18 commands to monitor network bandwidth on Linux server

This post mentions some linux command line tools that can be used to monitor the network usage. These tools monitor the traffic flowing through network interfaces and measure the speed at which data is currently being transferred. Incoming and outgoing traffic is shown separately.

Some of the commands, show the bandwidth used by individual processes. This makes it easy to detect a process that is overusing network bandwidth.

The tools have different mechanisms of generating the traffic report. Some of the tools like nload read the “/proc/net/dev” file to get traffic stats, whereas some tools use the pcap library to capture all packets and then calculate the total size to estimate the traffic load.

Here is a list of the commands, sorted by their features.

1. Overall bandwidth - nload, bmon, slurm, bwm-ng, cbm, speedometer, netload

2. Overall bandwidth (batch style output) - vnstat, ifstat, dstat, collectl

2. Bandwidth per socket connection - iftop, iptraf, tcptrack, pktstat, netwatch, trafshow

3. Bandwidth per process - nethogs

1. Nload

Nload is a commandline tool that allows users to monitor the incoming and outgoing traffic separately. It also draws out a graph to indicate the same, the scale of which can be adjusted. Easy and simple to use, and does not support many options.

So if you just need to take a quick look at the total bandwidth usage without details of individual processes, then nload will be handy.

$ nload

nload command linux

Installing Nload – Fedora and Ubuntu have got it in the default repos. CentOS users need to get nload from Epel repositories.

# fedora or centos
$ yum install nload -y

# ubuntu/debian
$ sudo apt-get install nload

2. iftop

Iftop measures the data flowing through individual socket connections, and it works in a manner that is different from Nload. Iftop uses the pcap library to capture the packets moving in and out of the network adapter, and then sums up the size and count to find the total bandwidth under use.

Although iftop reports the bandwidth used by individual connections, it cannot report the process name/id involved in the particular socket connection. But being based on the pcap library, iftop is able to filter the traffic and report bandwidth usage over selected host connections as specified by the filter.

$ sudo iftop -n

The n option prevents iftop from resolving ip addresses to hostname, which causes additional network traffic of its own.

iftop command linux

Install iftop – Ubuntu/Debian/Fedora users get it from default repos. CentOS users get it from Epel.

# fedora or centos
yum install iftop -y

# ubuntu or debian
$ sudo apt-get install iftop

3. iptraf

Iptraf is an interactive and colorful IP Lan monitor. It shows individual connections and the amount of data flowing between the hosts. Here is a screenshot

$ sudo iptraf

iptraf linux command

Install iptraf

# Centos (base repo)
$ yum install iptraf

# fedora or centos (with epel)
$ yum install iptraf-ng -y

# ubuntu or debian
$ sudo apt-get install iptraf iptraf-ng

4. nethogs

Nethogs is a small ‘net top’ tool that shows the bandwidth used by individual processes and sorts the list putting the most intensive processes on top. In the event of a sudden bandwidth spike, quickly open nethogs and find the process responsible. Nethogs reports the PID, user and the path of the program.

$ sudo nethogs

nethogs command linux

Install Nethogs – Ubuntu, Debian, Fedora users get from default repos. CentOS users need Epel

# ubuntu or debian (default repos)
$ sudo apt-get install nethogs

# fedora or centos (from epel)
$ sudo yum install nethogs -y

5. bmon

Bmon (Bandwidth Monitor) is a tool similar to nload that shows the traffic load over all the network interfaces on the system. The output also consists of a graph and a section with packet level details.

bmon linux network monitor

Install Bmon – Ubuntu, Debian and Fedora users can install from default repos. CentOS users need to setup repoforge, since its not available in Epel.

# ubuntu or debian
$ sudo apt-get install bmon

# fedora or centos (from repoforge)
$ sudo yum install bmon

Bmon supports many options and is capable of producing reports in html format. Check the man page for more information

6. slurm

Slurm is ‘yet’ another network load monitor that shows device statistics along with an ascii graph. It supports 3 different styles of graphs each of which can be activated using the c, s and l keys. Simple in features, slurm does not display any further details about the network load.

$ slurm -s -i eth0

slurm command linux

Install slurm

# debian or ubuntu
$ sudo apt-get install slurm

# fedora or centos
$ sudo yum install slurm -y

7. tcptrack

Tcptrack is similar to iftop, and uses the pcap library to capture packets and calculate various statistics like the bandwidth used in each connection. It also supports the standard pcap filters that can be used to monitor specific connections.

tcptrack command linux

Install tcptrack – Ubuntu, Debian and Fedora have it in default repos. CentOS users need to get it from RepoForge as it is not available in Epel either.

