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140 lines
6.0 KiB
ReStructuredText
140 lines
6.0 KiB
ReStructuredText
Using a notary service
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----------------------
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This tutorial describes how to assign a notary to a newly issued state, and how to get a transaction notarised by
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obtaining a signature of the required notary. It assumes some familiarity with *flows* and how to write them, as described
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in :doc:`flow-state-machines`.
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Assigning a notary
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==================
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The first step is to choose a notary and obtain its identity. Identities of all notaries on the network are kept by
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the :ref:`network-map-service`. The network map cache exposes two methods for obtaining a notary:
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.. sourcecode:: kotlin
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/**
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* Gets a notary identity by the given name.
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*/
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fun getNotary(name: String): Party?
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/**
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* Returns a notary identity advertised by any of the nodes on the network (chosen at random)
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*
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* @param type Limits the result to notaries of the specified type (optional)
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*/
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fun getAnyNotary(type: ServiceType? = null): Party?
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Currently notaries can only be differentiated by name and type, but in the future the network map service will be
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able to provide more metadata, such as location or legal identities of the nodes operating it.
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Now, let's say we want to issue an asset and assign it to a notary named "Notary A".
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The first step is to obtain the notary identity -- ``Party``:
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.. sourcecode:: kotlin
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val ourNotary: Party = serviceHub.networkMapCache.getNotary("Central Bank Notary")
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Then we initialise the transaction builder:
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.. sourcecode:: kotlin
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val builder: TransactionBuilder = TransactionType.General.Builder(notary = ourNotary)
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For any output state we add to this transaction builder, ``ourNotary`` will be assigned as its notary.
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Next we create a state object and assign ourselves as the owner. For this example we'll use a
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``DummyContract.State``, which is a simple state that just maintains an integer and can change ownership.
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.. sourcecode:: kotlin
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val myIdentity = serviceHub.myInfo.legalIdentity
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val state = DummyContract.SingleOwnerState(magicNumber = 42, owner = myIdentity.owningKey)
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Then we add the state as the transaction output along with the relevant command. The state will automatically be assigned
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to our previously specified "Notary A".
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.. sourcecode:: kotlin
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builder.addOutputState(state)
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val createCommand = DummyContract.Commands.Create()
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builder.addCommand(Command(createCommand, myIdentity))
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We then sign the transaction, build and record it to our transaction storage:
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.. sourcecode:: kotlin
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val mySigningKey: KeyPair = serviceHub.legalIdentityKey
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builder.signWith(mySigningKey)
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val issueTransaction = builder.toSignedTransaction()
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serviceHub.recordTransactions(issueTransaction)
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The transaction is recorded and we now have a state (asset) in possession that we can transfer to someone else. Note
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that the issuing transaction does not need to be notarised, as it doesn't consume any input states.
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Notarising a transaction
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========================
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Following our example for the previous section, let's say we now want to transfer our issued state to Alice.
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First we obtain a reference to the state, which will be the input to our "move" transaction:
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.. sourcecode:: kotlin
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val stateRef = StateRef(txhash = issueTransaction.id, index = 0)
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Then we create a new state -- a copy of our state but with the owner set to Alice. This is a bit more involved so
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we just use a helper that handles it for us. We also assume that we already have the ``Party`` for Alice, ``aliceParty``.
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.. sourcecode:: kotlin
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val inputState = StateAndRef(sate, stateRef)
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val moveTransactionBuilder = DummyContract.move(inputState, newOwner = aliceParty.owningKey)
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The ``DummyContract.move()`` method will a new transaction builder with our old state as the input, a new state
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with Alice as the owner, and a relevant contract command for "move".
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Again we sign the transaction, and build it:
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.. sourcecode:: kotlin
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moveTransactionBuilder.signWith(mySigningKey)
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// We build it without checking if all signatures are present, because we know that the notary signature is missing
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val moveTransaction = builder.toSignedTransaction(checkSufficientSignatures = false)
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Next we need to obtain a signature from the notary for the transaction to be valid. Prior to signing, the notary will
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commit our old (input) state so it cannot be used again.
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To manually obtain a signature from a notary we can run the ``NotaryFlow.Client`` flow. The flow will work out
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which notary needs to be called based on the input states (and the timestamp command, if it's present).
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.. sourcecode:: kotlin
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// The subFlow() helper is available within the context of a Flow
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val notarySignature: DigitalSignature = subFlow(NotaryFlow.Client(moveTransaction))
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.. note:: If our input state has already been consumed in another transaction, then ``NotaryFlow`` with throw a ``NotaryException``
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containing the conflict details:
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.. sourcecode:: kotlin
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/** Specifies the consuming transaction for the conflicting input state */
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data class Conflict(val stateHistory: Map<StateRef, ConsumingTx>)
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/**
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* Specifies the transaction id, the position of the consumed state in the inputs, and
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* the caller identity requesting the commit
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*/
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data class ConsumingTx(val id: SecureHash, val inputIndex: Int, val requestingParty: Party)
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Conflict handling and resolution is currently the responsibility of the flow author.
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Note that instead of calling the notary directly, we would normally call ``FinalityFlow`` passing in the ``SignedTransaction``
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(including signatures from the participants) and a list of participants to notify. The flow will request a notary signature
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if needed, record the notarised transaction, and then send a copy of the transaction to all participants for them to store.
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``FinalityFlow`` delegates to ``NotaryFlow.Client`` followed by ``BroadcastTransactionFlow`` to do the
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actual work of notarising and broadcasting the transaction. For example:
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.. sourcecode:: kotlin
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subFlow(FinalityFlow(moveTransaction, setOf(aliceParty))
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