NetAnim: Difference between revisions

NetAnim is an animator based on the multi-platform Qt 4 toolkit. NetAnim currently animates the simulation using an XML trace file collected during simulation.

The NetAnim GUI

Feature-set in NetAnim 3.0

• • Animate wired-links and wireless-links based simulations
  • Complete redesign using the QGraphics framework
  • Packet statistics with filter
  • Node position statistics with node trajectory plotting
  • Improved window re-sizing and zooming

Prerequisites

1. mercurial
2. QT4 development packages (recommended version 4.7)

Debian/Ubuntu Linux distribution:

1. apt-get install mercurial
2. apt-get install qt4-dev-tools

Red Hat/Fedora based distribution:

1. yum install mercurial
2. yum install qt4
3. yum install qt4-devel

Mac/OSX

1. mercurial
2. Qt4 : Install Qt4 (including Qt Creator if possible) from http://qt.nokia.com/downloads/

Downloading NetAnim

• NetAnim 3.0:

hg clone http://code.nsnam.org/jabraham3/netanim

• NetAnim 2.0:

Go to this link NetAnim2

• NetAnim 1.0:

Go to this link NetAnim 1.0

Building NetAnim

NetAnim uses a QT4 build tool called qmake. Only qmake version 4.7 is supported Please read the #Prerequisites before proceeding

In General

cd netanim
make clean
qmake NetAnim.pro    
make

Note: qmake could be "qmake-qt4" in some systems

This should create an executable named "NetAnim" in the same directory

Using NetAnim

Using NetAnim is a two-step process.

Step 1: Generate the animation XML trace file during simulation using "ns3::AnimationInterface" in the ns-3 code base

Step 2: Load the XML trace file generated in Step 1 with the offline animator (NetAnim).

Using ns3::AnimationInterface to generate Animation trace files

The NetAnim application requires a custom trace file for animation. This trace file is created by AnimationInterface in ns-3.

1. Model is at: src/netanim/model
2. Examples are at src/netanim/examples

Recommended set of steps

Here is the recommended set of steps for generating XML Animation traces.They must be applied just before the "Simulation::Run" statement.

NOTE: A node must have an associated mobility model in-order to be displayed on the animation. This applies for both stationary and mobile nodes (See notes below)

 0. Ensure that your wscript includes the "netanim" module. Example as in: src/netanim/examples/wscript. Also include the header [#include "ns3/netanim-module.h"] in your test program
 1. AnimationInterface anim ("animation.xml") 
 2. anim.SetMobilityPollInterval (Seconds (1));[OPTIONAL]
 3. anim.SetConstantPosition (Ptr< Node > n, double x, double y); [OPTIONAL]
 4. Simulator::Run(); 

Try to keep the above as close as possible to the "Simulator::Run()" statement

Running an Example File to generate XML trace file

The netanim example files are located under "src/netanim/examples"

 ./waf --run "dumbbell-animation --nLeftLeaf=5 --nRightLeaf=5 --animFile=dumbbell.xml"
 ./waf --run "grid-animation --xSize=5 --ySize=5 --animFile=grid.xml"

Setting the location of nodes

NetAnim requires a location to be assigned to each Node, in-order to be shown on the animation.

For stationary nodes:

• You should assign the ConstantPositionMobilityModel. Constant Position is a kind of mobility.

Here is an example:

 1. Ptr<Node> n = nodecontainer.Get (1);
 2. AnimationInterface anim ("anim.xml");
 2. anim.SetConstantPosition (n, 100, 200);

where

 1. Get a Ptr to Node from the node container
 2. Instantiate an object of type AnimationInterface
 3. Set a node pointed to by "n" to the x-coordinate of 100 and y-coordinate of 200

For mobile nodes

• You should assign any suitable Mobility model.

The examples for these are found in places such as src/mobility/examples or examples/routing/manet-routing-compare.cc etc

The ns3::AnimationInterface class is responsible for the creation of the xml trace files. Currently, in basic-mode, AnimationInterface records the position of the nodes at every periodic interval. This interval is 200 ms by default. This will become more efficient in future releases. This has the potential to cause a. Slowness in simulation b. Large XML trace files

Some ways to get around this is to identify if your topology has

1. only stationary nodes and hence no mobility
2. or slow-moving nodes

If the above is the case you should use AnimationInterface::SetMobilityPollInterval to set the poll interval to a high value.

