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.. 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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Upgrading CorDapps to newer Platform Versions
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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These notes provide instructions for upgrading your CorDapps from previous versions. Corda provides backwards compatibility for public,
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non-experimental APIs that have been committed to. A list can be found in the :doc:`api-stability-guarantees` page.
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This means that you can upgrade your node across versions *without recompiling or adjusting your CorDapps*. You just have to upgrade
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your node and restart.
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However, there are usually new features and other opt-in changes that may improve the security, performance or usability of your
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application that are worth considering for any actively maintained software. This guide shows you how to upgrade your app to benefit
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from the new features in the latest release.
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.. warning:: The sample apps found in the Corda repository and the Corda samples repository are not intended to be used in production.
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If you are using them you should re-namespace them to a package namespace you control, and sign/version them yourself.
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.. contents::
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:depth: 3
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Upgrading apps to Platform Version 5
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====================================
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This section provides instructions for upgrading your CorDapps from previous versions to take advantage of features and enhancements introduced
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in platform version 5.
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.. note:: If you are upgrading from a platform version older than 4, then the upgrade notes for upgrading to Corda 4 (below) also apply.
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Step 1. Handle any source compatibility breaks (if using Kotlin)
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----------------------------------------------------------------
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The following code, which compiled in Platform Version 4, will not compile in Platform Version 5:
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.. container:: codeset
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.. sourcecode:: kotlin
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data class Obligation(val amount: Amount<Currency>, val lender: AbstractParty, val borrower: AbstractParty)
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val (lenderId, borrowerId) = if (anonymous) {
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val anonymousIdentitiesResult = subFlow(SwapIdentitiesFlow(lenderSession))
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Pair(anonymousIdentitiesResult[lenderSession.counterparty]!!, anonymousIdentitiesResult[ourIdentity]!!)
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} else {
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Pair(lender, ourIdentity)
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}
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val obligation = Obligation(100.dollars, lenderId, borrowerId)
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Compiling this code against Platform Version 5 will result in the following error:
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``Type mismatch: inferred type is Any but AbstractParty was expected``
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The issue here is that a new ``Destination`` interface introduced in Platform Version 5 can cause type inference failures when a variable is
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used as an ``AbstractParty`` but has an actual value that is one of ``Party`` or ``AnonymousParty``. These subclasses
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implement ``Destination``, while the superclass does not. Kotlin must pick a type for the variable, and so chooses the most specific
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ancestor of both ``AbstractParty`` and ``Destination``. This is ``Any``, which is not a valid type for use as an ``AbstractParty`` later.
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(For more information on ``Destination``, see the :doc:`changelog` for Platform Version 5, or the KDocs for the interface
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`here <https://docs.corda.net/head/api/kotlin/corda/net.corda.core.flows/-destination.html>`__)
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Note that this is a Kotlin-specific issue. Java can instead choose ``? extends AbstractParty & Destination`` here, which can later be used
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as ``AbstractParty``.
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To fix this, an explicit type hint must be provided to the compiler:
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.. container:: codeset
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.. sourcecode:: kotlin
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data class Obligation(val amount: Amount<Currency>, val lender: AbstractParty, val borrower: AbstractParty)
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val (lenderId, borrowerId) = if (anonymous) {
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val anonymousIdentitiesResult = subFlow(SwapIdentitiesFlow(lenderSession))
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Pair(anonymousIdentitiesResult[lenderSession.counterparty]!!, anonymousIdentitiesResult[ourIdentity]!!)
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} else {
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// This Pair now provides a type hint to the compiler
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Pair<AbstractParty, AbstractParty>(lender, ourIdentity)
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}
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val obligation = Obligation(100.dollars, lenderId, borrowerId)
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This stops type inference from occurring and forces the variable to be of type ``AbstractParty``.
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Upgrading apps to Platform Version 4
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====================================
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This section provides instructions for upgrading your CorDapps from previous versions to platform version 4.
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Step 1. Switch any RPC clients to use the new RPC library
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---------------------------------------------------------
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Although the RPC API is backwards compatible with Corda 3, the RPC wire protocol isn't. Therefore RPC clients like web servers need to be
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updated in lockstep with the node to use the new version of the RPC library. Corda 4 delivers RPC wire stability and therefore in future you
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will be able to update the node and apps without updating RPC clients.
