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Black Box LR5100A-T, LR5200A-R2 manual Masks, IP Subnets, Applications

Models: LR5200A-R2 LR5100A-T

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Masks

Applications

Masks

The portion of the IP address to use as the network address is specified by using a mask; a mask is the contiguous number of bits to be used for the network address all set to 1. When the mask is logically ANDed with an IP address, the result is the network address. The mask is specified by entering the mask size as the number of bits in the mask. For the standard Class A, B and C Internet addresses, the mask sizes would be 8, 16 and 24 respectively.

Networks are not restricted to the above standard sizes; the mask (and hence the network address it specifies) may be any number of bits from 8 to 32. This gives much more flexibility to match the size of the two fields of the IP address to the number of networks and hosts to be serviced.

IP Subnets

An IP network may be divided into smaller networks by a process called sub-netting. A subnet is specified using some of the high order bits of the host field of the IP address for sub-network addressing. The portion of the IP address to be used as the subnet address is defined by using a subnet mask.

If the company in the example above (Class C IP address 199.169.100.0) decides to split their network into two LANs to reduce the load on their network, the original IP network address may be sub-netted into two or more smaller IP networks consisting of a smaller number of host addresses in each LAN. This allows each of the sites to be a smaller IP network and to be routed together to allow inter-network communication.

The subnet mask size is the number of bits in the subnet mask. In the above figure the subnet mask size would be 26 (24 bits for the class C network address and 2 subnet bits). The subnet size is the number of subnet bits - in the above figure, the subnet size would be 2.

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Black Box LR5100A-T, LR5200A-R2 manual Masks, IP Subnets, Applications

