R0---FTP Server(TCP)
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R1-------------R2
/ \ \
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/ \ \
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R3 R4 R5
HA FA1 FA2
N6
MN
# simulation of a wired-cum-wireless topology running with mobileIP
# ======================================================================
# Define options
# ======================================================================
set opt(chan) Channel/WirelessChannel ;# channel type
set opt(prop) Propagation/TwoRayGround ;# radio-propagation model
set opt(netif) Phy/WirelessPhy ;# network interface type
set opt(mac) Mac/802_11 ;# MAC type
set opt(ifq) Queue/DropTail/PriQueue ;# interface queue type
set opt(ll) LL ;# link layer type
set opt(ant) Antenna/OmniAntenna ;# antenna model
set opt(ifqlen) 150 ;# max packet in ifq
set opt(nn) 1 ;# number of mobilenodes
set opt(adhocRouting) DSDV ;# routing protocol
set opt(cp) "" ;# cp file not used
set opt(sc) "" ;# node movement file.
set opt(x) 670 ;# x coordinate of topology in meters
set opt(y) 670 ;# y coordinate of topology in meters
set opt(seed) 0.0 ;# random seed
set opt(stop) 60 ;# time to stop simulation
set opt(ftp1-start) 1.0
set num_wired_nodes 3
# set num_bs_nodes 2 ; this is not really used here.
# ======================================================================
# check for boundary parameters and random seed
if { $opt(x) == 0 || $opt(y) == 0 } {
puts "No X-Y boundary values given for wireless topology\n"
}
if {$opt(seed) > 0} {
puts "Seeding Random number generator with $opt(seed)\n"
ns-random $opt(seed)
}
# create simulator instance
set ns_ [new Simulator]
# set up for hierarchical routing
$ns_ node-config -addressType hierarchical
AddrParams set domain_num_ 4 ;# number of domains
lappend cluster_num 3 1 1 1 ;# number of clusters in each domain
AddrParams set cluster_num_ $cluster_num
lappend eilastlevel 1 1 1 2 1 1 ;# number of nodes in each cluster
AddrParams set nodes_num_ $eilastlevel ;# of each domain
set tracefd [open mywire6.tr w]
#set namtrace [open mywire6.nam w]
#$ns_ use-newtrace ; #added shezy
$ns_ trace-all $tracefd
#$ns_ namtrace-all-wireless $namtrace $opt(x) $opt(y)
# Create topography object
set topo [new Topography]
# define topology
$topo load_flatgrid $opt(x) $opt(y)
# create God
create-god $opt(nn)
#create wired nodes
# set temp {0.0.0 0.1.0} ;# hierarchical addresses
#for {set i 0} {$i < $num_wired_nodes} {incr i} {
# set W($i) [$ns_ node [lindex $temp $i]]
#}
$ns_ color 0 red
$ns_ color 1 blue
set W(0) [$ns_ node 0.0.0]
set W(1) [$ns_ node 0.1.0]
set W(2) [$ns_ node 0.2.0]
# Configure for ForeignAgent and HomeAgent nodes
$ns_ node-config -mobileIP ON \
-adhocRouting $opt(adhocRouting) \
-llType $opt(ll) \
-macType $opt(mac) \
-ifqType $opt(ifq) \
-ifqLen $opt(ifqlen) \
-antType $opt(ant) \
-propType $opt(prop) \
-phyType $opt(netif) \
-channelType $opt(chan) \
-topoInstance $topo \
-wiredRouting ON \
-agentTrace ON \
-routerTrace OFF \
-macTrace OFF
# Create HA and FA
set HA [$ns_ node 1.0.0]
set FA1 [$ns_ node 2.0.0]
set FA2 [$ns_ node 3.0.0]
