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Release fixes (#812)
* Small fixes in IRS and attachments demos. * Docs fixes. * Add information about `flow watch` command to documentation. * Add note on IRS demo
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@ -18,6 +18,8 @@ If any of the demos don't work, please raise an issue on GitHub.
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.. note:: If you are running the demos from the command line in Linux (but not macOS), you may have to install xterm.
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.. note:: If you would like to see flow activity on the nodes type in the node terminal ``flow watch``.
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.. _trader-demo:
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Trader demo
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@ -31,18 +33,18 @@ To run from the command line in Unix:
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1. Run ``./gradlew samples:trader-demo:deployNodes`` to create a set of configs and installs under ``samples/trader-demo/build/nodes``
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2. Run ``./samples/trader-demo/build/nodes/runnodes`` to open up four new terminals with the four nodes
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3. Run ``./gradlew samples:trader-demo:runBuyer`` to instruct the buyer node to request issuance of some cash from the Bank of Corda node.
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This step will display progress information related to the cash issuance process (in the bank of corda node log output)
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4. Run ``./gradlew samples:trader-demo:runSeller`` to trigger the transaction. You can see both sides of the
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trade print their progress and final transaction state in the bank node tabs/windows
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4. Run ``./gradlew samples:trader-demo:runSeller`` to trigger the transaction. If you entered ``flow watch``
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you can see flows running on both sides of transaction. Additionally you should see final trade information displayed
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to your terminal.
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To run from the command line in Windows:
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1. Run ``gradlew samples:trader-demo:deployNodes`` to create a set of configs and installs under ``samples\trader-demo\build\nodes``
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2. Run ``samples\trader-demo\build\nodes\runnodes`` to open up four new terminals with the four nodes
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3. Run ``gradlew samples:trader-demo:runBuyer`` to instruct the buyer node to request issuance of some cash from the Bank of Corda node.
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This step will display progress information related to the cash issuance process (in the Bank of Corda node log output)
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4. Run ``gradlew samples:trader-demo:runSeller`` to trigger the transaction. You can see both sides of the
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trade print their progress and final transaction state in the bank node tabs/windows
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4. Run ``gradlew samples:trader-demo:runSeller`` to trigger the transaction. If you entered ``flow watch``
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you can see flows running on both sides of transaction. Additionally you should see final trade information displayed
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to your terminal.
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.. _irs-demo:
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@ -63,7 +65,7 @@ To run from the command line in Unix:
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message be printed to the first node (the notary/oracle/network map node) saying that it has accepted the new
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interest rates
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6. Now run ``./install/irs-demo/bin/irs-demo --role Trade 1``. The number is a trade ID. If you enter in node's terminal
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``run stateMachinesAndUpdates`` you should see lots of activity as the nodes set up the deal, notarise it, get it signed by the oracle, and so on
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``flow watch`` you should see lots of activity as the nodes set up the deal, notarise it, get it signed by the oracle, and so on
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7. Now run ``./install/irs-demo/bin/irs-demo --role Date 2017-12-12`` to roll the simulated clock forward and see some fixings take place
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To run from the command line in Windows:
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@ -76,7 +78,7 @@ To run from the command line in Windows:
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message be printed to the first node (the notary/oracle/network map node) saying that it has accepted the new
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interest rates
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6. Now run ``install\irs-demo\bin\irs-demo --role Trade 1``. The number is a trade ID. If you enter in node's terminal
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``run stateMachinesAndUpdates`` you should see lots of activity as the nodes set up the deal, notarise it, get it signed by the oracle, and so on
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``flow watch`` you should see lots of activity as the nodes set up the deal, notarise it, get it signed by the oracle, and so on
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7. Now run ``install\irs-demo\bin\irs-demo --role Date 2017-12-12`` to roll the simulated clock forward and see some fixings take place
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This demo also has a web app. To use this, run nodes and upload rates, then navigate to
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@ -85,6 +87,9 @@ http://localhost:10007/web/irsdemo and http://localhost:10010/web/irsdemo to see
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To use the web app, click the "Create Deal" button, fill in the form, then click the "Submit" button. You can then
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use the time controls at the top left of the home page to run the fixings. Click any individual trade in the blotter to view it.
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.. note:: The IRS web UI currently has a bug when changing the clock time where it may show no numbers or apply fixings consistently.
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The issues will be addressed in M13 milestone release. Meanwhile, you can take a look at a simpler oracle example https://github.com/corda/oracle-example
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Attachment demo
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---------------
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@ -93,7 +98,7 @@ This demo brings up three nodes, and sends a transaction containing an attachmen
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To run from the command line in Unix:
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1. Run ``./gradlew samples:attachment-demo:deployNodes`` to create a set of configs and installs under ``samples/attachment-demo/build/nodes``
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2. Run ``./samples/attachment-demo/build/nodes/runnodes`` to open up three new terminal tabs/windows with the three nodes
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2. Run ``./samples/attachment-demo/build/nodes/runnodes`` to open up three new terminal tabs/windows with the three nodes and webserver for BankB
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3. Run ``./gradlew samples:attachment-demo:runRecipient``, which will block waiting for a trade to start
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4. Run ``./gradlew samples:attachment-demo:runSender`` in another terminal window to send the attachment. Now look at the other windows to
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see the output of the demo
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@ -101,7 +106,7 @@ To run from the command line in Unix:
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To run from the command line in Windows:
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1. Run ``gradlew samples:attachment-demo:deployNodes`` to create a set of configs and installs under ``samples\attachment-demo\build\nodes``
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2. Run ``samples\attachment-demo\build\nodes\runnodes`` to open up three new terminal tabs/windows with the three nodes
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2. Run ``samples\attachment-demo\build\nodes\runnodes`` to open up three new terminal tabs/windows with the three nodes and webserver for BankB
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3. Run ``gradlew samples:attachment-demo:runRecipient``, which will block waiting for a trade to start
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4. Run ``gradlew samples:attachment-demo:runSender`` in another terminal window to send the attachment. Now look at the other windows to
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see the output of the demo
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@ -140,7 +145,8 @@ To run from the command line in Windows:
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3. Run ``gradlew samples:notary-demo:notarise`` to make a call to the "Party" node to initiate notarisation requests
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In a few seconds you will see a message "Notarised 10 transactions" with a list of transaction ids and the signer public keys
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To run the BFT SMaRt notary demo, use ``nodesBFT`` instead of ``nodesRaft`` in the path. For a single notary node, use ``nodesSingle``.
