* Ignoring and adding a TODO to a test that fails spuriously during CI. * Ensure both parties are regsitered with network map in the integration test tutorial and update docs to reflect this best practice. * Minor readability fix.
4.9 KiB
Integration testing
Integration testing involves bringing up nodes locally and testing invariants about them by starting flows and inspecting their state.
In this tutorial we will bring up three nodes Alice, Bob and a Notary. Alice will issue Cash to Bob, then Bob will send this Cash back to Alice. We will see how to test some simple deterministic and nondeterministic invariants in the meantime.
(Note that this example where Alice is self-issuing Cash is purely for demonstration purposes, in reality Cash would be issued by a bank and subsequently passed around.)
In order to spawn nodes we will use the Driver DSL. This DSL allows one to start up node processes from code. It manages a network map service and safe shutting down of nodes in the background.
example-code/src/integration-test/kotlin/net/corda/docs/IntegrationTestingTutorial.kt
The above code creates a User
permissioned to start the CashFlow
protocol. It then starts up Alice and Bob with this user, allowing us to later connect to the nodes.
Then the notary is started up. Note that we need to add ValidatingNotaryService
as an advertised service in order for this node to serve notary functionality. This is also where flows added in plugins should be specified. Note also that we won't connect to the notary directly, so there's no need to pass in the test User
.
The startNode
function returns a future that completes once the node is fully started. This allows starting of the nodes to be parallel. We wait on these futures as we need the information returned; their respective NodeHandles
s. After getting the handles we wait for both parties to register with the network map to ensure we don't have race conditions with network map registration.
example-code/src/integration-test/kotlin/net/corda/docs/IntegrationTestingTutorial.kt
Next we connect to Alice and Bob respectively from the test process using the test user we created. Then we establish RPC links that allow us to start flows and query state.
example-code/src/integration-test/kotlin/net/corda/docs/IntegrationTestingTutorial.kt
We will be interested in changes to Alice's and Bob's vault, so we query a stream of vault updates from each.
Now that we're all set up we can finally get some Cash action going!
example-code/src/integration-test/kotlin/net/corda/docs/IntegrationTestingTutorial.kt
The first loop creates 10 threads, each starting a CashFlow
flow on the Alice node. We specify that we want to issue i
dollars to Bob, using the Notary as the notary responsible for notarising the created states. Note that no notarisation will occur yet as we're not spending any states, only entering new ones to the ledger.
We started the flows from different threads for the sake of the tutorial, to demonstrate how to test non-determinism, which is what the expectEvents
block does.
The Expect DSL allows ordering constraints to be checked on a stream of events. The above code specifies that we are expecting 10 updates to be emitted on the bobVaultUpdates
stream in unspecified order (this is what the parallel
construct does). We specify a (otherwise optional) match
predicate to identify specific updates we are interested in, which we then print.
If we run the code written so far we should see 4 nodes starting up (Alice,Bob,Notary + implicit Network Map service), then 10 logs of Bob receiving 1,2,...10 dollars from Alice in some unspecified order.
Next we want Bob to send this Cash back to Alice.
example-code/src/integration-test/kotlin/net/corda/docs/IntegrationTestingTutorial.kt
This time we'll do it sequentially. We make Bob pay 1,2,..10 dollars to Alice in order. We make sure that a the CashFlow
has finished by waiting on startFlow
's returnValue
.
Then we use the Expect DSL again, this time using sequence
to test for the updates arriving in the order we expect them to.
Note that parallel
and sequence
may be nested into each other arbitrarily to test more complex scenarios.
That's it! We saw how to start up several corda nodes locally, how to connect to them, and how to test some simple invariants about CashFlow
.
To run the complete test you can open example-code/src/integration-test/kotlin/net/corda/docs/IntegrationTestingTutorial.kt
from IntelliJ and run the test, or alternatively use gradle:
# Run example-code integration tests
./gradlew docs/source/example-code:integrationTest -i