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Data transfer from one point to another is the most important aspect of computers. Networks need to be safe, reliable and secure for data movement. Any problem which occurs with computer networks will cause havoc. Understanding networks, the way they work, how they are built will help a network administrator to identify and fix the problem.
Procedure to troubleshoot network problems
A simple formula that enables network administrators solve any kind of network problem is:
Identify the symptoms.
Identify the affected area.
Determine what has changed
Select the most probable cause
Implement a solution
Test the result
Recognize the potential effects of the solution
Document the solution
Indicators are either physical or logical symptoms that help determine the nature of the problem, the reach of the problem, etc. These symptoms enable a network administrator to take timely preventive measures to solve the problem before it grows beyond control.
System or operator problems
System errors are those errors which arise from a computer or network device or a process that is not related to a user's direct interaction with the system or network. Such errors can occur due to hardware failure, faults in the process of data transfer or manipulation.
Operator errors are those errors which are a direct consequence of a user's action. The actions that can cause such errors may be incorrect log in, wrong connections to a server, misidentification of servers or network devices, incomplete network connections, etc. Mistakes on part of the network administrator that are common causes of operator errors are misconfiguration of devices, programs or services.
When a networking device detects a network connection a green or amber light-emitting diode (LED) is turned on. This is s link light which shines when in the 'on' state. Components of a network are designed with link lights to show the state of the network connection. When a physical network connection is present a link light remain on and another light is present which displays the current activity of the network card and blinks, pluses, during data transfer, these are the two lights on a network card. Link lights are designed to not light up in case of an incorrect network cable connection. By examining the link light of a device, a user can determine if a network connection is running or not.
Lights that indicate whether a certain connection is having problems due to packets colliding with one another is a collision light. During data transfer the collision light (activity light) is green while sending and receiving data and is yellow or orange when a collision error is detected. The packet being received or sent is lost when a collision occurs. Faulty cables or faulty hubs can result in packets being generated from other packets or electrical interfaces which when in large magnitude are called chatter. These network chatters can end up halting an entire network because of data packet collision. Network administrators and users need to have an eye for these lights to detect network chatter and avoid it.
A power light indicates if there is power supply to the networking device or not. In case there is no power supply the power light is absent. The power supply cables or wall connectors need to be checked for proper connections while troubleshooting a network problem.
A device failure or malfunction is indicated by an error display. A visual error dialog box on the computer or an LED error display on the network device is the form of an error display. These displays also describe the problem that is detected. Typically an error display relates to an error code that should be referred by the user to identify the cause and a suitable solution. Every physical or logical problem has a unique solution provided by its manufacturer which can be found in its documentation.
Error logs and displays
A list of errors encountered on a network device is the error log. The time of the error occurrence, the nature of the error and a suitable solution is what constitutes an error log. The information found in an error log is not sufficient to solve a problem and needs the support of the related documentation to resolve the problem.
Error logs are important sources of information such as time of the error, probable cause and other processes affected by the error. An error display gives a visual alert of a problem and logs it in the error log. Not all error displays are those which need immediate attention but a few are warnings that those that do not indicate an existing error but need attention.
An Event Viewer is an error logging mechanism which is typical to Windows-based OS such as Windows clients and servers. Event viewer is a critical tool in diagnosing and resolving a problem. Red-X error entries that have occurred are recorded in an event viewer. This is an application that reads the binary log files stored at <windows directory>|system32\config folder.
To view the error logs, the network administrator needs to view the config folder because the event viewer collects information from the files located in that folder.
Error logs are of three types which should be monitored by the network administrator regularly.
System log-Error messages that are related to device driver failure, service start failure, and general information about OS events are recorded in the system log.
Security log-When auditing has been enabled all security related events are recorded in a security log.
Application log-Events that are generated by application running on top of the OS are recorded in an application log.
Identify network problems
Troubleshooting a network is one of the key concepts in networking. Identifying network problems and determining methods of troubleshooting these problems is vitally important for smooth functioning of a network.
