Node administration =================== CRL configuration ----------------- The Corda Network provides an endpoint serving an empty certificate revocation list for the TLS-level certificates. This is intended for deployments that do not provide a CRL infrastructure but still require a strict CRL mode checking. In such a case use the following URL in `tlsCertCrlDistPoint` option configuration: .. sourcecode:: kotlin "https://crl.cordaconnect.org/cordatls.crl" Together with the above configuration `tlsCertCrlIssuer` option needs to be set to the following value: .. sourcecode:: kotlin "C=US, L=New York, O=R3 HoldCo LLC, OU=Corda, CN=Corda Root CA" This set-up ensures that the TLS-level certificates are embedded with the CRL distribution point referencing the CRL issued by R3. In cases where a proprietary CRL infrastructure is provided those values need to be changed accordingly. .. _hiding-sensitive-data: Hiding sensitive data --------------------- A frequent requirement is that configuration files must not expose passwords to unauthorised readers. By leveraging environment variables, it is possible to hide passwords and other similar fields. Take a simple node config that wishes to protect the node cryptographic stores: .. parsed-literal:: myLegalName : "O=PasswordProtectedNode,OU=corda,L=London,C=GB" keyStorePassword : ${KEY_PASS} trustStorePassword : ${TRUST_PASS} p2pAddress : "localhost:12345" devMode : false networkServices { doormanURL = "https://cz.example.com" networkMapURL = "https://cz.example.com" } By delegating to a password store, and using `command substitution` it is possible to ensure that sensitive passwords never appear in plain text. The below examples are of loading Corda with the KEY_PASS and TRUST_PASS variables read from a program named ``corporatePasswordStore``. Bash ~~~~ .. sourcecode:: shell KEY_PASS=$(corporatePasswordStore --cordaKeyStorePassword) TRUST_PASS=$(corporatePasswordStore --cordaTrustStorePassword) java -jar corda.jar .. warning:: If this approach is taken, the passwords will appear in the shell history. Windows PowerShell ~~~~~~~~~~~~~~~~~~ .. sourcecode:: shell $env:KEY_PASS=$(corporatePasswordStore --cordaKeyStorePassword); $env:TRUST_PASS=$(corporatePasswordStore --cordaTrustStorePassword); java -jar corda.jar For launching on Windows without PowerShell, it is not possible to perform command substitution, and so the variables must be specified manually, for example: .. sourcecode:: shell SET KEY_PASS=mypassword & SET TRUST_PASS=mypassword & java -jar corda.jar .. warning:: If this approach is taken, the passwords will appear in the windows command prompt history. Logging ------- By default the node log files are stored to the ``logs`` subdirectory of the working directory and are rotated from time to time. You can have logging printed to the console as well by passing the ``--log-to-console`` command line flag. The default logging level is ``INFO`` which can be adjusted by the ``--logging-level`` command line argument. This configuration option will affect all modules. It may be the case that you require to amend the log level of a particular subset of modules (e.g., if you'd like to take a closer look at hibernate activity). So, for more bespoke logging configuration, the logger settings can be completely overridden with a `Log4j2 `_ configuration file assigned to the ``log4j.configurationFile`` system property. The node is using log4j2 asynchronous logging by default (configured via log4j2 properties file in its resources) to ensure that log message flushing is not slowing down the actual processing. If you need to switch to synchronous logging (e.g. for debugging/testing purposes), you can override this behaviour by adding ``-DLog4jContextSelector=org.apache.logging.log4j.core.selector.ClassLoaderContextSelector`` to the node's command line or to the ``jvmArgs`` section of the node configuration (see :doc:`corda-configuration-file`). Example +++++++ Create a file ``sql.xml`` in the current working directory. Add the following text : .. code-block:: xml Note the addition of a logger named ``org.hibernate`` that has set this particular logger level to ``debug``. Now start the node as usual but with the additional parameter ``log4j.configurationFile`` set to the filename as above, e.g. ``java -Dlog4j.configurationFile=sql.xml -jar corda.jar`` To determine the name of the logger, for Corda objects, use the fully qualified name (e.g., to look at node output in more detail, use ``net.corda.node.internal.Node`` although be aware that as we have marked this class ``internal`` we reserve the right to move and rename it as it's not part of the public API as yet). For other libraries, refer to their logging name construction. If you can't find what you need to refer to, use the ``--logging-level`` option as above and then determine the logging module name from the console output. SSH access ---------- Node can be configured to run SSH server. See :doc:`shell` for details. Database access --------------- When running a node backed with a H2 database, the node can be configured to expose the database over a socket (see :doc:`node-database-access-h2`). Note that in production, exposing the database via the node is not recommended. Monitoring your node -------------------- Like most Java servers, the node can be configured to export various useful metrics and management operations via the industry-standard `JMX infrastructure `_. JMX is a standard API for registering so-called *MBeans* ... objects whose properties and methods are intended for server management. As Java serialization in the node has been restricted for security reasons, the metrics can only be exported via a Jolokia agent. `Jolokia `_ allows you to access the raw data and operations without connecting to the JMX port directly. Nodes can be configured to export the data over HTTP on the ``/jolokia`` HTTP endpoint, Jolokia defines the JSON and REST formats for accessing MBeans, and provides client libraries to work with that protocol as well. Here are a few ways to build dashboards and extract monitoring data for a node: * `hawtio `_ is a web based console that connects directly to JVM's that have been instrumented with a jolokia agent. This tool provides a nice JMX dashboard very similar to the traditional JVisualVM / JConsole MBbeans original. * `JMX2Graphite `_ is a tool that can be pointed to /monitoring/json and will scrape the statistics found there, then insert them into the Graphite monitoring tool on a regular basis. It runs in Docker and can be started with a single command. * `JMXTrans `_ is another tool for Graphite, this time, it's got its own agent (JVM plugin) which reads a custom config file and exports only the named data. It's more