ProCurve 2610-PWR Technical Information

Advanced Traffic Management Guide 2610 2610-PWR ProCurve Switches R.11.XX www.procurve.com

Planning a QoS Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-15 Prioritizing and Monitoring QoS Configuration Opti

Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates Querier's processing of that Leave. For more on this topic, refer to “For

Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates does not wait for the actual Querier to verify that there are no other group mem

Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates “X” member on that port. If the port does not receive a join request for that

Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates Note on VLAN Numbers In the ProCurve switches covered in this guide, the walkmib

Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates To List the Forced Fast-Leave State for a Single Port. (See the “Note on VLAN

Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates Syntax: setmib hpSwitchIgmpPortForcedLeaveState.< vlan number >< .port

Multimedia Traffic Control with IP Multicast (IGMP) Using the Switch as Querier Using the Switch as Querier Querier Operation The function of the IG

Multimedia Traffic Control with IP Multicast (IGMP) Excluding Multicast Addresses from IP Multicast Filtering Excluding Multicast Addresses from IP Mu

Multimedia Traffic Control with IP Multicast (IGMP) Excluding Multicast Addresses from IP Multicast Filtering 4-24

5 Spanning-Tree Operation Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

QoS Messages in the CLI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-65 QoS Operating Notes and Restrictions .

Spanning-Tree Operation Contents How MSTP Operates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-49 Regions, Leg

Spanning-Tree Operation Overview Overview This chapter describes the operation of the Spanning Tree Protocol (STP) and how to configure it with the sw

Spanning-Tree Operation Overview 802.1w Spanning Tree Protocol Default Menu CLI Web Reconfiguring Whole-Switch Values Reconfiguring Per-Port Values

Spanning-Tree Operation Overview Without spanning tree, having more than one active path between a pair of nodes causes loops in the network, which ca

Spanning-Tree Operation Overview The logical and physical topologies resulting from these VLAN/Instance groupings result in blocking on different link

Spanning-Tree Operation The RSTP (802.1w) and STP (802.1D) Spanning Tree Options Note for 8 02.1 D and 802.1w Spann ing-Tree Operation You should enab

Spanning-Tree Operation The RSTP (802.1w) and STP (802.1D) Spanning Tree Options RSTP (802.1w) The IEEE 802.1D version of spanning tree (STP) can take

Spanning-Tree Operation The RSTP (802.1w) and STP (802.1D) Spanning Tree Options How STP and RSTP Operate The switch automatically senses port identit

Spanning-Tree Operation The RSTP (802.1w) and STP (802.1D) Spanning Tree Options dant links by using a port trunk. The following example shows how you

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Configuring Rapid Reconfiguration Spanning Tree (RSTP) This section des

Displaying IRDP Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-25 Configuring DHCP Relay . . . . . . . . . . . . .

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Transitioning from STP to RSTP IEEE 802.1w RSTP is designed to be compa

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Configuring RSTP The default switch configuration has spanning tree dis

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) CLI: Configuring RSTP Spanning Tree Commands in This Section STP RSTP

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Figure 5-4. Example of the Spanning Tree Configuration Display Enablin

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Reconfiguring Whole-Switch Spanning Tree Values. You can configure one

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Note Executing the spanning-tree command alone enables spanning tree.

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Reconfiguring Per-Port Spanning Tree Values. You can configure one or

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Syntax: Abbreviations: spanning-tree [ethernet] < port-list > s

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Menu: Configuring RSTP 1. From the console CLI prompt, enter the menu

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Figure 5-5. Example of the RSTP Configuration Screen 7. Press the [T

Operating Rules for Stacking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-7 General Rules . . . . . . . . . . . . . . . . .

Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Web: Enabling or Disabling RSTP In the web browser interface, you can e

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) 802.1D Spanning-Tree Protocol (STP) Menu: Configuring 802.1D STP 1. From the Main Menu,

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Use this field to enable spanning tree. Read-Only Fields Figure 5-7. Enabling Spanning-Tr

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Figure 5-8. The Configuration Menu Indicating a Reboot Is Needed to Implement a Configur

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) CLI: Configuring 802.1D STP STP Commands Used in This Section show spanning-tree config B

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Configuring the Switch To Use the 802.1D Spanning Tree Protocol (STP). In the default con

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Enabling STP implements the spanning tree protocol for all physical ports on the switch, r

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Note Executing spanning-tree alone enables STP. Executing spanning-tree with one or more

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) You can also include STP general parameters in this command. See “Recon-figuring General S

