ssh-based ping: measure character-echo latency and bandwidth for an interactive ssh session
Use this utility to test the performance of interactive ssh sessions or scp file transfers. It uses ssh to log into a remote system, then runs two tests: the first test sends one character at a time, waiting for each character to be returned while it records the latency time for each. The second test sends a dummy file over scp to /dev/null on the remote system.
For the echo test, you may specify a character count limit (-c) or a test time limit (-t), and also the command (-e) used on the remote system that echoes characters back.
For the speed test, you may specify the number of megabytes to send (-s) and the target location for the copies (-z).
The default output format is RFC-2822 complaint with simple integers so parsing is easy. You may also display delimiters to make reading of large numbers easier, or you may use a "human readable" format that displays values using SI prefixes to keep the numberic value small.
Usage: sshping [options] [user@]addr[:port]
SSH-based ping that measures interactive character echo latency
and file transfer throughput. Pronounced "shipping".
Options:
-b --bindaddr IP Bind to this source address
-c --count NCHARS Number of characters to echo, default 1000
-d --delimited Use delimiters in big numbers, eg 1,234,567
-e --echocmd CMD Use CMD for echo command; default: cat > /dev/null
-h --help Print usage and exit
-H --human-readable Use flesh-friendly units
-i --identity FILE Identity file, ie ssh private keyfile
-p --password PWD Use password PWD (can be seen, use with care)
-P --ping-summary Append measurements in ping-like rtt line format
-r --runtests e|s Run tests e=echo s=speed; default es=both
-s --size MB For speed test, send/recv MB megabytes; default=8 MB
-t --time SECS Time limit for echo test
-T --connect-time S Time limit for ssh connection; default 10 sec
-v --verbose Show more output, use twice for lots: -vv
-z --remote FILE Remote file for up/download tests;
default=/tmp/sshping-PID.tmp
# bin/sshping -d cheyenne.example.com
ssh-Login-Time: 1,835,377,610 ns
Minimum-Latency: 548,993 ns
Median-Latency: 698,494 ns
Average-Latency: 704,123 ns
Average-Deviation: 72,839 ns
Maximum-Latency: 1,075,017 ns
Echo-Count: 1,000 B
Upload-Size: 8,000,000 B
Upload-Rate: 9,371,579 B/s
Download-Size: 8,000,000 B
Download-Rate: 5,493,034 B/s
# bin/sshping -H cheyenne.example.com
ssh-Login-Time: 1.84 s
Minimum-Latency: 633 us
Median-Latency: 751 us
Average-Latency: 764 us
Average-Deviation: 63.7 us
Maximum-Latency: 1.15 ms
Echo-Count: 1.00 kB
Upload-Size: 8.00 MB
Upload-Rate: 9.33 MB/s
Download-Size: 8.00 MB
Download-Rate: 5.48 MB/s
Install the libssh-dev (or libssh-devel) package, version 0.6 or later:
sudo apt-get install libssh-dev
...or
sudo yum install libssh-devel
...or whatever works on your platform
From the main directory (where this README.md file is located), run 'make':
cd sshping
make
The resultant binary will be in the bin/ directory. You may copy this to your system binary location, for example:
sudo cp bin/sshping /usr/local/bin/
sudo chown root.root /usr/local/bin/sshping
sudo chmod 555 /usr/local/bin/sshping
To build the man pages, install the pod2man utility (you may already have it installed, it's often part of standard Perl). Then run 'make man'. The resulting uncompressed man page will be in the doc/ directory. You can view it from there (man doc/sshping.8) but normally it's placed in /usr/share/man/man8 in gzip'd format:
sudo cp doc/sshping.8 /usr/share/man/man8/
sudo gzip /usr/share/man/man8/sshping.8
sudo chown root.root /usr/share/man/man8/sshping.8.gz
sudo chmod 644 /usr/share/man/man8/sshping.8.gz
That's it!
You can build this with CMake, which includes creating .deb or .rpm packages. Here's how:
First, install libssh as above. It's a prerequisite. And of course you need CMake. Then from the main directory (where this README.md file is located):
mkdir build
cd build
cmake ..
make
make package
You will find the binary sshping
as well as the .deb and/or .rpm
file in the current (build) directory. Install those as you
would any other package.
Or you can directly install on the current system with:
sudo make install
Enjoy!