Hp 5400ZL User Manual

HP ProCurve Switch Software Advanced Traffic Management Guide 3500 switches 3500yl switches 5400zl switches 6200yl switches 6600 switches 8200zl switc

6 Further Operating Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-8 Configuring Switch Meshing . . . . . . . . . . .

Static Virtual LANs (VLANs) Migrating Layer 3 VLANs Using VLAN MAC Configuration Configuring a VLAN MAC Address with Heartbeat Interval When install

------------- ------------------------ -----------Static Virtual LANs (VLANs) Migrating Layer 3 VLANs Using VLAN MAC Configu

Static Virtual LANs (VLANs) Migrating Layer 3 VLANs Using VLAN MAC Configuration 2-70

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

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

Classifier-Based Traffic Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-18 Globally-Configured QoS . . . . . . . . . . . . . .

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 Disable GVRP Reboot the switch The time-to-live for dynamic VLANs is 10 seconds. That is, if a port has not re

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

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

Classifier-Based QoS Restrictions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-85 Interaction with Other Software Features . . . . . .

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 3-20

4 Multiple Instance Spanning-Tree Operation Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Multiple Instance Spanning-Tree Operation Contents Operating Notes for the VLAN Configuration Enhancement . . . 4-50 How to Save Your Current Config

Multiple Instance Spanning-Tree Operation Overview Overview The switches covered in this guide, use the IEEE 802.1s Multiple Spanning Tree Protocol (M

Multiple Instance Spanning-Tree Operation Overview Multiple-Instance spanning tree operation (802.1s) ensures that only one active path exists between

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

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) 802.1s Multiple Spanning Tree Protocol (MSTP) The 802.1D and 8

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) In a mesh environment, the default MSTP timer settings (Hello

Using the Commander To Access Member Switches for Configuration Changes and Monitoring Traffic . . . . . . . . . . . . . . 7-23 Converting a Command

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Common and Internal Spanning Tree (CIST): The CIST identifies

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) MSTI must initially exist in the IST instance of the same MST

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Between regions there is a single, active spanning-tree topolo

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Within a region, traffic routed between VLANs in separate inst

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) MSTP Operation with 802.1Q VLANs As indicated in the preceding

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) Terminology BPDU — Acronym for bridge protocol data unit. BPDU

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) MSTP BPDU (MSTP Bridge Protocol Data Unit): These BPDUs carry

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

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) If a port on a switch configured for MSTP receives a legacy

Multiple Instance Spanning-Tree Operation Configuring MSTP Note on Path Cost RSTP and MSTP implement a greater range of path costs than 802.1D STP, a

Configuring Port-Types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-16 Configuration Example . . . . . . . . . . . .

Multiple Instance Spanning-Tree Operation Configuring MSTP Plan individual regions based on VLAN groupings. That is, plan on all MSTP switches in a

Multiple Instance Spanning-Tree Operation Configuring MSTP MSTP Configuration Overview This section describes the general steps for configuring MSTP v

Multiple Instance Spanning-Tree Operation Configuring MSTP 3. Configure MST instances. • Configure one instance for each VLAN group that you want to

Multiple Instance Spanning-Tree Operation Configuring MSTP Configuring MSTP Operation Mode and Global Settings The commands in this section apply at t

Multiple Instance Spanning-Tree Operation Configuring MSTP The no form of the command overwrites the currently configured name with the default name.

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: spanning-tree force-version < stp-compatible | rstp-operation | mstp-operation

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: spanning-tree hello-time < 1..10 > If MSTP is running and the switch is oper

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: spanning-tree priority < priority-multiplier > Every switch running an insta

Multiple Instance Spanning-Tree Operation Configuring MSTP Configuring MSTP Per-Port Parameters In an MSTP topology, you configure per-port parameters

Multiple Instance Spanning-Tree Operation Configuring MSTP Configuring Per Port Parameters Syntax: [no] spanning-tree <port-list> admin-edge-po

Index xiii

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: spanning-tree < port-list > mcheck Forces a port to send RST/MST BPDUs for

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: spanning-tree < port-list > priority < priority-multiplier > MSTP uses

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: spanning-tree < port-list > tcn-guard When tcn-guard is enabled for a port,

Multiple Instance Spanning-Tree Operation Configuring MSTP For example, to configure BPDU filtering on port a9, enter: ProCurve(config)# spanning-