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.. _cordapp_upgrade_version_numbers_ref:
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Step 2. Adjust the version numbers in your Gradle build files
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-------------------------------------------------------------
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Alter the versions you depend on in your Gradle file like so:
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.. code-block:: groovy
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ext.corda_release_version = '|corda_version|'
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ext.corda_gradle_plugins_version = '|gradle_plugins_version|'
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ext.kotlin_version = '|kotlin_version|'
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ext.quasar_version = '|quasar_version|'
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.. note:: You may wish to update your kotlinOptions to use language level 1.2, to benefit from the new features. Apps targeting Corda 4
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may not at this time use Kotlin 1.3, as it was released too late in the development cycle
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for us to risk an upgrade. Sorry! Future work on app isolation will make it easier for apps to use newer Kotlin versions than
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the node itself uses.
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You should also ensure you're using Gradle 4.10 (but not 5). If you use the Gradle wrapper, run:
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.. code:: shell
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./gradlew wrapper --gradle-version 4.10.3
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Otherwise just upgrade your installed copy in the usual manner for your operating system.
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Step 3. Update your Gradle build file
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-------------------------------------
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There are several adjustments that are beneficial to make to your Gradle build file, beyond simply incrementing the versions
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as described in step 1.
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**Provide app metadata.** This is used by the Corda Gradle build plugin to populate your app JAR with useful information.
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It should look like this:
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.. code-block:: groovy
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cordapp {
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targetPlatformVersion 4
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minimumPlatformVersion 4
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contract {
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name "MegaApp Contracts"
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vendor "MegaCorp"
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licence "A liberal, open source licence"
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versionId 1
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}
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workflow {
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name "MegaApp flows"
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vendor "MegaCorp"
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licence "A really expensive proprietary licence"
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versionId 1
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}
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}
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.. important:: Watch out for the UK spelling of the word licence (with a c).
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Name, vendor and licence can be set to any string you like, they don't have to be Corda identities.
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Target versioning is a new concept introduced in Corda 4. Learn more by reading :doc:`versioning`.
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Setting a target version of 4 opts in to changes that might not be 100% backwards compatible, such as
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API semantics changes or disabling workarounds for bugs that may be in your apps, so by doing this you
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are promising that you have thoroughly tested your app on the new version. Using a high target version is
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a good idea because some features and improvements are only available to apps that opt in.
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The minimum platform version is the platform version of the node that you require, so if you
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start using new APIs and features in Corda 4, you should set this to 4. Unfortunately Corda 3 and below
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do not know about this metadata and don't check it, so your app will still be loaded in such nodes and
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may exhibit undefined behaviour at runtime. However it's good to get in the habit of setting this
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properly for future releases.
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.. note:: Whilst it's currently a convention that Corda releases have the platform version number as their
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major version i.e. Corda 3.3 implements platform version 3, this is not actually required and may in
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future not hold true. You should know the platform version of the node releases you want to target.
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The new ``versionId`` number is a version code for **your** app, and is unrelated to Corda's own versions.
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It is currently used for informative purposes only.
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**Split your app into contract and workflow JARs.** The duplication between ``contract`` and ``workflow`` blocks exists because you should split your app into
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two separate JARs/modules, one that contains on-ledger validation code like states and contracts, and one
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for the rest (called by convention the "workflows" module although it can contain a lot more than just flows:
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services would also go here, for instance). For simplicity, here we use one JAR for both, but this is in
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general an anti-pattern and can result in your flow logic code being sent over the network to arbitrary
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third party peers, even though they don't need it.
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In future, the version ID attached to the workflow JAR will also be used to help implement smoother upgrade
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and migration features. You may directly reference the gradle version number of your app when setting the
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CorDapp specific versionId identifiers if this follows the convention of always being a whole number
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starting from 1.
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If you use the finance demo app, you should adjust your dependencies so you depend on the finance-contracts
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and finance-workflows artifacts from your own contract and workflow JAR respectively.