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) To Enable or Disable Fast Mode for a Switch Port: You can use either the CLI or the menu

xii

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Caution In general, fast-uplink spanning tree on the switch is useful when running STP i

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Terminology Term Definition downlink port A switch port that is linked to a port on ano

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) In figure 5-13, STP is enabled and in its default configuration on all switches, unless ot

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Edge switches cannot be directly linked together using fast-uplink ports. For example,

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) To View and/or Configure Fast-Uplink STP. This procedure uses the Spanning Tree Operation

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) 3. If the Protocol Version is set to RSTP (as shown in figure 5-15), do the following: a

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) In this example, ports 2 and 3 have already been configured as a port trunk (Trk1), which

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) STP is enabled. Port A1 and Trk1 are now configured for fast-uplink STP. Figure 5-18. Exa

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Indicates which uplink is the active path to the STP root device. Note: A switch using fas

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) In figure 5-20: • Port A1 and Trk1 (trunk 1; formed from ports 2 and 3) are redundant fa

Product Documentation Note For the latest version of all ProCurve switch documentation, including release notes covering recently added features, v

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Redundant STP link in the Forwarding state. (See the “Root Port field, above. This is the

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Fast-Uplink STP Configured on Port 1 and Trunk 1 (Trk1) STP Enabled on the Switch Figure 5

Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) Lists STP configuration. Shows the default STP protocol 1. Changes the Spanning-Tree prot

Spanning-Tree Operation Web: Enabling or Disabling STP Note When you add a port to a trunk, the port takes on the STP mode configured for the trunk,

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) 802.1s Multiple Spanning Tree Protocol (MSTP) The 802.1D and 802.1w spanning tre

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) MSTP Structure MSTP maps active, separate paths through separate spanning tree i

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) MST Region: An MST region comprises the VLANs configured on physically connected

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Caution When you enable MSTP on the switch, the default MSTP spanning tree con

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) How Separate Instances Affect MSTP Operation. Assigning different groups of VLA

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Within a region, traffic routed between VLANs in separate instances can take onl

Product Documentation Software Feature Index For the software manual set supporting your switch model, the following feature index indicates which man

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) an instance by using a port trunk. The following example shows how you can use a

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) and designated port for each region. The CIST includes the Common Spanning Tree

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Operating Rules All switches in a region must be configured with the same se

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) the same instance, all but one of those paths will be blocked for that instance.

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) incompatibility between devices running the older 802.1D STP and your switch run

Note on MSTP Rapid State Transitions Note Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Under some circumstances the rap

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) – Force-Version operation spanning-tree force-version – Forward Delay spa

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Configuring MSTP Operation Mode and Global Parameters Command Page spanning-tre

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Note Syntax: spanning-tree-protocol-version mstp Changes the current spanning-t

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree config-revision < revision-number > This command co

Product Documentation Feature Management and Configuration Advanced Traffic Management Access Security Guide File Transfers X - -Friendly Port Name

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree force-version < stp-compatible | rstp-operation | mst

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Configuring Basic Port Connectivity Parameters Command Page spanning-tree <

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) [ mcheck ] Forces a port to send RSTP BPDUs for 3 seconds. This allows for anoth

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) [ path-cost < auto | 1..200000000 > ] Assigns an individual port cost that

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree < port-list > root-guard MSTP only. When a port is

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree instance < 1..16 > priority < 0 .. 15 > This

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree priority < 0 .. 15 > This command sets the switch (

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Configuring MST Instance Per-Port Parameters Command Page spanning-tree instanc

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree instance < 1..16 > [e] < port-list > priority

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree [e] < port-list > priority < priority-multiplier

Product Documentation Feature Management and Configuration Advanced Traffic Management Access Security Guide Port-Based Access Control - - X Port-Ba

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Enabling or Disabling Spanning Tree Operation This command enables or disables s

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) 1. Configure the VLANs you want included in any instances in the new region. W

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) 9. To view the current pending MSTP configuration, use the show spanning-tree

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Switch’s Spanning Tree Configuration and Identity of VLANs Configured in the Swi

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Displaying Switch Statistics for a Specific MST Instance. Syntax: show spannin

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Displaying the MSTP Configuration Displaying the Global MSTP Configuration. Thi

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Displaying Per-Instance MSTP Configurations. These commands dis-plays the per-i

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Displaying the Region-Level Configuration in Brief. This command output is usef

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Displaying the Pending MSTP Configuration. This command displays the MSTP confi

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Operating Notes SNMP MIB Support for MSTP. MSTP is a superset of the STP/802.1D

Product Documentation Feature Management and Configuration Advanced Traffic Management Access Security Guide VLANs - X -Web-based Authentication -

Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) 5-82

6 Quality of Service (QoS): Managing Bandwidth More Effectively Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Quality of Service (QoS): Managing Bandwidth More Effectively Contents QoS IP Type-of-Service (ToS) Policy and Priority . . . . . . . . . . . . . .

Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Introduction QoS Feature Default Menu CLI Web TCP/UDP Priority Disabl

Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Quality of Service is a general term for classifying and prioritizing traf

Quality of Service (QoS): Managing Bandwidth More Effectively Introduction QoS is implemented in the form of rules or policies that are configured on

Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Terminology Term Use in This Document 802.1p priority A traffic priority

Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Term Use in This Document outbound port For any port, a buffer that holds

Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Configuring a priority for outbound packets and a service (prior-ity)

Quality of Service (QoS): Managing Bandwidth More Effectively Introduction But if the packet is in a VLAN-tagged environment, then the above setting i

Product Documentation xviii

Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Table 6-4. Switch Classifier Search Order and Precedence Search Order Pre

1 2 Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Table 6-5.Precedence Criteria for QoS Classifiers Precedence Criteria

6 Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Precedence Criteria Overview Incoming Where a VLAN-tagged packet ente

Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS Preparation for Configuring QoS QoS operates in VLAN-tag

Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS For more on how QoS operates with the preceding traffic

Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS Planning a QoS Configuration QoS uses resources in a way

Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS ToS Diff-Services QoS Up to 64 rules per switch, depen

Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS Configuring a Policy When There Are Not Enough Rules Ava

Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS 2. Use the show qos commands to identify the currentl

Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS How the Switch Uses Resources in DSCP Configurations. I

1 Getting Started Contents Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Using QoS Classifiers To Co

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic vlan-priority Displays the c

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Options for Assigning Prior

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic no qos < udp-port | tcp-p

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Assigning a DSCP Policy Bas

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Note A codepoint must have

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic For example, suppose you wa

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic DSCP Policies Configured in

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic QoS IP-Device Priority QoS

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Assigning a Priority Based o

Getting Started Introduction Introduction This Advanced Traffic Management Guide describes how to manage and configure advanced traffic management fea

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Figure 6-10. Example of Co

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic 2. Determine the DSCP poli

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic no qos device-priority <

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic 2. Configure the prioritie

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic QoS IP Type-of-Service (ToS

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Assigning an 802.1p Priority

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic To replace this option with

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Note on DSCP Use Different

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic . Syntax: qos type-of-servi

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Executing this command displ

Getting Started Conventions Braces within square brackets ( [ < > ] ) indicate a required element within an optional choice. Boldface in

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Assigning a DSCP Policy on

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic no qos type-of-service Disab

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic The DSCPs for this example

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic The specified DSCP policies

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic b. Configure the switch to

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Table 6-9. How the Switch Us

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic QoS VLAN-ID (VID) Priority

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Syntax: vlan < vid >

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Figure 6-23. Configuring a

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Note On switches covered i

Getting Started Sources for More Information Port Identity Examples This guide describes software applicable to both chassis-based and stackable ProCu

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Syntax: vlan < vid >

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic 2. Configure the priorities

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic QoS Source-Port Priority Qo

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic For example, suppose that yo

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Assigning a DSCP Policy Bas

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Note A codepoint must have

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic For example, suppose you wa

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Priorities Configured in thi

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Differentiated Services Cod

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Table 6-11.The Default DSCP

Getting Started Need Only a Quick Start? For information on a specific command in the CLI, type the command name followed by “help”. For example: F

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Quickly Listing Non-Default

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Effect of “No-override” In t

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Example of Changing the Pri

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic Three classifiers use the co

Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure QoS for Outbound Traffic c. Assign the port-priori

Quality of Service (QoS): Managing Bandwidth More Effectively IP Multicast (IGMP) Interaction with QoS IP Multicast (IGMP) Interaction with QoS IGMP h

Quality of Service (QoS): Managing Bandwidth More Effectively QoS Operating Notes and Restrictions QoS Operating Notes and Restrictions Table 6-12. D

Quality of Service (QoS): Managing Bandwidth More Effectively QoS Operating Notes and Restrictions Maximum QoS Configuration Entries: The switches

Quality of Service (QoS): Managing Bandwidth More Effectively QoS Operating Notes and Restrictions 6-68

7 IP Routing Features Contents Overview of IP Routing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-3 IP In

Getting Started Need Only a Quick Start? To Set Up and Install the Switch in Your Network Important! Use the Installation and Getting Started Guide