Multiple Instance Spanning-Tree Operation Configuring MSTP Figure 4-7. Example of BPDU Protection Enabled at the Network Edge The following commands

Multiple Instance Spanning-Tree Operation Configuring MSTP Example. To configure BPDU protection on ports 1 to 10 with SNMP traps enabled, enter: P

Multiple Instance Spanning-Tree Operation Configuring MSTP BPDU protected ports are displayed as separate entries of the spanning tree category within

Multiple Instance Spanning-Tree Operation Configuring MSTP Figure 4-10. PVST Switch Being Isolated after Sending a PVST BPDU Note This is similar to

Multiple Instance Spanning-Tree Operation Configuring MSTP PVST FilteringI If you configure a port for PVST filtering instead of PVST protection, the

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: [no] spanning-tree bpdu-protection-timeout <timeout> Configures the duration

xiv

Multiple Instance Spanning-Tree Operation Configuring MSTP The show spanning-tree <port-list> detail command indicates which ports have PVST pro

Multiple Instance Spanning-Tree Operation Configuring MSTP Configuring MST Instance Parameters When you enable MSTP on the switch, a spanning tree ins

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: [no] spanning-tree instance < 1..16 > vlan < vid [ vid..vid ] > no spa

Multiple Instance Spanning-Tree Operation Configuring MSTP Configuring MST Instance Per-Port Parameters Command Page spanning-tree instance < 1..1

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: spanning-tree instance < 1..16 >< port-list > priority <priority-mu

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: spanning-tree < port-list > priority < priority-multiplier > This comm

Multiple Instance Spanning-Tree Operation Configuring MSTP Enabling or Disabling Spanning Tree Operation This command enables or disables spanning tre

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: [no] spanning-tree pending < apply | config-name | config-revision | instance

Multiple Instance Spanning-Tree Operation Configuring MSTP 7. To review your pending configuration, use the show spanning-tree pending command (see p

Multiple Instance Spanning-Tree Operation Configuring MSTP All switches in a region must be configured with the same VLAN ID-to-MSTI mappings and the

Product Documentation About Your Switch Manual Set Note For the latest version of all ProCurve switch documentation, including Release Notes covering

Multiple Instance Spanning-Tree Operation Configuring MSTP Syntax: [no] spanning-tree instance < 1..16 > vlan < vid [ vid..vid ] > no spa

Multiple Instance Spanning-Tree Operation Configuring MSTP On other ProCurve switches, only the VLANs that are present will be included, that is, only

Multiple Instance Spanning-Tree Operation Configuring MSTP Operating Notes for the VLAN Configuration Enhancement Configuring MSTP on the switch au

Multiple Instance Spanning-Tree Operation Configuring MSTP How to Save Your Current Configuration You can save your current configuration before upd

Multiple Instance Spanning-Tree Operation Configuring MSTP ProCurve(config)# show flash Image Size(Bytes) Date Version Build # ----- ----

Multiple Instance Spanning-Tree Operation Displaying MSTP Statistics and Configuration Displaying MSTP Statistics and Configuration Command Page MSTP

Multiple Instance Spanning-Tree Operation Displaying MSTP Statistics and Configuration Displaying Global MSTP Status The following commands display th

|Multiple Instance Spanning-Tree Operation Displaying MSTP Statistics and Configuration ProCurve(config)# show spanning-tree Multip

Multiple Instance Spanning-Tree Operation Displaying MSTP Statistics and Configuration Displaying Detailed Port Information The following commands

Multiple Instance Spanning-Tree Operation Displaying MSTP Statistics and Configuration Displaying Status for a Specific MST Instance The following com

Software Feature Index For the software manual set supporting your 3500/3500yl/5400zl/6200yl/6600/ 8200zl switch model, this feature index indicates w

Multiple Instance Spanning-Tree Operation Displaying MSTP Statistics and Configuration Displaying the MSTP Configuration Displaying the Global MSTP Co

Multiple Instance Spanning-Tree Operation Displaying MSTP Statistics and Configuration Displaying Per-Instance MSTP Configurations. These commands di

Multiple Instance Spanning-Tree Operation Displaying MSTP Statistics and Configuration Displaying the Region-Level Configuration in Brief. This comma

Multiple Instance Spanning-Tree Operation Displaying MSTP Statistics and Configuration Displaying the Pending MSTP Configuration. This command displa