# ubuntu, debian
$ sudo apt-get install tcptrack

# fedora, centos (from repoforge repository)
$ sudo yum install tcptrack

8. Vnstat

Vnstat is bit different from most of the other tools. It actually runs a background service/daemon and keeps recording the size of data transfer all the time. Next it can be used to generate a report of the history of network usage.

$ service vnstat status
 * vnStat daemon is running

Running vnstat without any options would simply show the total amount of data transfer that took place since the date the daemon is running.

$ vnstat
Database updated: Mon Mar 17 15:26:59 2014

   eth0 since 06/12/13

          rx:  135.14 GiB      tx:  35.76 GiB      total:  170.90 GiB

   monthly
                     rx      |     tx      |    total    |   avg. rate
     ------------------------+-------------+-------------+---------------
       Feb '14      8.19 GiB |    2.08 GiB |   10.27 GiB |   35.60 kbit/s
       Mar '14      4.98 GiB |    1.52 GiB |    6.50 GiB |   37.93 kbit/s
     ------------------------+-------------+-------------+---------------
     estimated      9.28 GiB |    2.83 GiB |   12.11 GiB |

   daily
                     rx      |     tx      |    total    |   avg. rate
     ------------------------+-------------+-------------+---------------
     yesterday    236.11 MiB |   98.61 MiB |  334.72 MiB |   31.74 kbit/s
         today    128.55 MiB |   41.00 MiB |  169.56 MiB |   24.97 kbit/s
     ------------------------+-------------+-------------+---------------
     estimated       199 MiB |      63 MiB |     262 MiB |

To monitor the bandwidth usage in realtime, use the ‘-l’ option (live mode). It would then show the total bandwidth used by incoming and outgoing data, but in a very precise manner without any internal details about host connections or processes.

$ vnstat -l -i eth0
Monitoring eth0...    (press CTRL-C to stop)

   rx:       12 kbit/s    10 p/s          tx:       12 kbit/s    11 p/s

Vnstat is more like a tool to get historic reports of how much bandwidth is used everyday or over the past month. It is not strictly a tool for monitoring the network in real time.

Vnstat supports many options, details about which can be found in the man page.

Install vnstat

# ubuntu or debian
$ sudo apt-get install vnstat

# fedora or centos (from epel)
$ sudo yum install vnstat

9. bwm-ng

Bwm-ng (Bandwidth Monitor Next Generation) is another very simple real time network load monitor that reports a summary of the speed at which data is being transferred in and out of all available network interfaces on the system.

$ bwm-ng
bwm-ng v0.6 (probing every 0.500s), press 'h' for help
  input: /proc/net/dev type: rate
  /         iface                   Rx                   Tx                T
ot==========================================================================
==           eth0:           0.53 KB/s            1.31 KB/s            1.84
KB             lo:           0.00 KB/s            0.00 KB/s            0.00
KB--------------------------------------------------------------------------
--          total:           0.53 KB/s            1.31 KB/s            1.84
KB/s

If the console size is sufficiently large, bwm-ng can also draw bar graphs for the traffic using the curses2 output mode.

$ bwm-ng -o curses2

Install Bwm-NG – On CentOS bwm-ng can be installed from Epel.

# ubuntu or debian
$ sudo apt-get install bwm-ng

# fedora or centos (from epel)
$ sudo apt-get install bwm-ng

10. cbm – Color Bandwidth Meter

A tiny little simple bandwidth monitor that displays the traffic volume through network interfaces. No further options, just the traffic stats are display and updated in realtime.

cbm linux network monitor

$ sudo apt-get install cbm

11. speedometer

Another small and simple tool that just draws out good looking graphs of incoming and outgoing traffic through a given interface.

$ speedometer -r eth0 -t eth0

speedometer linux network monitor

Install speedometer

# ubuntu or debian users
$ sudo apt-get install speedometer

12. Pktstat

Pktstat displays all the active connections in real time, and the speed at which data is being transferred through them. It also displays the type of the connection, i.e. tcp or udp and also details about http requests if involved.

$ sudo pktstat -i eth0 -nt

pktstat linux network monitor

$ sudo apt-get install pktstat

13. Netwatch

Netwatch is part of the netdiag collection of tools, and it too displays the connections between local host and other remote hosts, and the speed at which data is transferring on each connection.

$ sudo netwatch -e eth0 -nt

netwatch linux network monitor

$ sudo apt-get install netdiag

14. Trafshow

Like netwatch and pktstat, trafshow reports the current active connections, their protocol and the data transfer speed on each connection. It can filter out connections using pcap type filters.

Monitor only tcp connections

$ sudo trafshow -i eth0 tcp

trafshow linux network monitor

$ sudo apt-get install netdiag

15. Netload

The netload command just displays a small report on the current traffic load, and the total number of bytes transferred since the program start. No more features are there. Its part of the netdiag.

