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fc38e4160a
* Updates the states API page. * Minor fixes. * Further fixes. * Adds ToC * Addresses review feedback.
154 lines
5.9 KiB
ReStructuredText
154 lines
5.9 KiB
ReStructuredText
API: States
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===========
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.. note:: Before reading this page, you should be familiar with the key concepts of :doc:`key-concepts-states`.
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.. contents::
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ContractState
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-------------
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In Corda, states are instances of classes that implement ``ContractState``. The ``ContractState`` interface is defined
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as follows:
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.. container:: codeset
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.. literalinclude:: ../../core/src/main/kotlin/net/corda/core/contracts/ContractState.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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``ContractState`` has a single field, ``participants``. ``participants`` is a ``List`` of the ``AbstractParty`` that
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are considered to have a stake in the state. Among other things, the ``participants`` will:
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* Usually store the state in their vault (see below)
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* Need to sign any notary-change and contract-upgrade transactions involving this state
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* Receive any finalised transactions involving this state as part of ``FinalityFlow``
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ContractState sub-interfaces
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----------------------------
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The behaviour of the state can be further customised by implementing sub-interfaces of ``ContractState``. The two most
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common sub-interfaces are:
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* ``LinearState``
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* ``OwnableState``
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``LinearState`` models shared facts for which there is only one current version at any point in time. ``LinearState``
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states evolve in a straight line by superseding themselves. On the other hand, ``OwnableState`` is meant to represent
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assets that can be freely split and merged over time. Cash is a good example of an ``OwnableState`` - two existing $5
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cash states can be combined into a single $10 cash state, or split into five $1 cash states. With ``OwnableState``, its
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the total amount held that is important, rather than the actual units held.
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We can picture the hierarchy as follows:
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.. image:: resources/state-hierarchy.png
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LinearState
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^^^^^^^^^^^
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The ``LinearState`` interface is defined as follows:
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.. container:: codeset
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.. literalinclude:: ../../core/src/main/kotlin/net/corda/core/contracts/Structures.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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Remember that in Corda, states are immutable and can't be updated directly. Instead, we represent an evolving fact as a
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sequence of ``LinearState`` states that share the same ``linearId`` and represent an audit trail for the lifecycle of
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the fact over time.
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When we want to extend a ``LinearState`` chain (i.e. a sequence of states sharing a ``linearId``), we:
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* Use the ``linearId`` to extract the latest state in the chain from the vault
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* Create a new state that has the same ``linearId``
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* Create a transaction with:
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* The current latest state in the chain as an input
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* The newly-created state as an output
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The new state will now become the latest state in the chain, representing the new current state of the agreement.
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``linearId`` is of type ``UniqueIdentifier``, which is a combination of:
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* A Java ``UUID`` representing a globally unique 128 bit random number
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* An optional external-reference string for referencing the state in external systems
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OwnableState
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^^^^^^^^^^^^
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The ``OwnableState`` interface is defined as follows:
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.. container:: codeset
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.. literalinclude:: ../../core/src/main/kotlin/net/corda/core/contracts/Structures.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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Where:
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* ``owner`` is the ``PublicKey`` of the asset's owner
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* ``withNewOwner(newOwner: AbstractParty)`` creates an copy of the state with a new owner
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Because ``OwnableState`` models fungible assets that can be merged and split over time, ``OwnableState`` instances do
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not have a ``linearId``. $5 of cash created by one transaction is considered to be identical to $5 of cash produced by
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another transaction.
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Other interfaces
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^^^^^^^^^^^^^^^^
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You can also customize your state by implementing the following interfaces:
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* ``QueryableState``, which allows the state to be queried in the node's database using custom attributes (see
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:doc:`api-persistence`)
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* ``SchedulableState``, which allows us to schedule future actions for the state (e.g. a coupon payment on a bond) (see
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:doc:`event-scheduling`)
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User-defined fields
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-------------------
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Beyond implementing ``ContractState`` or a sub-interface, a state is allowed to have any number of additional fields
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and methods. For example, here is the relatively complex definition for a state representing cash:
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.. container:: codeset
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.. literalinclude:: ../../finance/src/main/kotlin/net/corda/finance/contracts/asset/Cash.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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The vault
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---------
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Whenever a node records a new transaction, it also decides whether it should store each of the transaction's output
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states in its vault. The default vault implementation makes the decision based on the following rules:
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* If the state is an ``OwnableState``, the vault will store the state if the node is the state's ``owner``
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* Otherwise, the vault will store the state if it is one of the ``participants``
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States that are not considered relevant are not stored in the node's vault. However, the node will still store the
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transactions that created the states in its transaction storage.
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TransactionState
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----------------
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When a ``ContractState`` is added to a ``TransactionBuilder``, it is wrapped in a ``TransactionState``:
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.. container:: codeset
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.. literalinclude:: ../../core/src/main/kotlin/net/corda/core/contracts/TransactionState.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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Where:
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* ``data`` is the state to be stored on-ledger
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* ``contract`` is the contract governing evolutions of this state
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* ``notary`` is the notary service for this state
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* ``encumbrance`` points to another state that must also appear as an input to any transaction consuming this
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state
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* ``constraint`` is a constraint on which contract-code attachments can be used with this state |