Cabletron Systems EMM-E6 manual Runt Frames, Giant Frames

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Using the EMM-E6 Hub View

Runt Frames

The total number of received packets smaller than the minimum Ethernet frame size of 64 bytes (excluding preamble). This minimum size is tied to the maximum propagation time of an Ethernet network segment — the maximum propagation time is 51.2 ∝s, and it takes approximately 51.2 ∝s to transmit 64 bytes of data; therefore, every node on the segment should be aware that another node is transmitting before the transmission is complete, providing for more accurate collision detection. Runts can sometimes result from collisions, and, as such, may be the natural by-product of a busy network; however, they can also indicate a hardware (packet formation), transmission (corrupted data), or network design (more than four cascaded repeaters) problem.

Giant Frames

The total number of received packets that are longer than the maximum Ethernet size of 1518 bytes (excluding preamble). Giant packets typically occur when you have a jabbering node on your network — one that is continuously transmitting, or transmitting improperly for short bursts — probably due to a bad transmitter on the network interface card. Giant packets can also result from packets being corrupted as they are transmitted, either by the addition of garbage signal, or by the corruption of the bits that indicate frame size.

The EMM-E6 Error Priority Scheme

Each Cabletron device employs an error priority scheme which determines how packets with multiple errors will be counted, and ensures that no error packet is counted more than once. The priority scheme for the EMM-E6 counts errors in the following order:

1.OOW Collisions

2.Runts

3.Giants

4.Alignment Errors

5.CRC Errors

Knowing the priority scheme employed by the EMM-E6 can tell you a lot about the error counts you are seeing. For example, you know that the number of packets counted as CRC errors had only CRC errors — they were of legal size (not runts or giants) and had no truncated bytes. You also know that any packet less than 64 bytes long has been counted as a runt, even if it also had alignment and/or CRC problems (which is likely if the runt is the result of a collision or other transmission problem).

2-24	Monitoring Hub Performance

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Contents EMM-E6 Page Virus Disclaimer Restricted Rights Notice Contents Chapter Source Addressing Chapter SecurityChapter Front Panel Redundancy Appendix a EMM-E6 MIB StructureContents Using the EMM-E6 User’s Guide IntroductionUsing the EMM-E6 User’s Guide What’s not in the EMM-E6 User’s Guide UPSConventions Screen Displays Window ConventionsUsing the Mouse ButtonGetting Help EMM-E6 Firmware Year 2000 ComplianceUsing the EMM-E6 Hub View Using the Hub ViewNavigating Through the Hub View Hub View Front PanelUptime Date and TimeDevice Name Device LocationUsing the EMM-E6 Hub View EMM-E6 Ports Display Using the Mouse in a Hub View Module Brim PortsHub View Port Color Codes Port Display FormMonitoring Hub Performance Port Display Form Errors LoadTrafﬁc CollisionsFrame Sizes ProtocolsPort Type Using the EMM-E6 Hub View Name and Location Checking Device Status and Updating Front Panel InfoContact Checking Network Status Chassis TypeName Active UsersChecking Module Status Module TypeChecking Port Status Link StatusStatus Media TypeViewing the IP Address Table Topology TypeLaunching the Global Find MAC Address Tool Checking StatisticsUsing the EMM-E6 Hub View Received Bytes Total PacketsAvg Packet Size Broadcast PacketsTotal Errors Alignment ErrorsCRC Errors OOW CollisionsRunt Frames Giant FramesViewing the Port Source Address List Protocols/Frames StatisticsUsing the EMM-E6 Hub View Setting the Polling Intervals Managing the HubContact Status Device General StatusConﬁguring FNB Connections Device ConﬁgurationPort Operational State StatisticsConﬁguring RIC MIM Connections To conﬁgure FNB connectivity for an individual port Setting a Port’s Trunk Type 15. Tpxmim Channel Selection WindowTo change a port’s topology status Enabling/Disabling MIM Ports Alarm Conﬁguration Using Alarm Conﬁguration From the command line stand-alone modeFrom the icon From the Hub ViewConﬁguring Alarms CRCSetting Repeater Alarms BroadcastSetting and Changing Alarms Set Repeater Alarms WindowSetting Module and Port Alarms Setting Module AlarmsSet Module Alarms Window Set the Status to EnabledSetting Port Alarms Set Port Alarms WindowSet the Status to Enabled Alarm Conﬁguration Setting Module and Port Alarms What is a Segmentation Trap? Link/Seg TrapsWhat is a Link Trap? Enabling and Disabling Link/Seg TrapsSpmarun r4hwtr IP address community name Conﬁguring Link/Seg Traps for the Repeater Viewing and Conﬁguring Link/Seg Traps for Hub ModulesModule Traps Window Viewing and Conﬁguring Link/Seg Traps for Ports Port Traps WindowLink/Seg Traps Link/Seg Traps Enabling and Disabling Link/Seg Traps Setting Network Circuit Redundancy Repeater RedundancyConﬁguring a Redundant Circuit Spmarun r4red IP address community nameChannel X Redundancy Window Add Circuit Address Window Repeater Redundancy Monitoring Redundancy To set the Poll IntervalSource Addressing Displaying the Source Address ListDisplaying the Source Address List Source Addressing Setting the Hash Type Setting the Aging TimeLocking Source Addresses Source Address Locking on Older Devices Conﬁguring Source Address Traps Repeater-level Traps Module- and Port-level Traps Source Addressing Finding a Source Address Port Source Address Traps WindowClick on to exit the window Security What is LANVIEWSECURE? Spmarun r4sec IP address SU community nameSecure address assignment New deﬁnitions for station and trunk portsTrunk port security Newest Lanviewsecure Features Continuous learning modeConﬁgurable violation response Full or partial security against eavesdroppingSecurity on Non-LANVIEWSECUREMIMs Learned addresses resetForced non-secure status Conﬁguring Security Security To assign secure addresses to a port Addresses Window Boards with Multiple Caches Add MAC Address WindowResetting Learned Addresses Tips for Successfully Implementing Eavesdropper ProtectionEnabling Security and Traps Security Repeater-level Security and Traps Channel X Security WindowModule-level Security and Traps Channel X Module Security Window Port-level Security and Traps Channel X Port Security WindowSecurity Setting Front Panel Redundancy Front Panel RedundancySetting Front Panel Redundancy Add Circuit Address Window Front Panel Redundancy Setting Front Panel Redundancy Ietf MIB Support EMM-E6 MIB StructureMIB Components Chassis MGRHost Services IP ServicesRepeater One, Repeater Two, and Repeater Three Ctron Use OnlyRmon Default Distributed LAN MonitorMIB Navigator Rmon HostBrief Word About MIB Components and Community Names EMM-E6 MIB Structure Index Index-2 Index-3 Index Index-4

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