📄 test-suite-ecn-ack.tcl
字号:
## Copyright (c) 1995-1997 The Regents of the University of California.# All rights reserved.## Redistribution and use in source and binary forms, with or without# modification, are permitted provided that the following conditions# are met:# 1. Redistributions of source code must retain the above copyright# notice, this list of conditions and the following disclaimer.# 2. Redistributions in binary form must reproduce the above copyright# notice, this list of conditions and the following disclaimer in the# documentation and/or other materials provided with the distribution.# 3. All advertising materials mentioning features or use of this software# must display the following acknowledgement:# This product includes software developed by the Computer Systems# Engineering Group at Lawrence Berkeley Laboratory.# 4. Neither the name of the University nor of the Laboratory may be used# to endorse or promote products derived from this software without# specific prior written permission.## THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE# ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS# OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF# SUCH DAMAGE.## @(#) $Header: /nfs/jade/vint/CVSROOT/ns-2/tcl/test/test-suite-ecn-ack.tcl,v 1.7 2000/07/18 03:10:09 sfloyd Exp $## To run all tests: test-all-ecn-ackset dir [pwd]catch "cd tcl/test"source misc_simple.tclcatch "cd $dir"set flowfile fairflow.tr; # file where flow data is writtenset flowgraphfile fairflow.xgr; # file given to graph tool Class Topology Topology instproc node? num { $self instvar node_ return $node_($num)}Topology instproc makenodes ns { $self instvar node_ set node_(s1) [$ns node] set node_(s2) [$ns node] set node_(r1) [$ns node] set node_(r2) [$ns node] set node_(s3) [$ns node] set node_(s4) [$ns node]}Topology instproc createlinks ns { $self instvar node_ $ns duplex-link $node_(s1) $node_(r1) 10Mb 2ms DropTail $ns duplex-link $node_(s2) $node_(r1) 10Mb 3ms DropTail $ns duplex-link $node_(r1) $node_(r2) 1.5Mb 20ms RED $ns queue-limit $node_(r1) $node_(r2) 25 $ns queue-limit $node_(r2) $node_(r1) 25 $ns duplex-link $node_(s3) $node_(r2) 10Mb 4ms DropTail $ns duplex-link $node_(s4) $node_(r2) 10Mb 5ms DropTail $ns duplex-link-op $node_(s1) $node_(r1) orient right-down $ns duplex-link-op $node_(s2) $node_(r1) orient right-up $ns duplex-link-op $node_(r1) $node_(r2) orient right $ns duplex-link-op $node_(r1) $node_(r2) queuePos 0 $ns duplex-link-op $node_(r2) $node_(r1) queuePos 0 $ns duplex-link-op $node_(s3) $node_(r2) orient left-down $ns duplex-link-op $node_(s4) $node_(r2) orient left-up}Class Topology/net2 -superclass TopologyTopology/net2 instproc init ns { $self instvar node_ $self makenodes $ns $self createlinks $ns}Class Topology/net2-lossy -superclass TopologyTopology/net2-lossy instproc init ns { $self instvar node_ $self makenodes $ns $self createlinks $ns $self instvar lossylink_ set lossylink_ [$ns link $node_(r1) $node_(r2)] set em [new ErrorModule Fid] set errmodel [new ErrorModel/Periodic] $errmodel unit pkt $lossylink_ errormodule $em $em insert $errmodel $em bind $errmodel 0 $em default pass}TestSuite instproc finish file { global quiet PERL $self instvar ns_ tchan_ testName_ cwnd_chan_ exec $PERL ../../bin/getrc -s 2 -d 3 all.tr | \ $PERL ../../bin/raw2xg -a -e -s 0.01 -m 90 -t $file > temp.rands exec $PERL ../../bin/getrc -s 3 -d 2 all.tr | \ $PERL ../../bin/raw2xg -a -e -s 0.01 -m 90 -t $file > temp1.rands if {$quiet == "false"} { exec xgraph -bb -tk -nl -m -x time -y packets