IP Routing Features Contents Enabling IRDP Globally . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-23 Enabling IRDP on

IP Routing Features Overview of IP Routing Overview of IP Routing The switches covered in this guide offer IP static routing, supporting up to 16 stat

IP Routing Features Overview of IP Routing Note Your ProCurve switch supports IP addresses in classical sub-net format, which includes the IP addres

IP Routing Features Overview of IP Routing IP Route Table The IP route table contains routing paths to IP destinations. Note The default gateway, wh

IP Routing Features Overview of IP Routing If the cache contains an entry with the destination IP address, the device uses the information in the

IP Routing Features Overview of IP Routing Parameter Description Default See page ICMP Router Discovery Protocol (IRDP) An IP protocol that a route

IP Routing Features Configuring IP Parameters for Routing Switches Configuring IP Parameters for Routing Switches The following sections describe how

IP Routing Features Configuring IP Parameters for Routing Switches table or forwarding cache. The routing switch needs to know the MAC address that co

IP Routing Features Configuring IP Parameters for Routing Switches routers, including ProCurve routing switches, can be configured to reply to ARP req

IP Routing Features Configuring IP Parameters for Routing Switches ProCurve(config)# show ip Internet (IP) Service IP Routing : Disabled Default Gat

2 Static Virtual LANs (VLANs) Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

IP Routing Features Configuring IP Parameters for Routing Switches You can set or display the arp-age value using the menu interface (Menu > Switch

IP Routing Features Configuring IP Parameters for Routing Switches An ARP request from one subnet can reach another subnet when both subnets are on th

IP Routing Features Configuring IP Parameters for Routing Switches To enable forwarding of IP directed broadcasts, enter the following CLI command: Pr

IP Routing Features Configuring IP Parameters for Routing Switches Disabling Replies to Broadcast Ping Requests By default, ProCurve devices are enabl

IP Routing Features Configuring Static IP Routes Protocol – The TCP or UDP protocol on the destination host is not running. This message is differ

IP Routing Features Configuring Static IP Routes Default network route – This is a specific static route that the routing switch uses if other rou

IP Routing Features Configuring Static IP Routes This feature allows the routing switch to adjust to changes in network topology. The routing switch d

IP Routing Features Configuring Static IP Routes Configuring a “Null” Route You can configure the routing switch to drop IP packets to a specific netw

IP Routing Features Configuring Static IP Routes For example, Figure 7-7 illustrates a routing topology with two possible gateways to support a static

IP Routing Features Configuring Static IP Routes Default Loopback Network Default Loopback Interface Default Null Route Configured Static Route Destin

Static Virtual LANs (VLANs) Contents Effect of VLANs on Other Switch Features . . . . . . . . . . . . . . . . . . . . . 2-38 Spanning Tree Operati

IP Routing Features Configuring IRDP Configuring IRDP The ICMP Router Discovery Protocol (IRDP) is used by ProCurve routing switches to advertise the

IP Routing Features Configuring IRDP messages from other routers at the same time. The interval on each IRDP-enabled routing switch interface is indep

IP Routing Features Configuring IRDP Syntax: [no] ip irdp Enables or disables (the default) ip irdp on the specified VLAN. [broadcast | multicast] Th

IP Routing Features Configuring IRDP [ minadvertinterval < seconds > ] This parameter specifies the minimum amount of time the routing switch ca

IP Routing Features Configuring DHCP Relay Configuring DHCP Relay Overview The Dynamic Host Configuration Protocol (DHCP) is used for configuring host

IP Routing Features Configuring DHCP Relay Minimum Requirements for DHCP Relay Operation In order for the DHCP Relay agent to work, the following step

IP Routing Features Configuring DHCP Relay Note DHCP Option 82 DHCP operation modifies client IP address request packets to the extent needed to forwa

IP Routing Features Configuring DHCP Relay However, Option 82 relay agents should be positioned at the DHCP policy boundaries in a network to provide

IP Routing Features Configuring DHCP Relay DHCP Policy Boundary: For Option 82 applications, an area of a network as defined by connection to a given

IP Routing Features Configuring DHCP Relay routing switch access to an Option 82 DHCP server on a different subnet than the clients requesting DHC

Static Virtual LANs (VLANs) Overview Overview This chapter describes how to configure and use static, port-based VLANs on the switches covered by this

IP Routing Features Configuring DHCP Relay Option 82 Field Content The Remote ID and Circuit ID subfields comprise the Option 82 field a relay agent a

IP Routing Features Configuring DHCP Relay Circuit ID: This nonconfigurable subfield identifies the port number of the physical port through which