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Step 4. Remove any custom configuration from the node.conf
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----------------------------------------------------------
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CorDapps can no longer access custom configuration items in the ``node.conf`` file. Any custom CorDapp configuration should be added to a
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CorDapp configuration file. The Node's configuration will not be accessible. CorDapp configuration files should be placed in the
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`config` subdirectory of the Node's `cordapps` folder. The name of the file should match the name of the JAR of the CorDapp (eg; if your
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CorDapp is called ``hello-0.1.jar`` the configuration file needed would be ``cordapps/config/hello-0.1.conf``).
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If you are using the ``extraConfig`` of a ``node`` in the ``deployNodes`` Gradle task to populate custom configuration for testing, you will need
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to make the following change so that:
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.. sourcecode:: groovy
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task deployNodes(type: net.corda.plugins.Cordform, dependsOn: ['jar']) {
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node {
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name "O=Bank A,L=London,C=GB"c
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...
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extraConfig = [ 'some.extra.config' : '12345' ]
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}
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}
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Would become:
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.. sourcecode:: groovy
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task deployNodes(type: net.corda.plugins.Cordform, dependsOn: ['jar']) {
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node {
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name "O=Bank A,L=London,C=GB"c
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...
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projectCordapp {
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config "some.extra.config=12345"
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}
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}
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}
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See :ref:`cordapp_configuration_files_ref` for more information.
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.. _cordapp_upgrade_finality_flow_ref:
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Step 5. Security: Upgrade your use of FinalityFlow
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--------------------------------------------------
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The previous ``FinalityFlow`` API is insecure. It doesn't have a receive flow, so requires counterparty nodes to accept any and
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all signed transactions that are sent to it, without checks. It is **highly** recommended that existing CorDapps migrate
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away to the new API, as otherwise things like business network membership checks won't be reliably enforced.
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The flows that make use of ``FinalityFlow`` in a CorDapp can be classified in the following 2 basic categories:
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* **non-initiating flows**: these are flows that finalise a transaction without the involvement of a counterpart flow at all.
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* **initiating flows**: these are flows that initiate a counterpart (responder) flow.
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There is a main difference between these 2 different categories, which is relevant to how the CorDapp can be upgraded.
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The second category of flows can be upgraded to use the new ``FinalityFlow`` in a backwards compatible way, which means the upgraded CorDapp can be deployed at the various nodes using a *rolling deployment*.
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On the other hand, the first category of flows cannot be upgraded to the new ``FinalityFlow`` in a backwards compatible way, so the changes to these flows need to be deployed simultaneously at all the nodes, using a *lockstep deployment*.
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.. note:: A *lockstep deployment* is one, where all the involved nodes are stopped, upgraded to the new version of the CorDapp and then re-started.
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As a result, there can't be any nodes running different versions of the CorDapp at any time.
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A *rolling deployment* is one, where every node can be stopped, upgraded to the new version of the CorDapp and re-started independently and on its own pace.
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As a result, there can be nodes running different versions of the CorDapp and transact with each other successfully.
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The upgrade is a three step process:
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1. Change the flow that calls ``FinalityFlow``.
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2. Change or create the flow that will receive the finalised transaction.
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3. Make sure your application's minimum and target version numbers are both set to 4 (see :ref:`cordapp_upgrade_version_numbers_ref`).
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Upgrading a non-initiating flow
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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As an example, let's take a very simple flow that finalises a transaction without the involvement of a counterpart flow:
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.. container:: codeset
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.. literalinclude:: example-code/src/main/kotlin/net/corda/docs/kotlin/FinalityFlowMigration.kt
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:language: kotlin
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:start-after: DOCSTART SimpleFlowUsingOldApi
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:end-before: DOCEND SimpleFlowUsingOldApi
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.. literalinclude:: example-code/src/main/java/net/corda/docs/java/FinalityFlowMigration.java
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:language: java
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:start-after: DOCSTART SimpleFlowUsingOldApi
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:end-before: DOCEND SimpleFlowUsingOldApi
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:dedent: 4
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To use the new API, this flow needs to be annotated with ``InitiatingFlow`` and a ``FlowSession`` to the participant(s) of the transaction must be
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passed to ``FinalityFlow`` :
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.. container:: codeset
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.. literalinclude:: example-code/src/main/kotlin/net/corda/docs/kotlin/FinalityFlowMigration.kt
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:language: kotlin
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:start-after: DOCSTART SimpleFlowUsingNewApi
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:end-before: DOCEND SimpleFlowUsingNewApi
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.. literalinclude:: example-code/src/main/java/net/corda/docs/java/FinalityFlowMigration.java
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:language: java
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:start-after: DOCSTART SimpleFlowUsingNewApi
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:end-before: DOCEND SimpleFlowUsingNewApi
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:dedent: 4
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If there are more than one transaction participants then a session to each one must be initiated, excluding the local party
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and the notary.
