package inet.examples.ospfv2.areas;

import inet.linklayer.ethernet.EtherHub;
import inet.node.inet.StandardHost;
import inet.node.ospfv2.OSPFRouter;
import ned.DatarateChannel;


module TwoNetsArea
{
    parameters:
        @display("p=10,10;b=412,316");
    gates:
        inout ethg[];
    types:
        channel C extends DatarateChannel
        {
            delay = 0.1us;
            datarate = 100Mbps;
        }
    submodules:
        R1: OSPFRouter {
            parameters:
                @display("p=248,124");
            gates:
                ethg[3];
        }
        N1: EtherHub {
            parameters:
                @display("p=156,72");
            gates:
                ethg[2];
        }
        N2: EtherHub {
            parameters:
                @display("p=160,284");
            gates:
                ethg[2];
        }
        R3: OSPFRouter {
            parameters:
                @display("p=360,180");
            gates:
                ethg[3];
        }
        H1: StandardHost {
            parameters:
                @display("p=56,72;i=device/laptop");
            gates:
                ethg[1];
        }
        H2: StandardHost {
            parameters:
                @display("p=56,288;i=device/laptop");
            gates:
                ethg[1];
        }
        R2: OSPFRouter {
            parameters:
                @display("p=248,232");
            gates:
                ethg[3];
        }
    connections:
        H1.ethg[0] <--> C <--> N1.ethg[1];
        N1.ethg[0] <--> C <--> R1.ethg[2];
        R1.ethg[0] <--> C <--> R3.ethg[2];
        N2.ethg[1] <--> C <--> H2.ethg[0];
        R1.ethg[1] <--> C <--> R2.ethg[0];
        R2.ethg[1] <--> C <--> R3.ethg[1];
        R2.ethg[2] <--> C <--> N2.ethg[0];

        // towards other areas
        ethg[0] <--> R3.ethg[0];
}