Cobra Softwares Blog

Linux System Monitoring Tools Every SysAdmin Should Know

Need to monitor Linux server performance? Try these built-in commands and a few add-on tools. Most distributions come with tons of Linux monitoring tools. These tools provide metrics which can be used to get information about system activities. You can use these tools to find the possible causes of a performance problem. The commands discussed below are some of the most fundamental commands when it comes to system analysis and debugging Linux server issues such as:

1. Finding out system bottlenecks
2. Disk (storage) bottlenecks
3. CPU and memory bottlenecks
4. Network bottleneck.

Tutorial details
Difficulty level	Intermediate
Root privileges	Yes
Requirements	Linux terminal
Category	System Management
OS compatibility	Alma • Alpine • Arch • CentOS • Debian • Fedora • Linux • Mint • openSUSE • Pop!_OS • RHEL • Rocky • Stream • SUSE • Ubuntu • WSL
Est. reading time	19 minutes

1. top – Process activity monitoring command

top command display Linux processes. It provides a dynamic real-time view of a running system i.e. actual process activity. By default, it displays the most CPU-intensive tasks running on the server and updates the list every five seconds.

Fig.01: Linux top command

Commonly Used Hot Keys With top Linux monitoring tools

Here is a list of useful hot keys:

Hot Key	Usage
t	Displays summary information off and on.
m	Displays memory information off and on.
A	Sorts the display by top consumers of various system resources. Useful for quick identification of performance-hungry tasks on a system.
f	Enters an interactive configuration screen for top. Helpful for setting up top for a specific task.
o	Enables you to interactively select the ordering within top.
r	Issues renice command.
k	Issues kill command.
z	Turn on or off color/mono

How do I Find Out Linux CPU Utilization?

2. vmstat – Virtual memory statistics

The vmstat command reports information about processes, memory, paging, block IO, traps, and cpu activity.
# vmstat 3
Sample Outputs:

procs -----------memory---------- ---swap-- -----io---- --system-- -----cpu------
 r  b   swpd   free   buff  cache   si   so    bi    bo   in   cs us sy id wa st
 0  0      0 2540988 522188 5130400    0    0     2    32    4    2  4  1 96  0  0
 1  0      0 2540988 522188 5130400    0    0     0   720 1199  665  1  0 99  0  0
 0  0      0 2540956 522188 5130400    0    0     0     0 1151 1569  4  1 95  0  0
 0  0      0 2540956 522188 5130500    0    0     0     6 1117  439  1  0 99  0  0
 0  0      0 2540940 522188 5130512    0    0     0   536 1189  932  1  0 98  0  0
 0  0      0 2538444 522188 5130588    0    0     0     0 1187 1417  4  1 96  0  0
 0  0      0 2490060 522188 5130640    0    0     0    18 1253 1123  5  1 94  0  0

Display Memory Utilization Slabinfo

# vmstat -m

Get Information About Active / Inactive Memory Pages

# vmstat -a
See “How do I find out Linux Resource utilization to detect system bottlenecks?” for more info.

Linux Find Out What Process Are Using Swap Space

Use the smem command:
# smem
Another option is to combine pgrep command with the grep command to find out SWAP mem usage:
# pgrep memcached
# grep --color VmSwap /proc/48440/status

Linux Find Out What Process Are Using Swap Space

3. w – Find out who is logged on and what they are doing

We use the w command displays information about the users currently on the machine, and their processes.
# w username
# w vivek
Sample Outputs:

