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Network Simulator NS2

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Periodic releases (currently 2.29, Oct. 2000) ... Work with Cygwin. 9. USC INFORMATION SCIENCES INSTITUTE. Running simulations with ns ... – PowerPoint PPT presentation

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Title: Network Simulator NS2


1
Network Simulator (NS2)
  • Slides taken from ISI
  • http//www.isi.edu/nsnam/ns/

2
Agenda
  • Overview of NS2
  • What is NS2
  • How to build an NS2 simulation
  • NS2 internals
  • Language organization
  • Network architecture
  • How to extend NS2
  • Write your code in Otcl
  • Write your code in C

3
What is NS
  • Discrete event simulator
  • Packet-level
  • Link layer and up
  • Wired and wireless

4
Background
  • VINT Virtual InterNet Testbed
  • Intended audience
  • Researchers, Developers, Educators
  • Users from approximately
  • 600 institutes
  • 50 countries
  • Releases
  • Periodic releases (currently 2.29, Oct. 2000)
  • Nightly snapshots (probably compiles and works,
    but unstable)

5
Research Using NS
  • intserv/diffserv (QoS)
  • Multicast
  • Routing
  • Reliable multicast
  • Transport
  • TCP
  • Congestion control
  • Application
  • Web caching
  • Multimedia
  • Mobile Computing

6
Current Status
  • ns-2 (2.29) Simulator Core
  • gt100K lines of C
  • gt70K lines of OTcl
  • gt30K lines of test suite
  • gt20K lines of documentation
  • Other Components
  • Tcl/TK 8.x, OTcl, TclCL, nam-1
  • Tcl-debug, GT-ITM, xgraph,

7
ns Directory Structure
ns-allinone
TK8.0
OTcl
tclcl
Tcl8.0
ns-2
nam-1
C code
...
tcl
ex
test
mcast
lib
...
examples
validation tests
OTcl code
8
Platforms
  • Most UNIX and UNIX-like systems
  • FreeBSD or BSD
  • Linux
  • Sun Solaris
  • HP, SGI
  • Window 95/98/NT
  • Work with Cygwin

9
Running simulations with ns
  • Compile the simulator core (ns)
  • Write a simulation script in Otcl
  • e.g. my-test.tcl
  • Running the simulator
  • e.g. ns my-test.tcl

10
Hello World
  • simple.tcl
  • set sim new Simulator
  • sim at 1 puts \Hello World!\
  • sim at 1.5 exit
  • sim run
  • arches 74 ns simple.tcl
  • Hello World!
  • arches 75

11
How NS2 is implemented?
  • Object-oriented (C, OTcl)
  • Extension to Tcl
  • C for data
  • Per packet action
  • OTcl for control
  • Periodic or triggered action

12
Elements of ns-2
  • Create the event scheduler
  • Turn on tracing
  • Create network
  • Setup routing
  • Insert errors
  • Create transport connection
  • Create traffic
  • Transmit application-level data

13
Creating Event Scheduler
  • Create event scheduler
  • set ns new Simulator
  • Schedule events
  • ns at lttimegt lteventgt
  • lteventgt any legitimate ns/tcl commands
  • Start scheduler
  • ns run

14
Tracing
  • Trace packets on all links
  • ns trace-all open test.out w
  • lteventgt lttimegt ltfromgt lttogt ltpktgt ltsizegt -- ltfidgt
    ltsrcgt ltdstgt ltseqgt ltattrgt
  • 1 0 2 cbr 210 ------- 0 0.0 3.1 0 0
  • - 1 0 2 cbr 210 ------- 0 0.0 3.1 0 0
  • r 1.00234 0 2 cbr 210 ------- 0 0.0 3.1 0 0
  • Trace packets on all links in nam-1 format
  • ns namtrace-all open test.nam w

15
Tracing
  • Turn on tracing on specific links
  • ns trace-queue n0 n1
  • ns namtrace-queue n0 n1

16
Creating Network
  • Nodes
  • set n0 ns node
  • set n1 ns node
  • Links and queuing
  • ns duplex-link n0 n1 ltbandwidthgt ltdelaygt
    ltqueue_typegt
  • ltqueue_typegt DropTail, RED, CBQ, FQ, SFQ, DRR