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A responder flow has to be introduced, which will automatically run on the other participants' nodes, which will call ``ReceiveFinalityFlow``
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to record the finalised transaction:
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.. container:: codeset
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.. literalinclude:: example-code/src/main/kotlin/net/corda/docs/kotlin/FinalityFlowMigration.kt
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:language: kotlin
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:start-after: DOCSTART SimpleNewResponderFlow
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:end-before: DOCEND SimpleNewResponderFlow
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.. literalinclude:: example-code/src/main/java/net/corda/docs/java/FinalityFlowMigration.java
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:language: java
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:start-after: DOCSTART SimpleNewResponderFlow
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:end-before: DOCEND SimpleNewResponderFlow
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:dedent: 4
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.. note:: As described above, all the nodes in your business network will need the new CorDapp, otherwise they won't know how to receive the transaction. **This
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includes nodes which previously didn't have the old CorDapp.** If a node is sent a transaction and it doesn't have the new CorDapp loaded
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then simply restart it with the CorDapp and the transaction will be recorded.
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Upgrading an initiating flow
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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For flows which are already initiating counterpart flows then it's a matter of using the existing flow session.
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Note however, the new ``FinalityFlow`` is inlined and so the sequence of sends and receives between the two flows will
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change and will be incompatible with your current flows. You can use the flow version API to write your flows in a
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backwards compatible manner.
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Here's what an upgraded initiating flow may look like:
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.. container:: codeset
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.. literalinclude:: example-code/src/main/kotlin/net/corda/docs/kotlin/FinalityFlowMigration.kt
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:language: kotlin
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:start-after: DOCSTART ExistingInitiatingFlow
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:end-before: DOCEND ExistingInitiatingFlow
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.. literalinclude:: example-code/src/main/java/net/corda/docs/java/FinalityFlowMigration.java
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:language: java
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:start-after: DOCSTART ExistingInitiatingFlow
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:end-before: DOCEND ExistingInitiatingFlow
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:dedent: 4
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For the responder flow, insert a call to ``ReceiveFinalityFlow`` at the location where it's expecting to receive the
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finalised transaction. If the initiator is written in a backwards compatible way then so must the responder.
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.. container:: codeset
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.. literalinclude:: example-code/src/main/kotlin/net/corda/docs/kotlin/FinalityFlowMigration.kt
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:language: kotlin
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:start-after: DOCSTART ExistingResponderFlow
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:end-before: DOCEND ExistingResponderFlow
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:dedent: 8
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.. literalinclude:: example-code/src/main/java/net/corda/docs/java/FinalityFlowMigration.java
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:language: java
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:start-after: DOCSTART ExistingResponderFlow
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:end-before: DOCEND ExistingResponderFlow
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:dedent: 12
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You may already be using ``waitForLedgerCommit`` in your responder flow for the finalised transaction to appear in the local node's vault.
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Now that it's calling ``ReceiveFinalityFlow``, which effectively does the same thing, this is no longer necessary. The call to
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``waitForLedgerCommit`` should be removed.
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Step 6. Security: Upgrade your use of SwapIdentitiesFlow
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--------------------------------------------------------
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The :ref:`confidential_identities_ref` API is experimental in Corda 3 and remains so in Corda 4. In this release, the ``SwapIdentitiesFlow``
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has been adjusted in the same way as ``FinalityFlow`` above, to close problems with confidential identities being injectable into a node
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outside of other flow context. Old code will still work, but it is recommended to adjust your call sites so a session is passed into
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the ``SwapIdentitiesFlow``.
