Advanced TrafficManagement Guidewww.procurve.comProCurve SwitchesE.10.02 (Series 5300xl)L.10.XX (Series 4200vl)M.08.73 (Series 3400/6400cl)6400cl5300x
7 802.1s Multiple Spanning Tree Protocol (MSTP) . . . . . . . . . . . . . . . 6-45 MSTP Structure . . . . . . . . . . . . . . . . . . . . . . . . . .
GVRP General Operation having to set up VLANs across your network. After the switch creates a dynamic VLAN, you can optionally use the CLI static <
GVRP General Operation Operating Note: When a GVRP-aware port on a switch learns a VID through GVRP from another device, the switch begins advertising
GVRP General Operation Switch “A” GVRP On Switch “B” (No GVRP) Switch “C” GVRP On Switch “D” GVRP On Tagged VLAN 22 Tagged VLAN 22 Switch “E” GVRP On
GVRP Per-Port Options for Handling GVRP “Unknown VLANs” Send VLAN advertisements, and also receive advertisements for VLANs on other ports and dyna
GVRP Per-Port Options for Handling GVRP “Unknown VLANs” Table 3-1. Options for Handling “Unknown VLAN” Advertisements: Unknown VLAN Mode Operation Le
GVRP Per-Port Options for Dynamic VLAN Advertising and Joining Per-Port Options for Dynamic VLAN Advertising and Joining Initiating Advertisements. A
GVRP Per-Port Options for Dynamic VLAN Advertising and Joining Table 3-2. Controlling VLAN Behavior on Ports with Static VLANs Per-Port “Unknown VLAN
GVRP GVRP and VLAN Access Control As the preceding table indicates, when you enable GVRP, a port that has a Tagged or Untagged static VLAN has the opt
GVRP Planning for GVRP Operation The time-to-live for dynamic VLANs is 10 seconds. That is, if a port has not received an advertisement for an existi
GVRP Configuring GVRP On a Switch Configuring GVRP On a Switch The procedures in this section describe how to: View the GVRP configuration on a swi
Preparation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-11 Menu: To Configure Switch Meshing .
GVRP Configuring GVRP On a Switch The Unknown VLAN fields enable you to configure each port to: – Learn - Dynamically join any advertisedVLAN and ad
GVRP Configuring GVRP On a Switch Figure 3-6. Example of “Show GVRP” Listing with GVRP Disabled This example includes non-default settings for the Un
GVRP Configuring GVRP On a Switch Syntax: interface < port-list > unknown-vlans < learn | block | disable > Changes the Unknown VLAN fie
GVRP Configuring GVRP On a Switch Switch “B” Switch “A” Port 1: Set to “Learn” Mode GVRP enabled. 3 Static VLANs: GVRP enabled. 1 Static VLANs: – DEF
GVRP GVRP Operating Notes Web: Viewing and Configuring GVRP To view, enable, disable, or reconfigure GVRP: 1. Click on the Configuration tab. 2. Cl
GVRP GVRP Operating Notes Rebooting a switch on which a dynamic VLAN exists deletes that VLAN. However, the dynamic VLAN re-appears after the reboo
GVRP GVRP Operating Notes — This page intentionally unused. — 3-20
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) to
Multimedia Traffic Control with IP Multicast (IGMP) IGMP General Operation and Features IGMP General Operation and Features IGMP Features Feature Def
Troubleshooting a Shortage of Per-Port Rule Resources on the 3400cl/6400cl Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Multimedia Traffic Control with IP Multicast (IGMP) IGMP General Operation and Features Note IGMP configuration on the Series 5300xl switches and 4
Multimedia Traffic Control with IP Multicast (IGMP) IGMP General Operation and Features IGMP Operating Features Basic Operation In the factory
Multimedia Traffic Control with IP Multicast (IGMP) CLI: Configuring and Displaying IGMP Notes Whenever IGMP is enabled, the switch generates an Ev
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 The following version of the show ip igmp command includes
Multimedia Traffic Control with IP Multicast (IGMP) CLI: Configuring and Displaying IGMP Note If you disable IGMP on a VLAN and then later re-enable
Multimedia Traffic Control with IP Multicast (IGMP) CLI: Configuring and Displaying IGMP The following command displays the VLAN and per-port config
Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates Note on IGMP version 3 support How IGMP Operates The Internet Group Management P
Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates in the join request is determined by the requesting application running on the
Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates IGMP Function Available With IP Addressing Configured on the VLAN Available With
IP Multicast (IGMP) Interaction with QoS . . . . . . . . . . . . . . . . . . . . . 8-71 QoS Messages in the CLI . . . . . . . . . . . . . . . . . .
Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates leave. The Querier will continue to transmit the multicast group during this s
Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates In the next figure, automatic Fast-Leave operates on the switch ports for IGMP c
Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates Configuring Fast-Leave IGMP Syntax: [no] ip igmp fastleave < port-list >
Multimedia Traffic Control with IP Multicast (IGMP) How IGMP Operates Configuring Delayed Group Flush When enabled, this feature continues to filter I
Multimedia Traffic Control with IP Multicast (IGMP) Using the Switch as Querier Using the Switch as Querier The function of the IGMP Querier is to p
Multimedia Traffic Control with IP Multicast (IGMP) Excluding Well-Known or Reserved Multicast Addresses from IP Multicast Filtering Excluding Well-Kn
Multimedia Traffic Control with IP Multicast (IGMP) Excluding Well-Known or Reserved Multicast Addresses from IP Multicast Filtering Notes IP Multi
5 PIM-DM (Dense Mode) on the 5300xl Switches Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PIM-DM (Dense Mode) on the 5300xl Switches Overview Overview This chapter describes protocol-independent multicast routing operation on the ProCurve S
PIM-DM (Dense Mode) on the 5300xl Switches Introduction Introduction This feature operates only on the Series 5300xl switches. Feature Default Menu
ACL Configuration Factors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-29 A Configured ACL Has No Effect Until You Apply It
PIM-DM (Dense Mode) on the 5300xl Switches Feature Overview Feature Overview PIM-DM on the Switch Series 5300XL devices includes: Routing Protocol
PIM-DM (Dense Mode) on the 5300xl Switches PIM-DM Operation multicast group address (destination), but may reach many hosts in different subnets, depe
PIM-DM (Dense Mode) on the 5300xl Switches PIM-DM Operation Switch/IGMP Routing Switch (PIM & IGMP) Routing Switch (PIM & IGMP) Switch/IGMP Ro
PIM-DM (Dense Mode) on the 5300xl Switches PIM-DM Operation Multicast Flow Management This section provides details on how the routing switch manages
PIM-DM (Dense Mode) on the 5300xl Switches PIM-DM Operation 5308XL #1 5304XL #2 ProCurve 5304XL #3 5304XL #4 Other Multicast Router Other Multicast Ro
PIM-DM (Dense Mode) on the 5300xl Switches Terminology General Configuration Elements The configured elements PIM-DM requires are: 1. IP routing enab
PIM-DM (Dense Mode) on the 5300xl Switches PIM-DM Operating Rules Multicast Address: In IP multicast traffic on the switch, this is a single IP addres
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches Command
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches PIM-DM requires configuration on both the global level and
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches Syntax: [no] router pim trap < all | neighbor-loss | h
10 Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches To configure global-level PIM operation for the “5308XL #1
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches After configuring the global-level PIM operation on a rout
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches For example, if multiple routers are connected to the same
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches Syntax: ip pim [ max-graft-retries < 1 - 10 > vlan
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches Syntax: ip pim [ propagation-delay < 250-2000 >] vl
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches Syntax: ip pim [ ttl-threshold < 0 - 255 > ] vlan &l
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches 5300XL #3 VLAN 25 25.38.10.3 25.38.30.1 25.38.31.1 VLAN 28
PIM-DM (Dense Mode) on the 5300xl Switches Configuring PIM-DM on the Series 5300xl Switches Dashed lines indicate configuration settings affecting mul
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches Displaying PIM Data and Config
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches Displaying PIM Route Data Synt
Rules for Defining a Match Between a Packet and an Access Control Entry (ACE) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-33 A Conf
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches Syntax: show ip mroute [ inte
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches Syntax: show ip mroute [<
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches Multicast Routing Protocol: Id
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches A blank Neighbor field indicat
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches Figure 5-10. Example Output f
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches Syntax: show ip pim [interfac
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches Field Default Control Comman
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches This output shows the routing
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches DownStream Interfaces: – VLAN
PIM-DM (Dense Mode) on the 5300xl Switches Displaying PIM Data and Configuration Settings on the Series 5300xl Switches Syntax: show ip pim [neighbor]
Working Offline To Create or Edit an ACL . . . . . . . . . . . . . . . . . . . . 10-72 Creating an ACL Offline . . . . . . . . . . . . . . . . . .