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration Troubleshooting an MSTP Configuration Command Page show spanning-tree

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration MST Instance (mst): Connects all static and (starting from release

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration ProCurve(config)# show spanning-tree root-history cst Status and Count

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration Displaying Debug Counters for All MST Instances The show spanning-tree

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration Displaying Debug Counters for One MST Instance The show spanning-tree

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration ProCurve(config)# show spanning-tree debug-counters instance 0 Status

Intelligent Edge Software Features Manual Management and Configuration Advanced Traffic Management Multicast and Routing Access Security Guide 802.1X

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration Displaying Debug Counters for Ports in an MST Instance The show spanni

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration ProCurve(config)# show spanning-tree debug-counters

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration ProCurve(config)# show spanning-tree debug-counters instance 2 ports

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration Field MST Config Error BPDUs Looped-back BPDUs Starved BPDUs Starved M

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration Field Exceeded Max Hops MSTI MSGs Topology Changes Detected Topology C

Multiple Instance Spanning-Tree Operation Troubleshooting an MSTP Configuration Field RST BPDUs Tx RST BPDUs Rx MST BPDUs Tx MST BPDUs Rx MSTI MSGs Tx

Multiple Instance Spanning-Tree Operation Loop Protection Loop Protection In cases where spanning tree cannot be used to prevent loops at the edge of

Multiple Instance Spanning-Tree Operation Loop Protection Configuring Loop Protection Loop protection provides protection against loops by transmittin

---- ----------- --------- ---------- ---------------- ------------ --------Multiple Instance Spanning-Tree Operation Loop Protection Not

5 Switch Meshing Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2 Switc

Intelligent Edge Software Features Manual Management and Configuration Advanced Traffic Management Multicast and Routing Access Security Guide Factory

Switch Meshing Introduction Introduction Switch meshing is a load-balancing technology that enhances reliability and performance in these ways: Pro

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 5-22.) A meshed switch can have some ports

Switch Meshing Switch Meshing Fundamentals The spanning-tree configuration must be the same for all switches in the mesh (enabled or disabled). If

Switch Meshing Switch Meshing Fundamentals Note • A switch mesh domain (figure 5-1 on page 5-2) cannot include either a switch that is not configure

Switch Meshing Switch Meshing Fundamentals Figure 5-5. Example of a Supported Heterogeneous Topology in Normal Mode Host (Both links use the same MAC

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

Intelligent Edge Software Features Manual Management and Configuration Advanced Traffic Management Multicast and Routing Access Security Guide Multipl

Switch Meshing Configuring Switch Meshing CLI: To View and Configure Switch Meshing Port Status and Configuration Features Feature Default Menu CLI

Switch Meshing Configuring Switch Meshing Table 5-1. State Descriptions for Show Mesh Output State Meaning Established The port is linked to a mes

Switch Meshing Configuring Switch Meshing Table 5-2. Operating Details for Figure 5-10 Port Meshing? Connection A1 Yes Connected to a port that m

Switch Meshing Operating Notes for Switch Meshing Figure 5-12. Example of How To Configure Ports for Meshing To remove a port from meshing, use the &

Switch Meshing Operating Notes for Switch Meshing This means that after an assigned path between two devices has timed out, new traffic between the sa

Switch Meshing Operating Notes for Switch Meshing traffic patterns, including the situation where multiple VLANs are configured and a broadcast path t

Switch Meshing Operating Notes for Switch Meshing Switch Mesh Domain Problem: MSTP enabled and creating traffic bottlenecks. Solution: Enabling meshin

Switch Meshing Operating Notes for Switch Meshing Note on the Edge-Port Mode in MSTP When using MSTP and interconnecting switches covered in this guid

Switch Meshing Operating Notes for Switch Meshing In a mesh environment, the default MSTP timer settings (Hello Time and Forward Delay) are usually ad

Switch Meshing Operating Notes for Switch Meshing Figure 5-18. VLAN Operation with a Switch Mesh Domain A B D E C Switch Mesh Domain Red VLAN Red VLA

Intelligent Edge Software Features Manual Management and Configuration Advanced Traffic Management Multicast and Routing Access Security Guide sFlow S

Switch Meshing Operating Notes for Switch Meshing Mesh Design Optimization Mesh performance can be enhanced by using mesh designs that are as small an

Switch Meshing Operating Notes for Switch Meshing Switch 1 Switch 2 Switch 3 Switch 4 Switch 5 Switch 6 Switch 7 Switch 8 As shown here, meshing allo

Switch Meshing Operating Notes for Switch Meshing Connecting Mesh Domains: To connect two separate switch meshing domains, you must use non-meshed

6 Quality of Service: Managing Bandwidth More Effectively Contents Using Quality of Service Policies . . . . . . . . . . . . . . . . . . . . . . . .

