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API: Transactions
=================
.. note:: Before reading this page, you should be familiar with the key concepts of :doc:`key-concepts-transactions`.
.. contents::
Transaction lifecycle
---------------------
Between its creation and its final inclusion on the ledger, a transaction will generally occupy one of three states:
* ``TransactionBuilder``. A transaction's initial state. This is the only state during which the transaction is
mutable, so we must add all the required components before moving on.
* ``SignedTransaction``. The transaction now has one or more digital signatures, making it immutable. This is the
transaction type that is passed around to collect additional signatures and that is recorded on the ledger.
* ``LedgerTransaction``. The transaction has been "resolved" - for example, its inputs have been converted from
references to actual states - allowing the transaction to be fully inspected.
We can visualise the transitions between the three stages as follows:
.. image:: resources/transaction-flow.png
Transaction components
----------------------
A transaction consists of six types of components:
* 1+ states:
* 0+ input states
* 0+ output states
* 1+ commands
* 0+ attachments
* 0 or 1 time-window
* A transaction with a time-window must also have a notary
Each component corresponds to a specific class in the Corda API. The following section describes each component class,
and how it is created.
Input states
^^^^^^^^^^^^
An input state is added to a transaction as a ``StateAndRef``, which combines:
* The ``ContractState`` itself
* A ``StateRef`` identifying this ``ContractState`` as the output of a specific transaction
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A ``StateRef`` uniquely identifies an input state, allowing the notary to mark it as historic. It is made up of:
* The hash of the transaction that generated the state
* The state's index in the outputs of that transaction
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The ``StateRef`` links an input state back to the transaction that created it. This means that transactions form
"chains" linking each input back to an original issuance transaction. This allows nodes verifying the transaction
to "walk the chain" and verify that each input was generated through a valid sequence of transactions.
Output states
^^^^^^^^^^^^^
Since a transaction's output states do not exist until the transaction is committed, they cannot be referenced as the
outputs of previous transactions. Instead, we create the desired output states as ``ContractState`` instances, and
add them to the transaction directly:
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In cases where an output state represents an update of an input state, we may want to create the output state by basing
it on the input state:
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Before our output state can be added to a transaction, we need to associate it with a contract. We can do this by
wrapping the output state in a ``StateAndContract``, which combines:
* The ``ContractState`` representing the output states
* A ``String`` identifying the contract governing the state
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Commands
^^^^^^^^
A command is added to the transaction as a ``Command``, which combines:
* A ``CommandData`` instance indicating the command's type
* A ``List`` representing the command's required signers
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Attachments
^^^^^^^^^^^
Attachments are identified by their hash:
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The attachment with the corresponding hash must have been uploaded ahead of time via the node's RPC interface.
Time-windows
^^^^^^^^^^^^
Time windows represent the period during which the transaction must be notarised. They can have a start and an end
time, or be open at either end:
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We can also define a time window as an ``Instant`` plus/minus a time tolerance (e.g. 30 seconds):
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Or as a start-time plus a duration:
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TransactionBuilder
------------------
Creating a builder
^^^^^^^^^^^^^^^^^^
The first step when creating a transaction proposal is to instantiate a ``TransactionBuilder``.
If the transaction has input states or a time-window, we need to instantiate the builder with a reference to the notary
that will notarise the inputs and verify the time-window:
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We discuss the selection of a notary in :doc:`api-flows`.
If the transaction does not have any input states or a time-window, it does not require a notary, and can be
instantiated without one:
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Adding items
^^^^^^^^^^^^
The next step is to build up the transaction proposal by adding the desired components.
We can add components to the builder using the ``TransactionBuilder.withItems`` method:
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``withItems`` takes a ``vararg`` of objects and adds them to the builder based on their type:
* ``StateAndRef`` objects are added as input states
* ``TransactionState`` and ``StateAndContract`` objects are added as output states
* Both ``TransactionState`` and ``StateAndContract`` are wrappers around a ``ContractState`` output that link the
output to a specific contract
* ``Command`` objects are added as commands
* ``SecureHash`` objects are added as attachments
* A ``TimeWindow`` object replaces the transaction's existing ``TimeWindow``, if any
Passing in objects of any other type will cause an ``IllegalArgumentException`` to be thrown.
