1. Network+ Guide to Networks, Fourth Edition Chapter 12
Troubleshooting Network Problems
2. Network+ Guide to Networks, 4E 2 Objectives Describe the steps involved in an effective troubleshooting methodology
Follow a systematic troubleshooting process to identify and resolve networking problems
Document symptoms, solutions, and results when troubleshooting network problems
Use a variety of software and hardware tools to diagnose problems
3. Network+ Guide to Networks, 4E 3 Troubleshooting Methodology Steps for troubleshooting network problems:
Identify symptoms and potential causes
Identify affected area
Establish what has changed
Select most probable cause
Verify user competency
Re-create problem
Verify physical integrity of network connection
Verify logical integrity of network connection
4. Network+ Guide to Networks, 4E 4 Troubleshooting Methodology (continued) Steps for troubleshooting network problems (continued):
Implement an action plan and solution and be prepared for all potential effects
Test the result
Identify results and effects of solution
Document solution and process
5. Network+ Guide to Networks, 4E 5 Identify the Symptoms and Potential Causes Questions that may help identify non-obvious symptoms:
Access to network affected?
Network performance affected?
Data and/or programs affected?
Only certain network services affected?
Problems include local application, networked application, or multiple networked applications?
Specific error messages reported?
One user or multiple users affected?
Symptoms manifested consistently?
6. Network+ Guide to Networks, 4E 6 Identify the Affected Area
7. Network+ Guide to Networks, 4E 7 Identify the Affected Area (continued)
8. Network+ Guide to Networks, 4E 8 Identify the Affected Area (continued)
9. Network+ Guide to Networks, 4E 9 Identify the Affected Area (continued)
10. Network+ Guide to Networks, 4E 10 Establish What Has Changed Questions to help pinpoint problems resulting from a network change:
OS or configuration on a server, workstation, or connectivity device changed?
New components added to server, workstation, or connectivity device?
Old components removed from server, workstation, or connectivity device?
New users or segments added to the network?
Server, workstation, or connectivity device moved from previous location to new location?
11. Network+ Guide to Networks, 4E 11 Establish What Has Changed (continued) Questions to help pinpoint problems resulting from a network change (continued):
Was a server, workstation, or connectivity device replaced?
Was new software installed on a server, workstation, or connectivity device?
Was old software removed from a server, workstation, or connectivity device?
12. Network+ Guide to Networks, 4E 12 Establish What Has Changed (continued) Two ways to react to problems caused by network changes:
Attempt to correct problem
Attempt to reverse change and restore hardware or software to previous state
Complete network change records should be kept
Make available to staff members
13. Network+ Guide to Networks, 4E 13 Select the Most Probable Cause: Verify User Competency Ensure that human error is not source of problem
Problems caused by human error usually simple to solve
Best way to verify that a user is performing network tasks correctly is to watch them
14. Network+ Guide to Networks, 4E 14 Re-create the Problem Try to reproduce symptoms both while logged on as the user who reported the problem and while logged on under a privileged account
Questions to help determine whether a problem’s symptoms are truly reproducible:
Make symptoms recur every time?
Make symptoms recur some of the time?
Symptoms happen only under certain circumstances?
Symptoms consistent no matter how many and which programs or files user has open?
15. Network+ Guide to Networks, 4E 15 Verify Physical Connectivity Many network problems occur at Physical layer
Symptoms of Physical Layer problems: continuous or intermittent inability to connect to network and perform network related functions
Possible causes of Physical Layer problems:
Segment or network lengths exceeding IEEE maximum standards
Noise affecting wireless or wire-bound signal
Improper terminations, faulty connectors, loose connectors, or poorly crimped connections
Damaged cables
Faulty NICs
16. Network+ Guide to Networks, 4E 16 Verify Physical Connectivity (continued) Diagnosing Physical Layer problems:
Device turned on?
NIC properly inserted?
For wireless NICs, antenna turned on?
Device’s network cable properly connected to both NIC and wall jack?
Patch cables properly connect punch-down blocks to patch panels and patch panels to hubs or switches?
17. Network+ Guide to Networks, 4E 17 Verify Physical Connectivity (continued) Diagnosing Physical Layer problems (continued):
Hub, router, or switch properly connected to backbone?
Cables in good condition?
Connectors in good condition and properly seated?
Network lengths conform to IEEE 802 specifications?
Devices configured properly to work with network type or speed?
18. Network+ Guide to Networks, 4E 18 Verify Physical Connectivity (continued) Swapping equipment:
If you suspect problem lies with a network component, easy to test theory by exchanging for a functional component
Cables, ports, data jacks, network adapters
Difficult to swap routers and switches
19. Network+ Guide to Networks, 4E 19 Verify Physical Connectivity (continued)
20. Network+ Guide to Networks, 4E 20 Verify Physical Connectivity (continued)
21. Network+ Guide to Networks, 4E 21 Verify Logical Connectivity Questions to help identify logical connectivity problems:
Error messages reference damaged or missing files or device drivers?
Error messages reference malfunctioning or insufficient resources?
OS, configuration, or application been recently changed, introduced, or deleted?
