token contract which implement HRC20.
    # test contract AJC.sol
    """

    gas_wanted = 2000000
    gas_price = 100
    tx_amount = 1
    data = '60606040526000600260006101000a81548173ffffffffffffffffffffffffffffffffffffffff021916908373ffffffffffffffffffffffffffffffffffffffff160217905550341561005157600080fd5b6aa49be39dc14cb8270000006003819055506003546000803373ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002081905550610d61806100b76000396000f3006060604052600436106100af576000357c0100000000000000000000000000000000000000000000000000000000900463ffffffff16806306fdde03146100b4578063095ea7b31461014257806318160ddd1461019c57806323b872dd146101c5578063313ce5671461023e5780634d853ee51461026d57806370a08231146102c257806393c32e061461030f57806395d89b4114610348578063a9059cbb146103d6578063dd62ed3e14610430575b600080fd5b34156100bf57600080fd5b6100c761049c565b6040518080602001828103825283818151815260200191508051906020019080838360005b838110156101075780820151818401526020810190506100ec565b50505050905090810190601f1680156101345780820380516001836020036101000a031916815260200191505b509250505060405180910390f35b341561014d57600080fd5b610182600480803573ffffffffffffffffffffffffffffffffffffffff169060200190919080359060200190919050506104d5565b604051808215151515815260200191505060405180910390f35b34156101a757600080fd5b6101af61065c565b6040518082815260200191505060405180910390f35b34156101d057600080fd5b610224600480803573ffffffffffffffffffffffffffffffffffffffff1690602001909190803573ffffffffffffffffffffffffffffffffffffffff16906020019091908035906020019091905050610662565b604051808215151515815260200191505060405180910390f35b341561024957600080fd5b610251610959565b604051808260ff1660ff16815260200191505060405180910390f35b341561027857600080fd5b61028061095e565b604051808273ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200191505060405180910390f35b34156102cd57600080fd5b6102f9600480803573ffffffffffffffffffffffffffffffffffffffff16906020019091905050610984565b6040518082815260200191505060405180910390f35b341561031a57600080fd5b610346600480803573ffffffffffffffffffffffffffffffffffffffff169060200190919050506109cc565b005b341561035357600080fd5b61035b610a6c565b6040518080602001828103825283818151815260200191508051906020019080838360005b8381101561039b578082015181840152602081019050610380565b50505050905090810190601f1680156103c85780820380516001836020036101000a031916815260200191505b509250505060405180910390f35b34156103e157600080fd5b610416600480803573ffffffffffffffffffffffffffffffffffffffff16906020019091908035906020019091905050610aa5565b604051808215151515815260200191505060405180910390f35b341561043b57600080fd5b610486600480803573ffffffffffffffffffffffffffffffffffffffff1690602001909190803573ffffffffffffffffffffffffffffffffffffffff16906020019091905050610c77565b6040518082815260200191505060405180910390f35b6040805190810160405280600981526020017f414a4320636861696e000000000000000000000000000000000000000000000081525081565b60008082148061056157506000600160003373ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002060008573ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002054145b151561056c57600080fd5b81600160003373ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002060008573ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff168152602001908152602001600020819055508273ffffffffffffffffffffffffffffffffffffffff163373ffffffffffffffffffffffffffffffffffffffff167f8c5be1e5ebec7d5bd14f71427d1e84f3dd0314c0f7b2291e5b200ac8c7c3b925846040518082815260200191505060405180910390a36001905092915050565b60035481565b600080600160008673ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002060003373ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff168152602001908152602001600020549050600073ffffffffffffffffffffffffffffffffffffffff168473ffffffffffffffffffffffffffffffffffffffff161415151561072057600080fd5b80831115151561072f57600080fd5b610780836000808873ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002054610cfe90919063ffffffff16565b6000808773ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002081905550610813836000808773ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002054610d1790919063ffffffff16565b6000808673ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff168152602001908152602001600020819055506108688382610cfe90919063ffffffff16565b600160008773ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002060003373ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff168152602001908152602001600020819055508373ffffffffffffffffffffffffffffffffffffffff168573ffffffffffffffffffffffffffffffffffffffff167fddf252ad1be2c89b69c2b068fc378daa952ba7f163c4a11628f55a4df523b3ef856040518082815260200191505060405180910390a360019150509392505050565b601281565b600260009054906101000a900473ffffffffffffffffffffffffffffffffffffffff1681565b60008060008373ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff168152602001908152602001600020549050919050565b600260009054906101000a900473ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff163373ffffffffffffffffffffffffffffffffffffffff16141515610a2857600080fd5b80600260006101000a81548173ffffffffffffffffffffffffffffffffffffffff021916908373ffffffffffffffffffffffffffffffffffffffff16021790555050565b6040805190810160405280600381526020017f414a43000000000000000000000000000000000000000000000000000000000081525081565b60008073ffffffffffffffffffffffffffffffffffffffff168373ffffffffffffffffffffffffffffffffffffffff1614151515610ae257600080fd5b610b33826000803373ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002054610cfe90919063ffffffff16565b6000803373ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002081905550610bc6826000808673ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002054610d1790919063ffffffff16565b6000808573ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff168152602001908152602001600020819055508273ffffffffffffffffffffffffffffffffffffffff163373ffffffffffffffffffffffffffffffffffffffff167fddf252ad1be2c89b69c2b068fc378daa952ba7f163c4a11628f55a4df523b3ef846040518082815260200191505060405180910390a36001905092915050565b6000600160008473ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002060008373ffffffffffffffffffffffffffffffffffffffff1673ffffffffffffffffffffffffffffffffffffffff16815260200190815260200160002054905092915050565b6000828211151515610d0c57fe5b818303905092915050565b6000808284019050838110151515610d2b57fe5b80915050929150505600a165627a7a7230582043a3cd97586e182885676a8c6e6413be040c6f728b9763d794ecdbfff9a4b7c90029'
    memo = 'test_create_hrc20_token_contract'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'], rpc_host=conftest_args['RPC_HOST'], rpc_port=conftest_args['RPC_PORT'])

    from_addr = Address(conftest_args['ADDRESS'])