PIM-DM (Dense Mode) on the 5300xl Switches Operating Notes Syntax: show ip pim [neighbor [< ip-address >]] Lists the same information as show i
PIM-DM (Dense Mode) on the 5300xl Switches Operating Notes Flow Capacity. The routing switch provides an ample multicast environ-ment, supporting 102
PIM-DM (Dense Mode) on the 5300xl Switches Troubleshooting Troubleshooting Symptom: Noticeable slowdown in some multicast traffic. If the switch is s
PIM-DM (Dense Mode) on the 5300xl Switches Messages Related to PIM Operation Messages Related to PIM Operation These messages appear in the Event Log
PIM-DM (Dense Mode) on the 5300xl Switches Messages Related to PIM Operation Message Meaning I/F removal with IP < ip-addr > on vid Indicates t
PIM-DM (Dense Mode) on the 5300xl Switches Messages Related to PIM Operation Message Meaning Rcvd pkt from rtr < ip-address >, unkwn pkt type &
PIM-DM (Dense Mode) on the 5300xl Switches Applicable RFCs Message Meaning Unable to alloc a msg buffer for < text-message > (<counter>)
PIM-DM (Dense Mode) on the 5300xl Switches Exceptions to Support for RFC 2932 - Multicast Routing MIB Exceptions to Support for RFC 2932 -Multicast Ro
PIM-DM (Dense Mode) on the 5300xl Switches Exceptions to Support for RFC 2932 - Multicast Routing MIB — This page is intentionally unused. — 5-42
6 Spanning-Tree Operation Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring Static IP Routes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-20 Static Route Types . . . . . . . . . . . . . .
Spanning-Tree Operation Contents MST Regions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-49 Regions, Leg
Spanning-Tree Operation Overview Overview Note The Series 4200vl switches support MSTP only. STP Features 802.1D Spanning Tree Protocol * Default Me
Spanning-Tree Operation Overview 802.1s Spanning Tree Protocol Default Menu CLI Viewing the MSTP Status n/a — page 6-74 and Configuration Enable/
Spanning-Tree Operation Overview configured with VLANs grouped into two instances, as follows: VLANs Instance 1 Instance 2 10, 11, 12 Yes No 20, 2
Spanning-Tree Operation Overview Note for 802.1D and 802.1w Spanning-Tree Operation for the Series 5300xl and Series 3400/ 6400cl switches You should
Spanning-Tree Operation The RSTP (802.1w) and STP (802.1D) Spanning Tree Options (5300xl, 3400/6400cl switches) The RSTP (802.1w) and STP (802.1D) Spa
Spanning-Tree Operation The RSTP (802.1w) and STP (802.1D) Spanning Tree Options (5300xl, 3400/6400cl switches) STP (802.1D) STP is supported on the S
Spanning-Tree Operation The RSTP (802.1w) and STP (802.1D) Spanning Tree Options (5300xl, 3400/6400cl switches) node A switch A node B switch D switch
Spanning-Tree Operation The RSTP (802.1w) and STP (802.1D) Spanning Tree Options (5300xl, 3400/6400cl switches) Problem: STP enabled with 2 separate (
Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) Configuring Rapid Reconfiguration Spanning Tree (RSTP) RSTP is supporte
Configuration Rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-42 OSPF Parameters . . . . . . . . . . . . . . . . .
Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) dant paths. If a switch or bridge in the path becomes disabled, spannin
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) In the default configuration, the output from this command appears simi
Spanning-Tree Operation Configuring Rapid Reconfiguration Spanning Tree (RSTP) For the STP version of spanning tree, the rest of the information in th
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) Parameter Default Description priority 128 (8 as a step value) This
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) 7. Press the [Tab] key or use the arrow keys to go to the next paramet
Configuring IRDP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-76 Enabling IRDP Globally . . . . . . . .
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400c
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Use this field to enable spanning tree. Read-Only Fi
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches The Spanning Tree Operation menu is not present for
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches CLI: Configuring 802.1D STP STP Commands Used in Thi
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Configuring the Switch To Use the 802.1D Spanning Tr
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Enabling STP implements the spanning tree protocol f
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Table 6-3. General STP Operating Parameters Name D
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Table 6-4. Per-Port STP Parameters Name Default R
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches state, the server access will fail. To provide suppo
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Note Fast-Uplink STP operates only with 802.1D STP
Configuring Static Network Address Translation (NAT) for Intranet Applications on the 5300xl Switches . . . . . . . . . . . . 11-103 Static NAT Opera
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches on the other end of the links can be either ProCurve
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches to transition to forwarding. In a normal spanning tr
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Configure fast-uplink on only the edge switch ports
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Menu: Viewing and Configuring Fast-Uplink STP You ca
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches 3. If the Protocol Version is set to RSTP (as shown
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches In this example, ports A2 and A3 have already been c
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches STP is enabled. Port A1 and Trk1 are now configured
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Indicates which uplink is the active path to the STP
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches In figure 6-20: • Port A1 and Trk1 (trunk 1; formed
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Indicates that Trk1 (Trunk 1) provides the currently
13 Configuration Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-25 Configuration for Figure 12-2 – Single VLAN Ex
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Fast-Uplink STP Configured on Port A1 and Trunk 1 (T
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Lists STP configuration. Shows the default STP proto
Spanning-Tree Operation 802.1D Spanning-Tree Protocol (STP) on 5300xl, 3400cl and 6400cl Switches Note When you add a port to a trunk, the port takes
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) Caution Spanning tree interprets a switch mesh as a single link (meshing is sup
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) IST Instance MSTI (Optional) MSTI (Optional) IST Instance MSTI (Optional) MSTI (
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) in a single, active spanning tree topology (instance) within the IST. This is te
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) How MSTP Operates In the factory default configuration, spanning tree operation
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Figure 6-26. Active Topologies Built by Three Independent MST Instances Region
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) All MSTP switches (as well as STP and RSTP switches) in a network use BPDUs (Bri
Adding to a Stack or Moving Switches Between Stacks . . . . . . 13-35 Using the CLI To Remove a Member from a Stack . . . . . . . . . . 13-40 Using
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Problem: An MST instance with two separate (non-trunked) links blocks a VLAN lin
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Common Spanning Tree (CST): Refers to the single forwarding path the switch calc
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Within a region, a VLAN can be allocated to either a single MSTI or to the r
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) A port can have different states (forwarding or blocking) for different insta
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 rapid sta
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) • Optional MSTP parameter changes for region settings: HP recommends that you l
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) default auto allows the switch to calculate the path-cost from the link speed.
