corda/docs/source/tutorial-test-dsl.rst

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.. highlight:: kotlin
.. role:: kotlin(code)
:language: kotlin
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<script type="text/javascript" src="_static/jquery.js"></script>
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Writing a contract test
=======================
This tutorial will take you through the steps required to write a contract test using Kotlin and Java.
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The testing DSL allows one to define a piece of the ledger with transactions referring to each other, and ways of
verifying their correctness.
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Testing single transactions
---------------------------
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We start with the empty ledger:
.. container:: codeset
.. sourcecode:: kotlin
class CommercialPaperTest{
@Test
fun emptyLedger() {
ledger {
}
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}
...
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}
.. sourcecode:: java
import org.junit.Test;
import static net.corda.testing.NodeTestUtils.ledger;
public class CommercialPaperTest {
@Test
public void emptyLedger() {
ledger(l -> {
return null;
});
}
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}
The DSL keyword ``ledger`` takes a closure that can build up several transactions and may verify their overall
correctness. A ledger is effectively a fresh world with no pre-existing transactions or services within it.
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We will start with defining helper function that returns a ``CommercialPaper`` state:
.. container:: codeset
.. literalinclude:: ../../docs/source/example-code/src/test/kotlin/net/corda/docs/kotlin/tutorial/testdsl/TutorialTestDSL.kt
:language: kotlin
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It's a ``CommercialPaper`` issued by ``MEGA_CORP`` with face value of $1000 and maturity date in 7 days.
Let's add a ``CommercialPaper`` transaction:
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.. container:: codeset
.. sourcecode:: kotlin
@Test
fun simpleCPDoesntCompile() {
val inState = getPaper()
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ledger {
transaction {
input(CommercialPaper.CP_PROGRAM_ID) { inState }
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}
}
}
.. sourcecode:: java
@Test
public void simpleCPDoesntCompile() {
ICommercialPaperState inState = getPaper();
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ledger(l -> {
l.transaction(tx -> {
tx.input(inState);
});
return Unit.INSTANCE;
});
}
We can add a transaction to the ledger using the ``transaction`` primitive. The transaction in turn may be defined by
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specifying ``input``\s, ``output``\s, ``command``\s and ``attachment``\s.
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The above ``input`` call is a bit special; transactions don't actually contain input states, just references
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to output states of other transactions. Under the hood the above ``input`` call creates a dummy transaction in the
ledger (that won't be verified) which outputs the specified state, and references that from this transaction.
The above code however doesn't compile:
.. container:: codeset
.. sourcecode:: kotlin
Error:(29, 17) Kotlin: Type mismatch: inferred type is Unit but EnforceVerifyOrFail was expected
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.. sourcecode:: java
Error:(35, 27) java: incompatible types: bad return type in lambda expression missing return value
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This is deliberate: The DSL forces us to specify either ``verifies()`` or ```fails with`("some text")`` on the
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last line of ``transaction``:
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.. literalinclude:: ../../docs/source/example-code/src/test/kotlin/net/corda/docs/kotlin/tutorial/testdsl/TutorialTestDSL.kt
:language: kotlin
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.. literalinclude:: ../../docs/source/example-code/src/test/java/net/corda/docs/java/tutorial/testdsl/TutorialTestDSL.java
:language: java
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Let's take a look at a transaction that fails.
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:language: kotlin
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When run, that code produces the following error:
.. container:: codeset
.. sourcecode:: kotlin
net.corda.core.contracts.TransactionVerificationException$ContractRejection: java.lang.IllegalArgumentException: Failed requirement: the state is propagated
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.. sourcecode:: java
net.corda.core.contracts.TransactionVerificationException$ContractRejection: java.lang.IllegalStateException: the state is propagated
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The transaction verification failed, because we wanted to move paper but didn't specify an output - but the state should be propagated.
