.. contents::
NAME
----
**tsshbatch** - Run Commands On Batches Of Machines
SYNOPSIS
--------
tsshbatch.py [-Nehvk] [-n name] [-p pw] [-H 'h1 h2 ...' | hostlistfile] command arg ...
DESCRIPTION
-----------
``tsshbatch`` is a tool to enable you to issue a command to many
hosts without having to log into each one separately. When writing
scripts, this overcomes the ``ssh`` limitation of not being able to
specify the password on the command line.
``tsshbatch`` also understands basic ``sudo`` syntax and can be used
to access a host, ``sudo`` a command, and then exit.
``tsshbatch`` thus allows you to write complex, hands-off scripts that
issue commands to many hosts without the tedium of manual login and
``sudo`` promotion. System administrators, especially, will find this
helpful when working in large host farms.
OPTIONS
-------
``tsshbatch`` supports a variety of options which can be specified
on either the command line or in the ``$TSSHBATCH`` environment
variable:
-G spec GET file on host and write local dest directory.
``spec`` is a quoted pair of strings. The first
secifies the path of the source file (on the
remote machine) to copy. The second, specifies
the destination *directory* (on the local
machine)::
tsshbatch.py -G "/foo/bar/baz /tmp" hostlist
This copies ``/foo/bar/baz`` from every machine in
``hostlist`` to the local ``/tmp/`` directory. Since all
the files have the same name, they would overwrite
each other if copied into the same directory. So,
``tsshbatch`` prepends the string ``hostname:`` to
the name of each file it saves locally.
-H hostlist List of hosts on which to run the command. This should
be enclosed in *quotes* so that the list of hosts
is handed to the -H option as a single argument::
-H 'host1 host2 host3'
-N Force interactive username dialog
-P spec PUT file from local machine to remote machine destination
directory. ``spec`` is a quoted pair of strings.
The first secifies the path of the source file (on
the local machine) to copy. The second, specifies
the destination *directory* (on the remote machine)::
tsshbatch.py -P "/foo/bar/baz /tmp" hostlist
This copies ``/foo/bar/baz`` on the local
machine to ``/tmp/`` on every host in ``hostlist``.
-e Don't report remote host stderr output
-h Print help information
-k Use ssh keys instead of name/password credentials
-n name Login name to use
-p pw Password to use when logging in and/or doing sudo
-v Print detailed program version information and exit
ENVIRONMENT
-----------
``tsshbatch`` respects the ``TSSHBATCH`` environment variable. You
may set this variable with any options above you commonly use to avoid
having to key them in each time you run the program. For example::
export TSSHBATCH="-n jluser -p l00n3y"
This would cause all subsequent invocations of ``tsshbatch`` to
attempt to use the login name/password credentials of ``jluser`` and
``l00n3y`` respectively.
USE CASES
---------
1) Different Ways To Specify Targeted Hostnames
There are two ways to specify the list of hosts on which you want
to run the specified command:
- On the command line via the ``-H`` option::
tsshbatch.py -H 'hostA hostB' uname -a
This would run the command ``uname -a`` on the
hosts ``hostA`` and ``hostB`` respectively.
Notice that the list of hosts must be separated by spaces but
passed as a *single argument*. Hence we enclose them in single
quotes.
- Via a host list file::
tsshbatch.py myhosts df -Ph
Here, ``tsshbatch`` expects the file ``myhosts`` to contain a
list of hosts, one per line, on which to run the command ``df
-Ph``. As an example, if you want to target the hosts ``larry``,
``curly`` and ``moe`` in ``foo.com``, ``myhosts`` would look
like this::
larry.foo.com
curly.foo.com
moe.foo.com
This method is handy when there are standard "sets" of hosts on
which you regularly work. For instance, you may wish to keep a
host file list for each of your production hosts, each of your
test hosts, each of your AIX hosts, and so on.
You may use the ``#`` comment character freely throughout a
host list file to add comments or temporarily comment out a
particular host line.
You can even use the comment character to temporarily comment
out one or most hosts in the list given to the ``-H`` command
line argument. For example::
tsshbatch.py -H "foo #bar baz" ls
This would run the ``ls`` command on hosts ``foo`` and ``baz``
but not ``bar``. This is handy if you want to use your
shell's command line recall to save typing but only want to
repeat the command for some of the hosts your originally
Specified.