Using the XML trace with NetAnim

Run NetAnim and click the file-open button on the top-left hand corner and select the XML trace file that was discussed in the previous sections

• Here is a youtube video demonstrating Animation for Wired transmission click here
• Here is a youtube video demonstrating Animation for Wireless transmission click here
• Here is a youtube video demonstrating Animation for Node trajectory click here

The update rate slider

• Update rate slider:

This slider controls the interval between updating animation. If it is low, more packets will be animated, but the simulation progress will be slow

If it is high, some packets may get skipped, although the simulation may progress faster. 

The Precision Button

If you disable precision by toggling this button, the animation on wired-links may not be granular (separating individual packets on the link. Small packets and large packets will look similar). It is recommended to disable Precision when using CSMA links

Understanding the XML trace file format

Parts of the XML

The XML trace files has the following main sections

1. Topology
   1. Nodes
   2. Links
2. packets (packets over wired-links)
3. wpackets (packets over wireless-links.LTE not supported)

XML tags

Nodes are identified by their unique Node id. The XML begins with the "information" element describing the rest of the elements

<anim> 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)

<topology> 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:
 <topology minX = "-6.42025" minY = "-6.48444" maxX = "186.187" maxY = "188.049">

<node> element

This element describes each Node's Id and X,Y co-ordinate (position)

 Attributes are:
   lp = Logical Processor Id (Used for distributed simulations only)
   id = Node Id
   locX = X coordinate
   locY = Y coordinate

 Example: 
  <node lp = "0" id = "8" locX = "107.599" locY = "96.9366" />

<link> element

This element describes wired links between two nodes.

 Attributes are:
   fromLp = From logical processor Id  (Used for distributed simulations only)
   fromId = From Node Id (first node id)
   toLp   = To logical processor Id
   toId   = To Node Id (second node id)
 
 Example:
  <link fromLp="0" fromId="0" toLp="0" toId="1"/>

<packet> element

This element describes a packet over wired links being transmitted at some node and received at another The reception details is described in it associated rx element

 Attributes are:
   fromLp = From logical processor Id  (Used for distributed simulations only)
   fromId = Node Id transmitting the packet
   fbTx = First bit transmit time of the packet
   lbTx = Last bit transmit time of the packet

 Example: 
  <packet fromLp="0" fromId="1" fbTx="1" lbTx="1.000067199"><rx toLp="0" toId="0" fbRx="1.002" lbRx="1.002067199"/>
  Packet over wired-links from Node 1 was received at Node 0. The first bit of the packet was transmitted at  the 1th 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

<rx> element

This element describes the reception of a packet at a node

 Attributes are:
   toLp = To logical processor Id
   toId = Node Id receiving the packet
   fbRx = First bit Reception Time of the packet
   lbRx = Last bit Reception Time of the packet

<wpacket> element

This element describes a packet over wireless links being transmitted at some node and received at another The reception details is described in it associated rx element

 Attributes are:
   fromLp = From logical processor Id (Used in distributed simulations only)
   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:
  <wpacket fromLp = "0" fromId = "20" fbTx = "0.003" lbTx = "0.003254" range = "59.68176982">
  <rx toLp="0" toId="32" fbRx="0.003000198" lbRx="0.003254198"/>
  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

F.A.Q

• I get

/usr/bin/ld: cannot find -lsqlite3
/usr/bin/ld: cannot find -lpng14
/usr/bin/ld: cannot find -lintl
>>> Try removing the corresponding "-l" phrases from the LIBS variable in NetAnim.pro

• I get GLib-GIO:ERROR:gdbusconnection.c:2279:initable_init: assertion failed: (connection->initialization_error == NULL)Aborted (core dumped)

>>> Don't install or run NetAnim as a root-user

• I get

QImage: XPM pixels missing on image line 9 (possibly a C++ trigraph).
QImage: XPM pixels missing on image line 10 (possibly a C++ trigraph). 
QImage: XPM pixels missing on image line 11 (possibly a C++ trigraph).
QImage: XPM pixels missing on image line 12 (possibly a C++ trigraph).
QImage: XPM pixels missing on image line 13 (possibly a C++ trigraph).
QImage: XPM pixels missing on image line 14 (possibly a C++ trigraph)

>>> These can be ignored

• I am unable to see any packets animated

>>> If you are using Wireless links , try using the "Track" button
>>> If you are using Wired links, try disabling the "Track" button

• The program hangs or crashes

>>> Double-check if the "Special-rules" section has been followed

• I get *.so not found. Try using -rpath

>>> ensure that you have set LD_LIBRARY_PATH correctly