Quality of Service: Managing Bandwidth More Effectively Contents Global IP Type-of-Service Classifier . . . . . . . . . . . . . . . . . . . . . . .

Quality of Service: Managing Bandwidth More Effectively Contents Configuring the Number of Priority Queues . . . . . . . . . . . . . . . . . . . . 6-

Quality of Service: Managing Bandwidth More Effectively Using Quality of Service Policies Using Quality of Service Policies A Quality of Service (Qo

Quality of Service: Managing Bandwidth More Effectively Using Quality of Service Policies Edge Switch Honor Priority Downstream SwitchClassify inbound

Quality of Service: Managing Bandwidth More Effectively Using Quality of Service Policies Use QoS to optimize existing network resources. By priori

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

Intelligent Edge Software Features Manual Management and Configuration Advanced Traffic Management Multicast and Routing Access Security Guide Web-bas

Quality of Service: Managing Bandwidth More Effectively QoS Terminology Term Use in This Document DSCP policy A DSCP codepoint that is configured

Quality of Service: Managing Bandwidth More Effectively QoS Operation Term Use in This Document Type-of-Service (ToS) Traffic Class byte upstream dev

Quality of Service: Managing Bandwidth More Effectively QoS Operation Be sure to carefully plan your QoS strategies in advance, identifying the netw

Quality of Service: Managing Bandwidth More Effectively QoS Operation Classifier-Based QoS Classifier-Based QoS Feature Default Page Reference Class

Quality of Service: Managing Bandwidth More Effectively QoS Packet Classification QoS Packet Classification To manage network traffic using QoS feat

Quality of Service: Managing Bandwidth More Effectively QoS Packet Classification Search Order Precedence Global QoS Classifier 6 6 Incoming source-

Quality of Service: Managing Bandwidth More Effectively QoS Traffic Marking QoS Traffic Marking As described in “QoS Operation” on page 6-9, when yo

Quality of Service: Managing Bandwidth More Effectively QoS Traffic Marking Table 6-2. 802.1p Priority Settings and Outbound Queue Assignment 802

Quality of Service: Managing Bandwidth More Effectively QoS Traffic Marking Note You can reconfigure the QoS queue setting to change the number of

Quality of Service: Managing Bandwidth More Effectively QoS Traffic Marking VLAN and Untagged VLAN Environments QoS operates in VLAN-tagged and untagg

xxii

Quality of Service: Managing Bandwidth More Effectively QoS Traffic Marking Classifier-Based Traffic Marking Classifier-based per-port or per-VLAN Q

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Globally-Configured QoS QoS Feature Default Reference UDP/TCP Priori

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Default: In a tagged VLAN environment, the incoming 802.1p priority

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Viewing a Global QoS Configuration To display the existing switch-wide

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS No Override By default, the show qos output for following global Qo

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS All Switches: For explicit QoS support of IP subnets, ProCurve reco

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Fragmented Packets & TCP/UDP: QoS is not performed on fragmen

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS For more information, including a listing of UDP/TCP port numbers, go

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Operating Notes on Using TCP/UDP Port Ranges

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Assigning a DSCP Policy for a Global TCP/UDP Classifier This global Qo

1 Getting Started Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2 Conv

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS 3. If necessary, use the qos dscp-map < codepoint > priority

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS 4. Configure the switch to assign the DSCP policy to packets with the

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Syntax: show qos tcp-udp-port-priority Displays a listing of all TC

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS 2. Configure the DSCP policies for the codepoints

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Note ACLs and QoS policies share the same application port ranges. If

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS For a given IP address or subnet mask, you can assign only one of th

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS The no form of the command deletes the specified IP address or s

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Assigning a DSCP Policy For a Global IP-Device Classifier This globa

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Syntax: qos dscp-map < codepoint > priority <0 - 7>> (

Getting Started Introduction Introduction This guide is intended for use with the following ProCurve switches: 8200zl switches 6600 switches