17
Inserting Errors
  • Creating Error Module
  • set loss_module new ErrorModel
  • loss_module set rate_ 0.01
  • loss_module unit pkt
  • loss_module ranvar new RandomVariable/Uniform
  • loss_module drop-target new Agent/Null
  • Inserting Error Module
  • ns lossmodel loss_module n0 n1

18
Network Dynamics
  • Link failures
  • Hooks in routing module to reflect routing
    changes
  • Four models
  • ns rtmodel Trace ltconfig_filegt n0 n1
  • ns rtmodel Exponential ltparamsgt n0 n1
  • ns rtmodel Deterministic ltparamsgt n0 n1
  • ns rtmodel-at lttimegt updown n0 n1
  • Parameter list
  • ltstartgt ltup_intervalgt ltdown_intervalgt
    ltfinishgt

19
Setup Routing
  • Unicast
  • ns rtproto lttypegt
  • lttypegt Static, Session, DV, cost, multi-path
  • Multicast
  • ns multicast (right after new Simulator)
  • ns mrtproto lttypegt
  • lttypegt CtrMcast, DM, ST, BST

20
Creating Connection UDP
  • UDP
  • set udp new Agent/UDP
  • set null new Agent/Null
  • ns attach-agent n0 udp
  • ns attach-agent n1 null
  • ns connect udp null

21
Creating Traffic On Top of UDP
  • CBR
  • set src new Application/Traffic/CBR
  • Exponential or Pareto on-off
  • set src new Application/Traffic/Exponential
  • set src new Application/Traffic/Pareto

22
Creating Connection TCP
  • TCP
  • set tcp new Agent/TCP
  • set tcpsink new Agent/TCPSink
  • ns attach-agent n0 tcp
  • ns attach-agent n1 tcpsink
  • ns connect tcp tcpsink

23
Creating Traffic On Top of TCP
  • FTP
  • set ftp new Application/FTP
  • ftp attach-agent tcp
  • Telnet
  • set telnet new Application/Telnet
  • telnet attach-agent tcp

24
Creating Traffic Trace Driven
  • Trace driven
  • set tfile new Tracefile
  • tfile filename ltfilegt
  • set src new Application/Traffic/Trace
  • src attach-tracefile tfile
  • ltfilegt
  • Binary format (native!)
  • inter-packet time (msec) and packet size (byte)

25
Summary Generic Script Structure
  • set ns new Simulator
  • Turn on tracing
  • Create topology
  • Setup packet loss, link dynamics
  • Create routing agents
  • Create
  • - multicast groups
  • - protocol agents
  • - application and/or setup traffic sources
  • Post-processing procs
  • Start simulation

26
Part II ns Internals
27
OTcl and C The Duality
Pure OTcl objects
Pure C objects
C/OTcl split objects
C
OTcl
ns
28
C/OTcl Linkage
29
TclObject
  • Basic hierarchy in ns for split objects
  • Mirrored in both C and OTcl
  • Example
  • set tcp new Agent/TCP
  • tcp set packetSize_ 1024
  • tcp advance 5000

30
TclObject Hierarchy and Shadowing
TclObject
TclObject
OTcl class hierarchy
C class hierarchy
Agent
Agent
TcpAgent
Agent/TCP
tcp
_o123
Agent/TCP OTcl shadow object
Agent/TCP C object
31
TclObjectbind()
  • Link C member variables to OTcl object
    variables
  • C
  • TcpAgentTcpAgent()
  • bind(window_, wnd_)
  • bind_time(), bind_bool(), bind_bw()
  • OTcl
  • set tcp new Agent/TCP
  • tcp set window_ 200

32
Initialization of Bound Variables
  • Initialization through OTcl class variables
  • Agent/TCP set window_ 50
  • Do all initialization of bound variables in
    ns/lib/ns-default.tcl
  • Otherwise a warning will be issued when the
    shadow object is created