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Step 7. Possibly, adjust test code
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----------------------------------
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``MockNodeParameters`` and functions creating it no longer use a lambda expecting a ``NodeConfiguration`` object.
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Use a ``MockNetworkConfigOverrides`` object instead. This is an API change we regret, but unfortunately in Corda 3 we accidentally exposed
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large amounts of the node internal code through this one API entry point. We have now insulated the test API from node internals and
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reduced the exposure.
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If you are constructing a MockServices for testing contracts, and your contract uses the Cash contract from the finance app, you
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now need to explicitly add ``net.corda.finance.contracts`` to the list of ``cordappPackages``. This is a part of the work to disentangle
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the finance app (which is really a demo app) from the Corda internals. Example:
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.. container:: codeset
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.. sourcecode:: kotlin
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val ledgerServices = MockServices(
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listOf("net.corda.examples.obligation", "net.corda.testing.contracts"),
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initialIdentity = TestIdentity(CordaX500Name("TestIdentity", "", "GB")),
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identityService = makeTestIdentityService()
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)
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.. sourcecode:: java
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MockServices ledgerServices = new MockServices(
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Arrays.asList("net.corda.examples.obligation", "net.corda.testing.contracts"),
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new TestIdentity(new CordaX500Name("TestIdentity", "", "GB")),
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makeTestIdentityService()
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);
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becomes:
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.. container:: codeset
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.. sourcecode:: kotlin
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val ledgerServices = MockServices(
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listOf("net.corda.examples.obligation", "net.corda.testing.contracts", "net.corda.finance.contracts"),
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initialIdentity = TestIdentity(CordaX500Name("TestIdentity", "", "GB")),
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identityService = makeTestIdentityService()
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)
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.. sourcecode:: java
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MockServices ledgerServices = new MockServices(
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Arrays.asList("net.corda.examples.obligation", "net.corda.testing.contracts", "net.corda.finance.contracts"),
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new TestIdentity(new CordaX500Name("TestIdentity", "", "GB")),
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makeTestIdentityService()
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);
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You may need to use the new ``TestCordapp`` API when testing with the node driver or mock network, especially if you decide to stick with the
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pre-Corda 4 ``FinalityFlow`` API. The previous way of pulling in CorDapps into your tests (i.e. via using the ``cordappPackages`` parameter) does not honour CorDapp versioning.
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The new API ``TestCordapp.findCordapp()`` discovers the CorDapps that contain the provided packages scanning the classpath, so you have to ensure that the classpath the tests are running under contains either the CorDapp ``.jar`` or (if using Gradle) the relevant Gradle sub-project.
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In the first case, the versioning information in the CorDapp ``.jar`` file will be maintained. In the second case, the versioning information will be retrieved from the Gradle ``cordapp`` task.
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For example, if you are using ``MockNetwork`` for your tests, the following code:
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.. container:: codeset
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.. sourcecode:: kotlin
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val mockNetwork = MockNetwork(
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cordappPackages = listOf("net.corda.examples.obligation", "net.corda.finance.contracts"),
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notarySpecs = listOf(MockNetworkNotarySpec(notary))
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)
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.. sourcecode:: java
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MockNetwork mockNetwork = new MockNetwork(
|
|
Arrays.asList("net.corda.examples.obligation", "net.corda.finance.contracts"),
|
|
new MockNetworkParameters().withNotarySpecs(Arrays.asList(new MockNetworkNotarySpec(notary)))
|
|
);
|
|
|
|
would need to be transformed into:
|
|
|
|
.. container:: codeset
|
|
|
|
.. sourcecode:: kotlin
|
|
|
|
val mockNetwork = MockNetwork(
|
|
MockNetworkParameters(
|
|
cordappsForAllNodes = listOf(
|
|
TestCordapp.findCordapp("net.corda.examples.obligation.contracts"),
|
|
TestCordapp.findCordapp("net.corda.examples.obligation.flows")
|
|
),
|
|
notarySpecs = listOf(MockNetworkNotarySpec(notary))
|
|
)
|
|
)
|
|
|
|
.. sourcecode:: java
|
|
|
|
MockNetwork mockNetwork = new MockNetwork(
|
|
new MockNetworkParameters(
|
|
Arrays.asList(
|
|
TestCordapp.findCordapp("net.corda.examples.obligation.contracts"),
|
|
TestCordapp.findCordapp("net.corda.examples.obligation.flows")
|
|
)
|
|
).withNotarySpecs(Arrays.asList(new MockNetworkNotarySpec(notary)))
|
|
);
|
|
|
|
Note that every package should exist in only one CorDapp, otherwise the discovery process won't be able to determine which one to use and you will most probably see an exception telling you ``There is more than one CorDapp containing the package``.
