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62 lines
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62 lines
3.5 KiB
ReStructuredText
.. highlight:: kotlin
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.. raw:: html
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<script type="text/javascript" src="_static/jquery.js"></script>
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<script type="text/javascript" src="_static/codesets.js"></script>
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Writing flow tests
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==================
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A flow can be a fairly complex thing that interacts with many services and other parties over the network. That
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means unit testing one requires some infrastructure to provide lightweight mock implementations. The MockNetwork
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provides this testing infrastructure layer; you can find this class in the test-utils module.
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A good example to examine for learning how to unit test flows is the ``ResolveTransactionsFlow`` tests. This
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flow takes care of downloading and verifying transaction graphs, with all the needed dependencies. We start
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with this basic skeleton:
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.. literalinclude:: ../../core/src/test/kotlin/net/corda/core/internal/ResolveTransactionsFlowTest.kt
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:language: kotlin
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:start-after: DOCSTART 3
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:end-before: DOCEND 3
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We create a mock network in our ``@Before`` setup method and create a couple of nodes. We also record the identity
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of the notary in our test network, which will come in handy later. We also tidy up when we're done.
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Next, we write a test case:
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.. literalinclude:: ../../core/src/test/kotlin/net/corda/core/internal/ResolveTransactionsFlowTest.kt
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:language: kotlin
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:start-after: DOCSTART 1
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:end-before: DOCEND 1
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:dedent: 4
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We'll take a look at the ``makeTransactions`` function in a moment. For now, it's enough to know that it returns two
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``SignedTransaction`` objects, the second of which spends the first. Both transactions are known by MegaCorpNode but
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not MiniCorpNode.
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The test logic is simple enough: we create the flow, giving it MegaCorpNode's identity as the target to talk to.
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Then we start it on MiniCorpNode and use the ``mockNet.runNetwork()`` method to bounce messages around until things have
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settled (i.e. there are no more messages waiting to be delivered). All this is done using an in memory message
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routing implementation that is fast to initialise and use. Finally, we obtain the result of the flow and do
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some tests on it. We also check the contents of MiniCorpNode's database to see that the flow had the intended effect
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on the node's persistent state.
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Here's what ``makeTransactions`` looks like:
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.. literalinclude:: ../../core/src/test/kotlin/net/corda/core/internal/ResolveTransactionsFlowTest.kt
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:language: kotlin
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:start-after: DOCSTART 2
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:end-before: DOCEND 2
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:dedent: 4
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We're using the ``DummyContract``, a simple test smart contract which stores a single number in its states, along
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with ownership and issuer information. You can issue such states, exit them and re-assign ownership (move them).
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It doesn't do anything else. This code simply creates a transaction that issues a dummy state (the issuer is
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``MEGA_CORP``, a pre-defined unit test identity), signs it with the test notary and MegaCorp keys and then
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converts the builder to the final ``SignedTransaction``. It then does so again, but this time instead of issuing
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it re-assigns ownership instead. The chain of two transactions is finally committed to MegaCorpNode by sending them
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directly to the ``megaCorpNode.services.recordTransaction`` method (note that this method doesn't check the
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transactions are valid) inside a ``database.transaction``. All node flows run within a database transaction in the
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nodes themselves, but any time we need to use the database directly from a unit test, you need to provide a database
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transaction as shown here. |