PuppetDB requires a relatively small amount of maintenance and tuning. However, you should become familiar with the occasional tasks outlined in this guide.
Monitor the performance dashboard
Once PuppetDB is running, visit
http://localhost:8080/pdb/dashboard/index.html, substituting the name and port of your PuppetDB server.
Note: You may need to edit PuppetDB’s HTTP configuration first, changing the
hostsetting to the server’s externally-accessible hostname. If you installed with the PuppetDB module, set the
listen_addressparameter. When you do this, you should also configure your firewall to control access to PuppetDB’s cleartext HTTP port.
PuppetDB uses this page to display a web-based dashboard with performance information and metrics, including its memory use, queue depth, command processing metrics, duplication rate, and query stats. It displays min/max/median of each metric over a configurable duration, as well as an animated SVG “sparkline” (a simple line chart that shows general variation). It also displays the current version of PuppetDB and checks for updates, showing a link to the latest package if your deployment is out of date.
You can use the following URL parameters to change the attributes of the dashboard:
width: width of each sparkline, in pixels
height: height of each sparkline, in pixels
nHistorical: how many historical data points to use in each sparkline
pollingInterval: how often to poll PuppetDB for updates, in milliseconds
Deactivate or expire decommissioned nodes
When you remove a node from your Puppet deployment, it should be marked as deactivated in PuppetDB. This will ensure that any resources exported by that node will stop appearing in the catalogs served to the remaining agent nodes.
- PuppetDB can automatically mark nodes that haven’t checked in recently as expired. Expiration is simply the automatic version of deactivation; the distinction is important only for record keeping. Expired nodes behave the same as deactivated nodes. To enable this, use the
If you prefer to manually deactivate nodes, use the following command on your puppet master:
$ sudo puppet node deactivate <node> [<node> ...]
- Any deactivated or expired node will be reactivated if PuppetDB receives new catalogs or facts for it.
Although deactivated and expired nodes will be excluded from storeconfigs queries, their data is still preserved.
Note: Deactivating a node does not remove (e.g.
ensure => absent) exported resources from other systems; it only stops managing those resources. If you want to actively destroy resources from deactivated nodes, you will need to purge that resource type by using the
resourcesmetatype. Note that some types can’t be purged, and several others (such as users) usually shouldn’t be purged.
Clean up old reports
When the PuppetDB report processor is enabled on your Puppet master, PuppetDB will retain reports for each node for a fixed amount of time. The default setting is 14 days, but this timeframe can be altered by using the
report-ttl setting. Note that the larger the value you provide for this setting, the more history you will retain, and your database size will grow accordingly.
Clean up the dead letter office
PuppetDB will react to certain types of processing failures by storing a complete copy of the offending input, along with retry timestamps and error traces, in the “dead letter office” (DLO). Over time, the DLO can grow quite large. If you’re not actively troubleshooting an issue, you might be able to recover a significant amount of space by deleting the contents of
/var/lib/pe-puppetdb/mq/discarded on Puppet Enterprise).
View the log
PuppetDB’s log file lives at
/var/log/puppetlabs/puppetdb/puppetdb.log. Check the log when you need to confirm that PuppetDB is working correctly or to troubleshoot visible malfunctions. If you have changed the logging settings, examine the logback.xml file to find the log.
The PuppetDB packages install a logrotate job in
/etc/logrotate.d/puppetdb, which will keep the log from becoming too large.
Tune the max heap size
Although we provide rule-of-thumb memory recommendations, PuppetDB’s RAM usage depends on several factors. Your memory needs will vary depending on the number of nodes, frequency of Puppet runs, and amount of managed resources. For instance, nodes that check in once a day will require significantly less memory than those that check in every 30 minutes.
The best way to manage PuppetDB’s max heap size is to estimate a ballpark figure, then monitor the performance dashboard and increase the heap size if the “JVM Heap” metric regularly approaches the maximum. You may need to revisit your memory needs whenever your site grows substantially.
The good news, however, is that memory starvation is actually not very destructive. It will cause
OutOfMemoryError exceptions to appear in the log, but you can restart PuppetDB with a larger memory allocation and it’ll pick up where it left off — any requests successfully queued up in PuppetDB will get processed.
Tune the number of threads
When viewing the performance dashboard, note the depth of the message queue (labeled “Command Queue depth”). If it is rising and you have CPU cores to spare, increasing the number of threads may help to process the backlog more rapidly.
If you are saturating your CPU, we recommend lowering the number of threads. This prevents other PuppetDB subsystems (such as the web server, or the MQ itself) from being starved of resources and can actually increase throughput.
Redo SSL setup after changing certificates
If you’ve recently changed the certificates in use by the PuppetDB server, you’ll also need to update the SSL configuration for PuppetDB itself.
If you’ve installed PuppetDB from Puppet packages, you can simply re-run the
puppetdb ssl-setup command. Otherwise, you’ll need to again perform the SSL
configuration steps outlined in
the installation instructions.