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree protocol-version mstp Note: This command is not present f
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: [no] spanning-tree config-name < ascii-string > This command rese
—This page unused intentionally— xxii
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree max-hops < hop-count > This command resets the numb
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree hello-time < 1..10 > If MSTP is running and the swi
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) [point-to-point-mac < force-true | force-false | auto >] This parameter in
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Configuring MST Instance Parameters Command Page [no] spanning-tree instance &l
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 < priority-multiplier> Every switch runnin
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 >< port-list > priority <
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Syntax: spanning-tree< port-list > priority < priority-multiplier >
Product Documentation About Your Switch Manual Set Note For the latest version of all ProCurve switch documentation, including Release Notes covering
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. Wh
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) 9. To view the current pending MSTP configuration, use the show spanning-tree p
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 Index For the manual set supporting your switch model, the following feature index indicates which manual to consult for
Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) —This page left blank intentionally— 6-82
7 Switch Meshing Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2 Switc
Switch Meshing Introduction Introduction Switch meshing is not available on the Series 4200vl switches. Switch meshing is a load-balancing technology
Switch Meshing Introduction Finding the Fastest Path. Using multiple switches redundantly linked together to form a meshed switch domain, switch mesh
Switch Meshing Switch Meshing Fundamentals Switch Meshing Fundamentals Terminology Switch Mesh Domain. This is a group of meshed switch ports exchang
Switch Meshing Switch Meshing Fundamentals Operating Rules (See also “Mesh Design Optimization” on page 7-24.) A meshed switch can have some ports
Switch Meshing Switch Meshing Fundamentals If meshing is configured on the switch, the routing features (IP routing, RIP, and OSPF) must be disable
Switch Meshing Switch Meshing Fundamentals Switch Non-Mesh Mesh Domain Mesh Domain Mesh Domain Mesh Domain Non-Mesh Ports Non-Mesh Ports Non-Mesh Link
Switch Meshing Switch Meshing Fundamentals Switch 3 Switch 1 Switch 2 Switch Mesh Domain This topology forms a broadcast loop unless you configure
Switch Meshing Switch Meshing Fundamentals Host (Both links use the same MAC address.) Switch 4000M LAN Untagged VLAN 1 Tagged VLAN 20 Scenario 1: In
Product Documentation Feature Management and Configuration Advanced Traffic Management Access Security Guide Supported on 5300xl Supported on 4200vl
Switch Meshing Switch Meshing Fundamentals Host (Both links use the same MAC address.) 3400cl, 6400cl, or 5300xl Switch Untagged VLAN 1 Tagged VLAN 20
Switch Meshing Configuring Switch Meshing Configuring Switch Meshing Preparation Before configuring switch meshing: Review the Operating Rules (pag
Switch Meshing Configuring Switch Meshing 3. In the Group column, move the cursor to the port you want to assign to the switch mesh. 4. Press [M] to
Switch Meshing Configuring Switch Meshing The asterisk indicates that you must reboot the switch to cause the Mesh configuration change to take effect
Switch Meshing Configuring Switch Meshing Viewing Switch Mesh Status Syntax: show mesh Lists the switch ports configured for meshing, along with the
Switch Meshing Configuring Switch Meshing Table 7-1. State Descriptions for Show Mesh Output State Meaning Established The port is linked to a mes
Switch Meshing Configuring Switch Meshing Table 7-2. Operating Details for Figure 7-12 Port Meshing? Connection A1 Yes Connected to a port that m
Switch Meshing Configuring Switch Meshing CLI: Configuring Switch Meshing Syntax: [no] mesh [e] < port-list > Enables or disables meshing opera
Switch Meshing Operating Notes for Switch Meshing Operating Notes for Switch Meshing In a switch mesh domain traffic is distributed across the availab
Switch Meshing Operating Notes for Switch Meshing Figure 7-16. Example of a Broadcast Path Through a Switch Mesh Domain W WW W Switch Mesh Domain A B
Product Documentation Feature Management and Configuration Advanced Traffic Management Access Security Guide Supported on 5300xl Supported on 4200vl
Switch Meshing Operating Notes for Switch Meshing Spanning Tree Operation with Switch Meshing Using STP or RSTP with several switches and no switch me
Switch Meshing Operating Notes for Switch Meshing = Non-mesh Switch Ports Figure 7-18. Connecting a Switch Mesh Domain to Non-Meshed Devices Note on
Switch Meshing Operating Notes for Switch Meshing this condition occurs, the meshed switch that has a blocked link will automat-ically increase the co
Switch Meshing Operating Notes for Switch Meshing Static VLANs In a network having a switch mesh domain and multiple static VLANs config-ured, all sta
Switch Meshing Mesh Design Optimization Dynamic VLANs If GVRP is enabled, meshed ports in a switch become members of any dynamic VLANs created in the
Switch Meshing Mesh Design Optimization every 30 seconds and are flooded to all mesh ports. Return packets include a cost metric based on inbound and
Switch Meshing Mesh Design Optimization Other factors affecting the performance of mesh networks include the number of destination addresses that have
Switch Meshing Mesh Design Optimization recognize multiple instances of a particular MAC address on different VLANs.) If you try to add one of these s
Switch Meshing Mesh Design Optimization — This page is intentionally unused. — 7-28
8 Quality of Service (QoS): Managing Bandwidth More Effectively Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Product Documentation Feature Management and Configuration Advanced Traffic Management Access Security Guide Supported on 5300xl Supported on 4200vl
Quality of Service (QoS): Managing Bandwidth More Effectively Contents Assigning a Priority Based on IP Address . . . . . . . . . . . . . . . . . . .
Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Introduction QoS Feature Default Menu CLI Web UDP/TCP Priority Disable
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) p
Quality of Service (QoS): Managing Bandwidth More Effectively Introduction You can configure a QoS priority of 0 through 7 for an outbound packet. Whe
Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Classifiers for Prioritizing Outbound Packets The classifiers used in the
Quality of Service (QoS): Managing Bandwidth More Effectively Introduction 3400cl/6400cl Packet Classifiers and Evaluation Order The 3400cl/6400cl swi
ProCurve Series 6400cl Switches Series 5300xl Switches Series 4200vl Switches Series 3400cl Switches October 2006 E.10.02 or Greater (5300xl) L.10.01
Product Documentation Feature Management and Configuration Advanced Traffic Management Access Security Guide Supported on 5300xl Supported on 4200vl
1 2 3 Quality of Service (QoS): Managing Bandwidth More Effectively Introduction In general, the precedence of QoS classifiers should be considered w
4 5 6 7 Quality of Service (QoS): Managing Bandwidth More Effectively Introduction Precedence Criteria Overview Layer 3 Note: This classifier is av
Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS Preparation for Configuring QoS QoS operates in VLAN-ta
Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS h. Incoming 802.1p Priority (requires at least one tagg
Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS 3. Determine the actual QoS configuration changes you
Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS then you should plan and configure your QoS resource usa
Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS The following two CLI commands are unique to the 3400cl
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 At a minimum, the policies configured on port 5 must be
Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS All ports are configured for five QoS device priorities.
1 Getting Started Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2 Conv
Quality of Service (QoS): Managing Bandwidth More Effectively Preparation for Configuring QoS Demonstrating How the Switch Uses Resources in DSCP Con
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Using QoS Cla
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic type-of-serv
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Note As ment
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Assigning an
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Values in the
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 3. Assigns
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Syntax: qos
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic For example,
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 3. Assign th
Getting Started Introduction Introduction This Advanced Traffic Management Guide is intended for use with the following switches: ProCurve Switch 1
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Note The sw
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic For example,
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 3400cl/6400c
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Syntax: qos
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 2. Configur
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic QoS IP Type-o
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Assigning an
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic ProCurve(conf
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic When enabled
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic no qos dscp-m
Getting Started Conventions Conventions This guide uses the following conventions for command syntax and displayed information. Feature Descriptions b
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic configure an
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Assigning a D
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Syntax: qos
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic The DSCPs for
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 3. Assign t
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Details of Qo
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Figure 8-23
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Outbound Port
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic QoS Layer-3
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic For example:
Getting Started Conventions Command Prompts In the default configuration, your switch displays one of the following CLI prompts: ProCurve 6400cl# ProC
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic QoS VLAN-ID
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Syntax: vlan
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 2. You woul
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 3400cl/6400cl
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Syntax: vla
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 2. Configure
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic QoS Source-P
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Syntax: no in
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic If you then
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 2. Determine
Getting Started Sources for More Information However, unless otherwise noted, such examples apply equally to the stack-able switches, which typically
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Syntax: no i
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 2. Configure
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Radius Overr
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Table 8-14.
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Quickly List
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic affect the pa
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Example of C
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic Three classif
Quality of Service (QoS): Managing Bandwidth More Effectively Using QoS Classifiers To Configure Quality of Service for Outbound Traffic 2. Change t
Quality of Service (QoS): Managing Bandwidth More Effectively IP Multicast (IGMP) Interaction with QoS IP Multicast (IGMP) Interaction with QoS IGMP h
Getting Started Sources for More Information ROM shipped with the switch. And you can download a copy from the ProCurve Networking Web Site. (See “Get
Quality of Service (QoS): Managing Bandwidth More Effectively QoS Messages in the CLI QoS Messages in the CLI Message Meaning DSCP Policy < decim
Quality of Service (QoS): Managing Bandwidth More Effectively QoS Operating Notes and Restrictions QoS Operating Notes and Restrictions Table 8-15. D
Quality of Service (QoS): Managing Bandwidth More Effectively QoS Operating Notes and Restrictions VLAN should receive untagged traffic. For more on
Quality of Service (QoS): Managing Bandwidth More Effectively QoS Operating Notes and Restrictions 5300xl and 4200vl Switches—Non-Supported IP Pack
Quality of Service (QoS): Managing Bandwidth More Effectively QoS Operating Notes and Restrictions —This page is intentionally unused — 8-76
9 Access Control Lists (ACLs) for the Series 5300xl Switches Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Access Control Lists (ACLs) for the Series 5300xl Switches Contents Extended ACL Configuration Structure . . . . . . . . . . . . . . . . . . . . 9-2
Access Control Lists (ACLs) for the Series 5300xl Switches Introduction Introduction This chapter applies only to the Series 5300xl Switches. For ACL
Access Control Lists (ACLs) for the Series 5300xl Switches Introduction For ACL filtering to take effect, configure an ACL and then assign it to eithe
Access Control Lists (ACLs) for the Series 5300xl Switches Terminology Action Command Page Deleting an ACL from the Switch ProCurve(config)# no ip a
Getting Started Sources for More Information Figure 1-2. Example of How To Locate Product Manuals on the ProCurve Networking Web Site Figure 1-3. Li
Access Control Lists (ACLs) for the Series 5300xl Switches Terminology ACL Mask: Follows any IP address (source or destination) listed in an ACE. Defi
Access Control Lists (ACLs) for the Series 5300xl Switches Terminology – The packet’s DA is for an IP address configured on the switch itself. (This
Access Control Lists (ACLs) for the Series 5300xl Switches Overview Overview Types of IP ACLs Standard ACL: Use a standard ACL when you need to permit
Access Control Lists (ACLs) for the Series 5300xl Switches Overview The switch can apply ACL filtering to traffic entering or leaving the switch on VL
Access Control Lists (ACLs) for the Series 5300xl Switches Overview Features Common to All per-VLAN ACLs On any VLAN you can apply one ACL to inbou
Access Control Lists (ACLs) for the Series 5300xl Switches Overview 4. Design the ACLs for the control points you have selected. Where you are using
Access Control Lists (ACLs) for the Series 5300xl Switches ACL Operation ACL Operation Introduction An ACL is a list of one or more Access Control Ent
Access Control Lists (ACLs) for the Series 5300xl Switches ACL Operation The Packet-Filtering Process Sequential Comparison and Action. When the swit
Access Control Lists (ACLs) for the Series 5300xl Switches ACL Operation Note on Implicit For ACLs configured to filter inbound packets on a VLAN, re
Access Control Lists (ACLs) for the Series 5300xl Switches ACL Operation Note The order in which an ACE occurs in an ACL is significant. For example,
Getting Started Sources for More Information Online Help If you need information on specific parameters in the menu interface, refer to the online hel
Access Control Lists (ACLs) for the Series 5300xl Switches Planning an ACL Application It is important to remember that this ACL (and all ACLs) includ
Access Control Lists (ACLs) for the Series 5300xl Switches Planning an ACL Application What traffic can you implicitly block by taking advantage of
Access Control Lists (ACLs) for the Series 5300xl Switches Planning an ACL Application Guidelines for Planning the Structure of an ACL The first step
Access Control Lists (ACLs) for the Series 5300xl Switches Planning an ACL Application permit any packets that you have not expressly denied, you must
Access Control Lists (ACLs) for the Series 5300xl Switches Planning an ACL Application How an ACE Uses a Mask To Screen Packets for Matches When the s
Access Control Lists (ACLs) for the Series 5300xl Switches Planning an ACL Application Rules for Defining a Match Between a Packet and an Access Contr
Access Control Lists (ACLs) for the Series 5300xl Switches Planning an ACL Application Every IP address and mask pair (source or destination) used
Access Control Lists (ACLs) for the Series 5300xl Switches Planning an ACL Application Example of How the Mask Bit Settings Define a Match . Assume a
Access Control Lists (ACLs) for the Series 5300xl Switches Planning an ACL Application Examples Allowing Multiple IP Addresses. Table 9-2 provides ex
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL CIDR Notation. For information on using CIDR notation to
Getting Started Need Only a Quick Start? Need Only a Quick Start? IP Addressing If you just want to give the switch an IP address so that it can commu
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL Types of ACLs Standard ACL: Uses only a packet's s
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL always functions when the switch uses an ACL to filter pac
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL Extended ACL Configuration Structure Individual ACEs in an
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL For example, figure 9-9 shows how to interpret the entries
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL ip access-list extended "101" deny ip 18.28.235.
