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99 lines
5.0 KiB
ReStructuredText
99 lines
5.0 KiB
ReStructuredText
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.. highlight:: kotlin
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.. raw:: html
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Using attachments
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=================
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Attachments are (typically large) Zip/Jar files referenced within a transaction, but not included in the transaction
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itself. These files can be requested from the originating node as needed, although in many cases will be cached within
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nodes already. Examples include:
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* Contract executable code
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* Metadata about a transaction, such as PDF version of an invoice being settled
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* Shared information to be permanently recorded on the ledger
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To add attachments the file must first be added to the node's storage service using ``StorageService.importAttachment()``,
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which returns a unique ID that can be added using ``TransactionBuilder.addAttachment()``. Attachments can also be
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uploaded and downloaded via HTTP, to enable integration with external systems. For instructions on HTTP upload/download
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please see ":doc:`node-administration`".
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Normally attachments on transactions are fetched automatically via the ``ResolveTransactionsProtocol`` when verifying
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received transactions. Attachments are needed in order to validate a transaction (they include, for example, the
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contract code), so must be fetched before the validation process can run. ``ResolveTransactionsProtocol`` calls
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``FetchTransactionsProtocol`` to perform the actual retrieval.
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It is encouraged that where possible attachments are reusable data, so that nodes can meaningfully cache them.
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Attachments demo
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----------------
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There is a worked example of attachments, which relays a simple document from one node to another. The "two party
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trade protocol" also includes an attachment, however it is a significantly more complex demo, and less well suited
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for a tutorial.
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The demo code is in the file "src/main/kotlin/com/r3corda/demos/attachment/AttachmentDemo.kt", with the core logic
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contained within the two functions ``runRecipient()`` and ``runSender()``. We'll look at the recipient function first;
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this subscribes to notifications of new validated transactions, and if it receives a transaction containing attachments,
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loads the first attachment from storage, and checks it matches the expected attachment ID. ``ResolveTransactionsProtocol``
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has already fetched all attachments from the remote node, and as such the attachments are available from the node's
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storage service. Once the attachment is verified, the node shuts itself down.
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.. sourcecode:: kotlin
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private fun runRecipient(node: Node) {
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val serviceHub = node.services
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// Normally we would receive the transaction from a more specific protocol, but in this case we let [FinalityProtocol]
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// handle receiving it for us.
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serviceHub.storageService.validatedTransactions.updates.subscribe { event ->
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// When the transaction is received, it's passed through [ResolveTransactionsProtocol], which first fetches any
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// attachments for us, then verifies the transaction. As such, by the time it hits the validated transaction store,
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// we have a copy of the attachment.
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val tx = event.tx
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if (tx.attachments.isNotEmpty()) {
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val attachment = serviceHub.storageService.attachments.openAttachment(tx.attachments.first())
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assertEquals(PROSPECTUS_HASH, attachment?.id)
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println("File received - we're happy!\n\nFinal transaction is:\n\n${Emoji.renderIfSupported(event.tx)}")
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thread {
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node.stop()
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}
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}
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}
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}
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The sender correspondingly builds a transaction with the attachment, then calls ``FinalityProtocol`` to complete the
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transaction and send it to the recipient node:
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.. sourcecode:: kotlin
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private fun runSender(node: Node, otherSide: Party) {
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val serviceHub = node.services
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// Make sure we have the file in storage
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if (serviceHub.storageService.attachments.openAttachment(PROSPECTUS_HASH) == null) {
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com.r3corda.demos.Role::class.java.getResourceAsStream("bank-of-london-cp.jar").use {
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val id = node.storage.attachments.importAttachment(it)
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assertEquals(PROSPECTUS_HASH, id)
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}
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}
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// Create a trivial transaction that just passes across the attachment - in normal cases there would be
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// inputs, outputs and commands that refer to this attachment.
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val ptx = TransactionType.General.Builder(notary = null)
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ptx.addAttachment(serviceHub.storageService.attachments.openAttachment(PROSPECTUS_HASH)!!.id)
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// Despite not having any states, we have to have at least one signature on the transaction
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ptx.signWith(ALICE_KEY)
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// Send the transaction to the other recipient
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val tx = ptx.toSignedTransaction()
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serviceHub.startProtocol(LOG_SENDER, FinalityProtocol(tx, emptySet(), setOf(otherSide))).success {
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thread {
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Thread.sleep(1000L) // Give the other side time to request the attachment
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node.stop()
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}
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}.failure {
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println("Failed to relay message ")
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}
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}
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