$ netload eth0

netload linux network monitor

$ sudo apt-get install netdiag

16. ifstat

The ifstat reports the network bandwidth in a batch style mode. The output is in a format that is easy to log and parse using other programs or utilities.

$ ifstat -t -i eth0 0.5
  Time           eth0       
HH:MM:SS   KB/s in  KB/s out
09:59:21      2.62      2.80
09:59:22      2.10      1.78
09:59:22      2.67      1.84
09:59:23      2.06      1.98
09:59:23      1.73      1.79

Install ifstat – Ubuntu, Debian and Fedora users have it in the default repos. CentOS users need to get it from Repoforge, since its not there in Epel.

# ubuntu, debian
$ sudo apt-get install ifstat

# fedora, centos (Repoforge)
$ sudo yum install ifstat

17. dstat

Dstat is a versatile tool (written in python) that can monitor different system statistics and report them in a batch style mode or log the data to a csv or similar file. This example shows how to use dstat to report network bandwidth

$ dstat -nt
-net/total- ----system----
 recv  send|     time     
   0     0 |23-03 10:27:13
1738B 1810B|23-03 10:27:14
2937B 2610B|23-03 10:27:15
2319B 2232B|23-03 10:27:16
2738B 2508B|23-03 10:27:17

Install dstat

$ sudo apt-get install dstat

18. collectl

Collectl reports system statistics in a style that is similar to dstat, and like dstat it is gathers statistics about various different system resources like cpu, memory, network etc. Over here is a simple example of how to use it to report network usage/bandwidth.

$ collectl -sn -oT -i0.5
waiting for 0.5 second sample...
#         <----------Network---------->
#Time       KBIn  PktIn  KBOut  PktOut 
10:32:01      40     58     43      66 
10:32:01      27     58      3      32 
10:32:02       3     28      9      44 
10:32:02       5     42     96      96 
10:32:03       5     48      3      28

Install Collectl

# Ubuntu/Debian users
$ sudo apt-get install collectl

#Fedora
$ sudo yum install collectl

Summary

Those were a few handy commands to quickly check the network bandwidth on your linux server. However these need the user to login to the remote server over ssh. Alternatively web based monitoring tools can also be used for the same task.

Ntop and Darkstat are some of the basic web based network monitoring tools available for Linux. Beyond these lie the enterprise level monitoring tools like Nagios that provide a host of features to not just monitor a server but entire infrastructure.

Download from git overwriting local repository

from here

Command to start local repository configuration :

  1. move into your project folder
  2. git init
  3. git add .
  4. git commit -m “added readme”
  5. git remote add origin https://github.com/USER/PROJECTNAME.git  or replace git remote set-url origin https://github.com/USER/PROJECTNAME.git
  6. git push -u origin master or change master in to mail git push origin HEAD:main in general git push origin HEAD:<remoteBranch> 
  7. Edit .git/config file under your repo directoryFind url= entry under section [remote “origin”]

    Change it from url=https://github.com/rootux/my-repo.git to https://USERNAME@github.com/rootux/my-repo.git

    where USERNAME is your github user name

Important: If you have any local changes, they will be lost. With or without --hard option, any local commits that haven’t been pushed will be lost.[*]

If you have any files that are not tracked by Git (e.g. uploaded user content), these files will not be affected.


I think this is the right way:

git fetch --all

Then, you have two options:

git reset --hard origin/master

OR If you are on some other branch:

git reset --hard origin/<branch_name>

Explanation:

git fetch downloads the latest from remote without trying to merge or rebase anything.

Then the git reset resets the master branch to what you just fetched. The --hard option changes all the files in your working tree to match the files in origin/master


Maintain current local commits

[*]: It’s worth noting that it is possible to maintain current local commits by creating a branch from master before resetting:

git checkout master
git branch new-branch-to-save-current-commits
git fetch --all
git reset --hard origin/master

After this, all of the old commits will be kept in new-branch-to-save-current-commits.

