Network BGPTest

Package: inet.examples.bgpv4.BGP2RoutersInAS
File: examples/bgpv4/BGP2RoutersInAS/Network.ned

(no description)

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.

Properties:

Name	Value	Description
isNetwork

Unassigned submodule parameters:

Name	Type	Default value	Description
A1.status.initialStatus	string	"UP"	TODO @signal, @statistic
A1.routingTable.forwarding	bool
A1.routingTable.multicastForwarding	bool
A1.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
A1.pcapRecorder.verbose	bool	false	whether to log packets on the module output
A1.pcapRecorder.pcapFile	string	""	the PCAP file to be written
A1.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
A1.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
A1.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
A1.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
A1.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
A1.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
A1.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
A1.lo0.lo.mtu	int	4470B
A1.bgp.interfaceTableModule	string		The path to the InterfaceTable module
A1.bgp.routingTableModule	string
A1.bgp.ospfRoutingModule	string	hasOSPF ? "^.ospf" : ""
A1.bgp.dataTransferMode	string
A2.status.initialStatus	string	"UP"	TODO @signal, @statistic
A2.routingTable.forwarding	bool
A2.routingTable.multicastForwarding	bool
A2.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
A2.pcapRecorder.verbose	bool	false	whether to log packets on the module output
A2.pcapRecorder.pcapFile	string	""	the PCAP file to be written
A2.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
A2.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
A2.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
A2.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
A2.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
A2.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
A2.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
A2.lo0.lo.mtu	int	4470B
A2.bgp.interfaceTableModule	string		The path to the InterfaceTable module
A2.bgp.routingTableModule	string
A2.bgp.ospfRoutingModule	string	hasOSPF ? "^.ospf" : ""
A2.bgp.dataTransferMode	string
B.status.initialStatus	string	"UP"	TODO @signal, @statistic
B.routingTable.forwarding	bool
B.routingTable.multicastForwarding	bool
B.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
B.pcapRecorder.verbose	bool	false	whether to log packets on the module output
B.pcapRecorder.pcapFile	string	""	the PCAP file to be written
B.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
B.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
B.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
B.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
B.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
B.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
B.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
B.lo0.lo.mtu	int	4470B
B.bgp.interfaceTableModule	string		The path to the InterfaceTable module
B.bgp.routingTableModule	string
B.bgp.ospfRoutingModule	string	hasOSPF ? "^.ospf" : ""
B.bgp.dataTransferMode	string
C.status.initialStatus	string	"UP"	TODO @signal, @statistic
C.routingTable.forwarding	bool
C.routingTable.multicastForwarding	bool
C.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
C.pcapRecorder.verbose	bool	false	whether to log packets on the module output
C.pcapRecorder.pcapFile	string	""	the PCAP file to be written
C.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
C.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
C.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
C.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
C.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
C.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
C.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
C.lo0.lo.mtu	int	4470B
C.bgp.interfaceTableModule	string		The path to the InterfaceTable module
C.bgp.routingTableModule	string
C.bgp.ospfRoutingModule	string	hasOSPF ? "^.ospf" : ""
C.bgp.dataTransferMode	string
RA1.status.initialStatus	string	"UP"	TODO @signal, @statistic
RA1.routingTable.forwarding	bool
RA1.routingTable.multicastForwarding	bool
RA1.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
RA1.pcapRecorder.verbose	bool	false	whether to log packets on the module output
RA1.pcapRecorder.pcapFile	string	""	the PCAP file to be written
RA1.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
RA1.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
RA1.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
RA1.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
RA1.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
RA1.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
RA1.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
RA1.lo0.lo.mtu	int	4470B
RA1.bgp.interfaceTableModule	string		The path to the InterfaceTable module
RA1.bgp.routingTableModule	string
RA1.bgp.ospfRoutingModule	string	hasOSPF ? "^.ospf" : ""
RA1.bgp.dataTransferMode	string
RA2.status.initialStatus	string	"UP"	TODO @signal, @statistic
RA2.routingTable.forwarding	bool
RA2.routingTable.multicastForwarding	bool
RA2.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
RA2.pcapRecorder.verbose	bool	false	whether to log packets on the module output
RA2.pcapRecorder.pcapFile	string	""	the PCAP file to be written
RA2.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
RA2.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
RA2.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
RA2.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
RA2.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
RA2.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
RA2.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
RA2.lo0.lo.mtu	int	4470B
RA2.bgp.interfaceTableModule	string		The path to the InterfaceTable module
RA2.bgp.routingTableModule	string
RA2.bgp.ospfRoutingModule	string	hasOSPF ? "^.ospf" : ""
RA2.bgp.dataTransferMode	string
RA3.status.initialStatus	string	"UP"	TODO @signal, @statistic
RA3.routingTable.forwarding	bool
RA3.routingTable.multicastForwarding	bool
RA3.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
RA3.pcapRecorder.verbose	bool	false	whether to log packets on the module output
RA3.pcapRecorder.pcapFile	string	""	the PCAP file to be written
RA3.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
RA3.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
RA3.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
RA3.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