However we can specify that this is an intended behaviour by changing ``verifies()`` to ```fails with`("the state is propagated")``:
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.. container:: codeset
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:language: kotlin
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We can continue to build the transaction until it ``verifies``:
.. container:: codeset
.. literalinclude:: ../../docs/source/example-code/src/test/kotlin/net/corda/docs/kotlin/tutorial/testdsl/TutorialTestDSL.kt
:language: kotlin
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:end-before: DOCEND 5
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:language: java
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``output`` specifies that we want the input state to be transferred to ``ALICE`` and ``command`` adds the
``Move`` command itself, signed by the current owner of the input state, ``MEGA_CORP_PUBKEY``.
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We constructed a complete signed commercial paper transaction and verified it. Note how we left in the ``fails with``
line - this is fine, the failure will be tested on the partially constructed transaction.
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What should we do if we wanted to test what happens when the wrong party signs the transaction? If we simply add a
``command`` it will permanently ruin the transaction... Enter ``tweak``:
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.. container:: codeset
.. literalinclude:: ../../docs/source/example-code/src/test/kotlin/net/corda/docs/kotlin/tutorial/testdsl/TutorialTestDSL.kt
:language: kotlin
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``tweak`` creates a local copy of the transaction. This makes possible to locally "ruin" the transaction while not
modifying the original one, allowing testing of different error conditions.
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We now have a neat little test that tests a single transaction. This is already useful, and in fact testing of a single
transaction in this way is very common. There is even a shorthand top-level ``transaction`` primitive that creates a
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ledger with a single transaction:
.. container:: codeset
.. literalinclude:: ../../docs/source/example-code/src/test/kotlin/net/corda/docs/kotlin/tutorial/testdsl/TutorialTestDSL.kt
:language: kotlin
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:language: java
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Chaining transactions
---------------------
Now that we know how to define a single transaction, let's look at how to define a chain of them:
.. container:: codeset
.. literalinclude:: ../../docs/source/example-code/src/test/kotlin/net/corda/docs/kotlin/tutorial/testdsl/TutorialTestDSL.kt
:language: kotlin
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:language: java
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In this example we declare that ``ALICE`` has $900 but we don't care where from. For this we can use
``unverifiedTransaction``. Note how we don't need to specify ``verifies()``.
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Notice that we labelled output with ``"alice's $900"``, also in transaction named ``"Issuance"``
we labelled a commercial paper with ``"paper"``. Now we can subsequently refer to them in other transactions, e.g.
by ``input("alice's $900")`` or ``"paper".output<ICommercialPaperState>()``.
The last transaction named ``"Trade"`` exemplifies simple fact of selling the ``CommercialPaper`` to Alice for her $900,
$100 less than the face value at 10% interest after only 7 days.
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We can also test whole ledger calling ``verifies()`` and ``fails()`` on the ledger level.
To do so let's create a simple example that uses the same input twice:
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.. container:: codeset
.. literalinclude:: ../../docs/source/example-code/src/test/kotlin/net/corda/docs/kotlin/tutorial/testdsl/TutorialTestDSL.kt
:language: kotlin
:start-after: DOCSTART 9
:end-before: DOCEND 9
:dedent: 4
.. literalinclude:: ../../docs/source/example-code/src/test/java/net/corda/docs/java/tutorial/testdsl/TutorialTestDSL.java
:language: java
:start-after: DOCSTART 9
:end-before: DOCEND 9
:dedent: 4
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The transactions ``verifies()`` individually, however the state was spent twice! That's why we need the global ledger
verification (``fails()`` at the end). As in previous examples we can use ``tweak`` to create a local copy of the whole ledger:
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.. container:: codeset
.. literalinclude:: ../../docs/source/example-code/src/test/kotlin/net/corda/docs/kotlin/tutorial/testdsl/TutorialTestDSL.kt
:language: kotlin
:start-after: DOCSTART 10
:end-before: DOCEND 10
:dedent: 4
.. literalinclude:: ../../docs/source/example-code/src/test/java/net/corda/docs/java/tutorial/testdsl/TutorialTestDSL.java
:language: java
:start-after: DOCSTART 10
:end-before: DOCEND 10
:dedent: 4