    # new_to_addr = HtdfPrivateKey('').address
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    assert from_acc is not None
    assert from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address='',
        amount_satoshi=tx_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo
    ).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    assert tx['logs'][0]['success'] == True
    txlog = tx['logs'][0]['log']
    txlog = json.loads(txlog)

    assert tx['gas_wanted'] == str(gas_wanted)
    assert int(tx['gas_used']) <= gas_wanted

    tv = tx['tx']['value']
    assert len(tv['msg']) == 1
    assert tv['msg'][0]['type'] == 'htdfservice/send'
    assert int(tv['fee']['gas_wanted']) == gas_wanted
    assert int(tv['fee']['gas_price']) == gas_price
    assert tv['memo'] == memo

    mv = tv['msg'][0]['value']
    assert mv['From'] == from_addr.address
    assert mv['To'] == ''  # new_to_addr.address
    assert mv['Data'] == data
    assert int(mv['GasPrice']) == gas_price
    assert int(mv['GasWanted']) == gas_wanted
    assert 'satoshi' == mv['Amount'][0]['denom']
    assert tx_amount == int(mv['Amount'][0]['amount'])

    pprint(tx)

    time.sleep(8)  # wait for chain state update

    # to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
    # assert to_acc is not None
    # assert to_acc.balance_satoshi == tx_amount

    from_acc_new = htdfrpc.get_account_info(address=from_addr.address)
    assert from_acc_new.address == from_acc.address
    assert from_acc_new.sequence == from_acc.sequence + 1
    assert from_acc_new.account_number == from_acc.account_number
    assert from_acc_new.balance_satoshi == from_acc.balance_satoshi - (gas_price * int(tx['gas_used']))

    logjson = json.loads(tx['logs'][0]['log'])
    contract_address = logjson['contract_address']

    hrc20_contract_address.append(contract_address)

    pass
Exemplo n.º 5
0
def test_hrc20_transfer(conftest_args):
    with open('sol/AJC_sol_AJCToken.abi', 'r') as abifile:
        # abi = abifile.readlines()
        abijson = abifile.read()
        # print(abijson)
        abi = json.loads(abijson)

    assert len(hrc20_contract_address) > 0
    contract_address = Address(hrc20_contract_address[0])
    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'], rpc_host=conftest_args['RPC_HOST'], rpc_port=conftest_args['RPC_PORT'])

    hc = HtdfContract(rpc=htdfrpc, address=contract_address, abi=abi)

    new_to_addr = HtdfPrivateKey('').address

    from_addr = Address(conftest_args['ADDRESS'])
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    cfnBalanceOf = hc.functions.balanceOf(_owner=to_checksum_address(from_addr.hex_address))
    balanceFrom_begin = hc.call(cfn=cfnBalanceOf)
    print(balanceFrom_begin)

    transfer_token_amount = int(10001 * 10 ** 18)
    transfer_tx = hc.functions.transfer(
        _to=to_checksum_address(new_to_addr.hex_address),
        _value=transfer_token_amount).buildTransaction_htdf()
    data = remove_0x_prefix(transfer_tx['data'])
    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=contract_address,
        amount_satoshi=0,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=100,
        gas_wanted=200000,
        data=data,
        memo='test_hrc20_transfer'
    ).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    time.sleep(8)

    # check  balance of token
    cfnBalanceOf = hc.functions.balanceOf(_owner=to_checksum_address(from_addr.hex_address))
    balanceFrom_end = hc.call(cfn=cfnBalanceOf)
    print(balanceFrom_end)
    assert balanceFrom_end == balanceFrom_begin - transfer_token_amount

    cfnBalanceOf = hc.functions.balanceOf(_owner=to_checksum_address(new_to_addr.hex_address))
    balance = hc.call(cfn=cfnBalanceOf)
    print(balance)
    assert balance == transfer_token_amount

    pass
Exemplo n.º 6
0
def test_deploy_contract(conftest_args, bytecode):
    """
    test create hrc20 token contract which implement HRC20.
    # test contract AJC.sol
    """

    gas_wanted = 5000000
    gas_price = 100
    tx_amount = 0
    data = bytecode
    memo = 'test_deploy_contract'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    from_addr = Address(conftest_args['ADDRESS'])

    # new_to_addr = HtdfPrivateKey('').address
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    assert from_acc is not None
    assert from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address='',
        amount_satoshi=tx_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    assert tx['logs'][0]['success'] == True
    # txlog = tx['logs'][0]['log']
    # txlog = json.loads(txlog)

    assert tx['gas_wanted'] == str(gas_wanted)
    assert int(tx['gas_used']) <= gas_wanted

    tv = tx['tx']['value']
    assert len(tv['msg']) == 1
    assert tv['msg'][0]['type'] == 'htdfservice/send'
    assert int(tv['fee']['gas_wanted']) == gas_wanted
    assert int(tv['fee']['gas_price']) == gas_price
    assert tv['memo'] == memo

    mv = tv['msg'][0]['value']
    assert mv['From'] == from_addr.address
    assert mv['To'] == ''  # new_to_addr.address
    assert mv['Data'] == data
    assert int(mv['GasPrice']) == gas_price
    assert int(mv['GasWanted']) == gas_wanted
    assert 'satoshi' == mv['Amount'][0]['denom']
    assert tx_amount == int(mv['Amount'][0]['amount'])

    pprint(tx)

    time.sleep(8)  # wait for chain state update

    # to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
    # assert to_acc is not None
    # assert to_acc.balance_satoshi == tx_amount

    from_acc_new = htdfrpc.get_account_info(address=from_addr.address)
    assert from_acc_new.address == from_acc.address
    assert from_acc_new.sequence == from_acc.sequence + 1
    assert from_acc_new.account_number == from_acc.account_number
    assert from_acc_new.balance_satoshi == from_acc.balance_satoshi - (
        gas_price * int(tx['gas_used']))

    log = tx['logs'][0]['log']
    conaddr = log[log.find("contract address:"):log.find(", output:")]
    contract_address = conaddr.replace('contract address:', '').strip()
    contract_address = Address.hexaddr_to_bech32(contract_address)
    print(contract_address)

    hrc20_contract_address.append(contract_address)

    pass
Exemplo n.º 7
0
def test_ecrecover(conftest_args, abi):
    assert len(hrc20_contract_address) > 0
    contract_address = Address(hrc20_contract_address[0])
    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    hc = HtdfContract(rpc=htdfrpc, address=contract_address, abi=abi)