RA3.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
RA3.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
RA3.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
RA3.lo0.lo.mtu	int	4470B
RA3.bgp.interfaceTableModule	string		The path to the InterfaceTable module
RA3.bgp.routingTableModule	string
RA3.bgp.ospfRoutingModule	string	hasOSPF ? "^.ospf" : ""
RA3.bgp.dataTransferMode	string
RB1.status.initialStatus	string	"UP"	TODO @signal, @statistic
RB1.routingTable.forwarding	bool
RB1.routingTable.multicastForwarding	bool
RB1.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
RB1.pcapRecorder.verbose	bool	false	whether to log packets on the module output
RB1.pcapRecorder.pcapFile	string	""	the PCAP file to be written
RB1.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
RB1.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
RB1.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
RB1.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
RB1.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
RB1.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
RB1.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
RB1.lo0.lo.mtu	int	4470B
RB1.bgp.interfaceTableModule	string		The path to the InterfaceTable module
RB1.bgp.routingTableModule	string
RB1.bgp.ospfRoutingModule	string	hasOSPF ? "^.ospf" : ""
RB1.bgp.dataTransferMode	string
RC1.status.initialStatus	string	"UP"	TODO @signal, @statistic
RC1.routingTable.forwarding	bool
RC1.routingTable.multicastForwarding	bool
RC1.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
RC1.pcapRecorder.verbose	bool	false	whether to log packets on the module output
RC1.pcapRecorder.pcapFile	string	""	the PCAP file to be written
RC1.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
RC1.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
RC1.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
RC1.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
RC1.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
RC1.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
RC1.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
RC1.lo0.lo.mtu	int	4470B
RC1.bgp.interfaceTableModule	string		The path to the InterfaceTable module
RC1.bgp.routingTableModule	string
RC1.bgp.ospfRoutingModule	string	hasOSPF ? "^.ospf" : ""
RC1.bgp.dataTransferMode	string
RC2.status.initialStatus	string	"UP"	TODO @signal, @statistic
RC2.routingTable.forwarding	bool
RC2.routingTable.multicastForwarding	bool
RC2.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
RC2.pcapRecorder.verbose	bool	false	whether to log packets on the module output
RC2.pcapRecorder.pcapFile	string	""	the PCAP file to be written
RC2.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
RC2.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
RC2.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
RC2.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
RC2.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
RC2.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
RC2.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
RC2.lo0.lo.mtu	int	4470B
RC2.bgp.interfaceTableModule	string		The path to the InterfaceTable module
RC2.bgp.routingTableModule	string
RC2.bgp.ospfRoutingModule	string	hasOSPF ? "^.ospf" : ""
RC2.bgp.dataTransferMode	string
PA3.status.initialStatus	string	"UP"	TODO @signal, @statistic
PA3.l2NodeConfigurator.interfaceTableModule	string
PA3.l2NodeConfigurator.l2ConfiguratorModule	string	"l2NetworkConfigurator"	the absolute path to the L2NetworkConfigurator; use "" if there is no configurator
PA3.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
PA3.macTable.agingTime	double
PA3.macTable.addressTableFile	string
PA3.stp.helloTime	double
PA3.stp.forwardDelay	double
PA3.stp.maxAge	double
PA3.stp.bridgePriority	int
PA3.stp.visualize	bool
PB1.status.initialStatus	string	"UP"	TODO @signal, @statistic
PB1.l2NodeConfigurator.interfaceTableModule	string
PB1.l2NodeConfigurator.l2ConfiguratorModule	string	"l2NetworkConfigurator"	the absolute path to the L2NetworkConfigurator; use "" if there is no configurator
PB1.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
PB1.macTable.agingTime	double
PB1.macTable.addressTableFile	string
PB1.stp.helloTime	double
PB1.stp.forwardDelay	double
PB1.stp.maxAge	double
PB1.stp.bridgePriority	int
PB1.stp.visualize	bool
PC1.status.initialStatus	string	"UP"	TODO @signal, @statistic
PC1.l2NodeConfigurator.interfaceTableModule	string
PC1.l2NodeConfigurator.l2ConfiguratorModule	string	"l2NetworkConfigurator"	the absolute path to the L2NetworkConfigurator; use "" if there is no configurator
PC1.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
PC1.macTable.agingTime	double
PC1.macTable.addressTableFile	string
PC1.stp.helloTime	double
PC1.stp.forwardDelay	double
PC1.stp.maxAge	double
PC1.stp.bridgePriority	int
PC1.stp.visualize	bool
PC2.status.initialStatus	string	"UP"	TODO @signal, @statistic
PC2.l2NodeConfigurator.interfaceTableModule	string
PC2.l2NodeConfigurator.l2ConfiguratorModule	string	"l2NetworkConfigurator"	the absolute path to the L2NetworkConfigurator; use "" if there is no configurator
PC2.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
PC2.macTable.agingTime	double
PC2.macTable.addressTableFile	string
PC2.stp.helloTime	double
PC2.stp.forwardDelay	double
PC2.stp.maxAge	double
PC2.stp.bridgePriority	int
PC2.stp.visualize	bool
HA31.status.initialStatus	string	"UP"	TODO @signal, @statistic
HA31.routingTable.forwarding	bool
HA31.routingTable.multicastForwarding	bool
HA31.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
HA31.pcapRecorder.verbose	bool	false	whether to log packets on the module output
HA31.pcapRecorder.pcapFile	string	""	the PCAP file to be written
HA31.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
HA31.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
HA31.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
HA31.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
HA31.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
HA31.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
HA31.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
HA31.lo0.lo.mtu	int	4470B
HA32.status.initialStatus	string	"UP"	TODO @signal, @statistic
HA32.routingTable.forwarding	bool
HA32.routingTable.multicastForwarding	bool
HA32.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
HA32.pcapRecorder.verbose	bool	false	whether to log packets on the module output
HA32.pcapRecorder.pcapFile	string	""	the PCAP file to be written