https://googleads.g.doubleclick.net/pagead/ads?gdpr=0&us_privacy=1—&client=ca-pub-7825705102693166&output=html&h=280&adk=1364362194&adf=3494852984&pi=t.aa~a.1798617643~i.44~rp.4&w=644&fwrn=4&fwrnh=100&lmt=1672924998&num_ads=1&rafmt=1&armr=3&sem=mc&pwprc=9276298954&ad_type=text_image&format=644×280&url=https%3A%2F%2Fwww.cyberciti.biz%2Ftips%2Ftop-linux-monitoring-tools.html&fwr=0&pra=3&rh=161&rw=644&rpe=1&resp_fmts=3&wgl=1&fa=27&uach=WyJXaW5kb3dzIiwiMTUuMC4wIiwieDg2IiwiIiwiMTA4LjAuNTM1OS4xMjUiLFtdLGZhbHNlLG51bGwsIjY0IixbWyJOb3Q_QV9CcmFuZCIsIjguMC4wLjAiXSxbIkNocm9taXVtIiwiMTA4LjAuNTM1OS4xMjUiXSxbIkdvb2dsZSBDaHJvbWUiLCIxMDguMC41MzU5LjEyNSJdXSxmYWxzZV0.&dt=1672934366724&bpp=3&bdt=2825&idt=3&shv=r20230103&mjsv=m202212010101&ptt=9&saldr=aa&abxe=1&cookie=ID%3Dac7e0204d7010890-2225af792dd900ed%3AT%3D1672928645%3ART%3D1672928645%3AS%3DALNI_MYGgTI6s5iWC4F7Ry-T8V6lporB9w&gpic=UID%3D00000b9e9e1e75bf%3AT%3D1672928645%3ART%3D1672928645%3AS%3DALNI_MZNogsSPlIbVtbpcFXLVvuv7103KQ&prev_fmts=0x0%2C644x280%2C336x600%2C331x250%2C331x250%2C1005x124&nras=3&correlator=35000722312&frm=20&pv=1&ga_vid=1912941346.1672928644&ga_sid=1672934365&ga_hid=1540814276&ga_fc=1&u_tz=330&u_his=2&u_h=864&u_w=1536&u_ah=816&u_aw=1536&u_cd=24&u_sd=1.25&dmc=8&adx=248&ady=5090&biw=1519&bih=746&scr_x=0&scr_y=2115&eid=44759875%2C44759926%2C44759842%2C44779794%2C44780792&oid=2&psts=ACgb8tv_5zY9qmIulT3P84K7GdHNRrDdcfGOTmXoheMAPR2x5QbOorq0ZBghjVB44ZSYAW6tIt2K0SdPNnuChTg%2CACgb8ttYwF_zLW6xsD0VW7oumxevPV2NmMwX67rwh3_CJBzUYqxwOzWI_cghzx2vvNpFd8wUDXrdMsfSEK9Qqc8%2CACgb8tvwvx8EsmnPoFMWrR6HBwOKjsBVp9sn84XLlQ39Rpo0fwE50NghUKZSvjIUwgwXvYWQWCStpWigCDIYvCo%2CACgb8tuxliqFK13yKTbuiQq-tUoh8IyBjuJo70eIlr83AEeepjByQggSolRYRUA7ebU52CXzAlWjYldwEpHtI_0%2CACgb8tvd-Vod6RCfRwqSeeakpbJ0fg5uv4Y7biw4s1t4tZ8I9BTniAhBe5SfeB6bEfwJxlkDlqCK9XGZRtuheDMYjV8WZVLnGy3-TWpiRvUl&pvsid=1996559949517185&tmod=1729182566&uas=3&nvt=1&ref=https%3A%2F%2Fwww.cyberciti.biz%2F&eae=0&fc=1408&brdim=0%2C0%2C0%2C0%2C1536%2C0%2C1536%2C816%2C1536%2C746&vis=1&rsz=%7C%7Cs%7C&abl=NS&fu=128&bc=31&ifi=6&uci=a!6&btvi=4&fsb=1&xpc=0Il3Mtapap&p=https%3A//www.cyberciti.biz&dtd=52375

 17:58:47 up 5 days, 20:28,  2 users,  load average: 0.36, 0.26, 0.24
USER     TTY      FROM              LOGIN@   IDLE   JCPU   PCPU WHAT
root     pts/0    10.1.3.145       14:55    5.00s  0.04s  0.02s vim /etc/resolv.conf
root     pts/1    10.1.3.145       17:43    0.00s  0.03s  0.00s w