    # new_to_addr = HtdfPrivateKey('').address

    from_addr = Address(conftest_args['ADDRESS'])
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    ####################
    # blk = htdfrpc.get_latest_block()
    # last_block_number = int(blk['block_meta']['header']['height'])
    # last_block_number = 100

    # reveal = 99  #int(os.urandom(32).hex(), 16)
    # commitLastBlock = unhexlify('%010x' % last_block_number)  # 和uint40对应
    # commit = keccak(  unhexlify('%064x' % reveal) )
    # print('0x' + commit.hex() )

    # privateKey = unhexlify('dbbad2a5682517e4ff095f948f721563231282ca4179ae0dfea1c76143ba9607')

    # pk = PrivateKey(privateKey, CoinCurveECCBackend)
    # sh = keccak(commitLastBlock + commit)
    # print('sh ==========> {}'.format(sh.hex()))
    # sig = pk.sign_msg_hash(message_hash=sh)

    # print('"0x' +  sig.to_bytes()[:32].hex() + '"')
    # print('"0x'+ sig.to_bytes()[32:-1].hex() + '"')
    # print( sig.to_bytes()[-1])
    # r = sig.to_bytes()[:32]
    # s = sig.to_bytes()[32:-1]
    # v = sig.to_bytes()[-1] + 27
    ######################

    callTx = hc.functions.testecrecover().buildTransaction_htdf()

    data = remove_0x_prefix(callTx['data'])
    print('========> data{}'.format(remove_0x_prefix(callTx['data'])))
    # data = '227ada370000000000000000000000000000000000000000000000000000000000000001000000000000000000000000000000000000000000000000000000000000000200000000000000000000000000000000000000000000000000000000000000640b42b6393c1f53060fe3ddbfcd7aadcca894465a5a438f69c87d790b2299b9b22e07166e8a445db2a2a805af052fbbed92ad61d3cb1f81ebc1eaf927c6474f507996175577577bfe8782299a3153327e56cc28e108f4c9105b646e46d5179557000000000000000000000000000000000000000000000000000000000000001c'
    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=contract_address,
        amount_satoshi=0,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=100,
        gas_wanted=5000000,
        data=data,
        memo='test_ecrecover').build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    pass
Exemplo n.º 8
0
def test_contract_htdf_faucet_setOnceAmount(conftest_args):
    with open('sol/htdf_faucet_sol_HtdfFaucet.abi', 'r') as abifile:
        # abi = abifile.readlines()
        abijson = abifile.read()
        # print(abijson)
        abi = json.loads(abijson)

    assert len(htdf_faucet_contract_address) > 0
    contract_address = Address(htdf_faucet_contract_address[0])
    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    hc = HtdfContract(rpc=htdfrpc, address=contract_address, abi=abi)

    once_htdf_satoshi_begin = hc.call(hc.functions.onceAmount())
    once_htdf_to_set = int(3.5 * 10**8)

    deposit_tx = hc.functions.setOnceAmount(
        amount=once_htdf_to_set).buildTransaction_htdf()
    data = remove_0x_prefix(deposit_tx['data'])
    assert len(data) > 0 and ((len(data) & 1) == 0)

    # test for  non-owner , it will be failed
    from_addr = Address('htdf188tzdtuka7yc6xnkm20pv84f3kgthz05650au5')
    private_key = HtdfPrivateKey(
        'f3024714bb950cfbd2461b48ef4d3a9aea854309c4ab843fda57be34cdaf856e')
    from_acc = htdfrpc.get_account_info(address=from_addr.address)
    if from_acc is None or from_acc.balance_satoshi < 100 * 200000:
        gas_wanted = 30000
        gas_price = 100
        tx_amount = htdf_to_satoshi(10)
        #data = ''
        memo = 'test_normal_transaction'

        htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                          rpc_host=conftest_args['RPC_HOST'],
                          rpc_port=conftest_args['RPC_PORT'])

        g_from_addr = Address(conftest_args['ADDRESS'])

        # new_to_addr = HtdfPrivateKey('').address
        g_from_private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
        g_from_acc = htdfrpc.get_account_info(address=g_from_addr.address)

        assert g_from_acc is not None
        assert g_from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

        signed_tx = HtdfTxBuilder(
            from_address=g_from_addr,
            to_address=from_addr,
            amount_satoshi=tx_amount,
            sequence=g_from_acc.sequence,
            account_number=g_from_acc.account_number,
            chain_id=htdfrpc.chain_id,
            gas_price=gas_price,
            gas_wanted=gas_wanted,
            data='',
            memo=memo).build_and_sign(private_key=g_from_private_key)

        tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
        print('tx_hash: {}'.format(tx_hash))

        tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
        pprint(tx)

        time.sleep(10)

        assert tx['logs'][0]['success'] == True
        from_acc = htdfrpc.get_account_info(address=from_addr.address)
        assert from_acc is not None and from_acc.balance_satoshi >= 100 * 200000

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=contract_address,
        amount_satoshi=0,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=100,
        gas_wanted=200000,
        data=data,
        memo='htdf_faucet.setOnceAmount()').build_and_sign(
            private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)
    assert tx['logs'][0]['success'] == False

    time.sleep(8)  # wait for chain state update
    once_amount_satoshi_end = hc.call(cfn=hc.functions.onceAmount())
    assert once_amount_satoshi_end == once_htdf_satoshi_begin