Problem occurs with only one application or a few, similar applications?
Problem happens consistently?
Problem affects single user or one group of users?
22. Network+ Guide to Networks, 4E 22 Implement an Action Plan and Solution Including Potential Effects Scope: assess scope of solution before implementing
Tradeoffs: solution may restore functionality for one group of users, but remove it for others
Security: solution may inadvertently result in addition or removal of network access or resource privileges for a user or group of users
Scalability: does solution position network for additions and enhancements later on
Cost: if solution requires significant software or hardware cost, weigh options carefully
23. Network+ Guide to Networks, 4E 23 Implement an Action Plan and Solution Including Potential Effects (continued) Use vendor information: nothing to lose by referring to manual, except a little time
Manuals, online information, technical support
Implement the solution:
Collect all documentation about problem’s symptoms
Make backups, keep old parts, print configurations
Perform change, replacement, move, or addition
Test solution
Clean up
Document solution and results
Revisit problem later
24. Network+ Guide to Networks, 4E 24 Test the Results Must verify that problem solved properly
Type of testing depends on solution
Depends on area affected by problem
May not be able to test solution immediately after implementing it
25. Network+ Guide to Networks, 4E 25 Identify the Results and Effects �of the Solution Should be able to determine how and why solution was successful and effects on users and functionality
Want to avoid creating unintended, negative consequences as result of solution
26. Network+ Guide to Networks, 4E 26 Document the Solution and Process Always record symptoms and cause(s) of a problem and solution
Impossible to remember circumstances of each incident
Networking personnel frequently change jobs
27. Network+ Guide to Networks, 4E 27 Staff Involved in Troubleshooting Many staff members may contribute to troubleshooting network problems
Help desk analysts often first-level support
Creates record for incident and attempts to diagnose problem
Second-level support analyst has specialized knowledge in one or more aspects of a network
Most help desks include a help desk coordinator
Ensures analysts divided into correct teams, schedules shifts, maintains infrastructure to enable analysts to better perform their jobs
28. Network+ Guide to Networks, 4E 28 Record Problems and Resolutions Call tracking system: software used for documenting problems
If no call tracking system, should keep records in electronic form
Name, department, phone number of problem originator
Software- or hardware-related problem?
Software package or device/component to which it pertains
Symptoms of problem
Name/telephone number of network support contact
Time spent troubleshooting
Resolution
29. Network+ Guide to Networks, 4E 29 Notify Others of Change Record resolution in call tracking system
Notify others of solution and what, if anything, needed to change to fix problem
Alerts others about problem and solution
Notifies others of network changes made, in case they affect other services
Change management system: process or program that provides support personnel with centralized means of documenting network changes
30. Network+ Guide to Networks, 4E 30 Notify Others of Change (continued) Types of changes that network personnel should record in change management system:
Adding or upgrading software or hardware
Changing network properties of network device
Increasing or decreasing rights for group of users
Physically moving networked devices
Moving user accounts, files, and directories
Making changes in processes
Making changes in vendor policies or relationships
31. Network+ Guide to Networks, 4E 31 Help to Prevent Future Problems Not all problems are preventable, but many can be avoided
Perform regular network health checks
Even continual network monitoring
When planning or upgrading a network, think about how good network designs and policies can prevent later problems
32. Network+ Guide to Networks, 4E 32 Troubleshooting Tools: �Crossover Cable Transmit and receive wire pairs in one connector are reversed
Directly interconnect two nodes without using an intervening connectivity device
Useful for quickly and easily verifying that node’s NIC is transmitting and receiving signals properly
33. Network+ Guide to Networks, 4E 33 Tone Generator and Tone Locator Telecommunications closets often disorganized and poorly documented
Tone generator: Issues signal on wire pair
Tone locator: Emits tone when it detects electrical activity on wire pair
Cannot be used to determine cable characteristics
Such as whether it has defects or whether its length exceeds IEEE standards for a certain type of network
34. Network+ Guide to Networks, 4E 34 Tone Generator and Tone Locator (continued)
35. Network+ Guide to Networks, 4E 35 Multimeter Can measure many characteristics of an electric circuit, including its resistance and voltage
Voltmeter: measures voltage of electric current
Ohmmeter: measures resistance
Every type of wire has different resistance characteristics
Impedance: resistance that contributes to controlling signal
Telltale factor for ascertaining location of faults in a cable
36. Network+ Guide to Networks, 4E 36 Cable Continuity Testers Test whether cable carrying signal to destination
When used on copper-based cables, applies small voltage to each conductor at one end of a cable
Checks whether voltage detectable at other end
Two parts:
Base unit: generates voltage
Remote unit: detects voltage
Some verify that wires in UTP or STP cables paired correctly and are not shorted, exposed, or crossed
37. Network+ Guide to Networks, 4E 37 Cable Continuity Testers (continued)
38. Network+ Guide to Networks, 4E 38 Cable Performance Testers Accomplishes same continuity and fault tests as a continuity tester, and more
Performance testers perform following tasks:
Measure distance to connectivity device, termination point, or cable fault
Measure attenuation along cable