The job of highlighting the problem is usually done by the network user. This should not be the basis on which an administrator should attack a problem. It is advisable to experience the problem in person along with the user who reported it. This helps the network administrator confirm if the problem is real or just an error. There are certain users whose knowledge about computers and networks is not vast. With such users when a problem is reported, a first-hand inspection and confirmation are necessary.
The best approach to solving a problem is by determining its scope. The reason why an understanding of the nature of the problem is essential is that it determines the line of attack.
Gathering information helps the network administrator to narrow down to the root of the problem. This approach avoids a network administrator spending unnecessary time on unnecessary jobs. Once the network administrator is able to pinpoint the cause of the problem then finding a solution is possible.
The bigger the network is the deeper is the problem. A network administrator must first gather information to find out if the problem is with a single computer or with the entire network. In case the problem is local, then the entire network is not burdened and a solution can be found easily. The first logical step that needs to be taken is to check all cable connections to and from the system. It is not advisable to look into bigger issues or target larger sources when the cause might be very simple. The reason why a system is not able to connect to other systems may be that the network cable is not plugged in properly into the system. When the cable is connected properly, the network connection is up and running.
For example, if two systems in a network are not able to communicate with each other then the network administrator can perform simple checks like verifying the connections between the systems or connections to the network
A network administrator needs to check if a problem is consistent and replicable. If the problem reported unique to a system or can it be replicated in other systems in the network. If the same problem is reported from another system also, then the problem is consistent and replicable. The degree of damage is high in such a case since many systems are affected. If the problem is identified to be with the network, then the network administrator must reach to the cause of the problem step-by-step.
A large computer network requires a lot of effort from the network administrators and users for it to run smoothly. Adding to the huge task of maintenance is the job of fixing a problem. It becomes difficult to identify the actual problem for there are numerous workgroups and workstations. It is advisable to approach large network problems with the trial and error method.
The administrator will need to first check the local system from where a problem has been reported. A thorough check of its cable connections, network links, power supplies and so on needs to be done. If the problem is not with a local system then other systems in the vicinity should be checked. The routers to and from the system should be verified for proper functioning. The various connections should be verified.
One of the best methods to check and fix network problems is to try connecting to other systems and parts of the network by pinging to them.
Following Job aid will help to gather information and confirm if an abnormality has occurred
Job Aid- Gathering Information
How many are affected by the problem?
Was the network or computer upgraded recently?
Is the problem consistent?
Has any device been moved?
Has there been as effort to fix this problem?
Was such a problem reported earlier?
Is the time of the day heavy or light with network traffic?
Are new users added to the network?
These questions are only a few among the many that might suit a situation and need to be thought of at that point of time. Every problem is unique and so is the resolution.
Identify the affected area.
Once the cause of the problem is identified it is simple logic to isolate the affected area. This step helps an administrator narrow down to the core of the problem. With many issues to be handled at a time; administrators must prioritize the problems. Issues which will affect work to a large extent should be fixed first and the rest should follow sequentially. By doing this the downtime can be reduced and the system can be fixed faster.
Same line, different computer
While trying to solve a problem it is important to isolate the affected system. A simple method of testing if the problem is replicable is by replacing the original workstation with another system which is known to have no problems. By confirming if the problem is with the local system or beyond it, the network administrator will eliminate one factor of the problem. An easy way of isolating the system is by replacing it with another system. This step determines if a problem is computer specific or not.
Same computer, different line
When a user reports of a problem another means by which the administrator can reach the cause of the problem is by changing the network cables for the system. By doing this the possibility of a network error can be identified or nullified. In case the system works properly with a new connection, then it is for sure that the problem is with the original network and not the computer.
In a network, hubs, cables, terminators can be swapped with other systems to check for replication or consistency of a problem. This helps in case there is a faulty component and the work of the original system user is not disturbed since a spare is in place. This step helps determine the scope of the problem and address it appropriately.
Prioritizing work is very important for network administrators and network administrators since the time and effort used to fix a problem should help users to get back to work faster. Bigger and crucial problems need immediate action while the smaller ones can be addressed once the bigger ones are fixed.
