TODO documentation

Usage diagram

The following diagram shows usage relationships between types. Unresolved types are missing from the diagram.

Inheritance diagram

The following diagram shows inheritance relationships for this type. Unresolved types are missing from the diagram.

Parameters

Name	Type	Default value	Description
interfaceTableModule	string

Properties

Name	Value	Description
display	i=block/classifier

Gates

Name	Direction	Size	Description
in	input
out	output

Unassigned submodule parameters

Name	Type	Default value	Description
mfClassifier.displayStringTextFormat	string	"classified %p pk (%l)"	determines the text that is written on top of the submodule
mfClassifier.reverseOrder	bool	false
efMeter.interfaceTableModule	string		The path to the InterfaceTable module
efMeter.cir	string		committed information rate, either absolute bitrate (e.g. "100kbps"), or relative to the link's datarate (e.g. "20%")
efMeter.cbs	int		committed burst size
efMeter.colorAwareMode	bool	false	enables color-aware mode
mux.displayStringTextFormat	string	"passed %p pk (%l)"	determines the text that is written on top of the submodule
mux.forwardServiceRegistration	bool	true
mux.forwardProtocolRegistration	bool	true
defaultMeter.interfaceTableModule	string		The path to the InterfaceTable module
defaultMeter.cir	string		committed information rate, either absolute bitrate (e.g. "100kbps"), or relative to the link's datarate (e.g. "20%")
defaultMeter.cbs	int		committed burst size
defaultMeter.ebs	int		excess burst size
defaultMeter.colorAwareMode	bool	false	enables color-aware mode
efMarker.displayStringTextFormat	string	"processed %p pk (%l)"	determines the text that is written on top of the submodule
af11Marker.displayStringTextFormat	string	"processed %p pk (%l)"	determines the text that is written on top of the submodule
af21Marker.displayStringTextFormat	string	"processed %p pk (%l)"	determines the text that is written on top of the submodule
af13Marker.displayStringTextFormat	string	"processed %p pk (%l)"	determines the text that is written on top of the submodule
af23Marker.displayStringTextFormat	string	"processed %p pk (%l)"	determines the text that is written on top of the submodule
join.displayStringTextFormat	string	"passed %p pk (%l)"	determines the text that is written on top of the submodule
join.forwardServiceRegistration	bool	true
join.forwardProtocolRegistration	bool	true
beMarker.displayStringTextFormat	string	"processed %p pk (%l)"	determines the text that is written on top of the submodule
baClassifier.displayStringTextFormat	string	"classified %p pk (%l)"	determines the text that is written on top of the submodule
baClassifier.reverseOrder	bool	false
af11Marker2.displayStringTextFormat	string	"processed %p pk (%l)"	determines the text that is written on top of the submodule
dropper.displayStringTextFormat	string	"received %p pk (%l)"	determines the text that is written on top of the submodule
dropper.clockModule	string	""	relative path of a module that implements IClock(1,2); optional
dropper.consumptionInterval	double	0s	elapsed time between subsequent packets allowed to be pushed by the connected packet producer, 0 means any number of packets can be pushed at the same simulation time
dropper.scheduleForAbsoluteTime	bool	true	when a clock is used relative means that setting the clock will not affect the simulation time of the event

Source code

//
// TODO documentation
//
module TrafficConditioner like ITrafficConditioner
{
    parameters:
        string interfaceTableModule;
        *.interfaceTableModule = default(absPath(this.interfaceTableModule));
        @display("i=block/classifier");
    gates:
        input in;
        output out;
    submodules:
        mfClassifier: MultiFieldClassifier {
            filters = xmldoc("filters.xml");
            @display("p=100,250");
        }
        efMeter: TokenBucketMeter {
            @display("p=400,100");
        }
        mux: PacketMultiplexer {
            @display("p=350,300");
        }
        defaultMeter: SingleRateThreeColorMeter {
            @display("p=450,300");
        }
        efMarker: DscpMarker {
            dscps = "EF";
            @display("p=250,100");
        }
        af11Marker: DscpMarker {
            dscps = "AF11";
            @display("p=250,200");
        }
        af21Marker: DscpMarker {
            dscps = "AF21";
            @display("p=250,300");
        }
        af13Marker: DscpMarker {
            dscps = "AF13";
            @display("p=700,350");
        }
        af23Marker: DscpMarker {
            dscps = "AF23";
            @display("p=700,450");
        }
        join: PacketMultiplexer {
            @display("p=850,250");
        }
        beMarker: DscpMarker {
            dscps = "BE";
            @display("p=250,400");
        }
        baClassifier: BehaviorAggregateClassifier {
            dscps = "AF11 AF21";
            @display("p=550,350");
        }
        af11Marker2: DscpMarker {
            dscps = "AF11";
            @display("p=550,100");
        }
        dropper: PassivePacketSink {
            @display("p=550,450");
        }
    connections:
        in --> mfClassifier.in;
        mfClassifier.out++ --> efMarker.in++;
        mfClassifier.out++ --> af11Marker.in++;
        mfClassifier.out++ --> af21Marker.in++;
        mfClassifier.defaultOut --> beMarker.in++;
        efMarker.out --> efMeter.in;
        efMeter.greenOut --> { @display("ls=green"); } --> join.in++;
        efMeter.redOut --> { @display("ls=red"); } --> af11Marker2.in++;
        af11Marker2.out --> join.in++;
        af11Marker.out --> mux.in++;
        af21Marker.out --> mux.in++;
        beMarker.out --> mux.in++;
        mux.out --> defaultMeter.in;
        defaultMeter.greenOut --> { @display("ls=green"); } --> join.in++;
        defaultMeter.yellowOut --> { @display("ls=yellow"); } --> baClassifier.in;
        baClassifier.out++ --> af13Marker.in++;
        baClassifier.out++ --> af23Marker.in++;
        baClassifier.defaultOut --> join.in++;
        af13Marker.out --> join.in++;
        af23Marker.out --> join.in++;
        join.out --> out;
        defaultMeter.redOut --> { @display("ls=red"); } --> dropper.in;
}

File: examples/diffserv/simple_/TrafficConditioner.ned

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