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL In Any ACL, There Will Always Be a Match As indicated in f
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL You can use either the switch CLI or an offline text edito
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL Configuring and Assigning a Numbered, Standard ACL This se
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL Syntax: [no] access-list Creates an ACE in the specified
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL The mask is applied to the IP address in the ACL to define
© Copyright 2006 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change with-out notice. All Rights Reserved.
Getting Started To Set Up and Install the Switch in Your Network —This page is intentionally unused— 1-10
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL • Permits IP traffic from the indicated IP address. Since
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL • Denies IP traffic from the indicated IP address. Since,
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL Configuring and Assigning a Numbered, Extended ACL This se
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL Syntax: [no] access-list Creates an ACE in the specified
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL < any | host < src-ip-addr > | ip-addr/mask -leng
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL Comparison Operators: • eq < tcp/udp-port-nbr > — “
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL [log] Optional; generates an ACL log message if: • The ac
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL A (Refer to figure 9-13, above.) B (Refer to figure 9-13,
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL Configuring a Named ACL You can use the “Named ACL” contex
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL < name-str | 1-99 | 100-199 > Consists of an alphanu
2 Static Virtual LANs (VLANs) Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Access Control Lists (ACLs) for the Series 5300xl Switches Configuring and Assigning an ACL Configured Source IP Address and Mask Configured Destinati
Access Control Lists (ACLs) for the Series 5300xl Switches Deleting an ACL from the Switch Enabling an ACL from the Global Configuration Level Enablin
Access Control Lists (ACLs) for the Series 5300xl Switches Displaying ACL Data Displaying ACL Data ACL Commands Function Page show access-list View
Access Control Lists (ACLs) for the Series 5300xl Switches Displaying ACL Data Display the Content of All ACLs on the Switch This command lists the co
Access Control Lists (ACLs) for the Series 5300xl Switches Displaying ACL Data Display the ACL Assignments for a VLAN This command briefly lists the i
Access Control Lists (ACLs) for the Series 5300xl Switches Displaying ACL Data For example, suppose you configured the following two ACLs in the switc
Access Control Lists (ACLs) for the Series 5300xl Switches Displaying ACL Data Table 9-6. Descriptions of Data Types Included in Show Access-List <
Access Control Lists (ACLs) for the Series 5300xl Switches Editing ACLs and Creating an ACL Offline Editing ACLs and Creating an ACL Offline Earlier s
Access Control Lists (ACLs) for the Series 5300xl Switches Editing ACLs and Creating an ACL Offline Deleting the last ACE from a numeric ACL, remov
Use no access-list to remove this line from ACL 103.Access Control Lists (ACLs) for the Series 5300xl Switches Editing ACLs and Creating an ACL Offlin
Static Virtual LANs (VLANs) Contents CLI: Configuring Port-Based and Protocol-Based VLAN Parameters . . . . . . . . . . . . . . . . . . . . . . . .
Access Control Lists (ACLs) for the Series 5300xl Switches Editing ACLs and Creating an ACL Offline Creating an ACL Offline Use a text editor that all
Access Control Lists (ACLs) for the Series 5300xl Switches Editing ACLs and Creating an ACL Offline Deny all traffic from VLAN 30 (10.10.30.0) to t
Access Control Lists (ACLs) for the Series 5300xl Switches Editing ACLs and Creating an ACL Offline 2. After you copy the above .txt file to a TFTP s
Access Control Lists (ACLs) for the Series 5300xl Switches Enable ACL “Deny” Logging Enable ACL “Deny” Logging ACL logging enables the switch to gener
Access Control Lists (ACLs) for the Series 5300xl Switches Enable ACL “Deny” Logging summary of any additional “deny” matches for that ACE (and any ot
Access Control Lists (ACLs) for the Series 5300xl Switches Enable ACL “Deny” Logging VLAN 110 18.38.110.1 Subnet 110 18.38.110.54 VLAN 100 18.38.100.1
Access Control Lists (ACLs) for the Series 5300xl Switches Enable ACL “Deny” Logging Operating Notes for ACL Logging The ACL logging feature genera
Access Control Lists (ACLs) for the Series 5300xl Switches General ACL Operating Notes General ACL Operating Notes ACLs do not provide DNS hostname su
Access Control Lists (ACLs) for the Series 5300xl Switches General ACL Operating Notes — This page is intentionally unused. — 9-64
10 Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . .
Static Virtual LANs (VLANs) Overview Overview This chapter describes how to configure and use static, port-based and protocol-based VLANs on the switc
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Contents Security . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Contents Display All ACLs and Their Assignments in the Switch Startup-Con
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Introduction Introduction Feature Default Menu CLI Web Numbered ACLs
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Introduction Switch Management Access: Permits or denies in-band manag
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Introduction Table 10-1. Comprehensive Command Summary Action Command
62 Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Terminology Displaying ACL Data ProCurve(config)# show access-list 10
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Terminology ACL Mask: Follows an IP address (source or destination) liste
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Terminology Inbound Traffic: For the purpose of defining where the switch
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Overview Standard ACL: This type of Access Control List uses layer-3 IP c
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Overview The switch can apply ACL filtering to traffic entering the switc
Static Virtual LANs (VLANs) Introduction Introduction VLAN Features Feature Default Menu CLI Web view existing VLANs n/a page 2-23 thru 2-28 p
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Overview You can configure ACLs using either the CLI or a text editor. Th
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches ACL Operation ACL Operation Introduction An ACL is a list of one or more
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches ACL Operation The Packet-Filtering Process Sequential Comparison and Acti
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches ACL Operation Note on Implicit Deny For ACLs configured to filter inbound
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches ACL Operation Note The order in which an ACE occurs in an ACL is signif
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch It
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Pr
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch St
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Ta
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Ta
Static Virtual LANs (VLANs) Introduction Types of Static VLANs Available in the Switch Port-Based VLANs This type of static VLAN creates a specific la
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Th
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Tr
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch th
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Ex
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Ev
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Tr
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Yo
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch AC
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch
Static Virtual LANs (VLANs) Terminology Note In a multiple-VLAN environment that includes some older switch models there may be problems related to
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Ho
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Ru
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Ex
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch .
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Planning an ACL Application on a Series 3400cl or Series 6400cl Switch Ta
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Configuring and Assigning an ACL ACL Fea
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL You should carefully plan your ACL appli
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Standard ACL Structure Individual ACEs i
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Optional ACL log command (available f
Static Virtual LANs (VLANs) Static VLAN Operation Static VLAN Operation A group of networked ports assigned to a VLAN form a broadcast domain that is
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL ACL Configuration Factors ACL Resource C
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Table 10-7. Effect of the ACL in Figure
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL In Any ACL, There Will Always Be a Match
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Duplicate ACEs are allowed in an ACL.