    # test for owner , it should be succeed
    from_addr = Address(conftest_args['ADDRESS'])
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)
    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=contract_address,
        amount_satoshi=0,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=100,
        gas_wanted=200000,
        data=data,
        memo='htdf_faucet.deposit()').build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)
    assert tx['logs'][0]['success'] == True

    time.sleep(8)  # wait for chain state update
    once_amount_satoshi_end = hc.call(cfn=hc.functions.onceAmount())
    assert once_amount_satoshi_end == once_htdf_to_set

    pass
Exemplo n.º 9
0
def test_contract_htdf_faucet_getOneHtdf(conftest_args):
    """
    run test_contract_htdf_faucet_deposit before this test case,
    to ensure the faucet contract has enough HTDF balance.
    """

    with open('sol/htdf_faucet_sol_HtdfFaucet.abi', 'r') as abifile:
        # abi = abifile.readlines()
        abijson = abifile.read()
        # print(abijson)
        abi = json.loads(abijson)

    assert len(htdf_faucet_contract_address) > 0
    contract_address = Address(htdf_faucet_contract_address[0])
    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    hc = HtdfContract(rpc=htdfrpc, address=contract_address, abi=abi)

    # because of the limitions in contract, a address could only get 1 htdf every minute.
    # so the second loop of this for-loop should be failed as expected.
    expected_result = [True, False]
    for n in range(2):
        contract_acc_begin = htdfrpc.get_account_info(
            address=contract_address.address)
        assert contract_acc_begin is not None

        deposit_tx = hc.functions.getOneHtdf().buildTransaction_htdf()
        data = remove_0x_prefix(deposit_tx['data'])

        from_addr = Address(conftest_args['ADDRESS'])
        private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
        from_acc = htdfrpc.get_account_info(address=from_addr.address)
        signed_tx = HtdfTxBuilder(
            from_address=from_addr,
            to_address=contract_address,
            amount_satoshi=0,
            sequence=from_acc.sequence,
            account_number=from_acc.account_number,
            chain_id=htdfrpc.chain_id,
            gas_price=100,
            gas_wanted=200000,
            data=data,
            memo='htdf_faucet.getOneHtdf()').build_and_sign(
                private_key=private_key)

        tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
        print('tx_hash: {}'.format(tx_hash))
        # self.assertTrue( len(tx_hash) == 64)

        tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
        pprint(tx)

        # tx = htdfrpc.get_transaction(transaction_hash=tx_hash)
        # pprint(tx)

        assert tx['logs'][0]['success'] == expected_result[n]

        time.sleep(8)  # wait for chain state update
        if expected_result[n] == True:
            once_htdf_satoshi = hc.call(hc.functions.onceAmount())
            contract_acc_end = htdfrpc.get_account_info(
                address=contract_address.address)
            assert contract_acc_end is not None
            assert contract_acc_end.balance_satoshi == contract_acc_begin.balance_satoshi - once_htdf_satoshi
        elif expected_result[n] == False:
            contract_acc_end = htdfrpc.get_account_info(
                address=contract_address.address)
            assert contract_acc_end is not None
            assert contract_acc_end.balance_satoshi == contract_acc_begin.balance_satoshi  # contract's balance doesn't changes

    pass
Exemplo n.º 10
0
def test_balance_less_than_fee_tx(conftest_args):
    """
    test for issue #6

    In protocol v0 and v1 , if a account's balance less than fee( gas_wanted * gas_price)
    its transactions still could be included into a block.

    In protocol v2, if a account's balance less than fee(gas_wanted * gas_price), its transaction
    will be rejected when it be broadcasted.
    """

    gas_wanted = 30000
    gas_price = 100
    tx_amount = 1
    data = ''
    memo = 'test_balance_less_than_fee_tx'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    upgrade_info = htdfrpc.get_upgrade_info()
    protocol_version = int(
        upgrade_info['current_version']['UpgradeInfo']['Protocol']['version'])

    from_addr = Address(conftest_args['ADDRESS'])

    new_to_privkey = HtdfPrivateKey('')
    new_to_addr = new_to_privkey.address
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    assert from_acc is not None
    assert from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=new_to_addr,
        amount_satoshi=tx_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    assert tx['logs'][0]['success'] == True

    time.sleep(5)  # wait for chain state update
    to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
    assert to_acc is not None
    assert to_acc.balance_satoshi == tx_amount

    signed_tx_back = HtdfTxBuilder(
        from_address=new_to_addr,
        to_address=from_addr,
        amount_satoshi=tx_amount,
        sequence=to_acc.sequence,
        account_number=to_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo).build_and_sign(private_key=new_to_privkey)

    if protocol_version < 2:
        tx_hash_back = htdfrpc.broadcast_tx(tx_hex=signed_tx_back)
        print('tx_hash_back: {}'.format(tx_hash_back))

        tx = htdfrpc.get_tranaction_until_timeout(
            transaction_hash=tx_hash_back)
        assert tx['logs'][0]['success'] == False

        time.sleep(5)  # wait for chain state update
        to_acc_new = htdfrpc.get_account_info(address=new_to_addr.address)
        assert to_acc_new is not None
        assert to_acc_new.address == to_acc.address
        assert to_acc_new.balance_satoshi == to_acc.balance_satoshi  # balance not change
        assert to_acc_new.sequence == to_acc.sequence + 1  # sequence changed
        assert to_acc_new.account_number == to_acc.account_number

    elif protocol_version == 2:
        try:
            tx_hash_back = htdfrpc.broadcast_tx(tx_hex=signed_tx_back)
            print('tx_hash_back: {}'.format(tx_hash_back))
            # error
            assert False == True
        except Exception as e:
            # ok
            print(e)

            to_acc_new = htdfrpc.get_account_info(address=new_to_addr.address)
            assert to_acc_new is not None
            assert to_acc_new.address == to_acc.address
            assert to_acc_new.balance_satoshi == to_acc.balance_satoshi  # balance not change
            assert to_acc_new.sequence == to_acc.sequence  # sequence not change
            assert to_acc_new.account_number == to_acc.account_number

            pass
    else:
        raise Exception("invalid protocol version:{}".format(protocol_version))

    pass
Exemplo n.º 11
0
def test_5000_normal_send_txs(conftest_args):
    """
    Node's mempool size is 5000 txs by default, if mempool is full, tx will be rejected.
    the blockGasLimit of tendermint is 15,000,000 , if a tx's gasWanted is 30000,
    single block could include 500 txs.
    """