Isolating segments of the network
By isolating parts of the network spread of the problem is checked such that the entire network does not collapse. The systems which have reported issues need to be disconnected from the network and terminators plugged in. This is a safe practice for it helps the network administrators fix the problem with lesser overloads of data and work.
Steps for problem isolation are given in Table 11.1
Determine which systems are and which are not showing symptoms.
Separate the systems that are showing symptoms from those that are not with hubs or terminators.
Rule out simple issues.
Reset all major connections to and from the system.
Eliminate cable problems.
Check for physical damage or erroneous connections of cables.
Eliminate serious cable issues.
Use TDR to find out cable problems.
Table 11.1 Methods to isolate network problems.
Determine what has changed
Computer networks will have many components, both hardware and software, replaced or reset to meet the requirements of the business. This can also be one of the causes of a network problem.
For example, if a user reports of a problem after a system in a network is replaced then one needs to check if the address of the changed system is properly recorded and connected to with the existing network.
To be able to fix problems when changes are made to the network, it is advisable to maintain proper records of all details about the new and existing network such as the points of change, the components of change, their versions, IP addresses and network cables. A detailed documentation system will help fix such issues quickly.
Checking the status of servers
Servers are an integral and crucial resource in a network. Their health is very important for functioning of a network. Therefore it is logical to check the server status when faced with a problem. If sever issues are not addresses on time the degree of damage can be high. A few server monitoring tasks that can monitor their status are
Check error logs
Monitor performance and network traffic
Confirm alerts and alarms
Verify backup logs along with test restores.
Checking error logs
Error logs are an important source of information for a network administrator. It throws light on the errors that have occurred and their nature. The amount of damage can also be assessed from this log. The administrator can prioritize errors on the extent of damage and fix them in that order. It is important to review the error log on a daily basis because certain errors have dependencies which can spread the damage faster. It is advisable to make it a habit to check the error logs at some point of time in the day to help the network work better. Connectivity between systems or servers can be tested using the Ping feature. If the system at the other end of the ping message responds then the connection is intact, else a thorough check of the connection needs to be done. Regular checks should be carried out to look out for server overload problems. An overloaded server can slow down system performance and speed. Backup servers should also be monitored for updates and performance. In the event of an emergency backup data and resources are very crucial. An alert system can be designed which can raise alarms when predefined limits are exceeded. This is a good preventive measure that helps in proper functioning of a network.
Checking for configuration problems
Before introducing a new resource into the network it is necessary to verify existing configurations and connections. In case the existing settings are incorrect then the new resource will not work.
For example, before setting up a new server it is good to check the base OS, TCP/IP, network cables, error logs, and memory allocation for accuracy. This will improve performance and not allow deterioration of the system.
Once the existing settings and connections are verified the new resource and additional services must be configured accurately. There are a few tasks which will require the entire network to be turned off for a few minutes before rebooting. This activity will have to be timed for low work load hours.
A few critical services which determine functioning of the entire network and need constant monitor and accurate configuration are:
This is a necessity for most networking environments of today, such as Microsoft active directory and other internet-based applications. A detailed plan should be in place before configuring a DNS which require a list of information before installation.
IP address of every server for which name resolution has to be provided
Hostname of every server
To avoid all problems the information provided must be accurate and updated.
WINS is a feature similar to DNS which resolves NetBIOS names to IP addresses. This is a dynamic service which can add, modify and delete name registrations and avoid human errors and save time. WINS has many configuration possibilities and the user can add a static mapping for clients or severs.
Host files and DNS are similar in characteristics. Host files need manual configuration of database with exact mappings to hostname to IP addresses. Host files reside on every computer which makes the process of updating difficult. It is very important to provide correct hostname to IP address mappings for all rules that apply to the DNS apply to the host files also. To avoid typing errors while configuring host files, it is safe to copy the existing hosts to the newly created file and on each of the machines.