Measure near-end crosstalk between wires
Measure termination resistance and impedance
Pass/fail ratings for CAT 3, 5, 5e, 6, or 7 standards
39. Network+ Guide to Networks, 4E 39 Cable Performance Testers (continued) Performance testers perform following tasks (continued):
Store and print cable testing results or directly save data
Graphically depict cable’s attenuation and crosstalk characteristics over length of cable
Time domain reflectometer (TDR): issues signal on cable and measures way signal reflects
Optical time domain reflectometer (OTDR): used for fiber optic cables
40. Network+ Guide to Networks, 4E 40 Cable Performance Testers (continued)
41. Network+ Guide to Networks, 4E 41 Network Monitors Software tool that continually monitors network traffic from a server or workstation
Typically can interpret up to Layer 3
Determines protocols passed by each frame
Can’t interpret data inside frames
Many available programs:
Microsoft Network Monitor ships with Windows Server 2003
Novell NETMON comes with NetWare 5.x and 6.x
Many others available
42. Network+ Guide to Networks, 4E 42 Network Monitors (continued) Network monitoring tools perform following functions:
Continuously monitor network traffic on segment
Capture network data transmitted on segment
Capture frames sent to or from specific node
Reproduce network conditions by transmitting selected amount and type of data
Generate statistics about network activity
43. Network+ Guide to Networks, 4E 43 Network Monitors (continued) Some network monitoring tools can also:
Discover all network nodes on a segment
Establish a baseline
Record of how network operates under normal conditions, including performance, collision rate, utilization rate, and so on
Store traffic data and generate reports
Trigger alarms when traffic conditions meet preconfigured conditions
44. Network+ Guide to Networks, 4E 44 Network Monitors (continued) Data errors that can be distinguished:
Local collisions
Late collisions
Runts
Giants
Jabber
Negative frame sequence checks
Ghosts
45. Network+ Guide to Networks, 4E 45 Protocol Analyzers Capture traffic and analyze frames
Typically up to Layer 7
Can interpret payload portion of frames
Can generate traffic in attempt to reproduce network problem and monitor multiple network segments simultaneously
Hardware-based protocol analyzers exist
Sole job is to identify and assess network problems
Tailored to particular type of network
May collect more information than can be processed
46. Network+ Guide to Networks, 4E 46 Protocol Analyzers (continued)
47. Network+ Guide to Networks, 4E 47 Wireless Network Testers To test wireless connections, stations, or APs, need tools that contain wireless NICs and run wireless protocols
Programs exist that can scan for wireless signals over a geographical range and discover all APs and wireless stations transmitting in area
Determine whether AP functioning properly
Determine whether AP positioned correctly
Determine whether stations and APs are communicating over proper channels within a frequency band
48. Network+ Guide to Networks, 4E 48 Wireless Network Testers (continued) Some programs can capture data transmitted between stations and APs
Useful for troubleshooting wireless connection problems
Some programs contain a spectrum analyzer
Assess quality of wireless signal
Ascertain where noise (or interference) is greatest
49. Network+ Guide to Networks, 4E 49 Wireless Network Testers (continued) Capabilities common to wireless network testers:
Identify transmitting APs and stations and channels over which they are communicating
Measure signal strength from and determine range of AP
Indicate effects of attenuation, signal loss, and noise
Interpret signal strength information
50. Network+ Guide to Networks, 4E 50 Wireless Network Testers (continued) Capabilities common to wireless network testers (continued):
Ensure proper association and reassociation when moving between APs
Capture/interpret traffic exchanged between wireless APs and stations
Measure throughput and assess data transmission errors
Analyze the characteristics of each channel within a frequency band to indicate the clearest channels
51. Network+ Guide to Networks, 4E 51 Wireless Network Testers (continued)
52. Network+ Guide to Networks, 4E 52 Summary Key to solving network problems is to approach them methodically and logically, using your experience to inform your decisions, and knowing when to ask for someone else’s help
First step in troubleshooting is identifying the symptoms and potential causes for a problem
Second step in troubleshooting is to identify the affected area
At each point in the troubleshooting process, stop to consider what kind of changes have occurred on the network that might have created a problem
53. Network+ Guide to Networks, 4E 53 Summary (continued) Based on an analysis of the symptoms and how changes might have affected the network, select a probable cause for the problem
After you have identified the probable cause, implement an action plan and your solution, while considering the potential effects of the solution
After implementing your solution, test your result to ensure that you solved the problem and haven’t created new problems
Next identify the effects and results of your solution
54. Network+ Guide to Networks, 4E 54 Summary (continued) Last step in troubleshooting is to document the solution and the process of solving the problem
A tone generator and tone locator are used to identify the terminating location of a wire pair
A multimeter is a simple device that can measure the voltage, resistance, impedance, and other characteristics of an electrical circuit
Basic cable continuity testers determine whether your cabling can provide connectivity
55. Network+ Guide to Networks, 4E 55 Summary (continued) A network monitor is a software-based tool that monitors network traffic from a server or workstation attached to the network
Protocol analyzers can typically interpret data up to Layer 7 of the OSI Model
Wireless network testing tools can be dedicated instruments or software that run on a workstation (usually a laptop)
