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3.3.2. Monitoring CPU Utilization on Red Hat Enterprise Linux

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Unlike bandwidth, monitoring CPU utilization is much more straightforward. From a single percentage of CPU utilization in GNOME System Monitor, to the more in-depth statistics reported by sar, it is possible to accurately determine how much CPU power is being consumed and by what.
Moving beyond GNOME System Monitor, top is the first resource monitoring tool discussed in Chapter 2, Resource Monitoring to provide a more in-depth representation of CPU utilization. Here is a top report from a dual-processor workstation:
 9:44pm up 2 days, 2 min, 1 user, load average: 0.14, 0.12, 0.09 90 processes: 82 sleeping, 1 running, 7 zombie, 0 stopped CPU0 states: 0.4% user, 1.1% system, 0.0% nice, 97.4% idle CPU1 states: 0.5% user, 1.3% system, 0.0% nice, 97.1% idle Mem: 1288720K av, 1056260K used, 232460K free, 0K shrd, 145644K buff Swap: 522104K av, 0K used, 522104K free 469764K cached PID USER PRI NI SIZE RSS SHARE STAT %CPU %MEM TIME COMMAND 30997 ed 16 0 1100 1100 840 R 1.7 0.0 0:00 top 1120 root 5 -10 249M 174M 71508 S 0.9 13.8 254:59 X 1260 ed 15 0 54408 53M 6864 S 0.7 4.2 12:09 gnome-terminal 888 root 15 0 2428 2428 1796 S 0.1 0.1 0:06 sendmail 1264 ed 15 0 16336 15M 9480 S 0.1 1.2 1:58 rhn-applet-gui 1 root 15 0 476 476 424 S 0.0 0.0 0:05 init 2 root 0K 0 0 0 0 SW 0.0 0.0 0:00 migration_CPU0 3 root 0K 0 0 0 0 SW 0.0 0.0 0:00 migration_CPU1 4 root 15 0 0 0 0 SW 0.0 0.0 0:01 keventd 5 root 34 19 0 0 0 SWN 0.0 0.0 0:00 ksoftirqd_CPU0 6 root 34 19 0 0 0 SWN 0.0 0.0 0:00 ksoftirqd_CPU1 7 root 15 0 0 0 0 SW 0.0 0.0 0:05 kswapd 8 root 15 0 0 0 0 SW 0.0 0.0 0:00 bdflush 9 root 15 0 0 0 0 SW 0.0 0.0 0:01 kupdated 10 root 25 0 0 0 0 SW 0.0 0.0 0:00 mdrecoveryd 
The first CPU-related information is present on the very first line: the load average. The load average is a number corresponding to the average number of runnable processes on the system. The load average is often listed as three sets of numbers (as top does), which represent the load average for the past 1, 5, and 15 minutes, indicating that the system in this example was not very busy.
The next line, although not strictly related to CPU utilization, has an indirect relationship, in that it shows the number of runnable processes (here, only one -- remember this number, as it means something special in this example). The number of runnable processes is a good indicator of how CPU-bound a system might be.
Next are two lines displaying the current utilization for each of the two CPUs in the system. The utilization statistics show whether the CPU cycles were expended for user-level or system-level processing; also included is a statistic showing how much CPU time was expended by processes with altered scheduling priorities. Finally, there is an idle time statistic.
Moving down into the process-related section of the display, we find that the process using the most CPU power is top itself; in other words, the one runnable process on this otherwise-idle system was top taking a "picture" of itself.