HA32.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
HA32.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
HA32.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
HA32.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
HA32.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
HA32.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
HA32.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
HA32.lo0.lo.mtu	int	4470B
HB11.status.initialStatus	string	"UP"	TODO @signal, @statistic
HB11.routingTable.forwarding	bool
HB11.routingTable.multicastForwarding	bool
HB11.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
HB11.pcapRecorder.verbose	bool	false	whether to log packets on the module output
HB11.pcapRecorder.pcapFile	string	""	the PCAP file to be written
HB11.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
HB11.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
HB11.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
HB11.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
HB11.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
HB11.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
HB11.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
HB11.lo0.lo.mtu	int	4470B
HB12.status.initialStatus	string	"UP"	TODO @signal, @statistic
HB12.routingTable.forwarding	bool
HB12.routingTable.multicastForwarding	bool
HB12.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
HB12.pcapRecorder.verbose	bool	false	whether to log packets on the module output
HB12.pcapRecorder.pcapFile	string	""	the PCAP file to be written
HB12.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
HB12.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
HB12.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
HB12.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
HB12.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
HB12.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
HB12.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
HB12.lo0.lo.mtu	int	4470B
HC11.status.initialStatus	string	"UP"	TODO @signal, @statistic
HC11.routingTable.forwarding	bool
HC11.routingTable.multicastForwarding	bool
HC11.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
HC11.pcapRecorder.verbose	bool	false	whether to log packets on the module output
HC11.pcapRecorder.pcapFile	string	""	the PCAP file to be written
HC11.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
HC11.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
HC11.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
HC11.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
HC11.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
HC11.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
HC11.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
HC11.lo0.lo.mtu	int	4470B
HC12.status.initialStatus	string	"UP"	TODO @signal, @statistic
HC12.routingTable.forwarding	bool
HC12.routingTable.multicastForwarding	bool
HC12.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
HC12.pcapRecorder.verbose	bool	false	whether to log packets on the module output
HC12.pcapRecorder.pcapFile	string	""	the PCAP file to be written
HC12.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
HC12.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
HC12.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
HC12.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
HC12.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
HC12.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
HC12.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
HC12.lo0.lo.mtu	int	4470B
HC21.status.initialStatus	string	"UP"	TODO @signal, @statistic
HC21.routingTable.forwarding	bool
HC21.routingTable.multicastForwarding	bool
HC21.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
HC21.pcapRecorder.verbose	bool	false	whether to log packets on the module output
HC21.pcapRecorder.pcapFile	string	""	the PCAP file to be written
HC21.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
HC21.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
HC21.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
HC21.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
HC21.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
HC21.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
HC21.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
HC21.lo0.lo.mtu	int	4470B
HC22.status.initialStatus	string	"UP"	TODO @signal, @statistic
HC22.routingTable.forwarding	bool
HC22.routingTable.multicastForwarding	bool
HC22.interfaceTable.displayAddresses	bool	false	whether to display IP addresses on links
HC22.pcapRecorder.verbose	bool	false	whether to log packets on the module output
HC22.pcapRecorder.pcapFile	string	""	the PCAP file to be written
HC22.pcapRecorder.snaplen	int	65535	maximum number of bytes to record per packet
HC22.pcapRecorder.dumpBadFrames	bool	true	enable dump of frames with hasBitError
HC22.pcapRecorder.moduleNamePatterns	string	"wlan[] eth[] ppp[] ext[]"	space-separated list of sibling module names to listen on
HC22.pcapRecorder.sendingSignalNames	string	"packetSentToLower"	space-separated list of outbound packet signals to subscribe to
HC22.pcapRecorder.receivingSignalNames	string	"packetReceivedFromLower"	space-separated list of inbound packet signals to subscribe to
HC22.pcapRecorder.alwaysFlush	bool	false	flush the pcapFile after each write to ensure that all packets are captured in case of a crash
HC22.lo0.lo.interfaceTableModule	string		The path to the InterfaceTable module
HC22.lo0.lo.mtu	int	4470B
configurator.minLinkWeight	double	1E-3
configurator.assignAddresses	bool	true	assign IP addresses to all interfaces in the network
configurator.assignDisjunctSubnetAddresses	bool	true	avoid using the same address prefix and netmask on different links when assigning IP addresses to interfaces
configurator.optimizeRoutes	bool	true	optimize routing tables by merging routes, the resulting routing table might route more packets than the original (used only if addStaticRoutes is true)
configurator.dumpTopology	bool	false	print extracted network topology to the module output
configurator.dumpLinks	bool	false	print recognized network links to the module output
configurator.dumpAddresses	bool	false	print assigned IP addresses for all interfaces to the module output
configurator.dumpRoutes	bool	false	print configured and optimized routing tables for all nodes to the module output
configurator.dumpConfig	string	""	write configuration into the given config file that can be fed back to speed up subsequent runs (network configurations)