IP Routing Features Configuring DHCP Relay For example, suppose you wanted port 10 on a given relay agent to support no more than five DHCP clients si

IP Routing Features Configuring DHCP Relay Option 82 Configuration DHCP Client Request Packet Inbound to the Routing Switch Packet Has No Option 82 Fi

IP Routing Features Configuring DHCP Relay the next two relay agent hops (“B” and “C”). The server can then enforce an IP addressing policy based on

IP Routing Features Configuring DHCP Relay Server response validation is an option you can specify when configuring Option 82 DHCP for append, replace

IP Routing Features Configuring DHCP Relay Multinetted VLANs On a multinetted VLAN, each interface can form an Option 82 policy boundary within that V

IP Routing Features Configuring DHCP Relay drop: Configures the routing switch to unconditionally drop any client DHCP packet received with existing O

IP Routing Features Configuring DHCP Relay Operating Notes This implementation of DHCP relay with Option 82 complies with the following RFCs: •

IP Routing Features Configuring DHCP Relay Relay agents without Option 82 can exist in the path between Option 82 relay agents and an Option 82 se

ProCurve Switch 2610 Series Switch 2610-PWR Series December 2007 Advanced Traffic Management Guide

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Port-Based Virtual LANs (Static VLANs) VLAN Features Feature Default Menu CLI

IP Routing Features UDP Broadcast Forwarding UDP Broadcast Forwarding Overview Some applications rely on client requests sent as limited IP broadcasts

IP Routing Features UDP Broadcast Forwarding Table 7-5. Example of a UDP Packet-Forwarding Environment Interface IP Address Subnet Mask Forwarding A

IP Routing Features UDP Broadcast Forwarding Configuring and Enabling UDP Broadcast Forwarding To configure and enable UDP broadcast forwarding on the

IP Routing Features UDP Broadcast Forwarding — Continued from the preceding page. — < ip-address >: This can be either of the following: • The

IP Routing Features UDP Broadcast Forwarding Displaying the Current IP Forward-Protocol Configuration Syntax show ip forward-protocol [ vlan < vid

IP Routing Features UDP Broadcast Forwarding Operating Notes for UDP Broadcast Forwarding Maximum Number of Entries. The number of UDP broadcast entr

IP Routing Features UDP Broadcast Forwarding 7-48

8 ProCurve Stack Management Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

ProCurve Stack Management Contents Using the CLI To Disable or Re-Enable Stacking . . . . . . . . . . . . . . . . 8-46 Transmission Interval . . .

ProCurve Stack Management Overview Overview This chapter describes how to use your network to stack switches without the need for any specialized cabl

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) General Use and Operation. Port-based VLANs are typically used to reduce broadcast

ProCurve Stack Management Operation Operation Stacking Features Feature Default Menu CLI Web view stack status view status of a single switch n/a

ProCurve Stack Management Operation Simplify management of small workgroups or wiring closets while scaling your network to handle increased bandw

ProCurve Stack Management Operation Components of ProCurve Stack Management Table 8-1. Stacking Definitions Stack Consists of a Commander switch and

ProCurve Stack Management Operation Member Switch 1 IP Address: None Assigned Manager Password: leader Candidate Switch IP Address: None Assigned Mana

ProCurve Stack Management Operation If multiple VLANs are configured, stacking uses only the primary VLAN on any switch. In the factory-default co

ProCurve Stack Management Operation IP Addressing and Stack Name Number Allowed Per Stack Passwords SNMP Communities Member IP Addr: Optional. Confi

ProCurve Stack Management Configuring Stack Management Configuring Stack Management Overview of Configuring and Bringing Up a Stack This process assum

ProCurve Stack Management Configuring Stack Management Table 8-3. Stacking Configuration Guide Join Method1 Commander (IP Addressing Required) Candida

ProCurve Stack Management Configuring Stack Management General Steps for Creating a Stack This section describes the general stack creation process. F

ProCurve Stack Management Configuring Stack Management join the stack, assign IP addresses to these devices. Otherwise, IP addressing is optional for

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) ProCurve Switch Figure 2-2. Example of Overlapping VLANs Using the Same Server S

ProCurve Stack Management Configuring Stack Management Figure 8-5. The Default Stacking Menu 3. Display the Stack Configuration menu by pressing [3

ProCurve Stack Management Configuring Stack Management Figure 8-7. The Default Commander Configuration in the Stack Configuration Screen 6. Enter a

ProCurve Stack Management Configuring Stack Management Convert the Candidate to a Commander Disable stacking on the Candidate so that it opera