    txs_count = 5000
    gas_wanted = 30000
    gas_price = 100
    tx_amount = 1
    data = ''
    memo = 'test_2000_normal_send_txs'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    from_addr = Address(conftest_args['ADDRESS'])

    new_to_addr = HtdfPrivateKey('').address
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    assert from_acc is not None
    assert from_acc.balance_satoshi > (gas_price * gas_wanted +
                                       tx_amount) * txs_count

    signed_tx_list = []

    for n in range(txs_count):
        signed_tx = HtdfTxBuilder(
            from_address=from_addr,
            to_address=new_to_addr,
            amount_satoshi=tx_amount,
            sequence=from_acc.sequence + n,
            account_number=from_acc.account_number,
            chain_id=htdfrpc.chain_id,
            gas_price=gas_price,
            gas_wanted=gas_wanted,
            data=data,
            memo=memo).build_and_sign(private_key=private_key)

        signed_tx_list.append(signed_tx)

    tx_hash_list = []
    for n in range(txs_count):
        tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx_list[n])
        # print('tx_hash: {}'.format(tx_hash))
        tx_hash_list.append(tx_hash)

    tx = htdfrpc.get_tranaction_until_timeout(
        transaction_hash=tx_hash_list[-1],
        timeout_secs=(txs_count / 500.0 * 6.0))
    assert tx['logs'][0]['success'] == True

    time.sleep(5)  # wait for chain state update

    to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
    assert to_acc is not None
    assert to_acc.balance_satoshi == tx_amount * txs_count

    from_acc_new = htdfrpc.get_account_info(address=from_addr.address)
    assert from_acc_new.address == from_acc.address
    assert from_acc_new.sequence == from_acc.sequence + txs_count
    assert from_acc_new.account_number == from_acc.account_number
    assert from_acc_new.balance_satoshi == from_acc.balance_satoshi - (
        gas_price * gas_wanted + tx_amount) * txs_count

    pass
Exemplo n.º 12
0
def test_normal_tx_gas_wanted_excess_7500000(conftest_args):
    gas_wanted = 7500001  # v2  max gas_wanted is 7500000
    gas_price = 100
    tx_amount = 1
    data = ''
    memo = 'test_normal_transaction_gas_wanted_excess_7500000'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])
    upgrade_info = htdfrpc.get_upgrade_info()
    protocol_version = int(
        upgrade_info['current_version']['UpgradeInfo']['Protocol']['version'])

    from_addr = Address(conftest_args['ADDRESS'])

    new_to_addr = HtdfPrivateKey('').address
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    assert from_acc is not None
    assert from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=new_to_addr,
        amount_satoshi=tx_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo).build_and_sign(private_key=private_key)

    tx_hash = ''
    try:
        tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
        print('tx_hash: {}'.format(tx_hash))
    except Exception as e:
        assert protocol_version == 2
        errmsg = '{}'.format(e)
        print(e)
        assert 'Tx could not excess TxGasLimit[7500000]' in errmsg

    if protocol_version < 2:
        tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
        pprint(tx)

        assert tx['logs'][0]['success'] == True
        assert tx['gas_wanted'] == str(gas_wanted)
        assert int(tx['gas_used']) < gas_wanted

        tv = tx['tx']['value']
        assert len(tv['msg']) == 1
        assert tv['msg'][0]['type'] == 'htdfservice/send'
        assert int(tv['fee']['gas_wanted']) == gas_wanted
        assert int(tv['fee']['gas_price']) == gas_price
        assert tv['memo'] == memo

        mv = tv['msg'][0]['value']
        assert mv['From'] == from_addr.address
        assert mv['To'] == new_to_addr.address
        assert mv['Data'] == data
        assert int(mv['GasPrice']) == gas_price
        assert int(mv['GasWanted']) == gas_wanted
        assert 'satoshi' == mv['Amount'][0]['denom']
        assert tx_amount == int(mv['Amount'][0]['amount'])

        pprint(tx)

        time.sleep(5)  # wait for chain state update

        to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
        assert to_acc is not None
        assert to_acc.balance_satoshi == tx_amount

        from_acc_new = htdfrpc.get_account_info(address=from_addr.address)
        assert from_acc_new.address == from_acc.address
        assert from_acc_new.sequence == from_acc.sequence + 1
        assert from_acc_new.account_number == from_acc.account_number
        assert from_acc_new.balance_satoshi == from_acc.balance_satoshi - (
            gas_price * int(tx['gas_used']) + tx_amount)

    pass
Exemplo n.º 13
0
def test_normal_tx_send(conftest_args):
    gas_wanted = 30000
    gas_price = 100
    tx_amount = 1
    data = ''
    memo = 'test_normal_transaction'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    from_addr = Address(conftest_args['ADDRESS'])

    new_to_addr = HtdfPrivateKey('').address
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    assert from_acc is not None
    assert from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=new_to_addr,
        amount_satoshi=tx_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    mempool = htdfrpc.get_mempool_trasactions()
    pprint(mempool)

    memtx = htdfrpc.get_mempool_transaction(transaction_hash=tx_hash)
    pprint(memtx)

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    tx = htdfrpc.get_transaction(transaction_hash=tx_hash)
    assert tx['logs'][0]['success'] == True
    assert tx['gas_wanted'] == str(gas_wanted)
    assert tx['gas_used'] == str(gas_wanted)

    tv = tx['tx']['value']
    assert len(tv['msg']) == 1
    assert tv['msg'][0]['type'] == 'htdfservice/send'
    assert int(tv['fee']['gas_wanted']) == gas_wanted
    assert int(tv['fee']['gas_price']) == gas_price
    assert tv['memo'] == memo

    mv = tv['msg'][0]['value']
    assert mv['From'] == from_addr.address
    assert mv['To'] == new_to_addr.address
    assert mv['Data'] == data
    assert int(mv['GasPrice']) == gas_price
    assert int(mv['GasWanted']) == gas_wanted
    assert 'satoshi' == mv['Amount'][0]['denom']
    assert tx_amount == int(mv['Amount'][0]['amount'])

    pprint(tx)

    time.sleep(8)  # wait for chain state update

    to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
    assert to_acc is not None
    assert to_acc.balance_satoshi == tx_amount

    from_acc_new = htdfrpc.get_account_info(address=from_addr.address)
    assert from_acc_new.address == from_acc.address
    assert from_acc_new.sequence == from_acc.sequence + 1
    assert from_acc_new.account_number == from_acc.account_number
    assert from_acc_new.balance_satoshi == from_acc.balance_satoshi - (
        gas_price * gas_wanted + tx_amount)
Exemplo n.º 14
0
def test_normal_tx_gas_wanted_adjust(conftest_args):
    # in protocol V2, if gasWanted is greater than 210000, anteHandler will adjust tx's gasWanted to 30000
    # in protocol V2, max gasWanted is 7500000
    gas_wanted = 210001