Note

It is important to remember that the very act of running a system monitor affects the resource utilization statistics you receive. All software-based monitors do this to some extent.
To gain more detailed knowledge regarding CPU utilization, we must change tools. If we examine output from vmstat, we obtain a slightly different understanding of our example system:
 procs -----------memory---------- ---swap-- -----io---- --system-- ----cpu---- r b swpd free buff cache si so bi bo in cs us sy id wa 1 0 0 233276 146636 469808 0 0 7 7 14 27 10 3 87 0 0 0 0 233276 146636 469808 0 0 0 0 523 138 3 0 96 0 0 0 0 233276 146636 469808 0 0 0 0 557 385 2 1 97 0 0 0 0 233276 146636 469808 0 0 0 0 544 343 2 0 97 0 0 0 0 233276 146636 469808 0 0 0 0 517 89 2 0 98 0 0 0 0 233276 146636 469808 0 0 0 32 518 102 2 0 98 0 0 0 0 233276 146636 469808 0 0 0 0 516 91 2 1 98 0 0 0 0 233276 146636 469808 0 0 0 0 516 72 2 0 98 0 0 0 0 233276 146636 469808 0 0 0 0 516 88 2 0 97 0 0 0 0 233276 146636 469808 0 0 0 0 516 81 2 0 97 0 
Here we have used the command vmstat 1 10 to sample the system every second for ten times. At first, the CPU-related statistics (the us, sy, and id fields) seem similar to what top displayed, and maybe even appear a bit less detailed. However, unlike top, we can also gain a bit of insight into how the CPU is being used.
If we examine at the system fields, we notice that the CPU is handling about 500 interrupts per second on average and is switching between processes anywhere from 80 to nearly 400 times a second. If you think this seems like a lot of activity, think again, because the user-level processing (the us field) is only averaging 2%, while system-level processing (the sy field) is usually under 1%. Again, this is an idle system.
Reviewing the tools Sysstat offers, we find that iostat and mpstat provide little additional information over what we have already experienced with top and vmstat. However, sar produces a number of reports that can come in handy when monitoring CPU utilization.
The first report is obtained by the command sar -q, which displays the run queue length, total number of processes, and the load averages for the past one and five minutes. Here is a sample:
 Linux 2.4.21-1.1931.2.349.2.2.entsmp (falcon.example.com) 07/21/2003 12:00:01 AM runq-sz plist-sz ldavg-1 ldavg-5 12:10:00 AM 3 122 0.07 0.28 12:20:01 AM 5 123 0.00 0.03 … 09:50:00 AM 5 124 0.67 0.65 Average: 4 123 0.26 0.26 
In this example, the system is always busy (given that more than one process is runnable at any given time), but is not overly loaded (due to the fact that this particular system has more than one processor).
The next CPU-related sar report is produced by the command sar -u:
 Linux 2.4.21-1.1931.2.349.2.2.entsmp (falcon.example.com) 07/21/2003 12:00:01 AM CPU %user %nice %system %idle 12:10:00 AM all 3.69 20.10 1.06 75.15 12:20:01 AM all 1.73 0.22 0.80 97.25 … 10:00:00 AM all 35.17 0.83 1.06 62.93 Average: all 7.47 4.85 3.87 83.81 
The statistics contained in this report are no different from those produced by many of the other tools. The biggest benefit here is that sar makes the data available on an ongoing basis and is therefore more useful for obtaining long-term averages, or for the production of CPU utilization graphs.
On multiprocessor systems, the sar -U command can produce statistics for an individual processor or for all processors. Here is an example of output from sar -U ALL:
 Linux 2.4.21-1.1931.2.349.2.2.entsmp (falcon.example.com) 07/21/2003 12:00:01 AM CPU %user %nice %system %idle 12:10:00 AM 0 3.46 21.47 1.09 73.98 12:10:00 AM 1 3.91 18.73 1.03 76.33 12:20:01 AM 0 1.63 0.25 0.78 97.34 12:20:01 AM 1 1.82 0.20 0.81 97.17 … 10:00:00 AM 0 39.12 0.75 1.04 59.09 10:00:00 AM 1 31.22 0.92 1.09 66.77 Average: 0 7.61 4.91 3.86 83.61 Average: 1 7.33 4.78 3.88 84.02 
The sar -w command reports on the number of context switches per second, making it possible to gain additional insight in where CPU cycles are being spent:
 Linux 2.4.21-1.1931.2.349.2.2.entsmp (falcon.example.com) 07/21/2003 12:00:01 AM cswch/s 12:10:00 AM 537.97 12:20:01 AM 339.43 … 10:10:00 AM 319.42 Average: 1158.25 
It is also possible to produce two different sar reports on interrupt activity. The first, (produced using the sar -I SUM command) displays a single "interrupts per second" statistic:
 Linux 2.4.21-1.1931.2.349.2.2.entsmp (falcon.example.com) 07/21/2003 12:00:01 AM INTR intr/s 12:10:00 AM sum 539.15 12:20:01 AM sum 539.49 … 10:40:01 AM sum 539.10 Average: sum 541.00 
By using the command sar -I PROC, it is possible to break down interrupt activity by processor (on multiprocessor systems) and by interrupt level (from 0 to 15):
 Linux 2.4.21-1.1931.2.349.2.2.entsmp (pigdog.example.com) 07/21/2003 12:00:00 AM CPU i000/s i001/s i002/s i008/s i009/s i011/s i012/s 12:10:01 AM 0 512.01 0.00 0.00 0.00 3.44 0.00 0.00 12:10:01 AM CPU i000/s i001/s i002/s i008/s i009/s i011/s i012/s 12:20:01 AM 0 512.00 0.00 0.00 0.00 3.73 0.00 0.00 … 10:30:01 AM CPU i000/s i001/s i002/s i003/s i008/s i009/s i010/s 10:40:02 AM 0 512.00 1.67 0.00 0.00 0.00 15.08 0.00 Average: 0 512.00 0.42 0.00 N/A 0.00 6.03 N/A 
This report (which has been truncated horizontally to fit on the page) includes one column for each interrupt level (for example, the i002/s field illustrating the rate for interrupt level 2). If this were a multiprocessor system, there would be one line per sample period for each CPU.
Another important point to note about this report is that sar adds or removes specific interrupt fields if no data is collected for that field. The example report above provides an example of this, the end of the report includes interrupt levels (3 and 10) that were not present at the start of the sampling period.

Note

There are two other interrupt-related sar reports -- sar -I ALL and sar -I XALL. However, the default configuration for the sadc data collection utility does not collect the information necessary for these reports. This can be changed by editing the file /etc/cron.d/sysstat, and changing this line:
 */10 * * * * root /usr/lib/sa/sa1 1 1 
to this:
 */10 * * * * root /usr/lib/sa/sa1 -I 1 1 
Keep in mind this change does cause additional information to be collected by sadc, and results in larger data file sizes. Therefore, make sure your system configuration can support the additional space consumption.
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