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System Administration Guide: IP Services Oracle Solaris 11 Express 11/10 |
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System Administration Guide: IP Services Oracle Solaris 11 Express 11/10 |
1. Planning an IPv4 Addressing Scheme (Tasks)
2. Planning an IPv6 Addressing Scheme (Overview)
3. Planning an IPv6 Network (Tasks)
4. Configuring TCP/IP Network Services and IPv4 Addressing (Tasks)
5. Enabling IPv6 on a Network (Tasks)
6. Administering a TCP/IP Network (Tasks)
8. Troubleshooting Network Problems (Tasks)
9. TCP/IP and IPv4 in Depth (Reference)
12. Planning for DHCP Service (Tasks)
13. Configuring the DHCP Service (Tasks)
14. Administering DHCP (Tasks)
15. Configuring and Administering the DHCP Client
16. Troubleshooting DHCP (Reference)
17. DHCP Commands and Files (Reference)
18. IP Security Architecture (Overview)
20. IP Security Architecture (Reference)
21. Internet Key Exchange (Overview)
23. Internet Key Exchange (Reference)
24. IP Filter in Oracle Solaris (Overview)
Part IV Networking Performance
26. Integrated Load Balancer Overview
27. Configuration of Integrated Load Balancer Tasks
28. Virtual Router Redundancy Protocol (Overview)
29. VRRP Configuration (Tasks)
30. Implementing Congestion Control
Part V IP Quality of Service (IPQoS)
31. Introducing IPQoS (Overview)
What Are Differentiated Services?
Where to Get More Information About Quality-of-Service Theory and Practice
Books About Quality of Service
Requests for Comments (RFCs) About Quality of Service
Web Sites With Quality-of-Service Information
Providing Quality of Service With IPQoS
Implementing Service-Level Agreements
Assuring Quality of Service for an Individual Organization
Introducing the Quality-of-Service Policy
Meter (tokenmt and tswtclmt) Overview
Marker (dscpmk and dlcosmk) Overview
Flow Accounting (flowacct) Overview
How Traffic Flows Through the IPQoS Modules
Traffic Forwarding on an IPQoS-Enabled Network
Packet Forwarding in a Diffserv Environment
32. Planning for an IPQoS-Enabled Network (Tasks)
33. Creating the IPQoS Configuration File (Tasks)
34. Starting and Maintaining IPQoS (Tasks)
35. Using Flow Accounting and Statistics Gathering (Tasks)
IPQoS contains features that can help you make network performance more efficient as you implement quality of service. When computer networks expand, the need also increases for managing network traffic that is generated by increasing numbers of users and more powerful processors. Some symptoms of an overused network include lost data and traffic congestion. Both symptoms result in slow response times.
In the past, system administrators handled network traffic problems by adding more bandwidth. Often, the level of traffic on the links varied widely. With IPQoS, you can manage traffic on the existing network and help assess where, and whether, expansion is necessary.
For example, for an enterprise or institution, you must maintain an efficient network to avoid traffic bottlenecks. You must also ensure that a group or application does not consume more than its allotted bandwidth. For an ISP or ASP, you must manage network performance to ensure that customers receive their paid-for level of network service.
You can use IPQoS to regulate network bandwidth, the maximum amount of data that a fully used network link or device can transfer. Your QoS policy should prioritize the use of bandwidth to provide quality of service to customers or users. The IPQoS metering modules enable you to measure and control bandwidth allocation among the various traffic classes on an IPQoS-enabled host.
Before you can effectively manage traffic on your network, you must answer these questions about bandwidth usage:
What are the traffic problem areas for your local network?
What must you do to achieve optimum use of available bandwidth?
What are your site's critical applications, which must be given highest priority?
Which applications are sensitive to congestion?
What are your less critical applications, which can be given a lower priority?
To implement quality of service, you analyze network traffic to determine any broad groupings into which the traffic can be divided. Then, you organize the various groupings into classes of service with individual characteristics and individual priorities. These classes form the basic categories on which you base the QoS policy for your organization. The classes of service represent the traffic groups that you want to control.
For example, a provider might offer platinum, gold, silver, and bronze levels of service, available at a sliding price structure. A platinum SLA might guarantee top priority to incoming traffic that is destined for a web site that the ISP hosts for the customer. Thus, incoming traffic to the customer's web site could be one traffic class.
For an enterprise, you could create classes of service that are based on department requirements. Or, you could create classes that are based on the preponderance of a particular application in the network traffic. Here are a few examples of traffic classes for an enterprise:
Popular applications such as email and outgoing FTP to a particular server, either of which could constitute a class. Because employees constantly use these applications, your QoS policy might guarantee email and outgoing FTP a small amount of bandwidth and a lower priority.
An order-entry database that needs to run 24 hours a day. Depending on the importance of the database application to the enterprise, you might give the database a large amount of bandwidth and a high priority.
A department that performs critical work or sensitive work, such as the payroll department. The importance of the department to the organization would determine the priority and amount of bandwidth you would give to such a department.
Incoming calls to a company's external web site. You might give this class a moderate amount of bandwidth that runs at low priority.
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