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test_dynamic_create2_selfdestruct_collision_multi_tx()

Documentation for tests/cancun/eip6780_selfdestruct/test_dynamic_create2_selfdestruct_collision.py::test_dynamic_create2_selfdestruct_collision_multi_tx@21fb11c8.

Generate fixtures for these test cases for Prague with:

fill -v tests/cancun/eip6780_selfdestruct/test_dynamic_create2_selfdestruct_collision.py::test_dynamic_create2_selfdestruct_collision_multi_tx --fork Prague

Dynamic Create2->Suicide->Create2 collision scenario over multiple transactions.

Perform a CREATE2, make sure that the initcode sets at least a couple of storage keys, then on a different call, in the same or different tx but same block, perform a self-destruct. Then: a) on the same tx, attempt to recreate the contract b) on a different tx, attempt to recreate the contract Perform a CREATE2, make sure that the initcode sets at least a couple of storage keys, then in a different tx, perform a self-destruct. Then: a) on the same tx, attempt to recreate the contract <=== Covered in this test b) on a different tx, attempt to recreate the contract <=== Covered in this test Verify that the test case described in https://wiki.hyperledger.org/pages/viewpage.action?pageId=117440824 is covered

Source code in tests/cancun/eip6780_selfdestruct/test_dynamic_create2_selfdestruct_collision.py
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@pytest.mark.valid_from("Paris")
@pytest.mark.parametrize(
    "selfdestruct_on_first_tx,recreate_on_first_tx",
    [
        (False, False),
        (True, False),
        (True, True),
    ],
)
def test_dynamic_create2_selfdestruct_collision_multi_tx(
    fork: Fork,
    selfdestruct_on_first_tx: bool,
    recreate_on_first_tx: bool,
    blockchain_test: BlockchainTestFiller,
):
    """
    Dynamic Create2->Suicide->Create2 collision scenario over multiple transactions.

    Perform a CREATE2, make sure that the initcode sets at least a couple of storage keys,
    then on a different call, in the same or different tx but same block, perform a self-destruct.
    Then:
        a) on the same tx, attempt to recreate the contract
        b) on a different tx, attempt to recreate the contract
    Perform a CREATE2, make sure that the initcode sets at least a couple of storage keys,
    then in a different tx, perform a self-destruct.
    Then:
        a) on the same tx, attempt to recreate the contract       <=== Covered in this test
        b) on a different tx, attempt to recreate the contract    <=== Covered in this test
    Verify that the test case described
    in https://wiki.hyperledger.org/pages/viewpage.action?pageId=117440824 is covered
    """
    if recreate_on_first_tx:
        assert selfdestruct_on_first_tx, "invalid test"

    # Storage locations
    create2_constructor_worked = 1
    first_create2_result = 2
    second_create2_result = 3
    part_1_worked = 4
    part_2_worked = 5

    # Pre-Existing Addresses
    address_to = Address(0x0600)
    address_code = Address(0x0601)
    address_create2_storage = Address(0x0512)
    sendall_destination = Address(0x03E8)

    # CREATE2 Initcode
    create2_salt = 1
    deploy_code = Op.SELFDESTRUCT(sendall_destination)
    initcode = Initcode(
        deploy_code=deploy_code,
        initcode_prefix=Op.SSTORE(create2_constructor_worked, 1)
        + Op.CALL(Op.GAS(), address_create2_storage, 0, 0, 0, 0, 0),
    )

    # Created addresses
    create2_address = compute_create2_address(address_code, create2_salt, initcode)

    # Values
    first_create2_value = 3
    first_call_value = 5
    second_create2_value = 7
    second_call_value = 11

    # Code is divided in two transactions part of the same block
    first_tx_code = Bytecode()
    second_tx_code = Bytecode()

    first_tx_code += (
        Op.JUMPDEST()
        # Make a subcall that do CREATE2 and returns its the result
        + Op.CALLDATACOPY(0, 0, Op.CALLDATASIZE())
        + Op.CALL(100000, address_code, first_create2_value, 0, Op.CALLDATASIZE(), 0, 32)
        + Op.SSTORE(
            first_create2_result,
            Op.MLOAD(0),
        )
    )

    if selfdestruct_on_first_tx:
        first_tx_code += (
            # Call to the created account to trigger selfdestruct
            Op.CALL(100000, create2_address, first_call_value, 0, 0, 0, 0)
        )
    else:
        second_tx_code += (
            # Call to the created account to trigger selfdestruct
            Op.CALL(100000, create2_address, first_call_value, 0, 0, 0, 0)
        )

    if recreate_on_first_tx:
        first_tx_code += (
            # Make a subcall that do CREATE2 collision and returns its address as the result
            Op.CALLDATACOPY(0, 0, Op.CALLDATASIZE())
            + Op.CALL(100000, address_code, second_create2_value, 0, Op.CALLDATASIZE(), 0, 32)
            + Op.SSTORE(
                second_create2_result,
                Op.MLOAD(0),
            )
        )

    else:
        second_tx_code += (
            # Make a subcall that do CREATE2 collision and returns its address as the result
            Op.CALLDATACOPY(0, 0, Op.CALLDATASIZE())
            + Op.CALL(100000, address_code, second_create2_value, 0, Op.CALLDATASIZE(), 0, 32)
            + Op.SSTORE(
                second_create2_result,
                Op.MLOAD(0),
            )
        )

