399 lines
10 KiB
Tcl
399 lines
10 KiB
Tcl
#
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# Copyright 2005-2013 the Boeing Company.
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# See the LICENSE file included in this distribution.
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#
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#
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# Copyright 2004-2008 University of Zagreb, Croatia.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions
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# are met:
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# 1. Redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer.
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# 2. Redistributions in binary form must reproduce the above copyright
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# notice, this list of conditions and the following disclaimer in the
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# documentation and/or other materials provided with the distribution.
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#
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# THIS SOFTWARE IS PROVIDED BY AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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# ARE DISCLAIMED. IN NO EVENT SHALL AUTHOR OR CONTRIBUTORS BE LIABLE
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# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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# OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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# SUCH DAMAGE.
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#
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#
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#****h* imunes/ns2imunes.tcl
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# NAME
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# ns2imunes.tcl -- file used for converting from ns2 scripts to IMUNES conf
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# file
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# FUNCTION
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# This module implements functionality for converting ns2 scripts into
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# IMUNES conf file. Now, only basic ns2 functionalities are implemented, those
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# that can't be written in IMUNES config file or those that are not implemented
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# yet are ignored.
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#****
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#****f* ns2imunes.tcl/ns2im
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# NAME
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# ns2im -- converts ns2 script into IMUNES and draws topology
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# SYNOPSIS
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# ns2im $ns2script
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# FUNCTION
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# Implements basic logic for converting between formats.
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# INPUTS
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# * srcfile -- ns2 scripy
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#****
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proc ns2im { srcfile } {
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global node_list
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global link_list
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global canvas_list
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global curcanvas
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global cfg
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set cfg {}
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set node_list {}
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set link_list {}
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set canvas_list {}
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source $srcfile
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foreach node $node_list {
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setNodeCanvas $node $curcanvas
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}
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changeNodeType
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setDefaultRoutes
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arrangeNodes
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dumpCfg string cfg
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loadCfg $cfg
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redrawAll
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if { [file exists out.nam] == 1 } {
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file delete out.nam
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}
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}
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#****f* ns2imunes.tcl/new
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# NAME
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# new -- basic/main ns2 function, invoked in ns2 script
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# SYNOPSIS
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# set ns [new Simulator]
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# FUNCTION
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# Points to our main function: root-func.
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# INPUTS
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# * object -- can be Simulator, Agent, Application.
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#****
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proc new {object} {
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set arg [split $object "/"]
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set typepc "TCP UDP RTP RTCP"
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set typehost "TCPSink Null"
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if {$object == "Simulator"} {
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return root-func
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} elseif {[lindex $arg 0] == "Agent"} {
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return nullfunc
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} elseif {[lindex $arg 0] == "Application"} {
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return nullfunc
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} else {
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return nullfunc
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}
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}
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#****f* ns2imunes.tcl/nullfunc
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# NAME
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# nullfunc -- does nothing; needed for avoiding errors.
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# SYNOPSIS
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# nullfunc args
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# INPUTS
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# * can be any number of inputs
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#****
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proc nullfunc {args} {
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}
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#****f* ns2imunes.tcl/root-func
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# NAME
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# root-func -- calls other functions
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# SYNOPSIS
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# root-func ns_command $args
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# FUNCTION
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# For input node this procedure enables or disables custom configuration.
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# INPUTS
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# * ns_command -- first arg is always name of the function
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# * args -- argument for function; there can be any number of arguments
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# RESULT
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# Returns result of function $ns_command
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#****
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proc root-func {ns_command args} {
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catch {
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if {$args == ""} {
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set x [$ns_command]
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return $x
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} else {
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set y [$ns_command $args]
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return $y
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}
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} value
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return $value
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}
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#****f* ns2imunes.tcl/node
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# NAME
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# node -- creates new node, ns_command invoked from root-func
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# SYNOPSIS
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# set node [node]
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# RESULT
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# * node_id -- node id of a new node of type router
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#****
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proc node {} {
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set default "router"
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return [newNode $default]
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}
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#not implemented yet in IMUNES
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proc simplex-link { linkdata } {
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}
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#****f* ns2imunes.tcl/duplex-link
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# NAME
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# duplex-link -- creates new link, ns_command invoked from root-func
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# SYNOPSIS
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# duplex-link $linkdata_list
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# INPUTS
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# * linkdata -- list that describes link
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# RESULT
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# * new_link_id -- new link id.