4. uptime – Tell how long the Linux system has been running

We use the uptime command to see how long the server has been running. The current time, how long the system has been running, how many users are currently logged on, and the system load averages for the past 1, 5, and 15 minutes.
# uptime
Output:

 18:02:41 up 41 days, 23:42,  1 user,  load average: 0.00, 0.00, 0.00

1 can be considered as optimal load value. The load can change from system to system. For a single CPU system 1 – 3 and SMP systems 6-10 load value might be acceptable.

5. ps – Displays the Linux processes

Use the ps command to report a snapshot of the current processes under Linux. To select all processes pass the -A or -e option as follows:
# ps -A
Here is what I see:

  PID TTY          TIME CMD
    1 ?        00:00:02 init
    2 ?        00:00:02 migration/0
    3 ?        00:00:01 ksoftirqd/0
    4 ?        00:00:00 watchdog/0
    5 ?        00:00:00 migration/1
    6 ?        00:00:15 ksoftirqd/1
....
.....
 4881 ?        00:53:28 java
 4885 tty1     00:00:00 mingetty
 4886 tty2     00:00:00 mingetty
 4887 tty3     00:00:00 mingetty
 4888 tty4     00:00:00 mingetty
 4891 tty5     00:00:00 mingetty
 4892 tty6     00:00:00 mingetty
 4893 ttyS1    00:00:00 agetty
12853 ?        00:00:00 cifsoplockd
12854 ?        00:00:00 cifsdnotifyd
14231 ?        00:10:34 lighttpd
14232 ?        00:00:00 php-cgi
54981 pts/0    00:00:00 vim
55465 ?        00:00:00 php-cgi
55546 ?        00:00:00 bind9-snmp-stat
55704 pts/1    00:00:00 ps

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Please note that ps is just like top command, but provides more information. Let us see some more examples.

Show Long Format Output

# ps -Al
To turn on extra full mode (it will show command line arguments passed to process):
# ps -AlF

Display Threads ( LWP and NLWP)

# ps -AlFH

Watch Threads After Processes

# ps -AlLm

Print All Process On The Server

# ps ax
# ps axu

Want To Print A Process Tree?

# ps -ejH
# ps axjf
# pstree

Get Security Information of Linux Process

# ps -eo euser,ruser,suser,fuser,f,comm,label
# ps axZ
# ps -eM

Let Us Print Every Process Running As User Vivek

# ps -U vivek -u vivek u

Configure ps Command Output In a User-Defined Format

# ps -eo pid,tid,class,rtprio,ni,pri,psr,pcpu,stat,wchan:14,comm
# ps axo stat,euid,ruid,tty,tpgid,sess,pgrp,ppid,pid,pcpu,comm
# ps -eopid,tt,user,fname,tmout,f,wchan

Try To Display Only The Process IDs of Lighttpd

# ps -C lighttpd -o pid=
OR
# pgrep lighttpd
OR
# pgrep -u vivek php-cgi

Print The Name of PID 55977

# ps -p 55977 -o comm=

Top 10 Memory Consuming Process

# ps -auxf | sort -nr -k 4 | head -10

Show Us Top 10 CPU Consuming Process

# ps -auxf | sort -nr -k 3 | head -10
See “Show All Running Processes in Linux” for more info.

6. free – Show Linux server memory usage

The free command shows the total amount of free and used physical and swap memory in the system, as well as the buffers used by the kernel.
# free
Session from my Linux home server system:

            total       used       free     shared    buffers     cached
Mem:      12302896    9739664    2563232          0     523124    5154740
-/+ buffers/cache:    4061800    8241096
Swap:      1052248          0    1052248

See the following resources for more info:

1. Linux Find Out Virtual Memory PAGESIZE
2. Linux Limit CPU Usage Per Process
3. How much RAM does my Ubuntu / Fedora Linux desktop PC have?

