This documentation is released under the Creative Commons license| Name | Type | Description |
|---|---|---|
| PPP | simple module |
PPP implementation. |
// // Copyright (C) 2004 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.linklayer.ppp; // // PPP implementation. // // Packets are encapsulated in ~PPPFrame. // // PPP is a complex protocol with strong support for link configuration // and maintenance. This model ignores those details, and only performs // simple encapsulation/decapsulation and queuing. // // In routers, PPP relies on an external queue module (see ~IOutputQueue) // to model finite buffer, implement QoS and/or RED, and requests packets // from this external queue one-by-one. // // In hosts, no such queue is used, so PPP contains an internal // queue named txQueue to queue up packets waiting for transmission. // Conceptually, txQueue is of infinite size, but for better diagnostics // one can specify a hard limit in the txQueueLimit parameter -- if this is // exceeded, the simulation stops with an error. // // There is no buffering done on received packets -- they are just decapsulated // and sent up immediately. // // @see ~PPPInterface, ~IOutputQueue, ~PPPFrame // simple PPP { parameters: string interfaceTableModule; // The path to the InterfaceTable module int txQueueLimit = default(1000); // only used if queueModule==""; zero means infinite string queueModule = default(""); // path of external (QoS,RED,etc) queue module int mtu @unit("B") = default(4470B); @display("i=block/rxtx"); @signal[txState](type=long); // 1:transmit, 0:idle @signal[rxPkOk](type=PPPFrame); @signal[dropPkIfaceDown](type=cPacket); //TODO currently both upper and lower; todo separate them @signal[dropPkBitError](type=cPacket); @signal[packetSentToLower](type=PPPFrame); @signal[packetReceivedFromLower](type=cPacket); @signal[packetSentToUpper](type=cPacket); @signal[packetReceivedFromUpper](type=cPacket); @signal[NF_PP_TX_BEGIN](type=TxNotifDetails); @signal[NF_PP_TX_END](type=TxNotifDetails); @signal[NF_PP_RX_END](type=TxNotifDetails); @statistic[txState](title="tx state"; record=timeavg,vector; interpolationmode=sample-hold); @statistic[txPk](title="packets transmitted"; source=packetSentToLower; record=count,"sum(packetBytes)","vector(packetBytes)"; interpolationmode=none); @statistic[rxPkOk](title="packets received OK"; source=rxPkOk; record=count,"sum(packetBytes)","vector(packetBytes)"; interpolationmode=none); @statistic[droppedPkBitError](title="packets dropped/bit error"; source=dropPkBitError; record=count,"sum(packetBytes)","vector(packetBytes)"; interpolationmode=none); @statistic[droppedPkIfaceDown](title="packets dropped/interface down"; source=dropPkIfaceDown; record=count,"sum(packetBytes)","vector(packetBytes)"; interpolationmode=none); @statistic[rcvdPkFromHL](title="packets received from higher layer"; source=packetReceivedFromUpper; record=count,"sum(packetBytes)","vector(packetBytes)"; interpolationmode=none); @statistic[passedUpPk](title="packets passed to higher layer"; source=packetSentToUpper; record=count,"sum(packetBytes)","vector(packetBytes)"; interpolationmode=none); gates: input netwIn; output netwOut; inout phys @labels(PPPFrame); }
This documentation is released under the Creative Commons license