Contents

LR5100A-T, LR5200A-R2 User and System Administration GuideSeries 5000 Bridge/Router TRADEMARKS applies Federal Communications Commission FCCCanadian Emissions Standard ICES-003 ISDN Type Approval LabelsUsing This Manual Using The Electronic Reference ManualsLogin to Bridge/Router and Enter the Required Configuration ContentsINSTALLATION TYPICAL APPLICATIONS & HOW TO CONFIGURE THEMAPPENDIX B OCTET LOCATIONS ON ETHERNET FRAMES 3 INTRODUCTION TO FILTERINGAPPENDIX A MENU TREES Octet Locations on an IPX Routed Novell Netware FrameV.11/X.21 Null-Modem Cable Configuration APPENDIX D INTERFACE PINOUTSContents Contents Select a Site InstallationUnpack the Router Applications Identify the Reset SwitchFigure 1-1 Location of the Reset Hole on Router RESETmodules Identify the ConnectorsConnect to the Console moduleMake the Link Connections ApplicationsApplications Power Up the Bridge/RouterManaging the router Using the Menus Terminals supportedÄ Option Name ConventionsLocation Main ApplicationsApplications Login to Bridge/Router and Enter the Required ConfigurationÄ Password framed/unframed/SF/ESF Setting the T1/E1ParametersT1/E1 WAN only Applicationsfirst channel 7 Set Link Interface Type Location Mainas specifed ApplicationsBridge Mandatory ConfigurationApplications IP RouterLINK 1/LAN Identify the Status LEDsPOWER LINKApplications Typical Applications & How to Configure Them Bridging and Routing Should You Bridge or Route? ApplicationsApplications BridgingFigure 2 -1 Networks Bridged across a WAN link Location Main IP RoutingFigure 2 -2 IP Networks Routed across a WAN link Ä IP Address / Size of Subnet MaskIP Addressing ApplicationsApplications MasksIP Subnets Location Main Figure 2 -2 Defining an IP Subnet MaskApplications Ä IP Address / Size of Subnet MaskÄ Next Hop IP Default GatewayIP Static Route Ä CostFigure 2 -3 IPX Routed Local Area Networks Servers on both sides IPX RoutingNovell Servers in Both Locations ApplicationsApplications Novell Servers in One Location OnlyFigure 2 -4 IPX Routed Local Area Networks Servers on one side Ä RAW 802.3 Frames Ä IPX RoutingÄ Ethernet-II Frames Ä IEEE 802.2 Framesselect LAN1 or LAN2 Novell Server with Dual LANsÄ IPX Forwarding ApplicationsNumbered Links PPP Link ConfigurationPPP Overview 7 Location MainLocation Main Unnumbered LinksApplications Ä IP ParametersLocation Main Multilink OperationApplications Ä Protocol Set-upBasic ISDN Connections Basic WAN ConfigurationsFigure 2 -5 Basic ISDN Configuration ApplicationsApplications Ä Switch TypeÄ Directory Number Ä SPID Location MainApplications Ä Soft ResetÄ Diagnostics Location MainPPP ISDN Manual Call Quick Connections ApplicationsIP Router Manual Call Connection IPX Router Manual Call ConnectionÄ Manual Call Ä IP Address / Subnet mask sizeApplications Basic Frame Relay ConfigurationFigure 2 -8 Frame Relay configuration Applications Auto Learning the Frame Relay ConfigurationÄ Link Speed Location MainApplications Manual Configuration - LMI TypeÄ LMI Type Location MainÄ IP Address / mask size EnabledQuick Start Frame Relay Ä PPPFigure 2 -9 Basic PPP Leased Line Configuration Basic Leased Line Configurationdisabled Quick Start PPP Leased Line ConnectionsIPX Router Connection Bridge ConnectionIP Router Connection ApplicationsLocation Main Configure Remote Site ProfilesApplications Remote Site Profile ID & AliasÄ ISDN Number Configure Remote Site Profiles for ISDN PPPRemote Site ISDN Phone Number ApplicationsApplications Up Threshold Down Threshold Up Stability timer Down Stability timerEnabled Location MainÄ DLCI Configure Remote Site Profile for Frame RelayÄ Remote Site Alias ApplicationsApplications Ä Primary LinkÄ CIR Location MainÄ disabled Ä disabledÄ EIR ApplicationsLocation Main Configure Remote Site Profiles for Leased Line PPPApplications Ä Primary Link ApplicationsLocation Main Primary Link NumberÄ Schedule Configure Remote Site Profiles for Frame Relay with ISDN backupÄ Recovery Ä WAN Set upÄ Server Advanced FeaturesConfigure Dynamic Host Configuration Protocol ApplicationsInternet Service Ä ConfigurationFigure 2 -10 Local + External DNS Server Configuration Applicationsaddress must be set in the IP parameters menu ConfigurationNetwork Address Translation and Port Translation ApplicationsApplications Figure 2 -11 NAPT ConfigurationInternet Service Provider Private Network Addresses e-mail server telnet server WWW serverÄ Security Level Configure PPP SecuritySecurity ApplicationsLocation Main Ä Incoming CHAP Secret Ä Outgoing CHAP SecretApplications Ä Outgoing User NameApplications Configure FirewallFigure 2 -13 Sample Firewall Application Ä ID# 1 for ISP remote site Ä enter ID# 1 for ISP remote siteÄ inbound Ä FTP ServerÄ Protocol Type Ä filter ID #Ä Source Mask ApplicationsFilters CompressionNetwork Address Translation ApplicationsÄ enable Ä up threshold Ä up stability timer Ä down thresholdÄ down stability timer Bandwidth On DemandIntroduction to Filtering MAC Address FilteringIntroduction to Filtering 12-80 Pattern FilteringIntroduction to Filtering 10-20&12-80Bridge NetBIOS &NetBEUI Windows For WorkgroupsPopular Filters IP & Related TrafficBanyan NetBIOS over TCPIP Router Other interesting TCP PortsAppendix A Menu Trees software release ConfigurationMenu Tree 52V.06.02.xxsoftware release Menu Treesoftware release Statistics Set-UpPage Appendix B Octet Locations on Ethernet Frames Octet Locations on a Bridged TCP/IP FrameOctet Locations on a Bridged Novell Netware Frame ETHERNET Type Codes Octet LocationsOctet Locations on an IPX Routed Novell Netware Frame Configuration PagesOctet Locations on an IP Routed TCP/IP Frame Octet Locations on a Bridged XNS Frame Octet LocationsAppendix C Servicing Information Opening the caseFigure C-1 Top Internal View of the Ethernet Bridge/Router Identifying the Internal ComponentsServicing Information Selecting MDI or MDI-X LAN Interface To Clear a “Lost” PasswordChanging LAN or WAN Interfaces Servicing InformationFigure C-2 Rear View with the ISDN U Module Installed Installing the ISDN Link ModulesProcessor settings for the ISDN Link Modules Figure C-4 ISDN Module processor setting jumpersFigure C-6 Ferrite Module Installed on the Cable Connecting to the ISDN-U Link ModuleFigure C-5 ISDN S/T Module Termination setting jumpers Changing the Termination Straps on the ISDN S/T InterfacePerforming a Software Upgrade Servicing InformationPC used for TFTP transfers Router A Router B Router C Servicing InformationServicing Information Link Clocking Information Appendix D Interface PinoutsPinout Information ATL-CSU/DSU Link Module InformationSwitches Figure D-1 Rear View of ATL-CSU/DSU Link Module with UP/DOWN SwitchesInterface Pinouts DB25 Female DCE The connecting cable must be a shielded cableConsole Pinouts Figure D-3 Console PinoutsFigure D-5 RS232 Link Pinouts V.24 & RS232C Link PinoutsDB25 Female DTE The connecting cable must be a shielded cableFigure D-6 V.11/x.21 Link Pinouts V.11/X.21 Link PinoutsDB15 Female DTE The connecting cable must be a shielded cableThe connecting cable must be a shielded cable RS442 & RS530 Link PinoutsFigure D-7 RS530 Link Pinouts Interface PinoutsThe connecting cable must be a shielded cable V.35 Link PinoutsFigure D - 8 V.35 Link Pin Outs Interface PinoutsThe connecting cable must be a shielded cable RS232 Null-Modem Cable ConfigurationFigure D-9 RS232 Null-Modem Cable Interface PinoutsThe link speed must be defined for each of the two units V.35 Null-Modem Cable ConfigurationFigure D - 10 V-35 Null-Modem Cable The connecting cable must be a shielded cableThe connecting cable must be a shielded cable RS530 Null-Modem Cable ConfigurationFigure D-11 RS530 Null-Modem Cable Interface PinoutsFigure D-12 RS530 to RS449 Conversion Cable RS530 To RS449 Conversion CableInterface Pinouts The connecting cable must be a shielded cableThe connecting cable must be a shielded cable V.11/X.21 Null-Modem Cable ConfigurationFigure D-13 V.11/X.21 Null-Modem Cable Interface Pinouts