7. iostat – Montor Linux average CPU load and disk activity

We use the iostat command to report Central Processing Unit (CPU) statistics and input/output statistics for devices, partitions and network filesystems (NFS) under Linux operating sytems. For example:
# iostat
From my RHEL 5 server:

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Linux 2.6.18-128.1.14.el5 (www03.nixcraft.in) 	06/26/2009

avg-cpu:  %user   %nice %system %iowait  %steal   %idle
           3.50    0.09    0.51    0.03    0.00   95.86

Device:            tps   Blk_read/s   Blk_wrtn/s   Blk_read   Blk_wrtn
sda              22.04        31.88       512.03   16193351  260102868
sda1              0.00         0.00         0.00       2166        180
sda2             22.04        31.87       512.03   16189010  260102688
sda3              0.00         0.00         0.00       1615          0

See “Linux Track NFS Directory / Disk I/O Stats” for more info.

8. sar – Monitor, collect and report Linux system activity

sar command used to collect, report, and save system activity information. To see network counter, enter:
# sar -n DEV | more
The network counters from the 24th:
# sar -n DEV -f /var/log/sa/sa24 | more
You can also display real time usage using sar:
# sar 4 5
RHEL 5 server outputs:

Linux 2.6.18-128.1.14.el5 (www03.nixcraft.in) 		06/26/2009

06:45:12 PM       CPU     %user     %nice   %system   %iowait    %steal     %idle
06:45:16 PM       all      2.00      0.00      0.22      0.00      0.00     97.78
06:45:20 PM       all      2.07      0.00      0.38      0.03      0.00     97.52
06:45:24 PM       all      0.94      0.00      0.28      0.00      0.00     98.78
06:45:28 PM       all      1.56      0.00      0.22      0.00      0.00     98.22
06:45:32 PM       all      3.53      0.00      0.25      0.03      0.00     96.19
Average:          all      2.02      0.00      0.27      0.01      0.00     97.70

For further info see:

• How to collect Linux system utilization data into a file
• How To Create sar Graphs With kSar To Identifying Linux Bottlenecks

9. mpstat – Monitor multiprocessor usage on Linux

mpstat command displays activities for each available processor, processor 0 being the first one. mpstat -P ALL to display average CPU utilization per processor:
# mpstat -P ALL
My server providing info:

Linux 2.6.18-128.1.14.el5 (www03.nixcraft.in)	 	06/26/2009

06:48:11 PM  CPU   %user   %nice    %sys %iowait    %irq   %soft  %steal   %idle    intr/s
06:48:11 PM  all    3.50    0.09    0.34    0.03    0.01    0.17    0.00   95.86   1218.04
06:48:11 PM    0    3.44    0.08    0.31    0.02    0.00    0.12    0.00   96.04   1000.31
06:48:11 PM    1    3.10    0.08    0.32    0.09    0.02    0.11    0.00   96.28     34.93
06:48:11 PM    2    4.16    0.11    0.36    0.02    0.00    0.11    0.00   95.25      0.00
06:48:11 PM    3    3.77    0.11    0.38    0.03    0.01    0.24    0.00   95.46     44.80
06:48:11 PM    4    2.96    0.07    0.29    0.04    0.02    0.10    0.00   96.52     25.91
06:48:11 PM    5    3.26    0.08    0.28    0.03    0.01    0.10    0.00   96.23     14.98
06:48:11 PM    6    4.00    0.10    0.34    0.01    0.00    0.13    0.00   95.42      3.75
06:48:11 PM    7    3.30    0.11    0.39    0.03    0.01    0.46    0.00   95.69     76.89

Linux display each multiple SMP CPU processors utilization individually.