|
|
For instance, if you have 2 CorDapps containing the packages ``net.corda.examples.obligation.contracts`` and ``net.corda.examples.obligation.flows``, you will get this error if you specify the package ``net.corda.examples.obligation``.
|
|
|
|
|
|
.. note:: If you have any CorDapp code (e.g. flows/contracts/states) that is only used by the tests and located in the same test module, it won't be discovered now.
|
|
You will need to move them in the main module of one of your CorDapps or create a new, separate CorDapp for them, in case you don't want this code to live inside your production CorDapps.
|
|
|
|
Step 8. Security: Add BelongsToContract annotations
|
|
---------------------------------------------------
|
|
|
|
In versions of the platform prior to v4, it was the responsibility of contract and flow logic to ensure that ``TransactionState`` objects
|
|
contained the correct class name of the expected contract class. If these checks were omitted, it would be possible for a malicious counterparty
|
|
to construct a transaction containing e.g. a cash state governed by a commercial paper contract. The contract would see that there were no
|
|
commercial paper states in a transaction and do nothing, i.e. accept.
|
|
|
|
In Corda 4 the platform takes over this responsibility from the app, if the app has a target version of 4 or higher. A state is expected
|
|
to be governed by a contract that is either:
|
|
|
|
1. The outer class of the state class, if the state is an inner class of a contract. This is a common design pattern.
|
|
2. Annotated with ``@BelongsToContract`` which specifies the contract class explicitly.
|
|
|
|
Learn more by reading :ref:`contract_state_agreement`. If an app targets Corda 3 or lower (i.e. does not specify a target version),
|
|
states that point to contracts outside their package will trigger a log warning but validation will proceed.
|
|
|
|
Step 9. Learn about signature constraints and JAR signing
|
|
---------------------------------------------------------
|
|
|
|
:ref:`signature_constraints` are a new data model feature introduced in Corda 4. They make it much easier to
|
|
deploy application upgrades smoothly and in a decentralised manner. Signature constraints are the new default mode for CorDapps, and
|
|
the act of upgrading your app to use the version 4 Gradle plugins will result in your app being automatically signed, and new states
|
|
automatically using new signature constraints selected automatically based on these signing keys.
|
|
|
|
You can read more about signature constraints and what they do in :doc:`api-contract-constraints`. The ``TransactionBuilder`` class will
|
|
automatically use them if your application JAR is signed. **We recommend all JARs are signed**. To learn how to sign your JAR files, read
|
|
:ref:`cordapp_build_system_signing_cordapp_jar_ref`. In dev mode, all JARs are signed by developer certificates. If a JAR that was signed
|
|
with developer certificates is deployed to a production node, the node will refuse to start. Therefore to deploy apps built for Corda 4
|
|
to production you will need to generate signing keys and integrate them with the build process.
|
|
|
|
.. note:: Please read the :doc:`cordapp-constraint-migration` guide to understand how to upgrade CorDapps to use Corda 4 signature constraints and consume
|
|
existing states on ledger issued with older constraint types (e.g. Corda 3.x states issued with **hash** or **CZ whitelisted** constraints).
|
|
|
|
Step 10. Security: Package namespace handling
|
|
---------------------------------------------
|
|
|
|
Almost no apps will be affected by these changes, but they're important to know about.
