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148 lines
8.2 KiB
ReStructuredText
148 lines
8.2 KiB
ReStructuredText
Node administration
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===================
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When a node is running, it exposes an RPC interface that lets you monitor it, upload and download attachments, and so
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on.
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Logging
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-------
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By default the node log files are stored to the ``logs`` subdirectory of the working directory and are rotated from time
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to time. You can have logging printed to the console as well by passing the ``--log-to-console`` command line flag.
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The default logging level is ``INFO`` which can be adjusted by the ``--logging-level`` command line argument. This configuration
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option will affect all modules.
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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
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closer look at hibernate activity). So, for more bespoke logging configuration, the logger settings can be completely overridden
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with a `Log4j 2 <https://logging.apache.org/log4j/2.x>`_ configuration file assigned to the ``log4j.configurationFile`` system property.
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Example
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+++++++
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Create a file ``sql.xml`` in the current working directory. Add the following text :
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.. code-block:: xml
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<?xml version="1.0" encoding="UTF-8"?>
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<Configuration status="WARN">
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<Appenders>
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<Console name="Console" target="SYSTEM_OUT">
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<PatternLayout pattern="%d{HH:mm:ss.SSS} [%t] %-5level %logger{36} - %msg%n"/>
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</Console>
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</Appenders>
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<Loggers>
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<Logger name="org.hibernate" level="debug" additivity="false">
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<AppenderRef ref="Console"/>
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</Logger>
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<Root level="error">
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<AppenderRef ref="Console"/>
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</Root>
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</Loggers>
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</Configuration>
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Note the addition of a logger named ``org.hibernate`` that has set this particular logger level to ``debug``.
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Now start the node as usual but with the additional parameter ``log4j.configurationFile`` set to the filename as above, e.g.
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``java <Your existing startup options here> -Dlog4j.configurationFile=sql.xml -jar corda.jar``
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To determine the name of the logger, for Corda objects, use the fully qualified name (e.g. to look at node output
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in more detail, use ``net.corda.node.internal.Node`` although be aware that as we have marked this class ``internal`` we
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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
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logging name construction. If you can't find what you need to refer to, use the ``--logging-level`` option as above and
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then determine the logging module name from the console output.
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SSH access
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----------
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Node can be configured to run SSH server. See :doc:`shell` for details.
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Database access
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---------------
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The node exposes its internal database over a socket which can be browsed using any tool that can use JDBC drivers.
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The JDBC URL is printed during node startup to the log and will typically look like this:
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``jdbc:h2:tcp://192.168.0.31:31339/node``
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The username and password can be altered in the :doc:`corda-configuration-file` but default to username "sa" and a blank
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password.
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Any database browsing tool that supports JDBC can be used, but if you have IntelliJ Ultimate edition then there is
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a tool integrated with your IDE. Just open the database window and add an H2 data source with the above details.
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You will now be able to browse the tables and row data within them.
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Monitoring your node
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--------------------
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Like most Java servers, the node exports various useful metrics and management operations via the industry-standard
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`JMX infrastructure <https://en.wikipedia.org/wiki/Java_Management_Extensions>`_. JMX is a standard API
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for registering so-called *MBeans* ... objects whose properties and methods are intended for server management. It does
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not require any particular network protocol for export. So this data can be exported from the node in various ways:
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some monitoring systems provide a "Java Agent", which is essentially a JVM plugin that finds all the MBeans and sends
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them out to a statistics collector over the network. For those systems, follow the instructions provided by the vendor.
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.. warning:: As of Corda M11, Java serialisation in the Corda node has been restricted, meaning MBeans access via the JMX
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port will no longer work. Please use java agents instead, you can find details on how to use Jolokia JVM
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agent `here <https://jolokia.org/agent/jvm.html>`_.
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`Jolokia <https://jolokia.org/>`_ allows you to access the raw data and operations without connecting to the JMX port
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directly. The nodes export the data over HTTP on the ``/jolokia`` HTTP endpoint, Jolokia defines the JSON and REST
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formats for accessing MBeans, and provides client libraries to work with that protocol as well.
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Here are a few ways to build dashboards and extract monitoring data for a node:
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* `hawtio <https://hawt.io>`_ is a web based console that connects directly to JVM's that have been instrumented with a
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jolokia agent. This tool provides a nice JMX dashboard very similar to the traditional JVisualVM / JConsole MBbeans original.
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* `JMX2Graphite <https://github.com/logzio/jmx2graphite>`_ is a tool that can be pointed to /monitoring/json and will
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scrape the statistics found there, then insert them into the Graphite monitoring tool on a regular basis. It runs
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in Docker and can be started with a single command.
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* `JMXTrans <https://github.com/jmxtrans/jmxtrans>`_ is another tool for Graphite, this time, it's got its own agent
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(JVM plugin) which reads a custom config file and exports only the named data. It's more configurable than
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JMX2Graphite and doesn't require a separate process, as the JVM will write directly to Graphite.
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* Cloud metrics services like New Relic also understand JMX, typically, by providing their own agent that uploads the
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data to their service on a regular schedule.
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* `Telegraf <https://github.com/influxdata/telegraf>`_ is a tool to collect, process, aggregate, and write metrics.
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It can bridge any data input to any output using their plugin system, for example, Telegraf can
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be configured to collect data from Jolokia and write to DataDog web api.
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The Node configuration parameter `exportJMXTo` should be set to ``http`` to ensure a Jolokia agent is instrumented with
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the JVM run-time.
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The following JMX statistics are exported:
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* Corda specific metrics: flow information (total started, finished, in-flight; flow duration by flow type), attachments (count)
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* Apache Artemis metrics: queue information for P2P and RPC services
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* JVM statistics: classloading, garbage collection, memory, runtime, threading, operating system
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* Hibernate statistics (only when node is started-up in `devMode` due to to expensive run-time costs)
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When starting Corda nodes using Cordformation runner (see :doc:`running-a-node`), you should see a startup message similar to the following:
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**Jolokia: Agent started with URL http://127.0.0.1:7005/jolokia/**
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When starting Corda nodes using the `DriverDSL`, you should see a startup message in the logs similar to the following:
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**Starting out-of-process Node USA Bank Corp, debug port is not enabled, jolokia monitoring port is 7005 {}**
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Several Jolokia policy based security configuration files (``jolokia-access.xml``) are available for dev, test, and prod
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environments under ``/config/<env>``.
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The following diagram illustrates Corda flow metrics visualized using `hawtio <https://hawt.io>`_ :
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.. image:: resources/hawtio-jmx.png
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Memory usage and tuning
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-----------------------
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All garbage collected programs can run faster if you give them more memory, as they need to collect less
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frequently. As a default JVM will happily consume all the memory on your system if you let it, Corda is
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configured with a relatively small 200mb Java heap by default. When other overheads are added, this yields
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a total memory usage of about 500mb for a node (the overheads come from things like compiled code, metadata,
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off-heap buffers, thread stacks, etc).
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If you want to make your node go faster and profiling suggests excessive GC overhead is the cause, or if your
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node is running out of memory, you can give it more by running the node like this:
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``java -Xmx1024m -jar corda.jar``
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The example command above would give a 1 gigabyte Java heap.
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.. note:: Unfortunately the JVM does not let you limit the total memory usage of Java program, just the heap size. |