ProCurve Stack Management Configuring Stack Management Figure 8-8. The Default Stack Configuration Screen 3. Move the cursor to the Stack State fie

ProCurve Stack Management Configuring Stack Management 5. press [Enter] to return the cursor to the Actions line. 6. Press [S] (for Save) to save

ProCurve Stack Management Configuring Stack Management For status descriptions, see the table on page 8-47. Figure 8-9. Example of the Stack Manageme

ProCurve Stack Management Configuring Stack Management • If the desired Candidate has a Manager password, press the downarrow key to move the cursor

ProCurve Stack Management Configuring Stack Management 2. To learn or verify the MAC address of the Member you want to move, display a listing of al

ProCurve Stack Management Configuring Stack Management 7. Use the downarrow key to move the cursor to the MAC Address field, then type the MAC addre

ProCurve Stack Management Configuring Stack Management To remove a Member from a stack, use the Stack Management screen. 1. From the Main Menu, sele

Non-802.1Q-compliant switchSwitchSwitch2524Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) ProCurve Switch ProCurve Switch Untagged

ProCurve Stack Management Configuring Stack Management 4. To continue deleting the selected Member, press the Space bar once to select Yes for the p

ProCurve Stack Management Configuring Stack Management Main Menu for stack Member named “Coral Sea” (SN = 1 from figure 8-16) Figure 8-17. The eXec

ProCurve Stack Management Configuring Stack Management 4. To display Stack Configuration menu for the switch you are moving, select 3. Stack Configu

ProCurve Stack Management Configuring Stack Management Using Any Stacked Switch To View the Status for All Switches with Stacking Enabled. This proced

ProCurve Stack Management Configuring Stack Management Figure 8-19. Example of the Commander’s Stacking Status Screen Viewing Member Status. This pr

ProCurve Stack Management Configuring Stack Management Figure 8-20. Example of a Member’s Stacking Status Screen Viewing Candidate Status. This proc

ProCurve Stack Management Configuring Stack Management Using the CLI To View Stack Status and Configure Stacking The CLI enables you to do all of the

ProCurve Stack Management Configuring Stack Management CLI Command Operation [no] stack member <switch-num> mac-address <mac-addr> [passw

ProCurve Stack Management Configuring Stack Management Using the CLI To View Stack Status You can list the stack status for an individual switch and f

ProCurve Stack Management Configuring Stack Management Viewing the Status of all Stack-Enabled Switches Discovered in the IP Subnet. The next example

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) features and ensure that multiple instances of DHCP or Bootp on different VLANs d

ProCurve Stack Management Configuring Stack Management Using the CLI To Configure a Commander Switch You can configure any stacking-enabled switch to

ProCurve Stack Management Configuring Stack Management The stack commander command configures the Commander and names the stack. The Commander appears

ProCurve Stack Management Configuring Stack Management Figure 8-27. Example of Using a Member’s CLI To Convert the Member to the Commander of a New S

ProCurve Stack Management Configuring Stack Management Using the Commander’s CLI To Manually Add a Candidate to the Stack. To manually add a candidat

ProCurve Stack Management Configuring Stack Management For example, if the ProCurve 8000M in the above listing did not have a Manager password and you

ProCurve Stack Management Configuring Stack Management Using a Candidate CLI To Manually “Push” the Candidate Into a Stack . Use this method if any o

ProCurve Stack Management Configuring Stack Management Syntax: stack member < switch-number > mac-address < mac-addr > [ password

ProCurve Stack Management Configuring Stack Management Syntax: no stack name < stack name> stack join < mac-address > If you don’t kno

ProCurve Stack Management Configuring Stack Management Use show stack view to list the stack Members. For example, suppose that you wanted to use the

ProCurve Stack Management Configuring Stack Management You would then execute this command in the “North Sea” switch’s CLI to remove the switch from t

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Per-Port Static VLAN Configuration Options The following figure and table show the

ProCurve Stack Management Configuring Stack Management SNMP Community Operation in a Stack Community Membership In the default stacking configuration,

ProCurve Stack Management Configuring Stack Management Note that in the above example (figure 8-37) you cannot use the public community through the Co

ProCurve Stack Management Configuring Stack Management When using stacking in a multiple-VLAN environment, the following criteria applies: Stackin

ProCurve Stack Management Configuring Stack Management Status Messages Stacking screens and listings display these status messages: Message Condition

ProCurve Stack Management Configuring Stack Management 8-48

Index Numerics 802.1p priority (QoS) definition … 6-6 802.1Q VLAN standard … 5-7 802.1w as a region … 5-54 A active path … 5-5 address IP … 7-8