Checking for viruses
Viruses are a huge and common threat to computers. A computer network is at greater risk since the number of computers is large and the damage can be huge. Protecting networks and computers outside of networks from viruses is a top priority job. Viruses grow in the computer world at a pace which matches the growth in the biological world. The mechanisms to destroy viruses evolve every minute to fight the strongest and newest virus. It is the job of the network administrator to keep the network free of viruses. Constant updates of virus definition files, scans to check for entry of viruses and antivirus software are the most popular and best methods to fight them. Preventive measures are best when deployed round the clock. All resources in a network should be scanned for viruses and guarded from them. Every piece of software and hardware is crucial to the smooth working of a network or system. There are a number of virus scanning utilities available in the market which will enable computers to automatically update virus definition files from a core server therefore avoiding the administrator making trips to each workstation.
Checking the validity of account name and password
Account name and password are the gates that lead the user to a whole world of services, applications and data. Their validity matters a lot for the user to be able to access services, applications or data. Many services use the built-in system account details for success while a few other services require the user to log on to a remote system. This task needs an account name and password that resides in the network account database. To activate certain services or applications, administrative privileges or membership in certain groups is necessary which again needs account name and password. For quite a few system-related tasks administrative rights are required which will allow the user to modify certain settings to suit the need. The worst situation is when a network administrator has configured many application and services with the administrator account which gets deleted on end of service of the administrator. All services and applications using the administrator account are disabled and access is denied which is very difficult to fix.
Rechecking operator logon procedures
Very often users end up facing problems with passwords. Users will try to logon to a part of the network for which access is not granted, forget passwords, doo not remember the case-sensitive feature of passwords, etc. Many a times the user tries more than thrice to logon with a certain or different passwords after which the user is locked out. To resolve this minor but deep-penetrating issue the administrator will need to reset the password for the user. Passwords should be changed at regular intervals for safety and to avoid expiry and this is an issue for many users.
Selecting and running appropriate diagnostics
Diagnostics is an essential tool to even out variations and eradicate potential problems in a network. Though this is a preventive mechanism the benefits of using it are many. Diagnostics look out for bottlenecks and problematic situations. Diagnostic tools bring out problems or drawbacks and limitations that can be fixed before they erupt as big problems. While choosing a diagnostic program the user should bear in mind the network needs for which it is to be employed. Smaller networks should use simple diagnostic programs while large networks will need extensive protocol analyzing and packet sniffing products. Free diagnostic products such as performance monitor and network monitor work well for a medium sized network. To utilize the tool to the maximum without affecting the network performance the network administrator must research the diagnostic product in depth. With experience and products like this an administrator will be able to identify the problem well in time and resolve it effectively. A reliable baseline of activities must be established for testing. Snapshots of different activities at different time periods of the day, week and month will help assess the network efficiently and accurately.
Select the most probable cause
Of the many steps suggested to solve a problem, experience of the network administrator is a capability that matters a lot for the process. In case the network administrator is not well versed with the network or common network issues, resolving becomes a tough task. The way a network administrator approaches a problem solves the issue to quite an extent for it can guide or misguide the way the solution will be built. In case a fresh or an outside network administrator is being roped in to solve a network problem the chances of long system downtime is high. The new network administrator will have to get familiarized with the network and then look out for probable causes. The more the experienced the network administrator is the easier is it to solve the problem.
Many a times problems may be similar across systems and a network administrator can tap the experience from the past to fix it faster. A company can benefit largely from a full-time network administrator and network administrator who will know the details of the network at the back of their minds.
Common problems and their probable causes
The common network problems are their probable causes are given in Table 11.2
Cannot connect to a computer on a remote network.
A routing issue in all probability. Check if it is possible to connect to a local system and ping the router or another system on the remote network.
Communication in the entire network is down.
If in a coax-based network check for loose connections, if in a twisted-pair network check if the hub is operational, if in a token ring network check if the computer is not beaconing.
Takes a very long time to connect to a network resource.
Network may be overloaded.
A device on the system is not functioning and network connection is not possible.
A network card configuration issue in most cases. Check if the NIC is configured properly. Driver may be loaded incorrectly.
Communication in a local network is not possible, but other networks are working.
Check if the hub/switch is not locked up. Check if the network adapter is configured properly.
No internet access.