2) Authentication Using Name And Password
The simplest way to use ``tsshbatch`` is to just name the hosts
can command you want to run::
tsshbatch.py linux-prod-hosts uptime
By default, ``tsshbatch`` uses your login name found in the
``$USER`` environment variable when logging into other systems.
In this example, you'll be prompted only for your password which
``tsshbatch`` will then use to log into each of the machines named
in ``linux-prod-hosts``. (*Notice that his assumes your name and
password are the same on each host!*)
Typing in your login credentials all the time can get tedious after
awhile so ``tsshbatch`` provides a means of providing them on the
command line::
tsshbatch.py -n joe.luser -p my_weak_pw linux-prod-hosts uptime
This allows you to use ``tsshbatch`` inside scripts for hands-free
operation.
If your login name is the same on all hosts, you can simplify
this further by defining it in the environment variable::
export TSSHBATCH="-n joe.luser"
Any subsequent invocation of ``tsshbatch`` will only require a
password to run.
HOWEVER, there is a huge downside to this - your plain text
password is exposed in your scripts, on the command line, and
possibly your command history. This is a pretty big security hole,
especially if you're an administrator with extensive privileges.
(This is why the ``ssh`` program does not support such an option.)
For this reason, it is strongly recommended that you use the ``-p``
option sparingly, or not at all. A better way is to push ssh keys
to every machine and use key exchange authentication as described
below.
However, there are times when you do have use an explicit password,
such as when doing ``sudo`` invocations. It would be really nice
to use ``-p`` and avoid having to constantly type in the password.
There are two strategies for doing this more securely than just
entering it in plain text on the command line:
- Temporarily store it in the environment variable::
export TSSHBATCH="-n joe.luser -p my_weak_pw"
Do this *interactively* after you log in, not from
a script (otherwise you'd just be storing the plain text
password in a different script). The environment variable
will persist as long as you're logged in and disappear
when you log out.
If you use this just make sure to observe three security
precautions:
1) Clear your screen immediately after doing this so no one
walking by can see the password you just entered.
2) Configure your shell history system to ignore
commands beginning with ``export TSSHBATCH``. That
way your plain text password will never appear in
the shell command history.
3) Make sure you don't leave a logged in session unlocked so
that other users could walk up and see your password by
displaying the environment.
This approach is best when you want your login credentials
available for the duration of an *entire login session*.
- Store your password in an encrypted file and decrypt it
inline.
First, you have to store your password in an encrypted format.
There are several ways to do this, but ``gpg`` is commonly
used::
echo "my_weak_pw" | gpg -c >mysecretpw
Provide a decrypt passphrase, and you're done.
Now, you can use this by decrypting it inline as needed::
#!/bin/sh
# A demo scripted use of tsshbatch with CLI password passing
MYPW=`cat mysecretpw | gpg` # User will be prompted for unlock passphrase
sshbatch.py -n joe.luser -p $MYPW hostlist1 command1 arg
sshbatch.py -n joe.luser -p $MYPW hostlist2 command2 arg
sshbatch.py -n joe.luser -p $MYPW hostlist3 command3 arg
This approach is best when you want your login credentials
available for the duration of *the execution of a script*. It
does require the user to type in a passphrase to unlock the
encrypted password file, but your plain text password never
appears in the wild.
3) Authentication Using Key Exchange
For most applications of ``tsshbatch``, it is much simpler to use
key-based authentication. For this to work, you must first have
pushed ssh keys to all your hosts. You then instruct ``tsshbatch``
to use key-based authentication rather than name and password. Not
only does this eliminate the need to constantly provide name and
password, it also eliminates passing a plain text password on the
command line and is thus far more secure. This also overcomes the
problem of having different name/password credentials on different
hosts.
By default, ``tsshbatch`` will prompt for name and password
if they are not provided on the command line. To force key-based
authentication, use the ``-k`` option::
tsshbatch.py -k AIX-prod-hosts ls -al
4) Executing A ``sudo`` Command
``tsshbatch`` is smart enough to handle commands that begin
with ``sudo``. It knows that such commands *require* a password
even if you used key exchange to initially log in. That's because,
once you are logged in - whether via name/password or via key
exchange - ``sudo`` requires your password again to promote
your privileges.
When using name/password authentication, with ``tsshbatch`` you
need do nothing special to run ``sudo`` commands on your targeted
hosts (assuming you have the privilege of doing so there).
