Oxygen Lawn Mower 78 6896 01 User Manual

C H A P T E R  
2
Troubleshooting Tools  
This chapter describes the tools available to assist you in troubleshooting your ATM switch router and  
contains the following sections:  
Using Diagnostic Commands  
Third-Party Troubleshooting Tools  
Using Diagnostic Commands  
You can use the show, debug, ping, and traceroute commands to monitor and troubleshoot your  
internetwork.  
show Commands  
You can use the show commands to perform many functions:  
Monitor switch router behavior during initial installation  
Monitor normal network operation  
Isolate problem interfaces, nodes, media, or applications  
Determine when a network is congested  
Determine the status of servers, clients, or other neighbors  
Following are some of the most commonly used show commands:  
Command  
Purpose  
show interfaces  
Displays statistics for the network interfaces.  
show interfaces atm  
show interfaces atm-p  
show interfaces cbr  
show line  
show controllers  
Displays statistics for port adapter interface controllers.  
show controllers atm  
show controllers ethernet  
show lane  
Displays the LAN emulation configuration.  
show running-config  
Displays the switch router configuration currently running.  
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Chapter 2 Troubleshooting Tools  
Third-Party Troubleshooting Tools  
Use the ping command when the network is functioning properly to see how the command works. When  
you are troubleshooting, you can see the difference between normal and abnormal operation.  
For detailed information about using the ping and extended ping commands, refer to the  
Configuration Fundamentals Command Reference publication.  
traceroute Commands  
The traceroute user EXEC command discovers the routes packets follow when traveling to their  
destinations. With the traceroute privileged EXEC command, the supported IP header options are  
specified, and the switch router can perform a more extensive range of test options.  
The traceroute command works by using the error message generated by ATM switch routers when a  
datagram exceeds its time-to-live (TTL) value. First, probe datagrams are sent with a TTL value of one.  
This causes the first switch router to discard the probe datagrams and send back “time exceeded” error  
messages. The traceroute command then sends several probes, and displays the round-trip time for  
each. After every third probe, the TTL increases by one.  
Each outgoing packet can result in one of two error messages. A “time exceeded” error message  
indicates that an intermediate switch router has seen and discarded the probe. A “port unreachable”  
error message indicates that the destination node has received the probe and discarded it because it  
could not deliver the packet to an application. If the timer goes off before a response comes in,  
traceroute displays an asterisk (*).  
The traceroute command terminates when the destination responds, when the maximum TTL is  
exceeded, or when the user interrupts the traceroute with the escape sequence.  
Use the traceroute command when the network is functioning properly to see how the command works  
under normal conditions. Then when you are troubleshooting you can see the difference between  
normal and abnormal operation.  
For detailed information about using the traceroute and extended traceroute commands, refer to the  
ATM Switch Router Command Reference publication.  
Third-Party Troubleshooting Tools  
In many situations, third-party diagnostic tools can be helpful. For example, attaching a network  
analyzer to a network is less intrusive and is more likely to yield useful information without interrupting  
the operation of the switch router than using the debug commands, which are processor intensive.  
Some typical third-party tools used for troubleshooting internetworks are described in the following  
sections:  
Volt-Ohm Meters, Digital Multimeters, and Cable Testers  
TDRs and OTDRs  
Network Monitors  
Network Analyzers  
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Third-Party Troubleshooting Tools  
Volt-Ohm Meters, Digital Multimeters, and Cable Testers  
Volt-ohm meters and digital multimeters measure parameters such as AC and DC voltage, current,  
resistance, capacitance, and cable continuity. They check physical connectivity.  
Using cable testers (scanners), you can also check physical connectivity. Cable testers are available for  
foil twisted-pair (FTP), unshielded twisted-pair (UTP), 10BaseT, and coaxial and twinax cables.  
A given cable tester can perform any of the following functions:  
Test and report on cable conditions, including near-end crosstalk (NEXT), attenuation, and noise  
Perform time domain reflectometer (TDR) functions, traffic monitoring, and wire map functions  
Display media access control (MAC)-layer information about LAN traffic, provide statistics such  
as network utilization and packet error rates, and perform limited protocol testing (for example,  
TCP/IP tests such as ping)  
Similar testing equipment is available for fiber-optic cable. Due to the relatively high cost of fiber cable  
and its installation, test fiber-optic cable both before installation (on-the-reel testing) and after  
installation. Continuity testing of the fiber requires either a visible light source or a reflectometer. Light  
sources capable of providing light at the three predominant wavelengths, 850 nanometers (nm),  
1300 nm, and 1550 nm, are used with power meters that can measure the same wavelengths and test  
attenuation and return loss in the fiber.  
TDRs and OTDRs  
TDRs quickly locate open circuits, short circuits, crimps, kinks, sharp bends, impedance mismatches,  
and other defects in metallic cables.  
A TDR reflects a signal off the end of the cable. Opens, shorts, and other problems reflect back the  
signal at different amplitudes, depending on the problem. A TDR measures the time it takes for the  
signal to reflect and calculates the distance to a fault in the cable. TDRs can also measure the length of  
a cable, and some TDRs can calculate the rate of propagation based on a configured cable length.  
Fiber-optic measurement is performed by an optical time domain reflectometer (OTDR). OTDRs can  
accurately measure the length of the fiber, locate cable breaks, measure the fiber attenuation, and  
measure splice or connector losses. An OTDR can take the signature of a particular installation, noting  
attenuation and splice losses. This baseline measurement can then be compared with future signatures  
when you suspect a problem in the system.  
Network Monitors  
Network monitors continuously track packets crossing a network, providing an accurate picture of  
network activity. Network monitors do not decode the contents of frames. They are useful for creating  
a baseline of normal performance.  
Monitors collect information such as packet sizes, the number of packets, error packets, overall usage  
of a connection, the number of hosts and their MAC addresses, and details about communications  
between hosts and other devices. This data can be used to create profiles of LAN traffic and assist in  
locating traffic overloads, planning for network expansion, detecting intruders, and distributing traffic  
more efficiently.  
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Third-Party Troubleshooting Tools  
Network Analyzers  
To accurately troubleshoot your ATM network, you should have the following analyzers:  
Simple cell generators and analyzers to test high-speed ATM and Broadband Integrated Services  
Digital Network (BISDN) transmission and protocols.  
Signaling generators to test ATM equipment, service installation, and the interworking of  
broadband services. They help manage the performance of broadband networks, and guarantee  
end-to-end quality of service (QoS).  
Physical layer analyzers to provide physical, convergence, and ATM cell testing capabilities and  
transmission test functionality.  
Most physical layer analyzers can perform many of the following functions:  
Traffic generation  
Cell error and cell loss measurements  
Cell delay measurements  
Traffic capture and playback  
Network analyzers (or protocol analyzers) decode the various protocol layers in a recorded frame  
and present them as readable abbreviations or summaries, detailing which layer is involved  
(physical, data link, and so forth) and what function each bit or byte content serves.  
Most network analyzers can perform many of the following functions:  
Filter traffic that meets certain criteria so that, for example, all traffic to and from a particular  
device is captured  
Time-stamp captured data  
Present protocol layers in an easily readable form  
Generate frames and transmit them to the network  
Incorporate an “expert” system in which the analyzer uses a set of rules, combined with  
information about the network configuration and operation, to diagnose, solve, or offer  
potential solutions to network problems  
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Third-Party Troubleshooting Tools  
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