Source code:

network BGPTest
{
    types:
        channel LINK_100 extends ThruputMeteringChannel
        {
            parameters:
                delay = 0;
                datarate = 100Mbps;
                thruputDisplayFormat = "#N";
        }
    submodules:
        A1: BGPRouter {
            parameters:
                @display("p=274,93");
            gates:
                pppg[2];
        }
        A2: BGPRouter {
            parameters:
                @display("p=184,221");
            gates:
                pppg[2];
        }
        B: BGPRouter {
            parameters:
                @display("p=386,93");
            gates:
                pppg[2];
        }
        C: BGPRouter {
            parameters:
                @display("p=298,221");
            gates:
                pppg[3];
        }
        RA1: OSPFRouter {
            parameters:
                @display("p=198,41;i=device/router");
            gates:
                pppg[3];
        }
        RA2: OSPFRouter {
            parameters:
                @display("p=150,139;i=device/router");
            gates:
                pppg[3];
        }
        RA3: OSPFRouter {
            parameters:
                @display("p=102,43;i=device/router");
            gates:
                pppg[2];
                ethg[1];
        }
        RB1: OSPFRouter {
            parameters:
                @display("p=462,145;i=device/router");
            gates:
                pppg[1];
                ethg[1];
        }
        RC1: OSPFRouter {
            parameters:
                @display("p=326,313;i=device/router");
            gates:
                pppg[2];
                ethg[1];
        }
        RC2: OSPFRouter {
            parameters:
                @display("p=398,227;i=device/router");
            gates:
                pppg[2];
                ethg[1];
        }
        PA3: EtherSwitch {
            parameters:
                @display("p=52,102;i=device/switch");
            gates:
                ethg[3];
        }
        PB1: EtherSwitch {
            parameters:
                @display("p=460,62;i=device/switch");
            gates:
                ethg[3];
        }
        PC1: EtherSwitch {
            parameters:
                @display("p=420,318;i=device/switch");
            gates:
                ethg[3];
        }
        PC2: EtherSwitch {
            parameters:
                @display("p=492,230;i=device/switch");
            gates:
                ethg[3];
        }
        HA31: StandardHost {
            parameters:
                @display("p=42,178;i=device/pc");
            gates:
                ethg[1];
        }
        HA32: StandardHost {
            parameters:
                @display("p=98,178;i=device/pc");
            gates:
                ethg[1];
        }
        HB11: StandardHost {
            parameters:
                @display("p=542,50;i=device/pc");
            gates:
                ethg[1];
        }
        HB12: StandardHost {
            parameters:
                @display("p=542,114;i=device/pc");
            gates:
                ethg[1];
        }
        HC11: StandardHost {
            parameters:
                @display("p=390,394;i=device/pc");
            gates:
                ethg[1];
        }
        HC12: StandardHost {
            parameters:
                @display("p=454,394;i=device/pc");
            gates:
                ethg[1];
        }
        HC21: StandardHost {
            parameters:
                @display("p=478,308;i=device/pc");
            gates:
                ethg[1];
        }
        HC22: StandardHost {
            parameters:
                @display("p=526,308;i=device/pc");
            gates:
                ethg[1];
        }
        configurator: IPv4NetworkConfigurator {
            @display("p=71,374");
            config = xmldoc("IPv4Config.xml");
            //assignAddresses = false;
            //assignDisjunctSubnetAddresses = false;
            addStaticRoutes = false;
            addDefaultRoutes = false;
            addSubnetRoutes = false;
        }
    connections:
        //LAN RA3
        HA31.ethg[0] <--> LINK_100 <--> PA3.ethg[0];
        HA32.ethg[0] <--> LINK_100 <--> PA3.ethg[1];
        PA3.ethg[2] <--> LINK_100 <--> RA3.ethg[0];

