.. include:: replace.txt
Resources
---------
The Web
*******
There are several important resources of which any |ns3| user must be
aware. The main web site is located at http://www.nsnam.org and
provides access to basic information about the |ns3| system. Detailed
documentation is available through the main web site at
http://www.nsnam.org/documentation/. You can also find documents
relating to the system architecture from this page.
There is a Wiki that complements the main |ns3| web site which you will
find at http://www.nsnam.org/wiki/. You will find user and developer
FAQs there, as well as troubleshooting guides, third-party contributed code,
papers, etc.
The source code may be found and browsed at http://code.nsnam.org/.
There you will find the current development tree in the repository named
``ns-3-dev``. Past releases and experimental repositories of the core
developers may also be found there.
Mercurial
*********
Complex software systems need some way to manage the organization and
changes to the underlying code and documentation. There are many ways to
perform this feat, and you may have heard of some of the systems that are
currently used to do this. The Concurrent Version System (CVS) is probably
the most well known.
The |ns3| project uses Mercurial as its source code management system.
Although you do not need to know much about Mercurial in order to complete
this tutorial, we recommend becoming familiar with Mercurial and using it
to access the source code. Mercurial has a web site at
http://www.selenic.com/mercurial/,
from which you can get binary or source releases of this Software
Configuration Management (SCM) system. Selenic (the developer of Mercurial)
also provides a tutorial at
http://www.selenic.com/mercurial/wiki/index.cgi/Tutorial/,
and a QuickStart guide at
http://www.selenic.com/mercurial/wiki/index.cgi/QuickStart/.
You can also find vital information about using Mercurial and |ns3|
on the main |ns3| web site.
Waf
***
Once you have source code downloaded to your local system, you will need
to compile that source to produce usable programs. Just as in the case of
source code management, there are many tools available to perform this
function. Probably the most well known of these tools is ``make``. Along
with being the most well known, ``make`` is probably the most difficult to
use in a very large and highly configurable system. Because of this, many
alternatives have been developed. Recently these systems have been developed
using the Python language.
The build system Waf is used on the |ns3| project. It is one
of the new generation of Python-based build systems. You will not need to
understand any Python to build the existing |ns3| system.
For those interested in the gory details of Waf, the main web site can be
found at http://code.google.com/p/waf/.
Development Environment
***********************
As mentioned above, scripting in |ns3| is done in C++ or Python.
Most of the |ns3| API is available in Python, but the
models are written in C++ in either case. A working
knowledge of C++ and object-oriented concepts is assumed in this document.
We will take some time to review some of the more advanced concepts or
possibly unfamiliar language features, idioms and design patterns as they
appear. We don't want this tutorial to devolve into a C++ tutorial, though,
so we do expect a basic command of the language. There are an almost
unimaginable number of sources of information on C++ available on the web or
in print.
If you are new to C++, you may want to find a tutorial- or cookbook-based
book or web site and work through at least the basic features of the language
before proceeding. For instance, `this tutorial
`_.
The |ns3| system uses several components of the GNU "toolchain"
for development. A
software toolchain is the set of programming tools available in the given
environment. For a quick review of what is included in the GNU toolchain see,
http://en.wikipedia.org/wiki/GNU_toolchain. |ns3| uses gcc,
GNU binutils, and gdb. However, we do not use the GNU build system tools,
neither make nor autotools. We use Waf for these functions.
Typically an |ns3| author will work in Linux or a Linux-like
environment. For those running under Windows, there do exist environments
which simulate the Linux environment to various degrees. The |ns3|
project has in the past (but not presently) supported development in the Cygwin environment for
these users. See http://www.cygwin.com/
for details on downloading, and visit the |ns3| wiki for more information
about Cygwin and |ns3|. MinGW is presently not officially supported.
Another alternative to Cygwin is to install a virtual machine environment
such as VMware server and install a Linux virtual machine.
Socket Programming
******************
We will assume a basic facility with the Berkeley Sockets API in the examples
used in this tutorial. If you are new to sockets, we recommend reviewing the
API and some common usage cases. For a good overview of programming TCP/IP
sockets we recommend `TCP/IP Sockets in C, Donahoo and Calvert
`_.
There is an associated web site that includes source for the examples in the
book, which you can find at:
http://cs.baylor.edu/~donahoo/practical/CSockets/.
If you understand the first four chapters of the book (or for those who do
not have access to a copy of the book, the echo clients and servers shown in
the website above) you will be in good shape to understand the tutorial.
There is a similar book on Multicast Sockets,
`Multicast Sockets, Makofske and Almeroth
`_.
that covers material you may need to understand if you look at the multicast
examples in the distribution.