DHCP-Relay operation with Option 82 … 7-31 directed broadcasts … 7-13 disclaimer … 1-ii displaying information IRDP … 7-25 domain … 2-15, 2-21

configuration … 4-11 configure per VLAN … 4-5 data-driven … 4-15 delayed group flush … 4-17 Exclude Source … 4-13 Fast-Leave … 4-14 forced fast-

multiple … 2-10 multiple forwarding database … 2-10 N notes on using VLANs … 2-10 notices … 1-ii null static route … 7-19 O optimizing RSTP confi

quick start … 1-5 R reboot … 3-10 redundant path … 5-9, 5-50 spanning tree … 5-9 region … 5-49 See spanning-tree, 802.1s. report See IGMP revis

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) General Steps for Using VLANs 1. Plan your VLAN strategy and create a map of th

activation … 5-60 active path … 5-50 active paths … 5-54 bandwidth loss … 5-51 blocked traffic … 5-51 boundary port, region … 5-53, 5-54 boundar

rapid state transitions … 5-55, 5-57 redundant links … 5-51 region … 5-5, 5-47, 5-48 region name … 5-53, 5-60 region root switch … 5-48 region, c

configure … 7-44 global enable … 7-44 invalid entry … 7-43 IP helper address, effect … 7-42 maximum entries … 7-42 port-number ranges … 7-47 sho

© Copyright 2007 Hewlett-Packard Development Company, L.P. December 2007 Manual Part Number 5991-8641

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) showing the (different) source VLAN and source port. Other switch models have a si

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Series 2600/2600-PWR switches Multiple-Forwarding Databases* Single-Forwarding D

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Switch 8000M VLAN 1 VLAN 2 Multiple-Forwarding Database Switch Routing Enabled (S

© Copyright 2007 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice. Publication Number 59

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) The Solution. To avoid the preceding problem, use only one cable or port trunk b

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) 2610 Switch VLAN 1 VLAN 2 Multiple-Forwarding Database Switch VLAN 1 VLAN 2 Both s

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Figure 2-11. The Default VLAN Support Screen 2. Press [E] (for Edit), then do

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) An asterisk indicates you must reboot the switch to implement the new Maximum VLANs

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Default VLAN and VLAN ID Figure 2-13. The Default VLAN Names Screen 2. Press [

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Example of a New VLAN and ID Figure 2-14. Example of VLAN Names Screen with a New

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) A port can be assigned to several VLANs, but only one of those assignments

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Ports A4 and A5 are assigned to both VLANs. Ports A6 and A7 are assigned only to VL

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) VLAN Commands Used in this Section show vlans below show vlan <vlan-id> p

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Displaying the Configuration for a Particular VLAN This command uses the VID to ide

Contents Product Documentation Software Feature Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiv 1 Get

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Showing Port Details for VLANs The show vlan ports detail option allows you to di

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) The follow examples illustrate the displayed output depending on whether the detail

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Changing the Number of VLANs Allowed on the Switch By default, the switch allows

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Syntax: vlan <vlan-id> [name <name-str>] Creates a new static VLAN if

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) For example, suppose a dynamic VLAN with a VID of 125 exists on the switch. The f

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) ProCurve(config)# vlan 100 name Blue_Team ProCurve(config)# vlan 100 tagged 1-5 T

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) 802.1Q VLAN Tagging VLAN tagging enables traffic from more than one VLAN to use t

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) In switch X: • VLANs assigned to ports X1 - X6 can all be untagged because th

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) VLAN tagging gives you several options: Since the purpose of VLAN tagging is

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) The VLANs assigned to ports X3, X4, Y2, Y3, and Y4 can all be untagged because ther

Multiple VLAN Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-10 Single-Forwarding Database Operation . . . . . .

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) The Secure Management VLAN Configures a secure Management VLAN by creating an iso

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Links with Ports Belonging to the Management VLAN and other VLANs Links Between Por

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Figure 2-28. Example of Management VLAN Control in a LAN Table 2-3. VLAN Member

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Configuration Syntax: [ no ] management-vlan < vlan-id | vlan-name > Defaul

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) During a Telnet session to the switch, if you configure the Management-VLAN t

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) links are in separate VLANs. However, you can use port trunking to prevent Spanning

Static Virtual LANs (VLANs) Port-Based Virtual LANs (Static VLANs) Port Trunks When assigning a port trunk to a VLAN, all ports in the trunk are aut

3 GVRP Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 Introducti

GVRP Overview Overview This chapter describes GVRP and how to configure it with the switch’s built-in interfaces, and assumes an understanding of VLA

GVRP Introduction Introduction Feature Default Menu CLI Web view GVRP configuration n/a page 3-12 page 3-13 page 3-16 list static and dynamic

Per-Port Options for Dynamic VLAN Advertising and Joining . . . . . . 3-8 GVRP and VLAN Access Control . . . . . . . . . . . . . . . . . . . . . .

