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197 lines
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ReStructuredText
197 lines
8.3 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 the contract
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====================
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It's easy to imagine that most CorDapps will want to impose some constraints on how their states evolve over time:
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* A cash CorDapp will not want to allow users to create transactions that generate money out of thin air (at least
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without the involvement of a central bank or commercial bank)
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* A loan CorDapp might not want to allow the creation of negative-valued loans
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* An asset-trading CorDapp will not want to allow users to finalise a trade without the agreement of their counterparty
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In Corda, we impose constraints on how states can evolve using contracts.
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.. note::
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Contracts in Corda are very different to the smart contracts of other distributed ledger platforms. They are not
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stateful objects representing the current state of the world. Instead, like a real-world contract, they simply
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impose rules on what kinds of transactions are allowed.
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Every state has an associated contract. A transaction is invalid if it does not satisfy the contract of every input and
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output state in the transaction.
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The Contract interface
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----------------------
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Just as every Corda state must implement the ``ContractState`` interface, every contract must implement the
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``Contract`` interface:
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.. container:: codeset
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.. code-block:: kotlin
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interface Contract {
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// Implements the contract constraints in code.
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@Throws(IllegalArgumentException::class)
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fun verify(tx: LedgerTransaction)
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}
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We can see that ``Contract`` expresses its constraints through a ``verify`` function that takes a transaction as input,
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and:
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* Throws an ``IllegalArgumentException`` if it rejects the transaction proposal
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* Returns silently if it accepts the transaction proposal
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Controlling IOU evolution
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-------------------------
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What would a good contract for an ``IOUState`` look like? There is no right or wrong answer - it depends on how you
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want your CorDapp to behave.
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For our CorDapp, let's impose the constraint that we only want to allow the creation of IOUs. We don't want nodes to
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transfer them or redeem them for cash. One way to enforce this behaviour would be by imposing the following constraints:
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* A transaction involving IOUs must consume zero inputs, and create one output of type ``IOUState``
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* The transaction should also include a ``Create`` command, indicating the transaction's intent (more on commands
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shortly)
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We might also want to impose some constraints on the properties of the issued ``IOUState``:
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* Its value must be non-negative
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* The lender and the borrower cannot be the same entity
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And finally, we'll want to impose constraints on who is required to sign the transaction:
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* The IOU's lender must sign
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* The IOU's borrower must sign
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We can picture this transaction as follows:
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.. image:: resources/simple-tutorial-transaction-2.png
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:scale: 15%
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:align: center
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Defining IOUContract
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--------------------
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Let's write a contract that enforces these constraints. We'll do this by modifying either ``TemplateContract.java`` or
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``App.kt`` and updating ``TemplateContract`` to define an ``IOUContract``:
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.. container:: codeset
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.. literalinclude:: example-code/src/main/kotlin/net/corda/docs/tutorial/twoparty/contract.kt
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:language: kotlin
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:start-after: DOCSTART 01
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:end-before: DOCEND 01
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.. literalinclude:: example-code/src/main/java/net/corda/docs/java/tutorial/twoparty/IOUContract.java
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:language: java
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:start-after: DOCSTART 01
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:end-before: DOCEND 01
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If you're following along in Java, you'll also need to rename ``TemplateContract.java`` to ``IOUContract.java``.
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Let's walk through this code step by step.
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The Create command
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^^^^^^^^^^^^^^^^^^
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The first thing we add to our contract is a *command*. Commands serve two functions:
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* They indicate the transaction's intent, allowing us to perform different verification for different types of
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transaction. For example, a transaction proposing the creation of an IOU could have to meet different constraints
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to one redeeming an IOU
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* They allow us to define the required signers for the transaction. For example, IOU creation might require signatures
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from the lender only, whereas the transfer of an IOU might require signatures from both the IOU's borrower and lender
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Our contract has one command, a ``Create`` command. All commands must implement the ``CommandData`` interface.
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The ``CommandData`` interface is a simple marker interface for commands. In fact, its declaration is only two words
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long (Kotlin interfaces do not require a body):
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.. container:: codeset
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.. code-block:: kotlin
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interface CommandData
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The verify logic
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^^^^^^^^^^^^^^^^
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Our contract also needs to define the actual contract constraints by implementing ``verify``. Our goal in writing the
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``verify`` function is to write a function that, given a transaction:
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* Throws an ``IllegalArgumentException`` if the transaction is considered invalid
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* Does **not** throw an exception if the transaction is considered valid
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In deciding whether the transaction is valid, the ``verify`` function only has access to the contents of the
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transaction:
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* ``tx.inputs``, which lists the inputs
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* ``tx.outputs``, which lists the outputs
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* ``tx.commands``, which lists the commands and their associated signers
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As well as to the transaction's attachments and time-window, which we won't use here.
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Based on the constraints enumerated above, we need to write a ``verify`` function that rejects a transaction if any of
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the following are true:
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* The transaction doesn't include a ``Create`` command
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* The transaction has inputs
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* The transaction doesn't have exactly one output
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* The IOU itself is invalid
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* The transaction doesn't require the lender's signature
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Command constraints
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~~~~~~~~~~~~~~~~~~~
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Our first constraint is around the transaction's commands. We use Corda's ``requireSingleCommand`` function to test for
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the presence of a single ``Create`` command.
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If the ``Create`` command isn't present, or if the transaction has multiple ``Create`` commands, an exception will be
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thrown and contract verification will fail.
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Transaction constraints
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~~~~~~~~~~~~~~~~~~~~~~~
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We also want our transaction to have no inputs and only a single output - an issuance transaction.
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To impose this and the subsequent constraints, we are using Corda's built-in ``requireThat`` block. ``requireThat``
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provides a terse way to write the following:
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* If the condition on the right-hand side doesn't evaluate to true...
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* ...throw an ``IllegalArgumentException`` with the message on the left-hand side
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As before, the act of throwing this exception causes the transaction to be considered invalid.
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IOU constraints
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~~~~~~~~~~~~~~~
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We want to impose two constraints on the ``IOUState`` itself:
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* Its value must be non-negative
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* The lender and the borrower cannot be the same entity
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We impose these constraints in the same ``requireThat`` block as before.
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You can see that we're not restricted to only writing constraints in the ``requireThat`` block. We can also write
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other statements - in this case, extracting the transaction's single ``IOUState`` and assigning it to a variable.
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Signer constraints
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~~~~~~~~~~~~~~~~~~
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Finally, we require both the lender and the borrower to be required signers on the transaction. A transaction's
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required signers is equal to the union of all the signers listed on the commands. We therefore extract the signers from
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the ``Create`` command we retrieved earlier.
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This is an absolutely essential constraint - it ensures that no ``IOUState`` can ever be created on the ledger without
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the express agreement of both the lender and borrower nodes.
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Progress so far
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---------------
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We've now written an ``IOUContract`` constraining the evolution of each ``IOUState`` over time:
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* An ``IOUState`` can only be created, not transferred or redeemed
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* Creating an ``IOUState`` requires an issuance transaction with no inputs, a single ``IOUState`` output, and a
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``Create`` command
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* The ``IOUState`` created by the issuance transaction must have a non-negative value, and the lender and borrower
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must be different entities
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Next, we'll update the ``IOUFlow`` so that it obeys these contract constraints when issuing an ``IOUState`` onto the
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ledger. |