.. include:: replace.txt .. toctree:: Animation --------- Animation is an important tool for network simulation. While |ns3| does not contain a default graphical animation tool, we currently have two ways to provide animation, namely using the PyViz method or the NetAnim method. The PyViz method is described in http://www.nsnam.org/wiki/PyViz. We will describe the NetAnim method briefly here. NetAnim ******* NetAnim is a standalone, Qt4-based software executable that uses a trace file generated during an |ns3| simulation to display the topology and animate the packet flow between nodes. .. figure:: figures/Dumbbell.* :align: center :width: 500px :height: 400px An example of packet animation on wired-links .. figure:: figures/Wireless.* :align: center :width: 480px :height: 400px An example of packet animation on wireless-links In addition, NetAnim also provides useful features such as tables to display meta-data of packets like the image below .. figure:: figures/PacketStatistics.* :align: center :width: 500px An example of tables for packet meta-data with protocol filters and a way to visualize the trajectory of a mobile node .. figure:: figures/Trajectory.* :align: center :width: 500px An example of the trajectory of a mobile node Methodology =========== The class ns3::AnimationInterface is responsible for the creation the trace XML file. AnimationInterface uses the tracing infrastructure to track packet flows between nodes. AnimationInterface registers itself as a trace hook for tx and rx events before the simulation begins. When a packet is scheduled for transmission or reception, the corresponding tx and rx trace hooks in AnimationInterface are called. When the rx hooks are called, AnimationInterface will be aware of the two endpoints between which a packet has flowed, and adds this information to the trace file, in XML format along with the corresponding tx and rx timestamps. The XML format will be discussed in a later section. It is important to note that AnimationInterface records a packet only if the rx trace hooks are called. Every tx event must be matched by an rx event. Downloading NetAnim =================== If NetAnim is not already available in the |ns3| package you downloaded, you can do the following: Please ensure that you have installed mercurial. The latest version of NetAnim can be downloaded using mercurial with the following command: .. sourcecode:: bash $ hg clone http://code.nsnam.org/netanim Building NetAnim ================ Prerequisites ~~~~~~~~~~~~~ Qt4 (4.7 and over) is required to build NetAnim. This can be obtained using the following ways: For Debian/Ubuntu Linux distributions: .. sourcecode:: bash $ apt-get install qt4-dev-tools For Red Hat/Fedora based distribution: .. sourcecode:: bash $ yum install qt4 $ yum install qt4-devel For Mac/OSX, see http://qt.nokia.com/downloads/ Build steps ~~~~~~~~~~~ To build NetAnim use the following commands: .. sourcecode:: bash $ cd netanim $ make clean $ qmake NetAnim.pro (For MAC Users: qmake -spec macx-g++ NetAnim.pro) $ make Note: qmake could be "qmake-qt4" in some systems This should create an executable named "NetAnim" in the same directory: .. sourcecode:: bash $ ls -l NetAnim -rwxr-xr-x 1 john john 390395 2012-05-22 08:32 NetAnim Usage ===== Using NetAnim is a two-step process Step 1:Generate the animation XML trace file during simulation using "ns3::AnimationInterface" in the |ns3| code base. Step 2:Load the XML trace file generated in Step 1 with the offline Qt4-based animator named NetAnim. Step 1: Generate XML animation trace file ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The class "AnimationInterface" under "src/netanim" uses underlying |ns3| trace sources to construct a timestamped ASCII file in XML format. Examples are found under src/netanim/examples Example: .. sourcecode:: bash $ ./waf -d debug configure --enable-examples $ ./waf --run "dumbbell-animation" The above will create an XML file dumbbell-animation.xml Mandatory ######### 1. Ensure that your program's wscript includes the "netanim" module. An example of such a wscript is at src/netanim/examples/wscript. 2. Include the header [#include "ns3/netanim-module.h"] in your test program 3. Add the statement .. sourcecode:: cpp AnimationInterface anim ("animation.xml"); // where "animation.xml" is any arbitrary filename [for versions before ns-3.13 you also have to use the line "anim.SetXMLOutput() to set the XML mode and also use anim.StartAnimation();] Optional ######## .. highlight:: cpp The following are optional but useful steps:: // Step 1 anim.SetMobilityPollInterval (Seconds (1)); AnimationInterface records the position of all nodes every 250 ms by default. The statement above sets the periodic interval at which AnimationInterface records the position of all nodes. If the nodes are expected to move very little, it is useful to set a high mobility poll interval to avoid large XML files. :: // Step 2 anim.SetConstantPosition (Ptr< Node > n, double x, double y); AnimationInterface requires that the position of all nodes be set. In |ns3| this is done by setting an associated MobilityModel. "SetConstantPosition" is a quick way to set the x-y coordinates of a node which is stationary. :: // Step 3 anim.SetStartTime (Seconds(150)); and anim.SetStopTime (Seconds(150)); AnimationInterface can generate large XML files. The above statements restricts the window between which