afa3efb308
Fixed issue where Corda services installed in unit tests were not being marked as serialise as singleton. Also the driver now automatically picks up the scanning annotations. This required moving the NodeFactory used in smoke tests into a separate module.
4.3 KiB
Writing flow tests
A flow can be a fairly complex thing that interacts with many services and other parties over the network. That means unit testing one requires some infrastructure to provide lightweight mock implementations. The MockNetwork provides this testing infrastructure layer; you can find this class in the test-utils module.
A good example to examine for learning how to unit test flows is the
ResolveTransactionsFlow tests. This flow takes care of
downloading and verifying transaction graphs, with all the needed
dependencies. We start with this basic skeleton:
class ResolveTransactionsFlowTest {
lateinit var mockNet: MockNetwork
lateinit var a: MockNetwork.MockNode
lateinit var b: MockNetwork.MockNode
lateinit var notary: Party
@Before
fun setup() {
mockNet = MockNetwork()
val nodes = mockNet.createSomeNodes()
a = nodes.partyNodes[0]
b = nodes.partyNodes[1]
notary = nodes.notaryNode.info.notaryIdentity
mockNet.runNetwork()
}
@After
fun tearDown() {
mockNet.stopNodes()
}
}We create a mock network in our @Before setup method and
create a couple of nodes. We also record the identity of the notary in
our test network, which will come in handy later. We also tidy up when
we're done.
Next, we write a test case:
../../core/src/test/kotlin/net/corda/core/flows/ResolveTransactionsFlowTest.kt
We'll take a look at the makeTransactions function in a
moment. For now, it's enough to know that it returns two
SignedTransaction objects, the second of which spends the
first. Both transactions are known by node A but not node B.
The test logic is simple enough: we create the flow, giving it node
A's identity as the target to talk to. Then we start it on node B and
use the mockNet.runNetwork() method to bounce messages
around until things have settled (i.e. there are no more messages
waiting to be delivered). All this is done using an in memory message
routing implementation that is fast to initialise and use. Finally, we
obtain the result of the flow and do some tests on it. We also check the
contents of node B's database to see that the flow had the intended
effect on the node's persistent state.
Here's what makeTransactions looks like:
../../core/src/test/kotlin/net/corda/core/flows/ResolveTransactionsFlowTest.kt
We're using the DummyContract, a simple test smart
contract which stores a single number in its states, along with
ownership and issuer information. You can issue such states, exit them
and re-assign ownership (move them). It doesn't do anything else. This
code simply creates a transaction that issues a dummy state (the issuer
is MEGA_CORP, a pre-defined unit test identity), signs it
with the test notary and MegaCorp keys and then converts the builder to
the final SignedTransaction. It then does so again, but
this time instead of issuing it re-assigns ownership instead. The chain
of two transactions is finally committed to node A by sending them
directly to the a.services.recordTransaction method (note
that this method doesn't check the transactions are valid) inside a
database.transaction. All node flows run within a database
transaction in the nodes themselves, but any time we need to use the
database directly from a unit test, you need to provide a database
transaction as shown here.
With regards to initiated flows (see flow-state-machines for information on initiated and
initiating flows), the full node automatically registers them by
scanning the CorDapp jars. In a unit test environment this is not
possible so MockNode has the
registerInitiatedFlow method to manually register an
initiated flow.
And that's it: you can explore the documentation for the MockNetwork API here.