temp.rands \ temp1.rands & } ## now use default graphing tool to make a data file ## if so desired if { [info exists cwnd_chan_] && $quiet == "false" } { $self plot_cwnd } $ns_ halt}TestSuite instproc tcpDumpAll { tcpSrc interval label } { global quiet $self instvar dump_inst_ ns_ if ![info exists dump_inst_($tcpSrc)] { set dump_inst_($tcpSrc) 1 set report $label/window=[$tcpSrc set window_]/packetSize=[$tcpSrc set packetSize_] if {$quiet == "false"} { puts $report } $ns_ at 0.0 "$self tcpDumpAll $tcpSrc $interval $label" return } $ns_ at [expr [$ns_ now] + $interval] "$self tcpDumpAll $tcpSrc $interval $label" set report time=[$ns_ now]/class=$label/ack=[$tcpSrc set ack_]/packets_resent=[$tcpSrc set nrexmitpack_] if {$quiet == "false"} { puts $report }} TestSuite instproc emod {} { $self instvar topo_ $topo_ instvar lossylink_ set errmodule [$lossylink_ errormodule] return $errmodule}TestSuite instproc setloss {} { $self instvar topo_ $topo_ instvar lossylink_ set errmodule [$lossylink_ errormodule] set errmodel [$errmodule errormodels] if { [llength $errmodel] > 1 } { puts "droppedfin: confused by >1 err models..abort" exit 1 } return $errmodel}TestSuite instproc setTopo {} { $self instvar node_ net_ ns_ topo_ set topo_ [new Topology/$net_ $ns_] if {$net_ == "net2" || $net_ == "net2-lossy"} { set node_(s1) [$topo_ node? s1] set node_(s2) [$topo_ node? s2] set node_(s3) [$topo_ node? s3] set node_(s4) [$topo_ node? s4] set node_(r1) [$topo_ node? r1] set node_(r2) [$topo_ node? r2] [$ns_ link $node_(r1) $node_(r2)] trace-dynamics $ns_ stdout }}####################################################################### TestSuite instproc ecnsetup { tcptype { tcp1fid 0 } } { $self instvar ns_ node_ testName_ net_ set delay 10ms $ns_ delay $node_(r1) $node_(r2) $delay $ns_ delay $node_(r2) $node_(r1) $delay set stoptime 2.0 set redq [[$ns_ link $node_(r1) $node_(r2)] queue] $redq set setbit_ true $redq set limit_ 50 if {$tcptype == "Tahoe"} { set tcp1 [$ns_ create-connection TCP $node_(s1) \ TCPSink $node_(s3) $tcp1fid] } elseif {$tcptype == "Sack1"} { set tcp1 [$ns_ create-connection TCP/Sack1 $node_(s1) \ TCPSink/Sack1 $node_(s3) $tcp1fid] } else { set tcp1 [$ns_ create-connection TCP/$tcptype $node_(s1) \ TCPSink $node_(s3) $tcp1fid] } $tcp1 set window_ 35 $tcp1 set ecn_ 1 set ftp1 [$tcp1 attach-app FTP] $self enable_tracecwnd $ns_ $tcp1 $ns_ at 0.0 "$ftp1 start" $self tcpDump $tcp1 5.0 # trace only the bottleneck link ##$self traceQueues $node_(r1) [$self openTrace $stoptime $testName_] $ns_ at $stoptime "$self cleanupAll $testName_"}# Drop the specified packet.TestSuite instproc drop_pkt { number } { $self instvar ns_ lossmodel set lossmodel [$self setloss] $lossmodel set offset_ $number $lossmodel set period_ 10000}TestSuite instproc drop_pkts pkts { $self instvar ns_ set emod [$self emod] set errmodel1 [new ErrorModel/List] $errmodel1 droplist $pkts $emod insert $errmodel1 $emod bind $errmodel1 1}######################################################################## Reno Tests ######################################################################### ECN followed by packet loss.Class Test/ecn_ack -superclass TestSuiteTest/ecn_ack instproc init {} { $self instvar net_ test_ Queue/RED set setbit_ true set net_ net2-lossy Agent/TCP set bugFix_ true set test_ ecn_ack $self next}Test/ecn_ack instproc run {} { $self instvar ns_ $self setTopo $self ecnsetup Sack1 $self drop_pkt 20000 $ns_ run}TestSuite runTest⌨️ 快捷键说明
复制代码
Ctrl + C
搜索代码
Ctrl + F
全屏模式
F11
切换主题
Ctrl + Shift + D
显示快捷键
?
增大字号
Ctrl + =
减小字号
Ctrl + -