However, when using key exchange-based authentication, if you want
to run ``sudo`` commands, *you will also have to provide a
password* by one of the means described previously. That's
because, once you are logged into a host, your password is required
again to do ``sudo`` privilege promotion.
5) Precedence Of Authentication Options
``tsshbatch`` supports these various authentication options
in a particular heirarchy using a "first match wins"
scheme. From highest to lowest, the precedence is:
1. Key Exchange
2. ``-n`` and ``-p`` options on command line or in ``$TSSHBATCH``
3. Forced interactive prompting for user name with ``$USER`` as the default.
4. Using ``$USER`` as the login name and prompting only for password. (Default program behavior).
6) File Transfers
The ``-G`` and ``-P`` options specify file ``GET`` and
``PUT`` respectively. Both are followed by a quoted
file transfer specification in the form::
"path-to-source-file path-to-destination-directory"
Note that this means the file will always be stored under
its original name in the destination directory. Renaming
isn't possible during file transfer.
However, ``tsshbatch`` always does ``GETs`` then ``PUTs``
*then* any outstanding command (if any) at the end of the
command line. This permits renaming on the remote machine
after a ``PUT``::
tsshbatch.py -P "foo ./" hostlist mv -v foo foo.has.a.new.name
``GETs`` are a bit of a different story because you are retrieving
a file of the same name on every host. To avoid having all
but the last one clobber the previous one, ``tsshbatch`` makes
forces the files you ``GET`` to be uniquely named by prepending
the hostname and a ":" to the actual file name::
tssbatch.py -H myhost -G "foo ./"
This saves the file ``myhost:foo`` in the ``./`` on your
local machine.
The commands do not recognize any special directory
shortcut symbols like ``~/``. You must name file and
directory locations using ordinary pathing conventions.
If any file transfer fails, for any reason, the program
is aborted and no further work is done.
OTHER
-----
``tsshbatch`` writes the ``stdout`` of the remote host(s) to
``stdout`` on the local machine. It similarly writes remote
``stderr`` output to the local machine's ``stderr``. If you wish to
suppress ``stderr`` output, either redirect it on your local command
line or use the ``-e`` option to turn it off entirely.
You will not be able to run remote ``sudo`` commands if the host
in question enables the ``Defaults requiretty`` in its ``sudoers``
configuration.
You must have a reasonably current version of Python installed. If
your Python installation does not install ``paramiko`` you'll have to
install it manually, since ``tsshbatch`` requires these libraries.
BUGS AND MISFEATURES
--------------------
When ``sudo`` is presented a bad password, it ordinarily prints a
string indicating something is wrong. ``tsshbatch`` looks for this to
let you know that you've got a problem and then terminates further
operation. This is so that you do not attempt to log in with a bad
password across all the servers you have targeted. (Many enterprises
have policies to lock out a user ID after some small number of failed
login/access attempts.)
However, some older versions of ``sudo`` (noted on a RHEL 4 server
running ``sudo`` 1.6.7p5) do not return any feedback when presented
with a bad password. This means that ``tsshbatch`` cannot tell the
difference between a successful ``sudo`` and a system waiting for you
to reenter a proper password. In this situation, if you enter a bad
password, the *the program will hang*. Why? ``tsshbatch`` thinks
nothing is wrong and waits for the ``sudo`` command to complete. At
the same time, ``sudo`` itself is waiting for an updated password. In
this case, you have to kill ``tsshbatch`` and start over. This
typically requires you to put the program in background (```Ctrl-Z``
in most shells) and then killing that job from the command line.
There is no known workaround for this problem.
COPYRIGHT AND LICENSING
-----------------------
**tsshbatch** is Copyright (c) 2011-2013 TundraWare Inc.
For terms of use, see the ``tsshbatch-license.txt`` file in the
program distribution. If you install **tsshbatch** on a FreeBSD
system using the 'ports' mechanism, you will also find this file in
``/usr/local/share/doc/tsshbatch``.
AUTHOR
------
::
Tim Daneliuk
tsshbatch@tundraware.com
DOCUMENT REVISION INFORMATION
-----------------------------
::
$Id: tsshbatch.rst,v 1.113 2013/10/21 19:42:07 tundra Exp $
You can find the latest version of this program at:
http://www.tundraware.com/Software/tsshbatch
tundra