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Table 10-8. Examples of CIDR Notation f
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Configuring and Assigning a Numbered, St
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Syntax: [no] access-list Creates an ACE
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL The mask is applied to the IP address in
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL • Permits IP traffic from the indicated
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL ACL “60” is listed in the switch configu
Static Virtual LANs (VLANs) Static VLAN Operation Port-Based VLANs Protocol-Based VLANs Tagged A port can be a tagged member of any port-based A
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Configuring and Assigning a Numbered, Ex
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Syntax: [no] access-list Creates an ACE
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL < any | host < src-ip-addr > |
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Comparison Operator: • eq < tcp/udp-
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Example of an Extended ACL. Suppose tha
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL A (Refer to figure 10-18, above.) B (Ref
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Configuring a Named ACL You can use the
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL < name-str | 1-99 | 100-199 > Cons
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Configured Source IP Address and Mask Co
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Configuring and Assigning an ACL Enabling or Disabling ACL Filtering on a
Static Virtual LANs (VLANs) Static VLAN Operation VLAN Operation The Default VLAN. In figure 2-1, all ports belong to the default VLAN, and devices c
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Deleting an ACL from the Switch Deleting an ACL from the Switch Syntax:
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Displaying ACL Data Display an ACL Summary This command lists the configu
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Displaying ACL Data Note Notice that you can use the output from this co
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Displaying ACL Data For example, if you assigned a standard ACL with an A
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Displaying ACL Data For example, suppose you configured the following two
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Displaying ACL Data Table 10-9. Descriptions of Data Types Included in S
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Displaying ACL Data Indicates that one rule and two masks have been used.
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Editing ACLs and Creating an ACL Offline Editing ACLs and Creating an ACL
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Editing ACLs and Creating an ACL Offline General Editing Rules You can
Use no access-list to remove this line from ACL 103.Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Editing ACLs and Crea
Contents Product Documentation About Your Switch Manual Set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xxiii Feature Index . . .
Static Virtual LANs (VLANs) Static VLAN Operation Protocol VLAN Environment. Figure 2-2 can also be applied to a protocol VLAN environment. In this
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Editing ACLs and Creating an ACL Offline Working Offline To Create or Edi
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Editing ACLs and Creating an ACL Offline Removes an existing ACL and repl
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Editing ACLs and Creating an ACL Offline You can use the “;“ character to
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Enable ACL “Deny” Logging Note If a transport error occurs, the switch d
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Enable ACL “Deny” Logging Receive notification when the switch detects
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Enable ACL “Deny” Logging Oct 15 10:04:45 10.28.234.181 ACL: ACL 10/15/04
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Enable ACL “Deny” Logging 10.38.110.54 10.38.100.127 Syslog Server Config
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches Enable ACL “Deny” Logging Operating Notes for ACL Logging The ACL logg
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches General ACL Operating Notes General ACL Operating Notes ACLs do not provi
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches General ACL Operating Notes ACLs Do Not Filter Traffic Generated by the S
Static Virtual LANs (VLANs) Static VLAN Operation overlap in this way, VLAN “tags” are used in the individual packets to distin-guish between traffic
Access Control Lists (ACLs) for the Series 3400cl and Series 6400cl Switches General ACL Operating Notes —This page is intentionally unused— 10-82
11 IP Routing Features Contents Overview of IP Routing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-3 IP Interfac
IP Routing Features Contents Overview of OSPF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-34 Configuring OSP
IP Routing Features Overview of IP Routing Overview of IP Routing The Procurve Series 5300xl, 4200vl, 3400cl, and 6400cl switches offer the following
IP Routing Features Overview of IP Routing detail. Use the information in this chapter if you need to change some of the IP parameters from their defa
IP Routing Features Overview of IP Routing ARP Cache Table The ARP cache contains entries that map IP addresses to MAC addresses. Generally, t
IP Routing Features Overview of IP Routing The IP route table contains the best path to a destination. When the software receives paths from
IP Routing Features Overview of IP Routing IP Route Exchange Protocols This feature is not available on the Series 4200vl switches. The switch support
IP Routing Features Overview of IP Routing Parameter Description Default See page Time to Live (TTL) The maximum number of routers (hops) through w
IP Routing Features Overview of IP Routing IP Interface Parameters for Routing Switches Table 11-2 lists the interface-level IP parameters for routing
Static Virtual LANs (VLANs) Static VLAN Operation Red VLAN Blue VLAN Red Server ProCurve Switch Blue Server ProCurve Switch Red VLAN Red VLAN Blue V
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 To change the router ID, enter a command such as the following: ProCurve(config)# i
IP Routing Features Configuring IP Parameters for Routing Switches To obtain the MAC address required for forwarding a datagram, the routing switch do
IP Routing Features Configuring IP Parameters for Routing Switches Enabling Proxy ARP Proxy ARP allows a routing switch to answer ARP requests from de
IP Routing Features Configuring IP Parameters for Routing Switches Changing the TTL Threshold The configuration of this parameter is covered in chapte
IP Routing Features Configuring IP Parameters for Routing Switches Configuring ICMP You can configure the following ICMP limits: Burst-Normal – The
IP Routing Features Configuring IP Parameters for Routing Switches Disabling ICMP Destination Unreachable Messages By default, when a ProCurve device
IP Routing Features Configuring Static IP Routes Disabling ICMP Redirects You can disable ICMP redirects on the ProCurve routing switch. only on a glo
IP Routing Features Configuring Static IP Routes Static IP Route Parameters When you configure a static IP route, you must specify the following param
IP Routing Features Configuring Static IP Routes When you configure a static IP route, you specify the destination address for the route and the next-
Static Virtual LANs (VLANs) Static VLAN Operation Example of Per-Port VLAN Configuration Example of Per-Port with GVRP Disabled VLAN Configuration (th
IP Routing Features Configuring Static IP Routes Configuring the Default Route You can also assign the default router as the destination by entering 0
IP Routing Features Configuring RIP Configuring RIP This feature is not available on the Series 4200vl switches. This section describes how to configu
IP Routing Features Configuring RIP Not e ICMP Host Unreachable Message for Undeliverable ARPs. If the routing switch receives an ARP request packet
IP Routing Features Configuring RIP Table 11-4. RIP Interface Parameters Parameter Description Default RIP version The version of the protocol tha
IP Routing Features Configuring RIP To enable RIP on a routing switch, enter the following commands: ProCurve(config)# ip routing ProCurve(config)# ro
IP Routing Features Configuring RIP Note RIP considers a route with a metric of 16 to be unreachable. Use this metric only if you do not want the rou
IP Routing Features Configuring RIP Not e Not e Do not enable redistribution until you have configured the redistribution filters. Otherwise, the netw
IP Routing Features Configuring RIP 0(config)# router rip ProCurve(rip)# redistribute connected ProCurve(rip)# redistribute static ProCurve(rip)# writ
IP Routing Features Configuring RIP Displaying RIP Information All RIP configuration and status information is shown by the CLI command show ip rip an
IP Routing Features Configuring RIP The display is a summary of Global RIP information, information about interfaces with RIP enabled, and information
Static Virtual LANs (VLANs) VLAN Operating Rules VLAN Operating Rules DHCP/Bootp: If you are using DHCP/Bootp to acquire the switch’s configurati
IP Routing Features Configuring RIP Displaying RIP Interface Information To display RIP interface information, enter the show ip rip interface command
IP Routing Features Configuring RIP The information in this display includes the following fields, which are defined under ““RIP Interface Information
IP Routing Features Configuring RIP The resulting display will appear similar to the following: ProCurve# show ip rip peer RIP peer inf
IP Routing Features Configuring RIP Displaying RIP Redistribution Information To display RIP redistribution information, enter the show ip rip red
IP Routing Features Configuring OSPF Configuring OSPF This feature is not available on the Series 4200vl switches. This section describes how to confi
IP Routing Features Configuring OSPF An OSPF router can be a member of multiple areas. Routers with membership in multiple areas are known as Area Bor
IP Routing Features Configuring OSPF When multiple ProCurve switches on the same network are declaring them-selves as DRs, then both priority and rout
IP Routing Features Configuring OSPF This enhancement implements the portion of RFC 2328 that describes AS External LSA reduction. This enhancement is
IP Routing Features Configuring OSPF Dynamic OSPF Activation and Configuration OSPF is automatically activated when you enable it. The protocol does n
IP Routing Features Configuring OSPF Configuration Rules If the switch is to operate as an ASBR, you must enable redistribution. When you do that,
Static Virtual LANs (VLANs) VLAN Operating Rules Adding or Deleting VLANs: Changing the number of VLANs supported on the switch requires a reboot.