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#****
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proc duplex-link { linkdata } {
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set node1 [lindex $linkdata 0]
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set node2 [lindex $linkdata 1]
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set bw [lindex $linkdata 2]
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set dly [lindex $linkdata 3]
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set type [lindex $linkdata 4]
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set link [newLink $node1 $node2]
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set bandwidth [getBandwidth $bw]
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setLinkBandwidth $link $bandwidth
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set delay [getDelay $dly]
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setLinkDelay $link $delay
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set queueingDiscipline [getQueingDiscipline $type]
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}
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#****f* ns2imunes.tcl/changeNodeType
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# NAME
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# changeNodeType -- passes through list node_list and changes type of node.
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# SYNOPSIS
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# changeNodeType
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# FUNCTION
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# Passes through list node_list and calls procedures for changing type of
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# node if node has more than one neighbour.
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#****
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proc changeNodeType {} {
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global node_list
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foreach node $node_list {
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set ifc [ifcList $node]
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set ifcnum [llength $ifc]
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if { $ifcnum == 1 } {
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setNodeModel $node "PC"
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}
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}
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}
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#****f* ns2imunes.tcl/setDefaultRoutes
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# NAME
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# setDefaultRoutes -- sets default routes for non router nodes
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# SYNOPSIS
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# setDefaultRoutes
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#****
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proc setDefaultRoutes {} {
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global node_list
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foreach node $node_list {
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set type [nodeType $node]
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if { $type == "pc" || $type == "host" } {
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set interfaces [ifcList $node]
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foreach ifc $interfaces {
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autoIPv4defaultroute $node $ifc
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autoIPv6defaultroute $node $ifc
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}
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}
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}
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}
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#****f* ns2imunes.tcl/getBandwidth
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# NAME
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# getBandwith -- returns bandwidth value in bits
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# SYNOPSIS
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# getBandwith $bandwith
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# FUNCTION
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# Detects input unit, and returns bandwidth value in bits.
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# INPUTS
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# * bw -- bandwidth
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#****
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proc getBandwidth { bw } {
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regexp {[0-9]+} $bw value
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regexp {[A-Za-z]+} $bw unit
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switch $unit {
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"Kb" "return [expr $value*1000]"
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"Mb" "return [expr $value*1000000]"
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"Gb" "return [expr $value*1000000000]"
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}
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}
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#****f* ns2imunes.tcl/getDelay
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# NAME
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# getDelay -- returns delay value in microseconds
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# SYNOPSIS
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# getDelay $dly
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# FUNCTION
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# Detects input unit, and returns delay value in microseconds.
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# INPUTS
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# * dly -- delay
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#****
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proc getDelay { dly } {
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regexp {[0-9]+} $dly value
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regexp {[a-z]+} $dly unit
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switch $unit {
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"ms" " return [expr $value*1000] "
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"us" " return $value "
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}
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}
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#****f* ns2imunes.tcl/getQueingDiscipline
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# NAME
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# getQueingDiscipline -- returns queing discipline
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# SYNOPSIS
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# getQueingDiscipline $type
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# INPUTS
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# * type -- type of queing discipline written in ns2 format
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#****
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proc getQueingDiscipline { type } {
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if {[string match "DropTail" $type]} {
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return "droptail"
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} elseif {[string match "CBQ" $type] ||\
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[string match "WFQ" $type]} {
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return "fair-queue"
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} elseif {[string match "DRR" $type]} {
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return "drr-queue"
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}
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}
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#****f* ns2imunes.tcl/arrangeNodes
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# NAME
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# arrangeNodes -- calculates coordinates for nodes
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# SYNOPSIS
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# arrangeNodes
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# FUNCTION
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# Calculates and writes coordinates for every node in global variable
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# node_list.