GVRP Introduction General Operation When GVRP is enabled on a switch, the VID for any static VLANs configured on the switch is advertised (using BPDU

GVRP Introduction Note that if a static VLAN is configured on at least one port of a switch, and that port has established a link with another device,

GVRP Introduction If the switch already has a static VLAN assignment with the same VID as in the advertisement, and the port is configured to Aut

GVRP Introduction Table 3-1. Options for Handling “Unknown VLAN” Advertisements: Unknown VLAN Mode Operation Learn Enables the port to become a membe

GVRP Introduction Per-Port Options for Dynamic VLAN Advertising and Joining Initiating Advertisements. As described in the preceding section, to ena

GVRP Introduction Table 3-2. Controlling VLAN Behavior on Ports with Static VLANs Per-Port “Unknown VLAN” (GVRP) Configuration Static VLAN Options—Per

GVRP Introduction As the preceding table indicates, when you enable GVRP, a port that has a Tagged or Untagged static VLAN has the option for both ge

GVRP Introduction Planning for GVRP Operation These steps outline the procedure for setting up dynamic VLANs for a seg-ment. 1. Determine the VLAN t

GVRP Introduction Menu: Viewing and Configuring GVRP 1. From the Main Menu, select: 2. Switch Configuration . . . 8. VLAN Menu . . . 1. VLAN Support

GVRP Introduction 3. Use the arrow keys to select the port you want, and the Space bar to select Unknown VLAN option for any ports you want to chang

Using the Switch as Querier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-22 Querier Operation . . . . . . . . . . .

GVRP Introduction This example includes non-default settings for the Unknown VLAN field for some ports. Figure 3-7. Example of Show GVRP Listing wit

GVRP Introduction Figure 3-8. Example of Preventing Specific Ports from Joining Dynamic VLANs Displaying the Static and Dynamic VLANs Active on the S

GVRP Introduction Dynamic VLANs Learned from Switch “A” through Port 1 Figure 3-10. Example of Listing Showing Dynamic VLANs Converting a Dynamic VL

GVRP Introduction GVRP Operating Notes A dynamic VLAN must be converted to a static VLAN before it can have an IP address. The total number of

GVRP Introduction 3-18

4 Multimedia Traffic Control with IP Multicast (IGMP) Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Multimedia Traffic Control with IP Multicast (IGMP) Overview Overview This chapter describes Multimedia Traffic Control with IP Multicast (IGMP), a

Multimedia Traffic Control with IP Multicast (IGMP) General Operation and Features General Operation and Features IGMP Features Feature Default Menu

Multimedia Traffic Control with IP Multicast (IGMP) General Operation and Features Enabling IGMP allows detection of IGMP queries and report packets

Multimedia Traffic Control with IP Multicast (IGMP) General Operation and Features IGMP Operating Features Basic Operation In the factory default conf

How MSTP Operates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-49 Regions, Legacy STP and RSTP Switches, and th

Multimedia Traffic Control with IP Multicast (IGMP) CLI: Configuring and Displaying IGMP Notes Whenever IGMP is enabled, the switch generates an E

Multimedia Traffic Control with IP Multicast (IGMP) CLI: Configuring and Displaying IGMP Viewing the Current IGMP Configuration. This command lists t

Multimedia Traffic Control with IP Multicast (IGMP) CLI: Configuring and Displaying IGMP IGMP Configuration for the Selected VLAN IGMP Configuration

Multimedia Traffic Control with IP Multicast (IGMP) CLI: Configuring and Displaying IGMP You can also combine the ip igmp command with other IGMP-rela

Multimedia Traffic Control with IP Multicast (IGMP) CLI: Configuring and Displaying IGMP Configuring IGMP Traffic Priority. This command allows you

Multimedia Traffic Control with IP Multicast (IGMP) Web: Enabling or Disabling IGMP Web: Enabling or Disabling IGMP In the web browser interface you c

Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates assume this function in order to elicit group membership information from the

Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates Supported Standards and RFCs ProCurve’s implementation of IGMP supports the foll

Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates Table 4-1.Comparison of IGMP Operation With and Without IP Addressing IGMP Fun

Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates 4-2.Switches Supported for IGMP Features Switch Model Data- IGMP Fast- Default