IP Routing Features Configuring OSPF Note When using the CLI, you set global level parameters at the OSPF CONFIG Level of the CLI. To reach that leve
IP Routing Features Configuring OSPF Example: Here is an example of the commands to set up several OSPF areas. ProCurve(ospf)# area 192.5.1.0 ProCurv
IP Routing Features Configuring OSPF Note This feature applies only when the switch is configured as an Area Border Router (ABR) for the area. To com
IP Routing Features Configuring OSPF Assigning VLANs to an Area Once you define OSPF areas, you can assign VLANs to the areas. All VLANs in the switch
IP Routing Features Configuring OSPF Authentication-key: OSPF supports two methods of authentication for each VLAN—simple password and MD5. In additio
IP Routing Features Configuring OSPF Assigning Virtual Links It is highly recommended that all ABRs (area border routers) have either a direct or indi
IP Routing Features Configuring OSPF Figure 11-9. Defining OSPF virtual links within a network OSPF Area 0 OSPF Area 1 “transit area” OSPF Area 2 530
IP Routing Features Configuring OSPF To configure the virtual link on Routing Switch-C, enter the following commands: ProCurve(ospf)# area 1 virtual-l
IP Routing Features Configuring OSPF Simple password – Use the area <num> | <ip-addr> virtual-link <ip-addr> authentication-key &
IP Routing Features Configuring OSPF Note Do not enable redistribution until you have configured the redistribution filters. Otherwise, the network m
Static Virtual LANs (VLANs) VLAN Operating Rules Port “X” receives an inbound, untagged Packet. Yes Is the port an untagged member of any VLANs? No
IP Routing Features Configuring OSPF Enabling Route Redistribution Note Do not enable redistribution until you have configured the redistribution “re
IP Routing Features Configuring OSPF Modifying OSPF Traps Generated OSPF traps as defined by RFC 1850 are supported on the switches covered in this gu
IP Routing Features Configuring OSPF OSPF Trap Name MIB Object originate-lsa-trap ospfOriginateLsa originate-maxage-lsa-trap ospfMaxAgeLsa link-sta
IP Routing Features Configuring OSPF Displaying OSPF Information You can use CLI commands to display the following OSPF informat
IP Routing Features Configuring OSPF Syntax: show ip ospf general The following fields are shown in the OSPF general status display: Table 11-6. CLI
IP Routing Features Configuring OSPF Displaying OSPF Area Information To display OSPF area information, enter sh
IP Routing Features Configuring OSPF Displaying OSPF External Link State Information To dis
IP Routing Features Configuring OSPF The advertise keyword displays the hexadecimal data in the specified LSA packet, the actual
IP Routing Features Configuring OSPF Syntax: show ip ospf interface [vlan < vlan-id > | < ip-addr >] The OSPF interface display shows the
IP Routing Features Configuring OSPF Displaying OSPF Interface Information for a Specific VLAN or IP Address
Static Virtual LANs (VLANs) General Steps for Using VLANs tagged member must have the same VID as that carried by the inbound, tagged packets generate
IP Routing Features Configuring OSPF This Field... Displays...Hello Interval Configured hello interval for this interface. Rtr Dead Interval Configu
IP Routing Features Configuring OSPF Syntax: show ip ospf link-state The OSPF link state display shows contents of the LSA database, one table for ea
IP Routing Features Configuring OSPF An example of the show ip ospf link-state advertise is: OSPF Link State Database for Area 0.0.0.0 Adverti
IP Routing Features Configuring OSPF This display shows the following information. Table 11-12. CLI Display of OSPF Neighbor Information Field Descri
IP Routing Features Configuring OSPF Displaying OSFPF Redistribution Information As described under “Enabling Route Redistribution”
IP Routing Features Configuring OSPF This display shows the configured restrict entries. Displayi
IP Routing Features Configuring OSPF Displaying OSPF Virtual Link Information To display OSPF virtual link information, enter sh
IP Routing Features Configuring OSPF Example: To get OSPF virtual link information for IP address 10.0.8.33, enter show ip ospf virtual-l
IP Routing Features Configuring OSPF Displaying OSPF Route Information To display OSPF route and other OSPF configu
IP Routing Features Configuring OSPF Syntax: show ip ospf This screen has a lot of information, most of it already covered in other show commands. Th
Static Virtual LANs (VLANs) Multiple VLAN Considerations 3. Assign the desired switch ports to the new VLAN(s). 4. If you are managing VLANs with
IP Routing Features Configuring OSPF OSPF Equal-Cost Multipath (ECMP) for Different Subnets Available Through the Same Next-Hop Routes Using software
IP Routing Features Configuring OSPF Table 11-17. Example of a Routing Table for the Network in Figure 11-25 Destination Subnet Router “A” Next Hop 1
IP Routing Features Configuring OSPF ProCurve Switch 5304XL(config)# show running Running configuration: ; J4850A Configuration Editor; Created on re
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 for the routing switch to the hold
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 operation by enabling the routing switch to append an Option 82 field to such client requests. This field i
IP Routing Features Configuring DHCP Relay Option 82 Server Support To apply DHCP Option 82, the routing switch must operate in conjunction with a ser
IP Routing Features Configuring DHCP Relay DHCP relay agent: See Relay Agent. Forwarding Policy: The Option 82 method the routing switch uses to proce
Static Virtual LANs (VLANs) Multiple VLAN Considerations Table 2-6 lists the database structure of current ProCurve switch models. Table 2-6. Forwardi
IP Routing Features Configuring DHCP Relay General DHCP-Relay Operation with Option 82. Typically, the first (primary) Option 82 relay agent to recei
IP Routing Features Configuring DHCP Relay Remote ID: This configurable subfield identifies a policy area that comprises either the routing switch
IP Routing Features Configuring DHCP Relay the sequential index number for that port position in the slot. (To view the Index number assignments for p
IP Routing Features Configuring DHCP Relay Forwarding Policies DHCP Option 82 on ProCurve switches offers four forwarding policies, with an optional v
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 VLAN 10 DHCP Option 82 Server Client DROP VLAN 20 VLAN 20 VLAN 30 VLAN 10 VLAN 20 APPEND APPEND Relay Agent
IP Routing Features Configuring DHCP Relay With validation enabled, the relay agent applies stricter rules to variations in the Option 82 field(s) of
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 Configuring Option 82 Operation on the Routing Switch Syntax: dhcp-relay option 82 < append [validate]
IP Routing Features Configuring DHCP Relay keep: For any client DHCP packet received with existing Option 82 field(s), configures the routing switch t
Protocol-Based VLANs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5 Designated VLANs . . . . . . . . . . . . . . . . . .