33
TclObjectcommand()
  • Implement OTcl methods in C
  • Trap point OTcl method cmd
  • Send all arguments after cmd call to
    TclObjectcommand()

34
TclObjectcommand()
  • OTcl
  • set tcp new Agent/TCP
  • tcp advance 10
  • C
  • int TcpAgentcommand(int argc,
  • const charconst argv)
  • if (argc 3)
  • if (strcmp(argv1, advance) 0)
  • int newseq atoi(argv2)
  • return(TCL_OK)
  • return (Agentcommand(argc, argv)

35
TclObjectcommand()
OTcl space
tcp send
TclObjectunknown
tcp cmd send
no such procedure
C space
TcpAgentcommand()
match send?
Yes
No
Invoke parent return Agentcommand()
process and return
36
TclObject Creation and Deletion
  • Global procedures new, delete
  • Example
  • set tcp new Agent/TCP
  • delete tcp

37
TclObject Creation and Deletion
invoke parent constructor
OTcl
C
38
Summary
  • TclObject
  • Unified interpreted (OTcl) and compiled (C)
    class hierarchies
  • Seamless access (procedure call and variable
    access) between OTcl and C
  • TclClass
  • The mechanism that makes TclObject work
  • Tcl primitives to access Tcl interpreter

39
ns Internals
  • Discrete event scheduler
  • Network topology
  • Routing
  • Transport
  • Packet flow
  • Packet format
  • Application

40
Discrete Event Scheduler
time_, uid_, next_, handler_
head_ -gt
  • Three types of schedulers
  • List simple linked list, order-preserving, O(N)
  • Heap O(logN)
  • Calendar hash-based, fastest, O(1)

41
Network Topology Node
Unicast Node
42
Network Topology Link
43
Routing
44
Routing (cont)
Link n0-n1
45
Transport
n0
n1
Port Classifier
Port Classifier
Addr Classifier
Addr Classifier
0
0
dmux_
dmux_
Link n0-n1
entry_
entry_
classifier_
classifier_
Link n1-n0
46
Application Traffic Generator
n0
n1
Port Classifier
Port Classifier
Agent/TCPSink
Addr Classifier
Agent/TCP
Addr Classifier
0
0
agents_
agents_
dmux_
dmux_
Link n0-n1
entry_
entry_
classifier_
classifier_
Link n1-n0
47
Plumbing Packet Flow
n0
n1
Application/FTP
Port Classifier
Port Classifier
Agent/TCPSink
Addr Classifier
Agent/TCP
Addr Classifier
0
0
Link n0-n1
entry_
entry_
Link n1-n0
48
Packet Format
header
data
49
Part III Extending ns
50
ns Directory Structure
ns-allinone
TK8.0
OTcl
tclcl
Tcl8.0
ns-2
nam-1
C code
...
tcl
ex
test
mcast
lib
...
examples
validation tests
OTcl code
51
Extending ns in OTcl
  • If you dont want to compile
  • source your changes in your sim scripts
  • Otherwise
  • Modifying code recompile
  • Adding new files
  • Change Makefile (NS_TCL_LIB), tcl/lib/ns-lib.tcl
  • Recompile

52
Example Agent/Message
n4
n2
128Kb, 50ms
n0
n1
10Mb, 1ms
10Mb, 1ms
n3
n5
53
Agent/Message
S
R
pkt 64 bytes of arbitrary string
Receiver-side processing
  • A UDP agent (without UDP header)
  • Up to 64 bytes user message
  • Good for fast prototyping a simple idea
  • Usage requires extending ns functionality

54
Agent/Message Step 1
  • Define sender
  • class Sender superclass Agent/Message
  • Message format Addr Op SeqNo
  • Sender instproc send-next
  • self instvar seq_ agent_addr_
  • self send agent_addr_ send seq_
  • incr seq_
  • global ns
  • ns at expr ns now0.1 "self send-next"

55
Agent/Message Step 2
  • Define sender packet processing
  • Sender instproc recv msg
  • self instvar agent_addr_
  • set sdr lindex msg 0
  • set seq lindex msg 2
  • puts "Sender gets ack seq from sdr"