AnimationInterface does tracing. Restricting the window serves to focus only on relevant portions of the simulation and creating manageably small XML files :: // Step 4 AnimationInterface anim ("animation.xml", 50000); Using the above constructor ensures that each animation XML trace file has only 50000 packets. For example, if AnimationInterface captures 150000 packets, using the above constructor splits the capture into 3 files * animation.xml - containing the packet range 1-50000 * animation.xml-1 - containing the packet range 50001-100000 * animation.xml-2 - containing the packet range 100001-150000 :: // Step 5 anim.EnablePacketMetadata (true); With the above statement, AnimationInterface records the meta-data of each packet in the xml trace file. Metadata can be used by NetAnim to provide better statistics and filter, along with providing some brief information about the packet such as TCP sequence number or source & destination IP address during packet animation. CAUTION: Enabling this feature will result in larger XML trace files. Please do NOT enable this feature when using Wimax links. Step 2: Loading the XML in NetAnim ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 1. Assuming NetAnim was built, use the command "./NetAnim" to launch NetAnim. Please review the section "Building NetAnim" if NetAnim is not available. 2. When NetAnim is opened, click on the File open button at the top-left corner, select the XML file generated during Step 1. 3. Hit the green play button to begin animation. Here is a video illustrating this http://www.youtube.com/watch?v=tz_hUuNwFDs Essential settings of NetAnim ============================= Persist combobox ~~~~~~~~~~~~~~~~ .. figure:: figures/Persist.* :width: 150px The persist combobox When packets are transmitted and received very quickly, they can be almost invisible. The persist time setting allows the user to control the duration for which a packet should be visible on the animation canvas. Update-interval slider ~~~~~~~~~~~~~~~~~~~~~~ .. figure:: figures/UpdateRateInterval.* :width: 150px The update-interval slider The update-interval slider controls the rate at which NetAnim refreshes the canvas screen. For instance, for the setting above, NetAnim, updates the position of nodes and packets only once in 250 ms. Parts of the XML ================ The XML trace files has the following main sections 1. Topology - Nodes - Links 2. packets (packets over wired-links) 3. wpackets (packets over wireless-links) XML tags ~~~~~~~~ .. highlight:: xml Nodes are identified by their unique Node id. The XML begins with the "information" element describing the rest of the elements Element ############## This is the XML root element. All other elements fall within this element. Attributes are:: lp = Logical Processor Id (Used for distributed simulations only) Element ################## This elements contains the Node and Link elements.It describes, the co-ordinates of the canvas used for animation. Attributes are:: minX = minimum X coordinate of the animation canvas minY = minimum Y coordinate of the animation canvas maxX = maximum X coordinate of the animation canvas maxY = maximum Y coordinate of the animation canvas Example:: Element ############## This element describes each Node's Id and X,Y co-ordinate (position). Attributes are:: id = Node Id locX = X coordinate locY = Y coordinate Example:: Element ############## This element describes wired links between two nodes. Attributes are:: fromId = From Node Id (first node id) toId = To Node Id (second node id) Example::

Element ########### This element describes a packet over wired links being transmitted at some node and received at another. The reception details are described in its associated rx element Attributes are:: fId = Node Id transmitting the packet fbTx = First bit transmit time of the packet lbTx = Last bit transmit time of the packet toId = Node Id receiving the packet fbRx = First bit Reception Time of the packet lbRx = Last bit Reception Time of the packet Example::

A packet over wired-links from Node 1 was received at Node 0. The first bit of the packet was transmitted at the 1st second, the last bit was transmitted at the 1.000067199th second of the simulation Node 0 received the first bit of the packet at the 1.002th second and the last bit of the packet at the 1.002067199th second of the simulation NOTE: A packet with fromId == toId is a dummy packet used internally by the AnimationInterface. Please ignore this packet Element ############ This element describes a packet over wireless links being transmitted at some node and received at another. The reception details are described in its associated rx element. Attributes are:: fromId = Node Id transmitting the packet fbTx = First bit transmit time of the packet lbTx = Last bit transmit time of the packet range = Range of the transmission Example:: A packet over wireless-links from Node 20 was received at Node 32. The first bit of the packet was transmitted at the 0.003th second, the last bit was transmitted at the 0.003254 second of the simulation Node 0 received the first bit of the packet at the 0.003000198 second and the last bit of the packet at the 0.003254198 second of the simulation Wiki ==== For detailed instructions on installing "NetAnim", F.A.Qs and loading the XML trace file (mentioned earlier) using NetAnim please refer: http://www.nsnam.org/wiki/NetAnim