10. pmap – Montor process memory usage on Linux

pmap command report memory map of a process. Use this command to find out causes of memory bottlenecks.
# pmap -d PID
To display process memory information for pid # 47394, enter:
# pmap -d 47394
Sample Outputs:

47394:   /usr/bin/php-cgi
Address           Kbytes Mode  Offset           Device    Mapping
0000000000400000    2584 r-x-- 0000000000000000 008:00002 php-cgi
0000000000886000     140 rw--- 0000000000286000 008:00002 php-cgi
00000000008a9000      52 rw--- 00000000008a9000 000:00000   [ anon ]
0000000000aa8000      76 rw--- 00000000002a8000 008:00002 php-cgi
000000000f678000    1980 rw--- 000000000f678000 000:00000   [ anon ]
000000314a600000     112 r-x-- 0000000000000000 008:00002 ld-2.5.so
000000314a81b000       4 r---- 000000000001b000 008:00002 ld-2.5.so
000000314a81c000       4 rw--- 000000000001c000 008:00002 ld-2.5.so
000000314aa00000    1328 r-x-- 0000000000000000 008:00002 libc-2.5.so
000000314ab4c000    2048 ----- 000000000014c000 008:00002 libc-2.5.so
.....
......
..
00002af8d48fd000       4 rw--- 0000000000006000 008:00002 xsl.so
00002af8d490c000      40 r-x-- 0000000000000000 008:00002 libnss_files-2.5.so
00002af8d4916000    2044 ----- 000000000000a000 008:00002 libnss_files-2.5.so
00002af8d4b15000       4 r---- 0000000000009000 008:00002 libnss_files-2.5.so
00002af8d4b16000       4 rw--- 000000000000a000 008:00002 libnss_files-2.5.so
00002af8d4b17000  768000 rw-s- 0000000000000000 000:00009 zero (deleted)
00007fffc95fe000      84 rw--- 00007ffffffea000 000:00000   [ stack ]
ffffffffff600000    8192 ----- 0000000000000000 000:00000   [ anon ]
mapped: 933712K    writeable/private: 4304K    shared: 768000K

The last line is very important:

• mapped: 933712K total amount of memory mapped to files
• writeable/private: 4304K the amount of private address space
• shared: 768000K the amount of address space this process is sharing with others

See Linux find the memory used by a program / process using pmap command for further info.

11. netstat – Linux network and statistics monitoring tool

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Use the netstat command that shows network connections, routing tables, interface statistics, masquerade connections, and multicast memberships. For instance:
# netstat -tulpn
# netstat -nat

12. ss – Network Statistics

We use ss command to dump socket statistics. It allows showing information similar to netstat. Please note that the netstat is mostly obsolete. Hence you need to use the ss command. To ss all TCP and UDP sockets on Linux, type:
# ss -t -a
OR
# ss -u -a
Show all TCP sockets with process SELinux security contexts:
# ss -t -a -Z
See the following resources about ss and netstat commands on Linux:

• ss: Display Linux TCP / UDP Network and Socket Information
• Get Detailed Information About Particular IP address Connections Using netstat Command

13. iptraf – Get real-time network statistics on Linux

Use the iptraf command on Linux. It is an interactive colorful IP LAN monitor which is based upn an ncurses-based IP LAN monitor that generates various network statistics including TCP info, UDP counts, ICMP and OSPF information, Ethernet load info, node stats, IP checksum errors, and others. It can provide the following info in easy to read format for Linux developers and sysadmins:

• Network traffic statistics by TCP connection
• IP traffic statistics by network interface
• Network traffic statistics by protocol
• Network traffic statistics by TCP/UDP port and by packet size
• Network traffic statistics by Layer2 address

Need to monitor Linux server performance? Try these built-in commands and a few add-on tools. Most distributions come with tons of Linux monitoring tools. These tools provide metrics which can be used to get information about system activities. You can use these tools to find the possible causes of a…

Need to monitor Linux server performance? Try these built-in commands and a few add-on tools. Most distributions come with tons of Linux monitoring tools. These tools provide metrics which can be used to get information about system activities. You can use these tools to find the possible causes of a…