Check the internet gateway. Check the router is there is a dedicated internet connection. Check the internet provider's network.
Token ring network is locked up.
Someone in the network is beaconing. Also check if the bridge is locking up.
Table 11.2 Certain problems and probable causes
Implement a solution
In order to fix a problem a network administrator might have to consult others, read related documents, research from the internet and seek help from vendor help lines. Finally with a solution on hand that seems most suitable it should be implemented without any delay.
Test the result
Confirming if the solution implemented is correct and has solved the problem is very crucial to the problem solving process. Any user will contact the network administrator with a hope of fixing the problem and getting back to work. If the network administrator leaves the user without confirming if the solution provided is correct, then the purpose of the network administrator being present is defeated. It is the duty of the network administrator to ensure that the problem with which the user had approached does not repeat.
Recognize the potential effects of the solution
With a working solution in place the next factor that a network administrator should consider is the aftermath of the solution. Many instances can be found where a certain solution to a problem has triggered problems in other parts of the system or network. This cascading effect of a solution needs to be monitored and checked. For example, a user may report a system communication problem and a solution be provided with resetting of the network cables. The local problem of the system not being to communicate might be solved, but the system might not be able to connect to some other part of the network. Such rippling effects of a solution need attention from the network administrator. Proper implementation of a solution, confirming its working and nullifying all side effects of a solution completes the solution phase.
Documenting the solution
Once a problem reported has been solved and work is back to normal, it is the job of the network administrator who solved it to document it properly for future use. The facts that certain problems might recur after some period of time, a new network administrator might face a problem already solved earlier, etc are reasons why documentation is necessary. An organization will benefit from proper documentation of troubleshooting when there is a change of hands with network administrators, save on time by not going through the whole process once an apt solution is found by one and even benefits when a certain solution has faded in the memory of a network administrator. Proper documentation for each aspect of troubleshooting is as good as providing an appropriate solution on time.
Common connectivity issues in a network
The common connectivity issues in a network can be of two types network failure due to physical problems such as device or cable issues and logical problems such as invalid IP addresses or VLAN problems.
Cabling problems are the most common physical issues. Visual indicators such as link lights, activity lights and collision lights can be used to fix these problems. A few common problems that a network administrator fixes are
Recognizing abnormal physical conditions
To be able to recognize deviations from the normal, a good knowledge of what is the normal is essential. If the user is not aware of the default information then it is not possible to alter or reset details. A user needs to be alive to certain issues in order to spot a problem.
Authentication takes longer.
More errors are logged than usual.
Printing is taking longer.
Connecting to a network is getting slower.
Connections to resources are being lost.
Isolating and correcting problems in the physical media
Network cables are the most vulnerable resources in a network. They end up leading to a whole range of problems and can get fixed easily. The cable which is at high risk of problems is the cable from the workstation to the wall jack.
A solution as simple as plugging it back can solve network problems at times.
If the problem is not solved try another cable and try with other cables till contact is established.
Communication in the entire network is down.
Check if the cable is intact. The point at which the cable has been damaged should be reconnected with a new cable.
The new UTP cable is not enabling network communication. The network is working with the test cable.
The new UTP cable might be a crossover cable. Test the connections with a cable tester and replace the UTP cable if not fine.
A system was moved to a new location and is not able to communicate now. The system is correct.
Cables might be damaged during transit. Replace the old cables with new ones for proper connection.
Table 11.3: Common cable problems and probable solutions.
When adjacent wires interfere with a certain wire system it is called crosstalk. The first indication of crosstalk is signal degradation. Using another cable type with multiple layers of shielding is the best solution for this problem.
Nearing cross talk
Issues in network connectivity occur when a cable wire causes electromagnetic interference in the wires adjacent to it and releases a current. This point has the strongest possibility of cross talk and is generally present in the first part of the wire which is connected to a connector, switch, or an NIC. Nearing crosstalk helps to measure this type of cross talk.
Signals degrade as the distance they travel increases, this is called attenuation. If a user finds it difficult to communicate with system at quite a distance then the maximum cable length for that type of cable would have exceeded. In such a case, a repeater can be used at some point in the cable to reamplify signals or a different cable type can be used.
