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90 lines
5.5 KiB
ReStructuredText
90 lines
5.5 KiB
ReStructuredText
Persistence
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===========
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Corda offers developers the option to expose all or some part of a contract state to an *Object Relational Mapping* (ORM) tool
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to be persisted in a RDBMS. The purpose of this is to assist *vault* development by effectively indexing
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persisted contract states held in the vault for the purpose of running queries over them and to allow relational joins
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between Corda data and private data local to the organisation owning a node.
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The ORM mapping is specified using the `Java Persistence API <https://en.wikipedia.org/wiki/Java_Persistence_API>`_ (JPA)
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as annotations and is converted to database table rows by the node automatically every time a state is recorded in the
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node's local vault as part of a transaction.
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.. note:: Presently the node includes an instance of the H2 database but any database that supports JDBC is a candidate and
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the node will in the future support a range of database implementations via their JDBC drivers. Much of the node
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internal state is also persisted there. You can access the internal H2 database via JDBC, please see the info
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in ":doc:`node-administration`" for details.
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Schemas
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-------
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Every ``ContractState`` can implement the ``QueryableState`` interface if it wishes to be inserted into the node's local
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database and accessible using SQL.
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.. literalinclude:: ../../core/src/main/kotlin/net/corda/core/schemas/PersistentTypes.kt
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:language: kotlin
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:start-after: DOCSTART QueryableState
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:end-before: DOCEND QueryableState
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The ``QueryableState`` interface requires the state to enumerate the different relational schemas it supports, for instance in
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cases where the schema has evolved, with each one being represented by a ``MappedSchema`` object return by the
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``supportedSchemas()`` method. Once a schema is selected it must generate that representation when requested via the
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``generateMappedObject()`` method which is then passed to the ORM.
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Nodes have an internal ``SchemaService`` which decides what to persist and what not by selecting the ``MappedSchema``
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to use.
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.. literalinclude:: ../../node/src/main/kotlin/net/corda/node/services/api/SchemaService.kt
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:language: kotlin
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:start-after: DOCSTART SchemaService
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:end-before: DOCEND SchemaService
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.. literalinclude:: ../../core/src/main/kotlin/net/corda/core/schemas/PersistentTypes.kt
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:language: kotlin
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:start-after: DOCSTART MappedSchema
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:end-before: DOCEND MappedSchema
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The ``SchemaService`` can be configured by a node administrator to select the schemas used by each app. In this way the
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relational view of ledger states can evolve in a controlled fashion in lock-step with internal systems or other
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integration points and not necessarily with every upgrade to the contract code.
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It can select from the ``MappedSchema`` offered by a ``QueryableState``, automatically upgrade to a
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later version of a schema or even provide a ``MappedSchema`` not originally offered by the ``QueryableState``.
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It is expected that multiple different contract state implementations might provide mappings to some common schema.
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For example an Interest Rate Swap contract and an Equity OTC Option contract might both provide a mapping to a common
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Derivative schema. The schemas should typically not be part of the contract itself and should exist independently of it
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to encourage re-use of a common set within a particular business area or Cordapp.
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``MappedSchema`` offer a family name that is disambiguated using Java package style name-spacing derived from the class name
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of a *schema family* class that is constant across versions, allowing the ``SchemaService`` to select a preferred version
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of a schema.
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The ``SchemaService`` is also responsible for the ``SchemaOptions`` that can be configured for a particular ``MappedSchema``
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which allow the configuration of a database schema or table name prefixes to avoid any clash with other ``MappedSchema``.
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.. note:: It is intended that there should be plugin support for the ``SchemaService`` to offer the version upgrading and
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additional schemas as part of Cordapps, and that the active schemas be confgurable. However the present implementation
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offers none of this and simply results in all versions of all schemas supported by a ``QueryableState`` being persisted.
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This will change in due course. Similarly, it does not currently support configuring ``SchemaOptions`` but will do so in
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the future.
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Object relational mapping
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-------------------------
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The persisted representation of a ``QueryableState`` should be an instance of a ``PersistentState`` subclass, constructed
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either by the state itself or a plugin to the ``SchemaService``. This allows the ORM layer to always associate a
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``StateRef`` with a persisted representation of a ``ContractState`` and allows joining with the set of unconsumed states
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in the vault.
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The ``PersistentState`` subclass should be marked up as a JPA 2.1 *Entity* with a defined table name and having
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properties (in Kotlin, getters/setters in Java) annotated to map to the appropriate columns and SQL types. Additional
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entities can be included to model these properties where they are more complex, for example collections, so the mapping
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does not have to be *flat*. The ``MappedSchema`` must provide a list of all of the JPA entity classes for that schema in order
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to initialise the ORM layer.
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Several examples of entities and mappings are provided in the codebase, including ``Cash.State`` and
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``CommercialPaper.State``. For example, here's the first version of the cash schema.
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.. literalinclude:: ../../finance/src/main/kotlin/net/corda/schemas/CashSchemaV1.kt
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:language: kotlin
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