|
|
|
|
There are two improvements to how Java package protection is handled in Corda 4:
|
|
|
|
1. Package sealing
|
|
2. Package namespace ownership
|
|
|
|
**Sealing.** App isolation has been improved. Version 4 of the finance CorDapps (*corda-finance-contracts.jar*, *corda-finance-workflows.jar*) is now built as a set of sealed and
|
|
signed JAR files. This means classes in your own CorDapps cannot be placed under the following package namespace: ``net.corda.finance``
|
|
|
|
In the unlikely event that you were injecting code into ``net.corda.finance.*`` package namespaces from your own apps, you will need to move them
|
|
into a new package, e.g. ``net/corda/finance/flows/MyClass.java`` can be moved to ``com/company/corda/finance/flows/MyClass.java``.
|
|
As a consequence your classes are no longer able to access non-public members of finance CorDapp classes.
|
|
|
|
When signing your JARs for Corda 4, your own apps will also become sealed, meaning other JARs cannot place classes into your own packages.
|
|
This is a security upgrade that ensures package-private visibility in Java code works correctly. If other apps could define classes in your own
|
|
packages, they could call package-private methods, which may not be expected by the developers.
|
|
|
|
**Namespace ownership.** This part is only relevant if you are joining a production compatibility zone. You may wish to contact your zone operator
|
|
and request ownership of your root package namespaces (e.g. ``com.megacorp.*``), with the signing keys you will be using to sign your app JARs.
|
|
The zone operator can then add your signing key to the network parameters, and prevent attackers defining types in your own package namespaces.
|
|
Whilst this feature is optional and not strictly required, it may be helpful to block attacks at the boundaries of a Corda based application
|
|
where type names may be taken "as read". You can learn more about this feature and the motivation for it by reading
|
|
":doc:`design/data-model-upgrades/package-namespace-ownership`".
|
|
|
|
Step 11. Consider adding extension points to your flows
|
|
-------------------------------------------------------
|
|
|
|
In Corda 4 it is possible for flows in one app to subclass and take over flows from another. This allows you to create generic, shared
|
|
flow logic that individual users can customise at pre-agreed points (protected methods). For example, a site-specific app could be developed
|
|
that causes transaction details to be converted to a PDF and sent to a particular printer. This would be an inappropriate feature to put
|
|
into shared business logic, but it makes perfect sense to put into a user-specific app they developed themselves.
|
|
|
|
If your flows could benefit from being extended in this way, read ":doc:`flow-overriding`" to learn more.
|
|
|
|
Step 12. Possibly update vault state queries
|
|
--------------------------------------------
|
|
|
|
In Corda 4 queries made on a node's vault can filter by the relevancy of those states to the node. As this functionality does not exist in
|
|
Corda 3, apps will continue to receive all states in any vault queries. However, it may make sense to migrate queries expecting just those states relevant
|
|
to the node in question to query for only relevant states. See :doc:`api-vault-query` for more details on how to do this. Not doing this
|
|
may result in queries returning more states than expected if the node is using observer functionality (see ":doc:`tutorial-observer-nodes`").
|
|
|
|
Step 13. Explore other new features that may be useful
|
|
------------------------------------------------------
|
|
|
|
Corda 4 adds several new APIs that help you build applications. Why not explore:
|
|
|
|
* The `new withEntityManager API <api/javadoc/net/corda/core/node/ServiceHub.html#withEntityManager-block->`_ for using JPA inside your flows and services.
|
|
* :ref:`reference_states`, that let you use an input state without consuming it.
|
|
* :ref:`state_pointers`, that make it easier to 'point' to one state from another and follow the latest version of a linear state.
|
|
|
|
Please also read the :doc:`CorDapp Upgradeability Guarantees <cordapp-upgradeability>` associated with CorDapp upgrading.
|
|
|
|
Step 14. Possibly update your checked in quasar.jar
|
|
---------------------------------------------------
|
|
|
|
If your project is based on one of the official cordapp templates, it is likely you have a ``lib/quasar.jar`` checked in. It is worth noting
|
|
that you only use this if you use the JUnit runner in IntelliJ. In the latest release of the cordapp templates, this directory has
|
|
been removed.
|
|
|
|
You have some choices here:
|
|
|
|
* Upgrade your ``quasar.jar`` to ``|quasar_version|``
|
|
* Delete your ``lib`` directory and switch to using the Gradle test runner
|
|
|
|
Instructions for both options can be found in :ref:`Running tests in Intellij <tutorial_cordapp_running_tests_intellij>`.
|