Data collision is a common issue when there are many systems in a network. Data packets travelling across the network collide with each other affecting network performance. To resolve this issue network hubs can be replaced with switches which has each port of on the switch owning its own network segment ensuring that data does not collide.
A network short leads to network downtime. Using a cable analyzer to identify shorts can reduce the problem of connectivity and shorts.
Open impedance mismatch (echo)
Network signals bounce causing communication problems due to high impedance. Signals bounce because of miswired cables or incorrect connectors. Recrimping of the cable is a good solution to avoid high impedance problems.
Network cables experience signal interference from external components like power cables, backup lines, etc. Network cables should be laid away from agents that can interfere with its signals.
Logical issues have simple solutions but can lead t huge problems if not addressed properly. A few logical issues and solutions are listed in this section.
Port speed and duplex settings
Confirming that the speed and duplex settings of the network card are set correctly avoids problems for systems connecting to each other across a network.
Communication between systems across VLANs is not possible unless there is routing done between them. Therefore placing systems corresponding to the VLAN is important.
Incorrect IP address
If IP addresses of systems are not set properly for communication, problems are sure to crop up. The first step in troubleshooting should be to check for correct IP addresses.
If the IP address of the router is not set correctly then the default gateway settings are incorrect which will lead to communication problems off the network. IP addresses need to be correct.
If the IP address is correct and yet the user is not able to communicate with other systems, then the problem is with the name resolution feature. Confirm that the IP address configured on the system is set as the DNS server entry.
Wrong subnet mask
Correct subnet mask information along with correct IP address will ensure proper communication between systems. Hence check for correct subnet mask information in the TCP/IP properties.
Loops are a source of connection problems in a network. STP protocol (from Cisco) prevents loops by placing one of the ports in the loop in a blocked state. A thorough check of the network wiring and removal of cables that creates loops is the solution for this problem.
Routers are a very important component of the network. If there is a routing problem then the entire network collapses with no communication between systems. Checking of the routing table on the router will solve routing problems.
Incorrect wireless network connection for wireless clients is the most common wireless problem. Cordless phones and microwave devices are potential sources of wireless problems. Therefore such devices should be placed away from the network.
Causes for escalation
Certain network issues like switching loop, routing loop, route problems, proxy ARP and Broadcast storms though identified must be escalated as these require expertise and skill to resolve.
To ensure fault tolerance and load balancing switches in a network are frequently connected to links that are not in use to provide load balancing and fault tolerance in the network. To prevent switching of loops and maintain fault tolerance the spanning tree protocol (STP) is used. In case there is an STP failure causing an STP convergence problem then the network stops, restarts and stops again without any warning. Reconfiguration and repair of the network post STP failure needs expertise and time, in such a scenario escalation becomes necessary.
Routing loops occur in case the routing protocols are not configured correctly or when a network administrator creates conflicting routes through the network causing issues in traffic flow for the network users. As this situation is very complicated and cannot be fixed easily escalation to experts resolves the issue. Another reason for the routing loops to occur is if the network is using old protocols like RIP and RIPv2 upgrading these protocols to the latest ones can prevent routing loops.
Routing problems occur in case a wrong default route is set on a router or the router configurations are changed randomly. Router configurations include things like NAT, PAT, Access lists, and Authentication protocols. A change in the configuration of the router can lead the network traffic to an incorrect path or even bring the entire network to a stop. Since router configurations are very precise and must be an exact match to the device being used for routing hence these problems need to be escalated to a systems administrator.
Proxy Address Resolution Protocol (ARP)
The purpose of the Proxy ARP was to provide more than one configured default gateway to the host on a network, though it is no longer used in today's networks. It was also used as a service to resolve IP addresses to MAC addresses. Though Proxy ARP is a redundant protocol many hosts and routers still have it by default. Each time the Proxy ARP sends a message it uses valuable network bandwidth, wastes time, and affects the performance of the network. The routers being used on the network must have the Proxy ARP disabled to prevent network traffic and ensure security. Escalation to an expert is necessary in case the Proxy ARP needs to be disabled on the host or the router.