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To run the BFT SMaRt notary demo, use ``nodesBFT`` instead of ``nodesRaft`` in the path (you will see messages from notary nodes
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trying to communicate each other sometime with connection errors, that's normal). For a single notary node, use ``nodesSingle``.
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Notary nodes store consumed states in a replicated commit log, which is backed by a H2 database on each node.
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You can ascertain that the commit log is synchronised across the cluster by accessing and comparing each of the nodes' backing stores
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@ -183,7 +189,7 @@ To run from the command line in Unix:
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2. Run ``./samples/bank-of-corda-demo/build/nodes/runnodes`` to open up three new terminal tabs/windows with the three nodes
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3. Run ``./gradlew samples:bank-of-corda-demo:runRPCCashIssue`` to trigger a cash issuance request
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4. Run ``./gradlew samples:bank-of-corda-demo:runWebCashIssue`` to trigger another cash issuance request.
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Now look at the Bank of Corda terminal tab/window to see the output of the demo
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Now look at your terminal tab/window to see the output of the demo
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To run from the command line in Windows:
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@ -191,7 +197,7 @@ To run from the command line in Windows:
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2. Run ``samples\bank-of-corda-demo\build\nodes\runnodes`` to open up three new terminal tabs/windows with the three nodes
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3. Run ``gradlew samples:bank-of-corda-demo:runRPCCashIssue`` to trigger a cash issuance request
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4. Run ``gradlew samples:bank-of-corda-demo:runWebCashIssue`` to trigger another cash issuance request.
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Now look at the Bank of Corda terminal tab/window to see the output of the demo
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Now look at the your terminal tab/window to see the output of the demo
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.. note:: To verify that the Bank of Corda node is alive and running, navigate to the following URL:
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http://localhost:10007/api/bank/date
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@ -206,7 +212,7 @@ In the window you run the command you should see (in case of Web, RPC is simmila
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- Requesting Cash via Web ...
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- Successfully processed Cash Issue request
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If you want to see flow activity enter in node's shell ``run stateMachinesAndUpdates``. It will display all state machines
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If you want to see flow activity enter in node's shell ``flow watch``. It will display all state machines
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running currently on the node.
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Launch the Explorer application to visualize the issuance and transfer of cash for each node:
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@ -39,8 +39,9 @@ Starting flows and performing remote method calls
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-------------------------------------------------
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**Flows** are the way the ledger is changed. If you aren't familiar with them, please review ":doc:`flow-state-machines`"
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first. The ``flow list`` command can be used to list the flows understood by the node and ``flow start`` can be
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used to start them. The ``flow start`` command takes the class name of a flow, or *any unambiguous substring* and
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first. The ``flow list`` command can be used to list the flows understood by the node, ``flow watch`` shows all the flows
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currently running on the node with the result (or error) information in a user friendly way, ``flow start`` can be
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used to start flows. The ``flow start`` command takes the class name of a flow, or *any unambiguous substring* and
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then the data to be passed to the flow constructor. The unambiguous substring feature is helpful for reducing
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the needed typing. If the match is ambiguous the possible matches will be printed out. If a flow has multiple
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constructors then the names and types of the arguments will be used to try and determine which to use automatically.
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@ -169,7 +169,7 @@ private fun printHelp(parser: OptionParser) {
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class AttachmentContract : Contract {
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override val legalContractReference: SecureHash
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get() = TODO("not implemented")
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get() = SecureHash.zeroHash // TODO not implemented
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override fun verify(tx: TransactionForContract) {
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val state = tx.outputs.filterIsInstance<AttachmentContract.State>().single()
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@ -27,6 +27,7 @@ class IRSDemoClientApi(private val hostAndPort: HostAndPort) {
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val fileContents = IOUtils.toString(Thread.currentThread().contextClassLoader.getResourceAsStream("net/corda/irs/simulation/example.rates.txt"), Charsets.UTF_8.name())
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val url = URL("http://$hostAndPort/upload/interest-rates")
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check(uploadFile(url, fileContents))
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println("Rates successfully uploaded!")
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}
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private companion object {
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@ -73,6 +73,6 @@ class TraderDemoClientApi(val rpc: CordaRPCOps) {
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// The line below blocks and waits for the future to resolve.
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val stx = rpc.startFlow(::SellerFlow, otherParty, amount).returnValue.getOrThrow()
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logger.info("Sale completed - we have a happy customer!\n\nFinal transaction is:\n\n${Emoji.renderIfSupported(stx.tx)}")
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println("Sale completed - we have a happy customer!\n\nFinal transaction is:\n\n${Emoji.renderIfSupported(stx.tx)}")
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}
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}
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