ClientHost5

compound module

(no description)

Usage diagram

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

Used in

Name	Type	Description
Network5	network	(no description)

Properties

Name	Value	Description
display	i=device/pc

Gates

Name	Direction	Size	Description
out	output

Unassigned submodule parameters

Name	Type	Default value	Description
app.displayStringTextFormat	string	"created %p pk (%l)"	determines the text that is written on top of the submodule
app.packetNameFormat	string	"%a-%c"	see directives in module documentation
app.packetRepresentation	string	"byteCount"	determines the chunk of the packet data
app.packetLength	int
app.packetData	int	-1
app.attachCreationTimeTag	bool	true
app.attachIdentityTag	bool	true
app.attachDirectionTag	bool	true
app.clockModule	string	""	relative path of a module that implements IClock(1,2); optional
app.initialProductionOffset	double	0s
app.productionInterval	double		elapsed time between subsequent packets pushed to the connected packet consumer
app.scheduleForAbsoluteTime	bool	true	when a clock is used relative means that setting the clock will not affect the simulation time of the event
queue.displayStringTextFormat	string	"contains %p pk (%l) pushed %u\npulled %o removed %r dropped %d"	determines the text that is written on top of the submodule
queue.packetCapacity	int	-1	maximum number of packets in the queue, no limit by default
queue.dataCapacity	int	-1b	maximum total length of packets in the queue, no limit by default
queue.dropperClass	string	""	determines which packets are dropped when the queue is overloaded, packets are not dropped by default; the parameter must be the name of a C++ class which implements the IPacketDropperFunction C++ interface and is registered via Register_Class
queue.comparatorClass	string	""	determines the order of packets in the queue, insertion order by default; the parameter must be the name of a C++ class which implements the IPacketComparatorFunction C++ interface and is registered via Register_Class
queue.bufferModule	string	""	relative module path to the IPacketBuffer module used by this queue, implicit buffer by default
server.displayStringTextFormat	string	"served %p pk (%l)"	determines the text that is written on top of the submodule
fcsInserter.displayStringTextFormat	string	"processed %p pk (%l)"	determines the text that is written on top of the submodule
fcsInserter.fcsMode	string	"declared"
fcsInserter.headerPosition	string	"back"
InterpacketGapInserter.displayStringTextFormat	string	"delayed %p pk (%l)\nifg: %g"	determines the text that is written on top of the submodule
InterpacketGapInserter.clockModule	string	""	relative path of a module that implements IClock(1,2); optional
InterpacketGapInserter.initialChannelBusy	bool	false	assume that channel was busy before the simulation started
InterpacketGapInserter.duration	double
transmitter.displayStringTextFormat	string	"processed %p pk (%l)"	determines the text that is written on top of the submodule
transmitter.clockModule	string	""	relative path of a module that implements IClock(1,2); optional
transmitter.datarate	double

Source code

module ClientHost5
{
    parameters:
        @display("i=device/pc");
    gates:
        output out;
    submodules:
        app: ActivePacketSource {
            @display("p=150,100");
        }
        queue: PacketQueue {
            @display("p=150,200");
        }
        server: InstantServer {
            @display("p=150,300");
        }
        fcsInserter: FcsHeaderInserter {
            @display("p=150,400");
        }
        InterpacketGapInserter: InterpacketGapInserter {
            @display("p=150,500");
        }
        transmitter: PacketTransmitter {
            @display("p=150,600");
        }
    connections:
        app.out --> queue.in;
        queue.out --> server.in;
        server.out --> fcsInserter.in;
        fcsInserter.out --> InterpacketGapInserter.in;
        InterpacketGapInserter.out --> transmitter.in;
        transmitter.out --> out;
}

File: tutorials/protocol/Network5.ned