Here's an example usage of ``TransactionBuilder.withItems``:
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There are also individual methods for adding components.
Here are the methods for adding inputs and attachments:
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An output state can be added as a ``ContractState``, contract class name and notary:
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We can also leave the notary field blank, in which case the transaction's default notary is used:
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Or we can add the output state as a ``TransactionState``, which already specifies the output's contract and notary:
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Commands can be added as a ``Command``:
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Or as ``CommandData`` and a ``vararg PublicKey``:
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For the time-window, we can set a time-window directly:
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Or define the time-window as a time plus a duration (e.g. 45 seconds):
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Signing the builder
^^^^^^^^^^^^^^^^^^^
Once the builder is ready, we finalize it by signing it and converting it into a ``SignedTransaction``.
We can either sign with our legal identity key:
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Or we can also choose to use another one of our public keys:
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Either way, the outcome of this process is to create an immutable ``SignedTransaction`` with our signature over it.
SignedTransaction
-----------------
A ``SignedTransaction`` is a combination of:
* An immutable transaction
* A list of signatures over that transaction
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Before adding our signature to the transaction, we'll want to verify both the transaction's contents and the
transaction's signatures.
Verifying the transaction's contents
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
If a transaction has inputs, we need to retrieve all the states in the transaction's dependency chain before we can
verify the transaction's contents. This is because the transaction is only valid if its dependency chain is also valid.
We do this by requesting any states in the chain that our node doesn't currently have in its local storage from the
proposer(s) of the transaction. This process is handled by a built-in flow called ``ReceiveTransactionFlow``.
See :doc:`api-flows` for more details.
We can now verify the transaction's contents to ensure that it satisfies the contracts of all the transaction's input
and output states:
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Checking that the transaction meets the contract constraints is only part of verifying the transaction's contents. We
will usually also want to perform our own additional validation of the transaction contents before signing, to ensure
that the transaction proposal represents an agreement we wish to enter into.
However, the ``SignedTransaction`` holds its inputs as ``StateRef`` instances, and its attachments as ``SecureHash``
instances, which do not provide enough information to properly validate the transaction's contents. We first need to
resolve the ``StateRef`` and ``SecureHash`` instances into actual ``ContractState`` and ``Attachment`` instances, which
we can then inspect.
We achieve this by using the ``ServiceHub`` to convert the ``SignedTransaction`` into a ``LedgerTransaction``:
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We can now perform our additional verification. Here's a simple example:
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Verifying the transaction's signatures
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Aside from verifying that the transaction's contents are valid, we also need to check that the signatures are valid. A
valid signature over the hash of the transaction prevents tampering.
We can verify that all the transaction's required signatures are present and valid as follows:
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However, we'll often want to verify the transaction's existing signatures before all of them have been collected. For
this we can use ``SignedTransaction.verifySignaturesExcept``, which takes a ``vararg`` of the public keys for
which the signatures are allowed to be missing:
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There is also an overload of ``SignedTransaction.verifySignaturesExcept``, which takes a ``Collection`` of the public
keys for which the signatures are allowed to be missing:
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If the transaction is missing any signatures without the corresponding public keys being passed in, a
``SignaturesMissingException`` is thrown.
We can also choose to simply verify the signatures that are present:
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Be very careful, however - this function neither guarantees that the signatures that are present are required, nor
checks whether any signatures are missing.
Signing the transaction
^^^^^^^^^^^^^^^^^^^^^^^
Once we are satisfied with the contents and existing signatures over the transaction, we add our signature to the
``SignedTransaction`` to indicate that we approve the transaction.
We can sign using our legal identity key, as follows:
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Or we can choose to sign using another one of our public keys:
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We can also generate a signature over the transaction without adding it to the transaction directly.
We can do this with our legal identity key:
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Or using another one of our public keys:
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Notarising and recording
^^^^^^^^^^^^^^^^^^^^^^^^
Notarising and recording a transaction is handled by a built-in flow called ``FinalityFlow``. See :doc:`api-flows` for
more details.