    # normal htdf send tx gas_used is 30000
    normal_send_tx_gas_wanted = 30000

    gas_price = 100
    tx_amount = 1
    data = ''
    memo = 'test_normal_transaction_gas_wanted'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])
    upgrade_info = htdfrpc.get_upgrade_info()
    protocol_version = int(
        upgrade_info['current_version']['UpgradeInfo']['Protocol']['version'])

    from_addr = Address(conftest_args['ADDRESS'])

    new_to_addr = HtdfPrivateKey('').address
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    assert from_acc is not None
    assert from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=new_to_addr,
        amount_satoshi=tx_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    mempool = htdfrpc.get_mempool_trasactions()
    pprint(mempool)

    memtx = htdfrpc.get_mempool_transaction(transaction_hash=tx_hash)
    pprint(memtx)

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    tx = htdfrpc.get_transaction(transaction_hash=tx_hash)

    if protocol_version < 2:  # v0 and v1
        assert tx['logs'][0]['success'] == True
        assert tx['gas_wanted'] == str(gas_wanted)
        assert int(tx['gas_used']) < gas_wanted
        assert int(tx['gas_used']) == normal_send_tx_gas_wanted

        tv = tx['tx']['value']
        assert len(tv['msg']) == 1
        assert tv['msg'][0]['type'] == 'htdfservice/send'
        assert int(tv['fee']['gas_wanted']) == gas_wanted
        assert int(tv['fee']['gas_price']) == gas_price
        assert tv['memo'] == memo

        mv = tv['msg'][0]['value']
        assert mv['From'] == from_addr.address
        assert mv['To'] == new_to_addr.address
        assert mv['Data'] == data
        assert int(mv['GasPrice']) == gas_price
        assert int(mv['GasWanted']) == gas_wanted
        assert 'satoshi' == mv['Amount'][0]['denom']
        assert tx_amount == int(mv['Amount'][0]['amount'])

        pprint(tx)

        time.sleep(5)  # want for chain state update

        to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
        assert to_acc is not None
        assert to_acc.balance_satoshi == tx_amount

        from_acc_new = htdfrpc.get_account_info(address=from_addr.address)
        assert from_acc_new.address == from_acc.address
        assert from_acc_new.sequence == from_acc.sequence + 1
        assert from_acc_new.account_number == from_acc.account_number
        assert from_acc_new.balance_satoshi == from_acc.balance_satoshi - (
            gas_price * int(tx['gas_used']) + tx_amount)
    elif protocol_version == 2:  # v2 ,
        # if gasWanted is greater than 210000, anteHandler will adjust tx's gasWanted to 30000

        assert tx['logs'][0]['success'] == True

        # Because of `data` is  empty, so v2's anteHander adjusts tx's gasWanted to 30000.
        assert int(tx['gas_wanted']) == normal_send_tx_gas_wanted

        assert int(tx['gas_used']) == normal_send_tx_gas_wanted

        tv = tx['tx']['value']
        assert len(tv['msg']) == 1
        assert tv['msg'][0]['type'] == 'htdfservice/send'
        assert int(tv['fee']['gas_wanted']) == gas_wanted
        assert int(tv['fee']['gas_price']) == gas_price
        assert tv['memo'] == memo

        mv = tv['msg'][0]['value']
        assert mv['From'] == from_addr.address
        assert mv['To'] == new_to_addr.address
        assert mv['Data'] == data
        assert int(mv['GasPrice']) == gas_price
        assert int(mv['GasWanted']) == gas_wanted
        assert 'satoshi' == mv['Amount'][0]['denom']
        assert tx_amount == int(mv['Amount'][0]['amount'])

        pprint(tx)

        time.sleep(5)  # wait for chain state update

        to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
        assert to_acc is not None

        from_acc_new = htdfrpc.get_account_info(address=from_addr.address)
        assert from_acc_new.address == from_acc.address
        assert from_acc_new.sequence == from_acc.sequence + 1
        assert from_acc_new.account_number == from_acc.account_number
        assert from_acc_new.balance_satoshi == from_acc.balance_satoshi - (
            gas_price * normal_send_tx_gas_wanted + tx_amount)
    else:
        raise Exception("invalid protocol version {}".format(protocol_version))
    pass
Exemplo n.º 15
0
def test_hrc20_approve_transferFrom(conftest_args):
    with open('sol/AJC_sol_AJCToken.abi', 'r') as abifile:
        # abi = abifile.readlines()
        abijson = abifile.read()
        # print(abijson)
        abi = json.loads(abijson)

    assert len(hrc20_contract_address) > 0
    contract_address = Address(hrc20_contract_address[0])
    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'], rpc_host=conftest_args['RPC_HOST'], rpc_port=conftest_args['RPC_PORT'])

    hc = HtdfContract(rpc=htdfrpc, address=contract_address, abi=abi)

    new_to_priv_key = HtdfPrivateKey('')
    new_to_addr = new_to_priv_key.address

    from_addr = Address(conftest_args['ADDRESS'])
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    cfnBalanceOf = hc.functions.balanceOf(_owner=to_checksum_address(from_addr.hex_address))
    balanceFrom_begin = hc.call(cfn=cfnBalanceOf)
    print(balanceFrom_begin)

    ################## test for approve
    approve_amount = int(10002 * 10 ** 18)
    approve_tx = hc.functions.approve(
        _spender=to_checksum_address(new_to_addr.hex_address),
        _value=approve_amount).buildTransaction_htdf()

    data = remove_0x_prefix(approve_tx['data'])

