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Performance analysis of computer systems is often considered black art. It requires significant experience with the operating system, applications, networking and diagnostic tools. This is a vast amount of ground to cover and it is nearly impossible for anyone to know it all (though I am fortunate to have met many Red Hatters who seem to have mastered all of the above!).
As if it were not difficult enough, most operating systems have their own diagnostic tools and utilities to extract performance information. Yes, there are many common tools that have been ported to various platforms, but they are often quirky with inconsistent output or parameters. I’m referring to vmstat, iostat, netstat, tcpdump, etc. The SysStat (SAR) tools and service brought us close to a unified and standardized service that collects almost all of the data on a regular basis. However, it has limits regarding the granularity of collected data and can not capture per-process metrics at all. Most frustrating is that the data is collected in binary format that becomes incompatible on other platforms and versions. While the data can be converted, it can be a significant hurdle under pressure at 3:00 a.m. or to novice users.
Enter Performance Co-Pilot (PCP), a system performance and analysis framework that is modularized and easy to extend. Numerous plugins and APIs are available to integrate the data collection into your custom monitoring solution or other common monitoring tools. There is multiplatform support for VMware, Windows and Mac, as well as agents for common applications and devices such as Oracle DB, PostgreSQL, Cisco devices and much more.
Beginning with versions 6.5 and 7.0 of Red Hat Enterprise Linux, PCP is included in the base software channels. Going forward it is intended as standard tool to provide performance related diagnostic metrics.
Without going too deep into the theory, PCP has three primary parts:
Performance Metric Domain Agents (pmda)
These are the various agents, collecting data from the given domain or subsystem (kernel, memory, storage, DB application, etc).
Performance Metric Collection Daemon
This is the service daemon that controls the various pmdas and acts as a router for clients to request data from the service.
These are the various clients that would request the data in order to log to storage (local or remote) or present to a user via a graphical or command line interface.
To get started collecting metrics as a service (similar to the SAR/Sysstat service), just type the following simple commands in Red Hat Enterprise Linux 7:
yum install pcp systemctl enable pmcd systemctl start pmcd systemctl enable pmlogger systemctl start pmlogger
Next, you can test various commands that are very similar to other utilities you are probably familiar with in order to see an overview of system activity.
pmstat like vmstat pmiostat like iostat pmatop like top enhanced
Here is a basic example of pmatop
Or go deep examining thousands of precision metrics
pmval -t 1 -s 3 network.interface.in.bytes metric: network.interface.in.bytes host: rhel7 semantics: cumulative counter (converting to rate) units: byte (converting to byte / sec) samples: 3 interval: 1.00 sec eth0 lo docker0 118.0 0.0 0.0 65.97 0.0 0.0 118.0 0.0 0.0
Because it runs as a service like SAR/SysStat (with up to 1 second precision* unlike SAR/Sysstat), you can examine historical data to help you troubleshoot prior performance.
pmval -a ./20161129 -t 30 -S "Nov 29 08:00" -T "Nov 29 08:05" network.interface.in.bytes metric: network.interface.in.bytes archive: ./20161129 host: rhel7 start: Tue Nov 29 08:00:00 2016 end: Tue Nov 29 08:05:00 2016 semantics: cumulative counter (converting to rate) units: byte (converting to byte / sec) samples: 11 interval: 30.00 sec eth0 lo docker0 08:00:30.000 26.53 0.0 0.0 08:01:00.000 26.00 0.0 0.0 08:01:30.000 26.00 0.0 0.0 08:02:00.000 26.00 0.0 0.0 08:02:30.000 26.00 0.0 0.0 08:03:00.000 26.00 0.0 0.0 08:03:30.000 27.33 0.0 0.0 08:04:00.000 28.20 0.0 0.0 08:04:30.000 26.87 0.0 0.0 08:05:00.000 26.00 0.0 0.0
PCP also excels over the traditional SysStat/SAR tooling with multiple graphical presentation options. The client app pmcharts (or PCP Charts) act as a local client program that can present data collected from the local host, a remote host, or archive files. Numerous default reports are provided and the Overview report gives a nice dashboard of the system. While the graphics are not the most elegant, they are very functional and and easy to use for analysis.
There are a few more elegant graphical options including "Vector" (https://github.com/Netflix/vector) which was contributed by our friends at Netflix. Installing the following packages will give you multiple frameworks to experiment with.
yum install pcp-webjs pcp-webapp-vector pcp-webapp-grafana pcp-webapp-graphite
After installing, point your browser to the landing page (http://localhost:44323/index.html) which provides links to each of the frameworks and a nice summary. You can click on the link for Vector to see its excellent default dashboard.
As you dig into the many options and metrics available, you will quickly see that there is a tremendous amount of performance information at your fingertips. And the PCP website provides multiple case study examples of analysis to help you get started using the tool.
Terry Bowling is a Red Hat TAM in the NA Central region and is transitioning to Technical Product Manager. He has been migrating workloads from UNIX to Linux since 1998 and has supported business environments for major telecom and pharmaceutical companies. Most recently he has been focused on enabling our customers to migrate to container platforms using Red Hat Atomic/OpenShift, as well as adopting SAP HANA.
Twitter: https://twitter.com/terry_bowling #RHTAM
A Red Hat Technical Account Manager (TAM) is a specialized product expert who works collaboratively with IT organizations to strategically plan for successful deployments and help realize optimal performance and growth. The TAM is part of Red Hat’s world class Customer Experience and Engagement organization and provides proactive advice and guidance to help you identify and address potential problems before they occur. Should a problem arise, your TAM will own the issue and engage the best resources to resolve it as quickly as possible with minimal disruption to your business.
About the author
Terry Bowling is responsible for the Automation & Management experience of Red Hat Enterprise Linux (RHEL), which includes RHEL System Roles (Ansible), RHEL Image Builder, RHEL Web Console (Cockpit), and more to make RHEL easier to deploy and manage.