        //LAN RB1
        HB11.ethg[0] <--> LINK_100 <--> PB1.ethg[0];
        HB12.ethg[0] <--> LINK_100 <--> PB1.ethg[1];
        PB1.ethg[2] <--> LINK_100 <--> RB1.ethg[0];

        //LAN C1 et C2
        HC11.ethg[0] <--> LINK_100 <--> PC1.ethg[0];
        HC12.ethg[0] <--> LINK_100 <--> PC1.ethg[1];
        HC21.ethg[0] <--> LINK_100 <--> PC2.ethg[0];
        HC22.ethg[0] <--> LINK_100 <--> PC2.ethg[1];
        PC1.ethg[2] <--> LINK_100 <--> RC1.ethg[0];
        PC2.ethg[2] <--> LINK_100 <--> RC2.ethg[0];

        //OSPF A
        RA1.pppg[2] <--> LINK_100 <--> RA3.pppg[0];
        RA2.pppg[2] <--> LINK_100 <--> RA3.pppg[1];
        RA1.pppg[1] <--> LINK_100 <--> RA2.pppg[1];
        RA1.pppg[0] <--> LINK_100 <--> A1.pppg[1];
        RA2.pppg[0] <--> LINK_100 <--> A2.pppg[1];

        //OSPF B
        RB1.pppg[0] <--> LINK_100 <--> B.pppg[1];

        //OSPF C
        RC1.pppg[1] <--> LINK_100 <--> RC2.pppg[1];
        RC1.pppg[0] <--> LINK_100 <--> C.pppg[1];
        RC2.pppg[0] <--> LINK_100 <--> C.pppg[2];

        //BGP
        A1.pppg[0] <--> LINK_100 <--> B.pppg[0];
        A2.pppg[0] <--> LINK_100 <--> C.pppg[0];
}