Name | Type | Description |
---|---|---|
WirelessHostSimplified | compound module |
Models a host with one wireless (802.11b) card in infrastructure mode, but using a simplified NIC that does not support handovers. This module is basically a StandardHost with an Ieee80211NicSTASimplified added. It should be used in conjunction with WirelessAPSimplified, or any other AP model which contains Ieee80211NicAPSimplified. |
// // Copyright (C) 2006 Andras Varga // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public License // as published by the Free Software Foundation; either version 2 // of the License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with this program; if not, see <http://www.gnu.org/licenses/>. // package inet.nodes.wireless; import inet.applications.pingapp.PingApp; import inet.applications.tcpapp.TCPApp; import inet.applications.udpapp.UDPApp; import inet.base.NotificationBoard; import inet.linklayer.ethernet.EthernetInterface; import inet.linklayer.ieee80211.Ieee80211NicSTASimplified; import inet.linklayer.ppp.PPPInterface; import inet.mobility.BasicMobility; import inet.networklayer.common.InterfaceTable; import inet.networklayer.ipv4.RoutingTable; import inet.nodes.inet.NetworkLayer; import inet.transport.tcp.TCP; import inet.transport.udp.UDP; // // Models a host with one wireless (802.11b) card in infrastructure mode, // but using a simplified NIC that does not support handovers. // This module is basically a StandardHost with an Ieee80211NicSTASimplified // added. It should be used in conjunction with WirelessAPSimplified, // or any other AP model which contains Ieee80211NicAPSimplified. // // @see WirelessAP, WirelessAPSimplified, WirelessAPWithEth, WirelessAPWithEthSimplified // @see WirelessHost, WirelessHostSimplified // @see MobileHost, MFMobileHost // module WirelessHostSimplified { parameters: @node(); @labels(node,ethernet-node,wireless-node); @display("i=device/wifilaptop"); int numTcpApps = default(0); int numUdpApps = default(0); string tcpAppType = default(""); string udpAppType = default(""); bool IPForward = default(false); string routingFile = default(""); string mobilityType = default("NullMobility"); gates: inout pppg[] @labels(PPPFrame-conn); inout ethg[] @labels(EtherFrame-conn); input radioIn @directIn; submodules: notificationBoard: NotificationBoard { parameters: @display("p=60,70"); } interfaceTable: InterfaceTable { parameters: @display("p=60,150"); } routingTable: RoutingTable { parameters: IPForward = IPForward; routerId = ""; routingFile = routingFile; @display("p=60,230"); } tcpApp[numTcpApps]: <tcpAppType> like TCPApp { parameters: @display("p=163,67"); } tcp: TCP { parameters: @display("p=163,154"); } udpApp[numUdpApps]: <udpAppType> like UDPApp { parameters: @display("p=272,67"); } udp: UDP { parameters: @display("p=272,154"); } pingApp: PingApp { parameters: @display("p=343,200"); } networkLayer: NetworkLayer { parameters: proxyARP = false; @display("p=248,247;q=queue"); gates: ifIn[(sizeof(pppg)+sizeof(ethg))+1]; ifOut[(sizeof(pppg)+sizeof(ethg))+1]; } ppp[sizeof(pppg)]: PPPInterface { parameters: @display("p=205,350,row,90;q=txQueue"); } eth[sizeof(ethg)]: EthernetInterface { parameters: @display("p=240,350,row,90;q=txQueue"); } wlan: Ieee80211NicSTASimplified { parameters: @display("p=120,350;q=queue"); } mobility: <mobilityType> like BasicMobility { parameters: @display("p=58,301"); } connections allowunconnected: for i=0..numTcpApps-1 { tcpApp[i].tcpOut --> tcp.appIn++; tcpApp[i].tcpIn <-- tcp.appOut++; } tcp.ipOut --> networkLayer.tcpIn; tcp.ipIn <-- networkLayer.tcpOut; for i=0..numUdpApps-1 { udpApp[i].udpOut --> udp.appIn++; udpApp[i].udpIn <-- udp.appOut++; } udp.ipOut --> networkLayer.udpIn; udp.ipIn <-- networkLayer.udpOut; networkLayer.pingOut --> pingApp.pingIn; networkLayer.pingIn <-- pingApp.pingOut; // connections to network outside for i=0..sizeof(pppg)-1 { pppg[i] <--> ppp[i].phys; ppp[i].netwOut --> networkLayer.ifIn[i]; ppp[i].netwIn <-- networkLayer.ifOut[i]; } for i=0..sizeof(ethg)-1 { ethg[i] <--> eth[i].phys; eth[i].netwOut --> networkLayer.ifIn[sizeof(pppg)+i]; eth[i].netwIn <-- networkLayer.ifOut[sizeof(pppg)+i]; } radioIn --> wlan.radioIn; wlan.uppergateOut --> networkLayer.ifIn[sizeof(pppg)+sizeof(ethg)]; wlan.uppergateIn <-- networkLayer.ifOut[sizeof(pppg)+sizeof(ethg)]; }