configurable than JMX2Graphite and doesn't require a separate process, as the JVM will write directly to Graphite. * Cloud metrics services like New Relic also understand JMX, typically, by providing their own agent that uploads the data to their service on a regular schedule. * `Telegraf `_ is a tool to collect, process, aggregate, and write metrics. It can bridge any data input to any output using their plugin system, for example, Telegraf can be configured to collect data from Jolokia and write to DataDog web api. The Node configuration parameter `jmxMonitoringHttpPort` has to be present in order to ensure a Jolokia agent is instrumented with the JVM run-time. The following JMX statistics are exported: * Corda specific metrics: flow information (total started, finished, in-flight; flow duration by flow type), attachments (count) * Apache Artemis metrics: queue information for P2P and RPC services * JVM statistics: classloading, garbage collection, memory, runtime, threading, operating system Notes for production use ++++++++++++++++++++++++ When using Jolokia monitoring in production, it is recommended to use a Jolokia agent that reads the metrics from the node and pushes them to the metrics storage, rather than exposing a port on the production machine/process to the internet. Also ensure to have restrictive Jolokia access policy in place for access to production nodes. The Jolokia access is controlled via a file called ``jolokia-access.xml``. Several Jolokia policy based security configuration files (``jolokia-access.xml``) are available for dev, test, and prod environments under ``/config/``. Notes for development use +++++++++++++++++++++++++ When running in dev mode, Hibernate statistics are also available via the Jolkia interface. These are disabled otherwise due to expensive run-time costs. They can be turned on and off explicitly regardless of dev mode via the ``exportHibernateJMXStatistics`` flag on the :ref:`database configuration `. When starting Corda nodes using Cordformation runner (see :doc:`running-a-node`), you should see a startup message similar to the following: **Jolokia: Agent started with URL http://127.0.0.1:7005/jolokia/** When starting Corda nodes using the `DriverDSL`, you should see a startup message in the logs similar to the following: **Starting out-of-process Node USA Bank Corp, debug port is not enabled, jolokia monitoring port is 7005 {}** The following diagram illustrates Corda flow metrics visualized using `hawtio `_ : .. image:: resources/hawtio-jmx.png Memory usage and tuning ----------------------- All garbage collected programs can run faster if you give them more memory, as they need to collect less frequently. As a default JVM will happily consume all the memory on your system if you let it, Corda is configured with a 512mb Java heap by default. When other overheads are added, this yields a total memory usage of about 800mb for a node (the overheads come from things like compiled code, metadata, off-heap buffers, thread stacks, etc). If you want to make your node go faster and profiling suggests excessive GC overhead is the cause, or if your node is running out of memory, you can give it more by running the node like this: ``java -Dcapsule.jvm.args="-Xmx1024m" -jar corda.jar`` The example command above would give a 1 gigabyte Java heap. .. note:: Unfortunately the JVM does not let you limit the total memory usage of Java program, just the heap size. Backup recommendations ---------------------- Various components of the Corda platform read their configuration from the file system, and persist data to a database or into files on disk. Given that hardware can fail, operators of IT infrastructure must have a sound backup strategy in place. Whilst blockchain platforms can sometimes recover some lost data from their peers, it is rarely the case that a node can recover its full state in this way because real-world blockchain applications invariably contain private information (e.g., customer account information). Moreover, this private information must remain in sync with the ledger state. As such, we strongly recommend implementing a comprehensive backup strategy. The following elements of a backup strategy are recommended: Database replication ++++++++++++++++++++ When properly configured, database replication prevents data loss from occurring in case the database host fails. In general, the higher the number of replicas, and the further away they are deployed in terms of regions and availability zones, the more a setup is resilient to disasters. The trade-off is that, ideally, replication should happen synchronously, meaning that a high number of replicas and a considerable network latency will impact the performance of the Corda nodes connecting to the cluster. Synchronous replication is strongly advised to prevent data loss. Database snapshots ++++++++++++++++++ Database replication is a powerful technique, but it is very sensitive to destructive SQL updates. Whether malicious or unintentional, a SQL statement might compromise data by getting propagated to all replicas. Without rolling snapshots, data loss due to such destructive updates will be irreversible. Using snapshots always implies some data loss in case of a disaster, and the trade-off is between highly frequent backups minimising such a loss, and less frequent backups consuming less resources. At present, Corda does not offer online updates with regards to transactions. Should states in the vault ever be lost, partial or total recovery might be achieved by asking third-party companies and/or notaries to provide all data relevant to the affected legal identity. File backups ++++++++++++ Corda components read and write information from and to the file-system. The advice is to backup the entire root directory of the component, plus any external directories and files optionally specified in the configuration. Corda assumes the filesystem is reliable. You must ensure that it is configured to provide this assurance, which means you must configure it to synchronously replicate to your backup/DR site. If the above holds, Corda components will benefit from the following: * Guaranteed eventual processing of acknowledged client messages, provided that the backlog of persistent queues is not lost irremediably. * A timely recovery from deletion or corruption of configuration files (e.g., ``node.conf``, ``node-info`` files, etc.), database drivers, CorDapps binaries and configuration, and certificate directories, provided backups are available to restore from. .. warning:: Private keys used to sign transactions should be preserved with the utmost care. The recommendation is to keep at least two separate copies on a storage not connected to the Internet.