Static Virtual LANs (VLANs) Multiple VLAN Considerations Example of an Unsupported Configuration and How To Correct It The Problem. In figure 2-9,
IP Routing Features Configuring DHCP Relay The IP address of the primary DHCP relay agent receiving a client request packet is automatical
IP Routing Features Configuring DHCP Relay DHCP Packet Forwarding The DHCP relay agent on the routing switch forwards DHCP client packets to all DHCP
IP Routing Features Configuring DHCP Relay Not e Configuring a Helper Address At the VLAN configuration CLI context level, enter the commands to add t
IP Routing Features Configuring DHCP Relay Listing the Currently Configured DHCP Helper Addresses. Syntax: show ip helper-address < vlan-id > T
IP Routing Features UDP Broadcast Forwarding on 5300xl, 4200vl and 3400cl Switches UDP Broadcast Forwarding on 5300xl, 4200vl and 3400cl Switches Over
IP Routing Features UDP Broadcast Forwarding on 5300xl, 4200vl and 3400cl Switches For example, VLAN 1 (15.75.10.1) is configured to forward inbound U
IP Routing Features UDP Broadcast Forwarding on 5300xl, 4200vl and 3400cl Switches Configuring and Enabling UDP Broadcast Forwarding To configure and
IP Routing Features UDP Broadcast Forwarding on 5300xl, 4200vl and 3400cl Switches — Continued from the preceding page. — < ip-address >: This c
IP Routing Features UDP Broadcast Forwarding on 5300xl, 4200vl and 3400cl Switches Displaying the Current IP Forward-Protocol Configuration Syntax sh
IP Routing Features UDP Broadcast Forwarding on 5300xl, 4200vl and 3400cl Switches Operating Notes for UDP Broadcast Forwarding Maximum Number of Entr
Static Virtual LANs (VLANs) Multiple VLAN Considerations the 8000M discards some packets directed through it for the 5300xl, resulting in poor perform
IP Routing Features Configuring Static Network Address Translation (NAT) for Intranet Applications on the 5300xl Switches Configuring Static Network A
IP Routing Features Configuring Static Network Address Translation (NAT) for Intranet Applications on the 5300xl Switches table the switch maintains w
IP Routing Features Configuring Static Network Address Translation (NAT) for Intranet Applications on the 5300xl Switches Example. This example uses
IP Routing Features Configuring Static Network Address Translation (NAT) for Intranet Applications on the 5300xl Switches Displaying Static NAT Statis
IP Routing Features Configuring Static Network Address Translation (NAT) for Intranet Applications on the 5300xl Switches Static NAT does not provi
12 Router Redundancy Using XRRP Contents Introduction to XRRP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-3 T
Router Redundancy Using XRRP Contents Comparison Between XRRP and VRRP . . . . . . . . . . . . . . . . . . . . . . . . 12-31 Messages Related to XRRP
Router Redundancy Using XRRP Introduction to XRRP Introduction to XRRP XRRP does not apply to the Series 4200vl switches. XRRP (XL Router Redundancy P
Router Redundancy Using XRRP Terminology Fail-Back Router: In a given protection domain, this is the XRRP-enabled router that takes over the routin
Router Redundancy Using XRRP Overview of XRRP Operation Overview of XRRP Operation XRRP allows you to configure pairs of switches to behave as backup
Static Virtual LANs (VLANs) Configuring VLANs 4108gl Switch VLAN 1 VLAN 2 5300xl, 3400/6400cl, or 4200vl Switch VLAN 1 VLAN 2 Both switches have mul
Router Redundancy Using XRRP Overview of XRRP Operation XRRP During Normal Router Operation For each router, XRRP defines a virtual router, using the
Router Redundancy Using XRRP Overview of XRRP Operation XRRP Fail-Over Operation If all access to a VLAN from one of the routers in the Protection Dom
Router Redundancy Using XRRP Overview of XRRP Operation Note Figure 12-3 shows a single interface on VLAN 5, but multiple interfaces could exist. For
Router Redundancy Using XRRP Overview of XRRP Operation Fast Fail-Over. As shown in figure 12-4, if the same link goes down as was shown in figure 12
Router Redundancy Using XRRP Overview of XRRP Operation Standard Fail-Over. In the multiple-VLAN situation in which all communi-cation between the ro
Router Redundancy Using XRRP Overview of XRRP Operation If Communication is Maintained Through Non-XRRP Interfaces. In some cases, it may be possible
Router Redundancy Using XRRP Overview of XRRP Operation The Solution. Beginning with software release E.09.05, you can optionally configure XRRP infi
Router Redundancy Using XRRP Overview of XRRP Operation Fail-Over Operation with Infinite Fail-Back Enabled XRRP Protection Domain Server Layer 2 Swit
Router Redundancy Using XRRP Overview of XRRP Operation Router Operation in the Infinite Fail-Back Mode An XRRP router with permanent (primary and sec
Router Redundancy Using XRRP Overview of XRRP Operation Enabling Infinite Fail-Back in a Protection Domain As described in the chapter titled “Router
Static Virtual LANs (VLANs) Configuring VLANs To Change VLAN Support Settings This section describes: Changing the maximum number of VLANs to suppo
Router Redundancy Using XRRP Overview of XRRP Operation Displaying the Infinite Fail-Back Configuration Syntax: show xrrp config global Indicates the
Router Redundancy Using XRRP Overview of XRRP Operation XRRP Operating Notes Reserved Multicast MAC Address – XRRP uses the following multicast MAC
Router Redundancy Using XRRP Overview of XRRP Operation Multiple VLAN Considerations – When using multiple VLANs, some consideration must be given
Router Redundancy Using XRRP Overview of XRRP Operation The ProCurve switches having a multiple forwarding database are: shown in Table 12-1. Table 12
Router Redundancy Using XRRP Configuring XRRP Switch 8000M VLAN VLAN 2 VLAN 1 1 & 2PC “A” PC “B” A1 Ports A1 and C1 belong to both VLAN 1 and VLA
Router Redundancy Using XRRP Configuring XRRP Syntax: xrrp domain < 1-16 > no xrrp xrrp [ router < 1-2 >] xrrp failback < 10-999 >
Router Redundancy Using XRRP Configuring XRRP master-transition – signifies that the router state has changed specifically to the master state. The tr
Router Redundancy Using XRRP Configuring XRRP Please see the configuration examples on page 12-25 to help clarify these concepts. • If a VLAN has mul
Router Redundancy Using XRRP Configuring XRRP Configuration Rules XRRP can be configured only on statically configured IP VLANs. VLANs automaticall
Router Redundancy Using XRRP Configuring XRRP Configuration Examples The following configuration examples create the XRRP setups in the single VLAN an
Static Virtual LANs (VLANs) Configuring VLANs If you changed the value for Maximum VLANs to support, you will see an asterisk next to the VLAN Supp
Router Redundancy Using XRRP Configuring XRRP Configuration for Figure 12-4 – Multiple VLANs See the figure on page 12-9. Router-1 Configuration Expl
Router Redundancy Using XRRP Displaying XRRP Data Displaying XRRP Data To verify XRRP configuration and for XRRP status and statistics information di
Router Redundancy Using XRRP Displaying XRRP Data The display also includes all owner router information (instances). Global information for XRRP
Router Redundancy Using XRRP Displaying XRRP Data If the keyword global is used, then generic information is displayed: ProCurve(config)# show xr
Router Redundancy Using XRRP Displaying XRRP Data The keyword router can be used to display statistics information for the specific router coordinato
Router Redundancy Using XRRP Comparison Between XRRP and VRRP Comparison Between XRRP and VRRP The following information compares the characteristics
Router Redundancy Using XRRP Messages Related to XRRP Operation Messages Related to XRRP Operation These messages appear in the Event Log and, if Sysl
Router Redundancy Using XRRP Messages Related to XRRP Operation Message Meaning Failed to alloc a pkt buf for an XRRP pkt from < routine-name >
Router Redundancy Using XRRP Messages Related to XRRP Operation Message Meaning No local IP addr < IP-address-in-hex > from rtr < router-nu
Router Redundancy Using XRRP Messages Related to XRRP Operation Message Meaning Remote rtr < router-num > domain Indicates that the remote rou
Static Virtual LANs (VLANs) Configuring VLANs Adding or Editing VLAN Names Use this procedure to add a new VLAN or to edit the name of an existing VLA
Router Redundancy Using XRRP Messages Related to XRRP Operation — This page is intentionally unused— 12-36
13 Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Contents Introduction to Stack Management on Series 3400cl, 6400cl and 4200vl S
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Contents Using the CLI To Access Member Switches for Configuration Changes and Tra
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Introduction to Stack Management on Series 3400cl, 6400cl and 4200vl Switches Intr
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Introduction to Stack Management on Series 3400cl, 6400cl and 4200vl Switches Note
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Introduction to Stack Management on Series 3400cl, 6400cl and 4200vl Switches Comp
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Introduction to Stack Management on Series 3400cl, 6400cl and 4200vl Switches Memb
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Introduction to Stack Management on Series 3400cl, 6400cl and 4200vl Switches Oper
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Introduction to Stack Management on Series 3400cl, 6400cl and 4200vl Switches Spec
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Note In the default stack configuration, the Candida
Static Virtual LANs (VLANs) Configuring VLANs Example of a New VLAN and ID Figure 2-15. Example of VLAN Names Screen with a New VLAN Added 6. Repe
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Options for Configuring a Commander and Candidates.
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Default stacking configuration (Stack State set to
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management 2. Configure the Commander switch. Doing this first
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Using the Menu Interface To View Stack Status and Con
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management 4. Move the cursor to the Stack State field by press
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Using the Menu To Manage a Candidate Switch Using the
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Figure 13-8. The Default Stack Configuration Screen
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management 5. press [Enter] to return the cursor to the Action
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management For status descriptions, see the table on page 13-45.
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management • If the desired Candidate has a Manager password, p
Static Virtual LANs (VLANs) Configuring VLANs A port can be assigned to several VLANs, but only one of those assignments can be “Untagged”. Default
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management 2. To learn or verify the MAC address of the Member
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management 7. Use the downarrow key to move the cursor to the M
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management To remove a Member from a stack, use the Stack Manage
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management 4. To continue deleting the selected Member, press t
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Main Menu for stack Member named "Coral Sea"
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management 3. Press [B] (for Back) to return to the Stacking Me
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Using Any Stacked Switch To View the Status for All S
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management You will then see the Commander’s Stacking Status scr
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Figure 13-20. Example of a Member’s Stacking Status
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Using the CLI To View Stack Status and Configure Stac
Static Virtual LANs (VLANs) Configuring VLANs Ports A4 and A5 are assigned to both VLANs. Ports A6 and A7 are assigned only to VLAN-22. All other po
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management CLI Command Operation [no] stack member <switch-n
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Using the CLI To View Stack Status You can list the s
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Viewing the Status of all Stack-Enabled Switches Disc
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Using the CLI To Configure a Commander Switch You can
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management The stack commander command configures the Commander
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Figure 13-27. Example of Using a Member’s CLI To Con
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Using the Commander’s CLI To Manually Add a Candidate
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management For example, if the 3400cl-48 in the above listing di
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management The Candidate’s Auto Join is set to Yes (and you
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Syntax: stack member < switch-number > mac
Static Virtual LANs (VLANs) Configuring VLANs VLAN Commands Page show vlans below show vlans < vid > 2-31 show vlans ports <port-list> ma
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Syntax: no stack name < stack name> stack jo
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Use show stack view to list the stack Members. For ex
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management You would then execute this command in the “North Sea
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management SNMP Community Operation in a Stack Community Members
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Note that in the above example (figure 13-37) you can
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management Stacking uses only the primary VLAN on each switch
Stack Management for the Series 3400cl, 6400cl, and 4200vl Switches Configuring Stack Management —This page is intentionally unused— 13-46
Index Numerics 802.1p priority (QoS) definition … 8-6 802.1q VLAN in mesh … 7-23 802.1Q VLAN standard … 6-6 802.1w as a region … 6-54 802.1x, mesh, no
mask, CIDR … 10-45 mask, defined … 10-8 mask, multiple IP addresses … 10-36 mask, one IP address … 10-35 mask, per-port, defined … 10-9 match, always
configured, not used … 9-31 configuring offline … 9-10 connection-rate ACL … 9-6, 9-8 copy operation appends … 9-56 create, CLI method … 9-32 DA, defi
Components of Voice VLAN Operation . . . . . . . . . . . . . . . . . . . . . 2-52 Voice VLAN QoS Prioritizing (Optional) . . . . . . . . . . . . . . .