56
Agent/Message Step 3
  • Define receiver packet processing
  • Class Receiver superclass Agent/Message
  • Receiver instproc recv msg
  • self instvar agent_addr_
  • set sdr lindex msg 0
  • set seq lindex msg 2
  • puts Receiver gets seq seq from sdr
  • self send addr_ ack seq

57
Agent/Message Step 4
  • Scheduler and tracing
  • Create scheduler
  • set ns new Simulator
  • Turn on Tracing
  • set fd new message.nam w
  • ns namtrace-all fd

58
Agent/Message Step 5
  • Topology
  • for set i 0 i lt 6 incr i
  • set n(i) ns node
  • ns duplex-link n(0) n(1) 128kb 50ms DropTail
  • ns duplex-link n(1) n(4) 10Mb 1ms DropTail
  • ns duplex-link n(1) n(5) 10Mb 1ms DropTail
  • ns duplex-link n(0) n(2) 10Mb 1ms DropTail
  • ns duplex-link n(0) n(3) 10Mb 1ms DropTail
  • ns queue-limit n(0) n(1) 5
  • ns queue-limit n(1) n(0) 5

59
Agent/Message Step 6
  • Routing
  • Packet loss produced by queueing
  • Routing protocol lets run distance vector
  • ns rtproto DV

60
Agent/Message Step 7
  • Cross traffic
  • set udp0 new Agent/UDP
  • ns attach-agent n(2) udp0
  • set null0 new Agent/NULL
  • ns attach-agent n(4) null0
  • ns connect udp0 null0
  • set exp0 new Application/Traffic/Exponential
  • exp0 set rate_ 128k
  • exp0 attach-agent udp0
  • ns at 1.0 exp0 start

61
Agent/Message Step 8
  • Message agents
  • set sdr new Sender
  • sdr set packetSize_ 1000
  • set rcvr new Receiver
  • rcvr set packetSize_ 40
  • ns attach n(3) sdr
  • ns attach n(5) rcvr
  • ns connect sdr rcvr
  • ns connect rcvr sdr
  • ns at 1.1 sdr send-next

62
Agent/Message Step 9
  • End-of-simulation wrapper (as usual)
  • ns at 2.0 finish
  • proc finish
  • global ns fd
  • ns flush-trace
  • close fd
  • exit 0

63
Agent/Message Result
  • Example output
  • gt ./ns msg.tcl
  • Receiver gets seq 0 from 0
  • Sender gets ack 0 from 1
  • Receiver gets seq 1 from 0
  • Sender gets ack 1 from 1
  • Receiver gets seq 2 from 0
  • Sender gets ack 2 from 1
  • Receiver gets seq 3 from 0
  • Sender gets ack 3 from 1
  • Receiver gets seq 4 from 0
  • Sender gets ack 4 from 1
  • Receiver gets seq 5 from 0

64
Add Your Changes into ns
ns-allinone
TK8.0
OTcl
tclcl
Tcl8.0
ns-2
nam-1
C code
...
tcl
mcast
lib
ex
test
...
mysrc
examples
validation tests
msg.tcl
OTcl code
65
Add Your Change into ns
  • tcl/lib/ns-lib.tcl
  • Class Simulator
  • source ../mysrc/msg.tcl
  • Makefile
  • NS_TCL_LIB \
  • tcl/mysrc/msg.tcl \
  • Or change Makefile.in, make distclean, then
    ./configure --enable-debug

66
Extending ns in C
  • Modifying code
  • make depend
  • Recompile
  • Adding code in new files
  • Change Makefile
  • make depend
  • recompile

67
Guidelines
  • Decide position in class hierarchy
  • I.e., which class to derive from?
  • Create new packet header (if necessary)
  • Create C class, fill in methods
  • Define OTcl linkage (if any)
  • Write OTcl code (if any)
  • Build (and debug)

