= New Delay Node Commands = == Introduction == To simulate real networks Emulab offers a choice of injecting delays and dropping packets. This is done by inserting intercepting nodes, running dummynet, that delay packets and induce some artificial losses. DETER inherited this feature from [http://www.emulab.com Emulab], however, real network's behaviour is far different from static loss and delays. This new delay node tries to emulate real delays that fits into some well-know probability distribution. Also, it allows the user to configure a more sophisticated loss model. This new delay node is similar to dummynet by the mean of intercepting connections. These nodes runs Click modular routers, with some new modules developed in DETER. Below is the description of the command that sets up networks and configure nodes with the new features. The new command syntax is similar to the old make-lan to make an easy transition. However, it doesn't require the user to memorise the position of the parameters. == make-deter-lan == The new delay node supports variable delays based on various probability distributions such as: Poisson, Normal and Exponential. Moreover, it enhances some of the functions for a more realistic link emulation. "make-deter-lan" command create a LAN that uses this new delay node to control bandwidth, add probabilistic delays and induces sophisticated loss pattern. make-deter-lan parameters are the nodelist, bandwidth, delay properties, and loss pattern description. To create a LAN, connecting three nodes, with a static delay of 30ms, 1Gb bandwidth and a static loss of threshold 0.1 and a rate of 1. {{{ set ns [ new Simulator] source tb_compat.tcl set nodeA [$ns node] set nodeB [$ns node] set nodeC [$ns node] set lan1 [$ns make-deter-lan "$nodeA $nodeB $nodeC" bw 1Gb delay static mean 30ms loss static threshold 0.1 rate 1] $ns rtproto Static $ns run }}} By swapping an experiment with the above NS file and pinging nodeB from nodeA, you would get something like the following: {{{ ping nodeb -c 1000000 PING nodeB-lan1 (10.1.1.3) 56(84) bytes of data. 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=1 ttl=64 time=60.1 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=2 ttl=64 time=60.1 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=3 ttl=64 time=60.1 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=4 ttl=64 time=60.1 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=5 ttl=64 time=60.1 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=6 ttl=64 time=60.1 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=7 ttl=64 time=60.1 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=8 ttl=64 time=60.1 ms ..... ..... ..... ..... 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=16951 ttl=64 time=60.2 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=16953 ttl=64 time=60.2 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=16954 ttl=64 time=60.2 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=16956 ttl=64 time=60.2 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=16957 ttl=64 time=60.2 ms --- nodeB-lan1 ping statistics --- 1000000 packets transmitted, 817371 received, 18% packet loss, time 12880005ms rtt min/avg/max/mdev = 60.111/60.185/103.070/0.338 ms, pipe 8, ipg/ewma 12.880/60.231 ms }}} make-deter-lan receives the arguments in any order e.g you could provide delay parameters before loss one, however, nodelist should be the first. Note that bandwidth parameters have to be preceded by "bw", delay with "delay", and loss with "loss". Also, specifiying delay and loss parameters should be preceded by some keywords e.g mean, std (standard deviation), threshold (loss threshold), and rate. The user only have to provide the nodelist, others are optional, but once she provide any it has to be provided in the correct format.The command is described by: {{{ make-deter-lan [bw ] [delay mean [std ] ] [loss threshold rate ] }}} Delay types are : static, normal , poisson and exponential. Note that normal requires standard variation, which is set to zero if not provided. loss dropmodes are static and poisson. Also notice that the default bandwidth is 1Gb. By choosing a static delay with 100ms, the LAN would delay each packet by 100ms. Normal delays packets based on a normal distribution fashion, with a mean and a standard variation. Plotting the travel time of the packet you would get a bell-curved graph. Poisson delays packet based on a discrete poisson distribution with Lambda=mean, and so does the exponential. The loss model is more sophisticated.It adds the ability to drop packets based on different parameters. The user can adjust the parameters to achieve any desirable pattern. Dropping packet is based on a threshold x; x ≥ 0.000001 and x ≤ 1 which is given by the user. For each received packet, if not in the dropping state, the element generates a uniform random number r ∈ [0.000001, 1] if r ≤ x then it enters the dropping mode. It has to drop σ packets to leave the dropping state. σ is either a static value given by the user or a random number belongs to a Poisson distribution. To set up a dropping mode with static dropping rate the dropmode should be set to "static". == Examples == {{{ #Example 1 make-deter-lan "$nodeA $nodeB " bw 1Gb delay static mean 100ms }}} Ping from nodeA to nodeB {{{ ping nodeb -c 100 PING nodeB-lan1 (10.1.1.3) 56(84) bytes of data. 