Static Virtual LANs (VLANs) Configuring VLANs Name: The default or specified name assigned to the VLAN. For a static VLAN, the default name consists
wildcard, defined … 9-7 ACL-5300xl, standard numeric I.D. range … 9-26 active path … 6-4 address IP … 11-13 administrative distance, OSPF … 11-53 adve
RSTP from the CLI … 6-14 from the menu … 6-20 per-port parameters … 6-18 whole switch parameters … 6-16 spanning tree protocol … 6-8, 6-50 static IP r
enabling STP CLI … 6-15 event log See log. examples XRRP configuration … 12-25 Exclude Source See IGMP. external LSA displaying … 11-59 F fail-over XR
configuring … 11-18 disabling messages … 11-18 IEEE 802.1 standard … 7-22 IGMP benefits … 4-3 configure per VLAN … 4-5 effect on filters … 4-20 Exclud
RIP configuration … 11-24 displaying configuration and status … 11-31 enabling … 11-26 general information … 11-31 interface information … 11-33 overv
hub not allowed … 7-5, 7-7 IGMP requirement … 7-6 increase STP cost … 7-21 IP routing not allowed … 7-6 jumbo packets … 7-24 LACP dynamic trunk, effec
policy boundary … 11-81 primary relay agent … 11-82 relay agent … 11-82 Relay Agent Information … 11-79 remote ID … 11-82, 11-84 requirements … 11-82
default settings recommended … 5-9 displaying data and configuration … 5-22 draft version 3 … 5-3 draft versions 1 and 2 … 5-4 error message … 5-37 ex
XRRP … 5-4 port auto, IGMP … 4-5 blocked by STP operation … 6-8, 6-50 blocked in mesh … 7-10 blocked, IGMP … 4-5 forwarding, IGMP … 4-5 loop … 6-8, 6-
redistribution filters OSPF configuring … 11-51 displaying … 11-67 RIP configuring … 11-28 displaying … 11-36 redundant link … 7-21 redundant link, no
Static Virtual LANs (VLANs) Configuring VLANs Syntax: show vlan ports < port-list > 802.1Q VLAN ID: The VLAN identification number, or VID. Ref
OSPF area configuration … 11-43 area information … 11-58 assigning area range … 11-45 displaying configuration and status … 11-56 displaying routing t
MSTP See spanning-tree, 802.1s operation with switch meshing … 7-20 redundant path … 6-4 RSTP edge port parameter … 6-18 RSTP mcheck parameter … 6-18
MIB … 6-81 MST region See region. MSTI … 6-48, 6-54 MSTI root … 6-50 MSTI, view status … 6-76 MSTP … 6-48 MSTP operation … 6-49 MSTP, view global conf
XRRP … 12-28 status and counters XRRP … 12-27 STP cost change by mesh switch … 7-21 enabling from the CLI … 6-15 server access failure … 6-8 stub area
deleting, with member ports … 2-14, 2-35, 2-37 DHCP, primary VLAN … 2-45 duplicate MAC address … 2-18 dynamic … 2-4, 2-17, 2-22, 2-28, 2-37 effect on
untagged … 2-11, 2-27 untagged, operation … 2-16 VID … 2-4, 2-42 VID, default VLAN … 2-45 voice … 2-5, 2-30, 2-31, 2-32, 2-53 voice, configuration … 2
xrrp command domain parameter … 12-21 failback parameter … 12-21 instance parameter … 12-22 router parameter … 12-21 syntax … 12-20 trap parameter … 1
Technical information in this documentis subject to change without notice.© Copyright 2006Hewlett-Packard Development Company, L.P.Reproduction, adap
Static Virtual LANs (VLANs) Configuring VLANs Syntax: show vlans < vlan-id > 802.1Q VLAN ID: The VLAN identification number, or VID. Refer to
Static Virtual LANs (VLANs) Configuring VLANs Figure 2-20. Example of “Show VLAN” for a Specific Static VLAN Show VLAN lists this data when GVRP is e
Static Virtual LANs (VLANs) Configuring VLANs For example, to reconfigure the switch to allow 10 VLANs: Note that you can execute these three steps
Static Virtual LANs (VLANs) Configuring VLANs Creating a New Static VLAN (Port-Based or Protocol-Based) Changing the VLAN Context Level. The vlan <
Static Virtual LANs (VLANs) Configuring VLANs — Continued from the Previous Page — Note: If you create an IPv4 protocol VLAN, you must also assign t
Static Virtual LANs (VLANs) Configuring VLANs Deleting a VLAN (5300xl Running Software Release E.09.xx or Greater and 4200vl). If ports B1-B5 belong
Static Virtual LANs (VLANs) Configuring VLANs Syntax: [no] vlan < vid > tagged < port-list > Configures the indicated port(s) as Tagged
Static Virtual LANs (VLANs) Configuring VLANs At the global config level, use: ProCurve(config)# no vlan 100 tagged a1-a5 - or - At the VLAN 100 conte
IGMP General Operation and Features . . . . . . . . . . . . . . . . . . . . . . . . . 4-3 IGMP Terms . . . . . . . . . . . . . . . . . . . . . . .
Static Virtual LANs (VLANs) 802.1Q VLAN Tagging 802.1Q VLAN Tagging General Applications: The switch requires VLAN tagging on a given port if mor
Static Virtual LANs (VLANs) 802.1Q VLAN Tagging Red VLAN Blue Server Red Server Switch “X” 4 3 5 6 7 2 1 Blue VLAN Green Server Green VLAN White Serve
Static Virtual LANs (VLANs) 802.1Q VLAN Tagging Note Each 802.1Q-compliant VLAN must have its own unique VID number, and that VLAN must be given th
Static Virtual LANs (VLANs) 802.1Q VLAN Tagging If all end nodes on a port comply with the 802.1Q standard and are configured to use the correct VI
Static Virtual LANs (VLANs) 802.1Q VLAN Tagging The VLANs assigned to ports X4 - X6, Y2 - Y5 can all be untagged because there is only one VLAN a
Static Virtual LANs (VLANs) Special VLAN Types Special VLAN Types VLAN Support and the Default VLAN In the factory default configuration, VLAN support
Static Virtual LANs (VLANs) Special VLAN Types Candidates for Primary VLAN include any static, port-based VLAN currently configured on the switch. (
Static Virtual LANs (VLANs) Special VLAN Types Figure 2-28 illustrates use of the Management VLAN feature to support man-agement access by a group of
Static Virtual LANs (VLANs) Special VLAN Types Switch A 3 Port A1 Port A3 Port A6 Port A7 4 1 Switch B Port B2 Port B4 Port B5 Port B9 Switch C Port
Static Virtual LANs (VLANs) Special VLAN Types Hubs dedicated to connecting management stations to the Management VLAN can also be included in the abo
Displaying PIM Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-27 Operating Notes . . . . . . . . . . . . . . .
Static Virtual LANs (VLANs) Special VLAN Types Deleting the Management VLAN You can disable the Secure Management feature without deleting the VLAN
Static Virtual LANs (VLANs) Special VLAN Types VLAN 20 (Management VLAN) VLAN 10 VLAN 30 VLAN 40 Mesh Domain Includes Membership in Three VLANs Switch
Static Virtual LANs (VLANs) Special VLAN Types Components of Voice VLAN Operation Voice VLAN(s): Configure one or more voice VLANs on the switch.
Static Virtual LANs (VLANs) Effect of VLANs on Other Switch Features Note that you also have the option of resetting the DSCP (DiffServe Code-point) o
Static Virtual LANs (VLANs) Effect of VLANs on Other Switch Features IP Interfaces There is a one-to-one relationship between a VLAN and an IP netwo
Static Virtual LANs (VLANs) VLAN Restrictions Jumbo Packet Support on the Series 3400cl and Series 6400cl Switches Jumbo packet support for the 3400cl
Static Virtual LANs (VLANs) VLAN Restrictions —This page is intentionally unused — 2-56
3 GVRP Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 Introduction
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 3-13 page 3-14 page 3-18 list static and dynamic
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