68
Example Agent/Message
  • New packet header for 64-byte message
  • New transport agent to process this new header

69
New Packet Header Step 1
  • Create header structure
  • struct hdr_msg
  • char msg_64
  • static int offset_
  • inline static int offset() return offset_
  • inline static hdr_msg access(Packet p)
  • return (hdr_msg) p-gtaccess(offset_)
  • / per-field member functions /
  • char msg() return (msg_)
  • int maxmsg() return (sizeof(msg_))

70
New Packet Header Step 2
  • PacketHeader/Message
  • static class MessageHeaderClass
  • public PacketHeaderClass
  • public
  • MessageHeaderClass() PacketHeaderClass("PacketH
    eader/Message",
  • sizeof(hdr_msg))
  • bind_offset(hdr_msgoffset_)
  • class_msghdr

71
New Packet Header Step 3
  • Enable tracing (packet.h)
  • enum packet_t
  • PT_TCP,
  • ,
  • PT_MESSAGE,
  • PT_NTYPE // This MUST be the LAST one
  • class p_info
  • name_PT_MESSAGE message
  • name_PT_NTYPE "undefined"

72
New Packet Header Step 4
  • Register new header (tcl/lib/ns-packet.tcl)
  • foreach pair
  • Common off_cmn_
  • Message off_msg_

73
Agent/Message Step 1
TclObject
NsObject
Connector
Classifier
Delay
AddrClassifier
Agent
McastClasifier
Queue
Trace
Enq
Deq
Drop
DropTail
RED
TCP
Message
Reno
SACK
74
Agent/Message Step 2
  • C class definition
  • // Standard split object declaration
  • static class MessageClass public TclClass
  • public
  • MessageClass() TclClass("Agent/Message")
  • TclObject create(int, const charconst)
  • return (new MessageAgent())
  • class_message
  • class MessageAgent public Agent
  • public
  • MessageAgent() Agent(PT_MESSAGE)
  • virtual int command(int argc, const charconst
    argv)
  • virtual void recv(Packet, Handler)

75
Agent/Message Step 3
  • Packet processing send
  • int MessageAgentcommand(int, const charconst
    argv)
  • Tcl tcl Tclinstance()
  • if (strcmp(argv1, "send") 0)
  • Packet pkt allocpkt()
  • hdr_msg mh hdr_msgaccess(pkt)
  • // We ignore message size check...
  • strcpy(mh-gtmsg(), argv2)
  • send(pkt, 0)
  • return (TCL_OK)
  • return (Agentcommand(argc, argv))

76
Agent/Message Step 4
  • Packet processing receive
  • void MessageAgentrecv(Packet pkt, Handler)
  • hdr_msg mh hdr_msgaccess(pkt)
  • // OTcl callback
  • char wrk128
  • sprintf(wrk, "s recv s", name(), mh-gtmsg())
  • Tcl tcl Tclinstance()
  • tcl.eval(wrk)
  • Packetfree(pkt)

77
Scalability vs Flexibility
  • Its tempting to write all-OTcl simulation
  • Benefit quick prototyping
  • Cost memory runtime
  • Solution
  • Control the granularity of your split object by
    migrating methods from OTcl to C

78
THE Merit of OTcl
Program size, complexity
low
high
OTcl
C/C
split objects
  • Smoothly adjust the granularity of scripting to
    balance extensibility and performance
  • With complete compatibility with existing
    simulation scripts

79
Object Granularity Tips
  • Functionality
  • Per-packet processing ? C
  • Hooks, frequently changing code ? OTcl
  • Data management
  • Complex/large data structure ? C
  • One-time configuration variables ? OTcl

80
Final Word
  • My extended ns dumps OTcl scripts!
  • Find the last 10-20 lines of the dump
  • Is the error related to _o cmd ?
  • Check your command()
  • Otherwise, check the otcl script pointed by the
    error message

81
Math Support in NS
  • Random Numbers
  • Tools/rng.cc
  • Tool/random.h,cc
  • Integrals
  • Integrator.h,cc

82
Some examples
  • Multicasting
  • RTP
  • TCP
  • Network Dynamics
  • /tcl/ex/simple.tcl
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