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=1 ttl=64 time=200 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=2 ttl=64 time=200 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=3 ttl=64 time=200 ms ...... ...... ...... }}} {{{ #Example 2 make-deter-lan "$nodeA $nodeB " bw 1Gb delay normal mean 100ms stv 5 }}} Ping from nodeA to nodeB {{{ ping nodeb PING nodeB-lan1 (10.1.1.3) 56(84) bytes of data. 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=1 ttl=64 time=205 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=2 ttl=64 time=195 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=3 ttl=64 time=201 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=4 ttl=64 time=201 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=5 ttl=64 time=202 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=6 ttl=64 time=193 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=7 ttl=64 time=211 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=8 ttl=64 time=209 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=9 ttl=64 time=200 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=11 ttl=64 time=190 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=10 ttl=64 time=202 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=12 ttl=64 time=197 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=13 ttl=64 time=200 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=14 ttl=64 time=198 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=15 ttl=64 time=205 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=16 ttl=64 time=195 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=17 ttl=64 time=205 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=18 ttl=64 time=197 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=19 ttl=64 time=202 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=20 ttl=64 time=210 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=21 ttl=64 time=200 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=23 ttl=64 time=185 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=22 ttl=64 time=200 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=24 ttl=64 time=202 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=25 ttl=64 time=203 ms ...... ...... }}} {{{ #Example 3 make-deter-lan "$nodeA $nodeB " bw 1Gb delay poisson mean 100ms }}} Ping from nodeA to nodeB {{{ ping nodeb -i 0 -c 100 PING nodeB-lan1 (10.1.1.3) 56(84) bytes of data. 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=1 ttl=64 time=190 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=2 ttl=64 time=202 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=3 ttl=64 time=195 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=4 ttl=64 time=190 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=5 ttl=64 time=205 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=6 ttl=64 time=199 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=7 ttl=64 time=211 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=8 ttl=64 time=210 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=9 ttl=64 time=208 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=11 ttl=64 time=190 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=12 ttl=64 time=199 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=10 ttl=64 time=222 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=14 ttl=64 time=183 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=13 ttl=64 time=197 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=15 ttl=64 time=194 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=16 ttl=64 time=211 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=17 ttl=64 time=201 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=19 ttl=64 time=204 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=20 ttl=64 time=196 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=21 ttl=64 time=187 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=22 ttl=64 time=185 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=18 ttl=64 time=238 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=23 ttl=64 time=189 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=25 ttl=64 time=170 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=24 ttl=64 time=200 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=26 ttl=64 time=182 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=28 ttl=64 time=184 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=27 ttl=64 time=201 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=29 ttl=64 time=200 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=30 ttl=64 time=207 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=31 ttl=64 time=203 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=32 ttl=64 time=208 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=34 ttl=64 time=217 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=33 ttl=64 time=228 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=35 ttl=64 time=221 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=37 ttl=64 time=209 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=36 ttl=64 time=225 ms 64 bytes from nodeB-lan1 (10.1.1.3): icmp_seq=38 ttl=64 time=206 ms }}} {{{ #Example 4 make-deter-lan "$nodeA $nodeB " bw 1Gb delay exponential mean 15ms }}} Ping from nodeA to nodeB {{{ }}} {{{ #Example 5 make-deter-lan "$nodeA $nodeB " bw 1Gb delay static mean 100ms loss static threshold 0.01 rate 1 }}} Ping from nodeA to nodeB {{{ }}} {{{ #Example 6 make-deter-lan "$nodeA $nodeB " bw 1Gb delay normal mean 100ms std 5 loss poisson threshold 0.01 rate 5 }}} Ping from nodeA to nodeB {{{ }}} This is a placeholder