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=contract_address,
        amount_satoshi=0,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=100,
        gas_wanted=200000,
        data=data,
        memo='test_hrc20_approve'
    ).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))
    # self.assertTrue( len(tx_hash) == 64)

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    ################## transfer some htdf  for fee
    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=new_to_addr,
        amount_satoshi=200000 * 100,
        sequence=from_acc.sequence + 1,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=100,
        gas_wanted=200000,
        data='',
        memo='some htdf for fee'
    ).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))
    # self.assertTrue( len(tx_hash) == 64)

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    time.sleep(8)

    ################# test for transferFrom

    transferFrom_tx = hc.functions.transferFrom(
        _from=to_checksum_address(from_addr.hex_address),
        _to=to_checksum_address(new_to_addr.hex_address),
        _value=approve_amount
    ).buildTransaction_htdf()
    data = remove_0x_prefix(transferFrom_tx['data'])

    to_acc_new = htdfrpc.get_account_info(address=new_to_addr.address)
    signed_tx = HtdfTxBuilder(
        from_address=new_to_addr,
        to_address=contract_address,
        amount_satoshi=0,
        sequence=to_acc_new.sequence,
        account_number=to_acc_new.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=100,
        gas_wanted=200000,
        data=data,
        memo='test_hrc20_transferFrom'
    ).build_and_sign(private_key=new_to_priv_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))
    # self.assertTrue( len(tx_hash) == 64)

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    ###########  balanceOf
    cfnBalanceOf = hc.functions.balanceOf(_owner=to_checksum_address(new_to_addr.hex_address))
    balanceTo = hc.call(cfn=cfnBalanceOf)
    print(balanceTo)

    cfnBalanceOf = hc.functions.balanceOf(_owner=to_checksum_address(from_addr.hex_address))
    balanceFrom_end = hc.call(cfn=cfnBalanceOf)
    print(balanceFrom_end)

    # check balance
    assert balanceFrom_end == balanceFrom_begin - approve_amount
    assert balanceTo == approve_amount

    pass
Exemplo n.º 16
0
def deploy_htdf_faucet(conftest_args):
    """
    run this test case, if only run single test
    run this test case, if run this test file
    """

    gas_wanted = 3000000
    gas_price = 100
    tx_amount = 1
    data = '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'
    memo = 'test_deploy_htdf_faucet'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    from_addr = Address(conftest_args['ADDRESS'])

    # new_to_addr = HtdfPrivateKey('').address
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)
    print('from_acc balance: {}'.format(from_acc.balance_satoshi))

    assert from_acc is not None
    assert from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address='',
        amount_satoshi=tx_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    assert tx['logs'][0]['success'] == True
    txlog = tx['logs'][0]['log']
    txlog = json.loads(txlog)

    assert tx['gas_wanted'] == str(gas_wanted)
    assert int(tx['gas_used']) <= gas_wanted

    tv = tx['tx']['value']
    assert len(tv['msg']) == 1
    assert tv['msg'][0]['type'] == 'htdfservice/send'
    assert int(tv['fee']['gas_wanted']) == gas_wanted
    assert int(tv['fee']['gas_price']) == gas_price
    assert tv['memo'] == memo

    mv = tv['msg'][0]['value']
    assert mv['From'] == from_addr.address
    assert mv['To'] == ''  # new_to_addr.address
    assert mv['Data'] == data
    assert int(mv['GasPrice']) == gas_price
    assert int(mv['GasWanted']) == gas_wanted
    assert 'satoshi' == mv['Amount'][0]['denom']
    assert tx_amount == int(mv['Amount'][0]['amount'])

    pprint(tx)

    time.sleep(8)  # wait for chain state update

    # to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
    # assert to_acc is not None
    # assert to_acc.balance_satoshi == tx_amount

    from_acc_new = htdfrpc.get_account_info(address=from_addr.address)
    print("from_acc_new balance is {}".format(from_acc_new.balance_satoshi))
    assert from_acc_new.address == from_acc.address
    assert from_acc_new.sequence == from_acc.sequence + 1
    assert from_acc_new.account_number == from_acc.account_number
    assert from_acc_new.balance_satoshi == from_acc.balance_satoshi - (
        gas_price * int(tx['gas_used']))

    logjson = json.loads(tx['logs'][0]['log'])
    contract_address = logjson['contract_address']

    htdf_faucet_contract_address.append(contract_address)

    pass
Exemplo n.º 17
0
def hrc20_batch_transfer(token_name: str, contract_addr: str, addrs_list: list,
                         cfg: dict):
    """
    hrc20批量转账
    """

    with open('./hrc20.abi', 'r') as abifile:
        # abi = abifile.readlines()
        abijson = abifile.read()
        # print(abijson)
        abi = json.loads(abijson)

    contract_address = Address(contract_addr)
    htdfrpc = HtdfRPC(chaid_id=COMMON['CHAINID'],
                      rpc_host=COMMON['RPC_HOST'],
                      rpc_port=COMMON['RPC_PORT'])
    hc = HtdfContract(rpc=htdfrpc, address=contract_address, abi=abi)

    from_addr = Address(cfg['ADDRESS'])
    private_key = HtdfPrivateKey(cfg['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    current_sequence = from_acc.sequence
    count = 0
    for address in addrs_list:

        addr = Address(address)
        amount = get_random_amount(cfg['RANDOM_START'], cfg['RANDOM_END'])

        transfer_tx = hc.functions.transfer(
            _to=to_checksum_address(addr.hex_address),
            _value=int(amount * 10 ** 18)). \
            buildTransaction_htdf()

        data = remove_0x_prefix(transfer_tx['data'])

        signed_tx = HtdfTxBuilder(
            from_address=from_addr,
            to_address=contract_address,
            amount_satoshi=0,
            sequence=current_sequence + count,
            account_number=from_acc.account_number,
            chain_id=htdfrpc.chain_id,
            gas_price=100,
            gas_wanted=200000,
            data=data,
            memo=cfg['MEMO']).build_and_sign(private_key=private_key)

        tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
        print('{}, {}, tx_hash: {}'.format(token_name, count, tx_hash))
        # self.assertTrue( len(tx_hash) == 64)

        # tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
        # pprint(tx)

        # cfnBalanceOf = hc.functions.balanceOf(_owner=to_checksum_address(new_to_addr.hex_address))
        # balance = hc.call(cfn=cfnBalanceOf)
        # print(balance)

        count += 1
        if count % 40 == 0:
            time.sleep(4.5)

    pass
Exemplo n.º 18
0
def test_normal_tx_with_data(conftest_args):
    # protocol_version = subprocess.getoutput('hscli query  upgrade info  --chain-id=testchain -o json | jq .current_version.UpgradeInfo.Protocol.version')

    gas_wanted = 7500000
    gas_price = 100
    tx_amount = 1
    data = 'ff' * 1000
    memo = 'test_normal_transaction_with_data'

    htdfrpc = HtdfRPC(chaid_id=conftest_args['CHAINID'],
                      rpc_host=conftest_args['RPC_HOST'],
                      rpc_port=conftest_args['RPC_PORT'])

    upgrade_info = htdfrpc.get_upgrade_info()
    protocol_version = int(
        upgrade_info['current_version']['UpgradeInfo']['Protocol']['version'])

    from_addr = Address(conftest_args['ADDRESS'])

    new_to_addr = HtdfPrivateKey('').address
    # to_addr = Address('htdf1jrh6kxrcr0fd8gfgdwna8yyr9tkt99ggmz9ja2')
    private_key = HtdfPrivateKey(conftest_args['PRIVATE_KEY'])
    from_acc = htdfrpc.get_account_info(address=from_addr.address)

    assert from_acc is not None
    assert from_acc.balance_satoshi > gas_price * gas_wanted + tx_amount

    signed_tx = HtdfTxBuilder(
        from_address=from_addr,
        to_address=new_to_addr,
        amount_satoshi=tx_amount,
        sequence=from_acc.sequence,
        account_number=from_acc.account_number,
        chain_id=htdfrpc.chain_id,
        gas_price=gas_price,
        gas_wanted=gas_wanted,
        data=data,
        memo=memo).build_and_sign(private_key=private_key)

    tx_hash = htdfrpc.broadcast_tx(tx_hex=signed_tx)
    print('tx_hash: {}'.format(tx_hash))

    mempool = htdfrpc.get_mempool_trasactions()
    pprint(mempool)

    memtx = htdfrpc.get_mempool_transaction(transaction_hash=tx_hash)
    pprint(memtx)

    tx = htdfrpc.get_tranaction_until_timeout(transaction_hash=tx_hash)
    pprint(tx)

    tx = htdfrpc.get_transaction(transaction_hash=tx_hash)

    if protocol_version < 2:  # v0 and v1
        assert tx['logs'][0]['success'] == True
        assert tx['gas_wanted'] == str(gas_wanted)
        assert int(tx['gas_used']) < gas_wanted

        tv = tx['tx']['value']
        assert len(tv['msg']) == 1
        assert tv['msg'][0]['type'] == 'htdfservice/send'
        assert int(tv['fee']['gas_wanted']) == gas_wanted
        assert int(tv['fee']['gas_price']) == gas_price
        assert tv['memo'] == memo

        mv = tv['msg'][0]['value']
        assert mv['From'] == from_addr.address
        assert mv['To'] == new_to_addr.address
        assert mv['Data'] == data
        assert int(mv['GasPrice']) == gas_price
        assert int(mv['GasWanted']) == gas_wanted
        assert 'satoshi' == mv['Amount'][0]['denom']
        assert tx_amount == int(mv['Amount'][0]['amount'])

        pprint(tx)

        time.sleep(5)  # want for chain state update

        to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
        assert to_acc is not None
        assert to_acc.balance_satoshi == tx_amount

        from_acc_new = htdfrpc.get_account_info(address=from_addr.address)
        assert from_acc_new.address == from_acc.address
        assert from_acc_new.sequence == from_acc.sequence + 1
        assert from_acc_new.account_number == from_acc.account_number
        assert from_acc_new.balance_satoshi == from_acc.balance_satoshi - (
            gas_price * int(tx['gas_used']) + tx_amount)
    elif protocol_version == 2:  # v2

        # because of `data` isn't empty. `to` must be correct contract address, if not,
        # this transaction be failed in V2 handler
        assert tx['logs'][0]['success'] == False

        # Because of `data` is not empty, so v2's anteHander doesn't adjust tx's gasWanted.
        assert tx['gas_wanted'] == str(gas_wanted)

        # v2 DO NOT ALLOW `data` in normal htdf transaction,
        # so evm execute tx failed, all the gas be consumed
        assert tx['gas_used'] == str(gas_wanted)

        tv = tx['tx']['value']
        assert len(tv['msg']) == 1
        assert tv['msg'][0]['type'] == 'htdfservice/send'
        assert int(tv['fee']['gas_wanted']) == gas_wanted
        assert int(tv['fee']['gas_price']) == gas_price
        assert tv['memo'] == memo

        mv = tv['msg'][0]['value']
        assert mv['From'] == from_addr.address
        assert mv['To'] == new_to_addr.address
        assert mv['Data'] == data
        assert int(mv['GasPrice']) == gas_price
        assert int(mv['GasWanted']) == gas_wanted
        assert 'satoshi' == mv['Amount'][0]['denom']
        assert tx_amount == int(mv['Amount'][0]['amount'])

        pprint(tx)

        time.sleep(5)  # wait for chain state update

        to_acc = htdfrpc.get_account_info(address=new_to_addr.address)
        assert to_acc is None

        from_acc_new = htdfrpc.get_account_info(address=from_addr.address)
        assert from_acc_new.address == from_acc.address
        assert from_acc_new.sequence == from_acc.sequence + 1
        assert from_acc_new.account_number == from_acc.account_number
        assert from_acc_new.balance_satoshi == from_acc.balance_satoshi - (
            gas_price * gas_wanted)
    else:
        raise Exception("invalid protocol version {}".format(protocol_version))
    pass