Network.ned
NED File examples/bgpv4/Bgp2RoutersInAS/Network.ned
| Name | Type | Description |
|---|---|---|
| BgpNetwork | network | (no description) |
Source code
package inet.examples.bgpv4.Bgp2RoutersInAS; import inet.common.misc.ThruputMeteringChannel; import inet.networklayer.configurator.ipv4.Ipv4NetworkConfigurator; import inet.node.bgp.BgpRouter; import inet.node.ethernet.EthernetSwitch; import inet.node.inet.StandardHost; import inet.node.ospfv2.OspfRouter; import inet.visualizer.canvas.integrated.IntegratedCanvasVisualizer; network BgpNetwork { types: channel LINK_100 extends ThruputMeteringChannel { parameters: delay = 50us; datarate = 100Mbps; displayAsTooltip = true; thruputDisplayFormat = "#N"; } submodules: visualizer: IntegratedCanvasVisualizer { parameters: @display("p=100,100;is=s"); } configurator: Ipv4NetworkConfigurator { parameters: @display("p=100,200;is=s"); config = xmldoc("IPv4Config.xml"); addStaticRoutes = false; addDefaultRoutes = false; addSubnetRoutes = false; } A1: BgpRouter { parameters: @display("p=700,230"); gates: pppg[2]; } A2: BgpRouter { parameters: @display("p=850,230"); gates: pppg[2]; } B: BgpRouter { parameters: @display("p=700,130"); gates: pppg[2]; } C: BgpRouter { parameters: @display("p=850,130"); gates: pppg[3]; } RA1: OspfRouter { parameters: @display("p=700,330;i=device/router"); gates: pppg[3]; } RA2: OspfRouter { parameters: @display("p=850,330;i=device/router"); gates: pppg[3]; } RA3: OspfRouter { parameters: @display("p=775,430;i=device/router"); gates: pppg[2]; ethg[1]; } RB1: OspfRouter { parameters: @display("p=550,130;i=device/router"); gates: pppg[1]; ethg[1]; } RC1: OspfRouter { parameters: @display("p=1000,130;i=device/router"); gates: pppg[2]; ethg[1]; } RC2: OspfRouter { parameters: @display("p=1000,330;i=device/router"); gates: pppg[2]; ethg[1]; } PA3: EthernetSwitch { parameters: @display("p=775,530;i=device/switch"); gates: ethg[3]; } PB1: EthernetSwitch { parameters: @display("p=400,130;i=device/switch"); gates: ethg[3]; } PC1: EthernetSwitch { parameters: @display("p=1150,130;i=device/switch"); gates: ethg[3]; } PC2: EthernetSwitch { parameters: @display("p=1150,330;i=device/switch"); gates: ethg[3]; } HA31: StandardHost { parameters: @display("p=700,630;i=device/pc"); gates: ethg[1]; } HA32: StandardHost { parameters: @display("p=850,630;i=device/pc"); gates: ethg[1]; } HB11: StandardHost { parameters: @display("p=250,80;i=device/pc"); gates: ethg[1]; } HB12: StandardHost { parameters: @display("p=250,180;i=device/pc"); gates: ethg[1]; } HC11: StandardHost { parameters: @display("p=1300,80;i=device/pc"); gates: ethg[1]; } HC12: StandardHost { parameters: @display("p=1300,180;i=device/pc"); gates: ethg[1]; } HC21: StandardHost { parameters: @display("p=1300,280;i=device/pc"); gates: ethg[1]; } HC22: StandardHost { parameters: @display("p=1300,380;i=device/pc"); gates: ethg[1]; } connections: //LAN RA3 HA31.ethg[0] <--> LINK_100 <--> PA3.ethg[0]; HA32.ethg[0] <--> LINK_100 <--> PA3.ethg[1]; PA3.ethg[2] <--> LINK_100 <--> RA3.ethg[0]; //LAN RB1 HB11.ethg[0] <--> LINK_100 <--> PB1.ethg[0]; HB12.ethg[0] <--> LINK_100 <--> PB1.ethg[1]; PB1.ethg[2] <--> LINK_100 <--> RB1.ethg[0]; //LAN C1 et C2 HC11.ethg[0] <--> LINK_100 <--> PC1.ethg[0]; HC12.ethg[0] <--> LINK_100 <--> PC1.ethg[1]; HC21.ethg[0] <--> LINK_100 <--> PC2.ethg[0]; HC22.ethg[0] <--> LINK_100 <--> PC2.ethg[1]; PC1.ethg[2] <--> LINK_100 <--> RC1.ethg[0]; PC2.ethg[2] <--> LINK_100 <--> RC2.ethg[0]; //OSPF A RA1.pppg[2] <--> LINK_100 <--> RA3.pppg[0]; RA2.pppg[2] <--> LINK_100 <--> RA3.pppg[1]; RA1.pppg[1] <--> LINK_100 <--> RA2.pppg[1]; RA1.pppg[0] <--> LINK_100 <--> A1.pppg[1]; RA2.pppg[0] <--> LINK_100 <--> A2.pppg[1]; //OSPF B RB1.pppg[0] <--> LINK_100 <--> B.pppg[1]; //OSPF C RC1.pppg[1] <--> LINK_100 <--> RC2.pppg[1]; RC1.pppg[0] <--> LINK_100 <--> C.pppg[1]; RC2.pppg[0] <--> LINK_100 <--> C.pppg[2]; //BGP A1.pppg[0] <--> LINK_100 <--> B.pppg[0]; A2.pppg[0] <--> LINK_100 <--> C.pppg[0]; }
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