$HA random-motion 0
$FA1 random-motion 0
$FA2 random-motion 0
# Position (fixed) for base-station nodes (HA & FA).
$HA set X_ 1.00
$HA set Y_ 10.00
$HA set Z_ 0.00
$FA1 set X_ 350.00
$FA1 set Y_ 10.00
$FA1 set Z_ 0.00
$FA2 set X_ 600.00
$FA2 set Y_ 10.00
$FA2 set Z_ 0.00
# create a mobilenode that would be moving between HA and FA.
# note address of MH indicates its in the same domain as HA.
$ns_ node-config -wiredRouting OFF
set MH [$ns_ node 1.0.1]
set node_(0) $MH
set HAaddress [AddrParams addr2id [$HA node-addr]]
[$MH set regagent_] set home_agent_ $HAaddress
# movement of the MH
$MH set X_ 1.00
$MH set Y_ 5.00
$MH set Z_ 0.00
# MH starts to move towards FA 11m/sec = 40KM/Hrs
$ns_ at 15.00 "$MH setdest 600.00 5.00 11.00"
# goes back to HA
#$ns_ at 200.00 "$MH setdest 2.00 5.00 11.00"
# create links between wired and BaseStation nodes
$ns_ duplex-link $W(0) $W(1) 10Mb 2ms DropTail
$ns_ duplex-link $W(1) $HA 10Mb 2ms DropTail
$ns_ duplex-link $W(1) $FA1 10Mb 2ms DropTail
$ns_ duplex-link $W(1) $W(2) 10Mb 2ms DropTail ; #syed
$ns_ duplex-link $W(2) $FA2 10Mb 2ms DropTail ; #syed
$ns_ duplex-link-op $W(0) $W(1) orient down
$ns_ duplex-link-op $W(1) $HA orient left-down
$ns_ duplex-link-op $W(1) $FA1 orient right-down
$ns_ duplex-link-op $W(1) $W(2) orient right ; #syed
$ns_ duplex-link-op $W(2) $FA2 orient right-down ; #syed
# setup TCP connections between a wired node and the MobileHost
set tcp1 [new Agent/TCP]
$tcp1 set class_ 2
set sink1 [new Agent/TCPSink]
$ns_ attach-agent $W(0) $tcp1
$ns_ attach-agent $MH $sink1
$ns_ connect $tcp1 $sink1
set ftp1 [new Application/FTP]
$ftp1 attach-agent $tcp1
$ns_ at $opt(ftp1-start) "$ftp1 start"
# source connection-pattern and node-movement scripts
if { $opt(cp) == "" } {
puts "*** NOTE: no connection pattern specified."
set opt(cp) "none"
} else {
puts "Loading connection pattern..."
source $opt(cp)
}
if { $opt(sc) == "" } {
puts "*** NOTE: no scenario file specified."
set opt(sc) "none"
} else {
puts "Loading scenario file..."
source $opt(sc)
puts "Load complete..."
}
# Define initial node position in nam
for {set i 0} {$i < $opt(nn)} {incr i} {
# 20 defines the node size in nam, must adjust it according to your
# scenario
# The function must be called after mobility model is defined
$ns_ initial_node_pos $node_($i) 20
}
# Tell all nodes when the smiulation ends
for {set i 0} {$i < $opt(nn) } {incr i} {
$ns_ at $opt(stop).0 "$node_($i) reset";
}
$ns_ at $opt(stop).0 "$HA reset";
$ns_ at $opt(stop).0 "$FA1 reset";
$ns_ at $opt(stop).0002 "puts \"NS EXITING...\" ; $ns_ halt"
$ns_ at $opt(stop).0001 "stop"
proc stop {} {
# global ns_ tracefd namtrace
global ns_ tracefd
close $tracefd
# close $namtrace
}
# some useful headers for tracefile
#puts $tracefd "M 0.0 nn $opt(nn) x $opt(x) y $opt(y) rp \
# $opt(adhocRouting)"
#puts $tracefd "M 0.0 sc $opt(sc) cp $opt(cp) seed $opt(seed)"
#puts $tracefd "M 0.0 prop $opt(prop) ant $opt(ant)"
puts "Starting Simulation..."
$ns_ run
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