Uncommitted changes

Uncommitted changes, however (even staged), will be lost. Make sure to stash and commit anything you need. For that you can run the following:

git stash

And then to reapply these uncommitted changes:

git stash pop

Network – just to remember

from here

IPv4 CIDR
Address
format
Difference
to last address
Mask Addresses Relative
to class
A, B, C
Restrictions Typical use
Decimal 2n
a.b.c.d/32 +0.0.0.0 255.255.255.255 1 20 1256 C Host route
a.b.c.d/31 +0.0.0.1 255.255.255.254 2 21 1128 C d = 0 … (2n) … 254 Point to point links (RFC 3021)
a.b.c.d/30 +0.0.0.3 255.255.255.252 4 22 164 C d = 0 … (4n) … 252 Point to point links (glue network)
a.b.c.d/29 +0.0.0.7 255.255.255.248 8 23 132 C d = 0 … (8n) … 248 Smallest multi-host network
a.b.c.d/28 +0.0.0.15 255.255.255.240 16 24 116 C d = 0 … (16n) … 240 Small LAN
a.b.c.d/27 +0.0.0.31 255.255.255.224 32 25 ⅛ C d = 0 … (32n) … 224
a.b.c.d/26 +0.0.0.63 255.255.255.192 64 26 ¼ C d = 0, 64, 128, 192
a.b.c.d/25 +0.0.0.127 255.255.255.128 128 27 ½ C d = 0, 128 Large LAN
a.b.c.0/24 +0.0.0.255 255.255.255.0 256 28 1 C
a.b.c.0/23 +0.0.1.255 255.255.254.0 512 29 2 C c = 0 … (2n) … 254
a.b.c.0/22 +0.0.3.255 255.255.252.0 1,024 210 4 C c = 0 … (4n) … 252 Small business
a.b.c.0/21 +0.0.7.255 255.255.248.0 2,048 211 8 C c = 0 … (8n) … 248 Small ISP/ large business
a.b.c.0/20 +0.0.15.255 255.255.240.0 4,096 212 16 C c = 0 … (16n) … 240
a.b.c.0/19 +0.0.31.255 255.255.224.0 8,192 213 32 C c = 0 … (32n) … 224 ISP/ large business
a.b.c.0/18 +0.0.63.255 255.255.192.0 16,384 214 64 C c = 0, 64, 128, 192
a.b.c.0/17 +0.0.127.255 255.255.128.0 32,768 215 128 C c = 0, 128
a.b.0.0/16 +0.0.255.255 255.255.0.0 65,536 216 256 C = B
a.b.0.0/15 +0.1.255.255 255.254.0.0 131,072 217 2 B b = 0 … (2n) … 254
a.b.0.0/14 +0.3.255.255 255.252.0.0 262,144 218 4 B b = 0 … (4n) … 252
a.b.0.0/13 +0.7.255.255 255.248.0.0 524,288 219 8 B b = 0 … (8n) … 248
a.b.0.0/12 +0.15.255.255 255.240.0.0 1,048,576 220 16 B b = 0 … (16n) … 240
a.b.0.0/11 +0.31.255.255 255.224.0.0 2,097,152 221 32 B b = 0 … (32n) … 224
a.b.0.0/10 +0.63.255.255 255.192.0.0 4,194,304 222 64 B b = 0, 64, 128, 192
a.b.0.0/9 +0.127.255.255 255.128.0.0 8,388,608 223 128 B b = 0, 128
a.0.0.0/8 +0.255.255.255 255.0.0.0 16,777,216 224 256 B = A Largest IANA block allocation
a.0.0.0/7 +1.255.255.255 254.0.0.0 33,554,432 225 2 A a = 0 … (2n) … 254
a.0.0.0/6 +3.255.255.255 252.0.0.0 67,108,864 226 4 A a = 0 … (4n) … 252
a.0.0.0/5 +7.255.255.255 248.0.0.0 134,217,728 227 8 A a = 0 … (8n) … 248
a.0.0.0/4 +15.255.255.255 240.0.0.0 268,435,456 228 16 A a = 0 … (16n) … 240
a.0.0.0/3 +31.255.255.255 224.0.0.0 536,870,912 229 32 A a = 0 … (32n) … 224
a.0.0.0/2 +63.255.255.255 192.0.0.0 1,073,741,824 230 64 A a = 0, 64, 128, 192
a.0.0.0/1 +127.255.255.255 128.0.0.0 2,147,483,648 231 128 A a = 0, 128
0.0.0.0/0 +255.255.255.255 0.0.0.0 4,294,967,296 232 256 A

In common usage

 

Fail2ban Status commands

fail2ban-client status postfix

Show status of all fail2ban jails at once
create the file fail2ban-allstatus.sh
#!/bin/bash
JAILS=`fail2ban-client status | grep Jail list | sed -E s/^[^:]+:[ \t]+// | sed s/,//g`
for JAIL in $JAILS
do
fail2ban-client status $JAIL
done

or with a command

fail2ban-client status|awk -F: ‘/Jail list:/ { split($2,jail,”,”) ; for (i in jail) { gsub(/[\t ]/,””,jail[i]); system(“fail2ban-client status “jail[i]); }; }’

grep -srni “journalmatch” /etc/fail2ban/filter.d/