In case there is an STP failure between switches or the switch has been disabled then all the switches continuously broadcast, receive, and rebroadcast packets leading to a broadcast storm. This causes network congestion. Troubleshooting the network is possible only by finding the bad link on the network and requires the intervention of experts.
Resources to troubleshoot networks
Not all network problems get fixed by replacing cable, checking for connections, etc. A few resources are designed to help network administrators solve problems which are listed in this section.
TechNet is a searchable database from Microsoft which has all articles and documentation from Microsoft on all its products. This is a monthly issue of information that can be subscribed. An online version of TechNet is also available at www.microsoft.com/technet which is easier to reach and search. Problems and solutions from numerous users world over are documented here which can be of immense use to all Microsoft users.
Manufacturer web sites
Any product will be supplied by a manufacturer who takes responsibility of support when asked for. The web site of the manufacturer is a good source of information which will have the latest information about both hardware and software. This is the first step a user will have to take before reaching for the manufacturer for a lot of support is provided in the web site itself. Technical support help lines are also part of the problem resolution process for which links can be got from the website.
Resource kits and knowledgebase
Resource kits are a dependable source of solutions for many problems faced by users. This database will have a large amount of information about the OS along with technical details not easily available elsewhere. This knowledgebase is much more than a standard documentation which provides only necessary information.
Trade publications and white papers
The latest and most recent advances and technologies that have entered the market are available in trade publications and white papers. This might not be the immediate source of information to solve a certain problem, but regular reading of such articles and data will enhance the knowledge of the user and enable them to solve problems easier.
Telephone technical support
It is always easy to seek help from a person rather than documents and articles; relating to people and explaining problems to people is simpler. Telephone technical support is provided by most vendors and manufacturers. Skilled and experienced network administrators talk to users and help them sort out network issues over the telephone. A little homework on part of the user will quicken the support process; the information that is useful for such interactions is:
Hardware and software environment information, for example OS of the system
Version number of hardware and software
Troubleshooting done by the user
Details of the problem
Contact number for returning the call
A whole range of information is given to the user in the form of a CD at the time of purchase of the hardware or software. This contains details about installation, configuration and solutions to probable problems. Most users undermine the importance of vendor CDs and resort to own methods of solving a problem. It is advisable to check the CD first before venturing to try other means of solving a problem. Vendor CDs are similar to TechNet in most cases and can solve a wide range of issues.
11.6 Other symptoms and causes of network problems
A detailed and patient look at the symptoms of a network problem can lead a user to the cause faster. This is generally not the case since people panic at times of trouble. There are a few problems which show up differently but have the same solution. Table 11.2 lists a few common problems and probable causes.
Chapter review questions
A user has tried to logon more than three times and has been unable to do so, to resolves this issue the network administrator will______________.
Configure a new user ID
Give the user a new workstation
Check the access list
Reset the user's password
To test if the network problem is replicable the network administrators must ___________ the original workstation with another system which is known to have no problems
By examining the ______________of a device, a user can determine if a network connection is running or not.
In case the network users cannot connect to a computer on a remote network the network administrator should check for __________.
Damage in the computer
Password of the user
Configuration of the computer
Determine what has changed is the _____________ step in the procedure to troubleshoot network problems
A visual error dialog box on the computer or an LED error display on the network device is the form of _____________.
A device on the system is not functioning and network connection is not possible. The network administrator should check for_________________.
Configuration of the system
Configuration of the NIC
Configuration of Access point
Configuration of the server
The collision light is _________________ when a collision error is detected.
Red or yellow
Yellow or orange
Orange or red
Red or green
Implement a solution is the _________________step in the procedure for troubleshooting a network problem.
An Event Viewer is an ______________which is typical to Windows-based OS.
Error logging mechanism
In this chapter, Network Troubleshooting, you have learnt about:
The procedure of troubleshooting network problems
Common connectivity issues in a network
Causes of escalation
Resources to troubleshoot networks