    # Second tx code always calls the create2 contract at the end
    second_tx_code += Op.CALL(100000, create2_address, second_call_value, 0, 0, 0, 0)

    first_tx_code += Op.SSTORE(part_1_worked, 1)
    second_tx_code += Op.SSTORE(part_2_worked, 1)

    pre = {
        address_to: Account(
            balance=100000000,
            nonce=0,
            code=Conditional(
                # Depending on the tx, execute the first or second tx code
                condition=Op.EQ(Op.SLOAD(part_1_worked), 0),
                if_true=first_tx_code,
                if_false=second_tx_code,
            ),
            storage={first_create2_result: 0xFF, second_create2_result: 0xFF},
        ),
        address_code: Account(
            balance=0,
            nonce=0,
            code=Op.CALLDATACOPY(0, 0, Op.CALLDATASIZE())
            + Op.MSTORE(
                0,
                Op.CREATE2(Op.SELFBALANCE(), 0, Op.CALLDATASIZE(), create2_salt),
            )
            + Op.RETURN(0, 32),
            storage={},
        ),
        address_create2_storage: Account(
            balance=7000000000000000000,
            nonce=0,
            code=Op.SSTORE(1, 1),
            storage={},
        ),
        TestAddress: Account(
            balance=7000000000000000000,
            nonce=0,
            code="0x",
            storage={},
        ),
    }

    post: Dict[Address, Union[Account, object]] = {}

    # Create2 address only exists if it was pre-existing and after cancun
    account_will_exist_with_code = not selfdestruct_on_first_tx and fork >= Cancun
    # If the contract is self-destructed and we also attempt to recreate it on the first tx,
    # the second call on the second tx will only place balance in the account
    account_will_exist_with_balance = selfdestruct_on_first_tx and recreate_on_first_tx

    post[create2_address] = (
        Account(balance=0, nonce=1, code=deploy_code, storage={create2_constructor_worked: 0x01})
        if account_will_exist_with_code
        else (
            Account(balance=second_call_value, nonce=0)
            if account_will_exist_with_balance
            else Account.NONEXISTENT
        )
    )

    # Create2 initcode saves storage unconditionally
    post[address_create2_storage] = Account(storage={create2_constructor_worked: 0x01})

    # Entry code that makes the calls to the create2 contract creator
    post[address_to] = Account(
        storage={
            part_1_worked: 0x01,
            part_2_worked: 0x01,
            # First create2 always works
            first_create2_result: create2_address,
            # Second create2 only works if we successfully self-destructed on the first tx
            second_create2_result: (
                create2_address if selfdestruct_on_first_tx and not recreate_on_first_tx else 0x00
            ),
        }
    )

    # Calculate the destination account expected balance for the selfdestruct/sendall calls
    sendall_destination_balance = first_create2_value + first_call_value

    if not account_will_exist_with_balance:
        sendall_destination_balance += second_call_value

    if selfdestruct_on_first_tx and not recreate_on_first_tx:
        sendall_destination_balance += second_create2_value

    post[sendall_destination] = Account(balance=sendall_destination_balance)

    nonce = count()

    blockchain_test(
        genesis_environment=Environment(),
        pre=pre,
        post=post,
        blocks=[
            Block(
                txs=[
                    Transaction(
                        ty=0x0,
                        chain_id=0x0,
                        nonce=next(nonce),
                        to=address_to,
                        gas_price=10,
                        protected=False,
                        data=initcode,
                        gas_limit=5000000,
                        value=0,
                    ),
                    Transaction(
                        ty=0x0,
                        chain_id=0x0,
                        nonce=next(nonce),
                        to=address_to,
                        gas_price=10,
                        protected=False,
                        data=initcode,
                        gas_limit=5000000,
                        value=0,
                    ),
                ]
            )
        ],
    )

Parametrized Test Cases

The interactive table below is also available as a standalone page.

Test ID (Abbreviated) selfdestruct_on_first_tx recreate_on_first_tx
...fork_Paris-blockchain_test-selfdestruct_on_first_tx_False-recreate_on_first_tx_False False False
...fork_Paris-blockchain_test-selfdestruct_on_first_tx_True-recreate_on_first_tx_False True False
...fork_Paris-blockchain_test-selfdestruct_on_first_tx_True-recreate_on_first_tx_True True True
...fork_Shanghai-blockchain_test-selfdestruct_on_first_tx_False-recreate_on_first_tx_False False False
...fork_Shanghai-blockchain_test-selfdestruct_on_first_tx_True-recreate_on_first_tx_False True False
...fork_Shanghai-blockchain_test-selfdestruct_on_first_tx_True-recreate_on_first_tx_True True True
...fork_Cancun-blockchain_test-selfdestruct_on_first_tx_False-recreate_on_first_tx_False False False
...fork_Cancun-blockchain_test-selfdestruct_on_first_tx_True-recreate_on_first_tx_False True False
...fork_Cancun-blockchain_test-selfdestruct_on_first_tx_True-recreate_on_first_tx_True True True
...fork_Prague-blockchain_test-selfdestruct_on_first_tx_False-recreate_on_first_tx_False False False
...fork_Prague-blockchain_test-selfdestruct_on_first_tx_True-recreate_on_first_tx_False True False
...fork_Prague-blockchain_test-selfdestruct_on_first_tx_True-recreate_on_first_tx_True True True
...fork_Osaka-blockchain_test-selfdestruct_on_first_tx_False-recreate_on_first_tx_False False False
...fork_Osaka-blockchain_test-selfdestruct_on_first_tx_True-recreate_on_first_tx_False True False
...fork_Osaka-blockchain_test-selfdestruct_on_first_tx_True-recreate_on_first_tx_True True True