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#****
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proc arrangeNodes {} {
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global node_list
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global activetool
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#with next foreach loop we divide nodes on layer3/router
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#nodes and edge (pc, host) nodes
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set routers {}
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set edgeNodes {}
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foreach node $node_list {
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set type [nodeType $node]
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if { $type == "router" } {
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lappend routers $node
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} else {
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lappend edgeNodes $node
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}
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}
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set center {450 310}
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set i 0
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set rnum [llength $routers]
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set pi [expr 2*asin(1.0)]
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#next foreach loop: we arrange nodes that we have denoted as
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#layer3/router nodes; we place them in a elipse circle and their
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#regular peers (pc or host) are placed above them
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foreach rnode $routers {
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set fi [expr $i*(2*$pi)/$rnum]
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set r [expr 200*(1.0-0.4*abs(sin($fi)))]
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set ximage [expr [lindex $center 0] - $r*cos($fi)]
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set yimage [expr [lindex $center 1] - $r*sin($fi)]
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setNodeCoords $rnode "$ximage $yimage"
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setNodeLabelCoords $rnode "$ximage [expr $yimage + 24]"
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set regularPeers [getRegularPeers $rnode]
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set regpeernum [llength $regularPeers]
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set j 0
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foreach peer $regularPeers {
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if { [hasCoords $peer] >= 0 } {
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continue
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}
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set fi1 [expr ($j-$regpeernum/2)*(2*$pi/3)/$regpeernum]
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set ximage1 [expr $ximage - 200*cos($fi+$fi1)]
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set yimage1 [expr $yimage - 200*sin($fi+$fi1)]
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setNodeCoords $peer "$ximage1 $yimage1"
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set dy 32
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setNodeLabelCoords $peer "$ximage1 [expr $yimage1 + $dy]"
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incr j
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}
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incr i
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}
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if { $routers == "" } {
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set i 0
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foreach node $edgeNodes {
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set fi [expr $i*(2*$pi)/[llength $edgeNodes]]
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set r [expr 200*(1.0-0.5*abs(sin($fi)))]
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set ximage [expr [lindex $center 0] - $r*cos($fi)]
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set yimage [expr [lindex $center 1] - $r*sin($fi)]
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setNodeCoords $node "$ximage $yimage"
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set dy 32
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setNodeLabelCoords $node "$ximage [expr $yimage + $dy]"
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incr i
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}
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}
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}
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#****f* ns2imunes.tcl/getRegularPeers
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# NAME
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# getRegularPeers -- returns list of pc's and hosts connected with router $node
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# SYNOPSIS
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# getRegularPeers $node_id
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# INPUTS
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# * node -- node_id of router to which we are finding peers
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#****
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proc getRegularPeers { node } {
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set interfaces [ifcList $node]
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set regularpeers ""
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foreach ifc $interfaces {
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set peer [peerByIfc $node $ifc]
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if { [nodeType $peer] == "pc" || [nodeType $peer] == "host"} {
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lappend regularpeers $peer
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}
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}
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return $regularpeers
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}
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#****f* ns2imunes.tcl/hasCoords
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# NAME
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# hasCoords -- detects existence of coords
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# SYNOPSIS
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# getRegularPeers $node_id
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# INPUTS
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# * node -- node_id of node.
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# RESULT
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# * >=0 -- coords are assigned to $node
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# * ==1 -- coords are not assigned to $node
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#****
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proc hasCoords {node} {
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global $node
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return [lsearch [set $node] "iconcoords *"]
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}
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