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS • dscp codepoint overwrites the DSCP codepoint in the IPv4 ToS byte

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS problem if the configured priorities are acceptable for all applicatio

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS 3. Assign the DSCP policies to the specified IP-device address

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Global IP Type-of-Service Classifier Global QoS Classifier Precedence:

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS IPv4 ToS/IPv6 Traffic Class Byte IPv4 packet headers contain a Type

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Table 6-8. IP Precedence-to-802.1p Priority Mapping ToS/Traffic Class

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Assigning an 802.1p Priority for a Global IP-Precedence Classifier I

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Assigning an 802.1p Priority for a Global IP-Diffserv Classifier One o

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Configuration Notes Different applications may use the same DSCP in

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS . Syntax: qos type-of-service diff-services < codepoint > Causes

Getting Started Conventions Italics indicate variables for which you must supply a value when execut-ing the command. For example, in this command

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS configure an 802.1p priority of 7 for packets received with a DSCP o

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Assigning a DSCP Policy for a Global IP-Diffserv Classifier The preced

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS . Syntax: qos type-of-service diff-services Enables ToS diff-service

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Example. The following example shows how to configure new DSCP poli-c

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS 2. Configure the desired policies (codepoint and associated 802.1p

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Comparison of Global IP Type-of-Service Classifiers Table 6-9 shows th

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Global Layer-3 Protocol Classifier Global QoS Classifier Precedence:

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS ProCurve(config)# qos protocol ip priority 0ProCurve(config)# qos prot

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Global VLAN-ID Classifier Global QoS Classifier Precedence: 5 The gl

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Syntax: no vlan < vid > qos Removes the specified VLAN-ID as a Q

Getting Started Sources for More Information Keys Simulations of actual keys use a bold, sans-serif typeface with square brackets. For example, the Ta

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS If you later decided to remove VLAN 20 from QoS prioritization, you

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS 3. If necessary, use the qos dscp-map < codepoint > priority &l

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Syntax: no vlan < vid > qos Removes a global QoS classifier fo

802.1p priorities are configured in this step.Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS 2. Configure the priori

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Global Source-Port Classifier Global QoS Classifier Precedence: 6 Th

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Syntax: no interface < port-list > qos Disables use of the speci

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS If you later decided to remove source-port A1 from QoS prioritizatio

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS b. Determine the 802.1p priority you want to assign to the DSCP. 3.

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS Syntax: interface < port-list > qos dscp < codepoint >

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS The DSCPs for this example have not yet been assigned an 802.1p priori

Getting Started Sources for More Information • time protocols • port configuration, trunking, traffic control, and PoE operation • Redundant manage

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS 3. Assign the DSCP policies to the selected source-ports and displa

Quality of Service: Managing Bandwidth More Effectively Globally-Configured QoS IP Multicast (IGMP) Interaction with QoS IGMP high-priority-forward ca

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS Advanced Classifier-Based QoS Starting in software release K.1

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS Classifier-Based QoS Model Classifier-based QoS configuration co

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS 2. Create an IPv4 or IPv6 traffic class using the class comma

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS Context: Class configuration Syntax: [no] [seq-number ] < m

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS [no] [seq-number] class < ipv4 | ipv6 > <classname &g

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS 4. (Optional) To configure a default class in a policy, enter t

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS Syntax: vlan <vlan-id > service-policy <policy-name

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS Context: Global configuration Syntax: [no] [seq-number] class

HP ProCurve 3500 Switches 3500yl Switches 5400zl Switches 6200yl Switch 6600 Switches 8200zl Switches March 2010 K.14.52 Advanced Traffic Management G

Getting Started Sources for More Information Getting Documentation From the Web To obtain the latest versions of documentation and release notes for y

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS action <qos-action > [action <qos-action > ...] —C

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS DSCP-802.1p Mapping action <qos-action > [action <qos-a

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS To reconfigure the 802.1p priority value currently assigned to

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS Override of Global QoS Settings After you apply a QoS policy to

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS ProCurve# show class ipv4 gnutella Statements for Class ipv4 &

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS ProCurve# show statistics policy suspect-traffic vlan 300

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS Classifier-Based QoS Restrictions The following restrictions app

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS Classifier-Based QoS Configuration Examples QoS Policy for Voi

Quality of Service: Managing Bandwidth More Effectively Advanced Classifier-Based QoS QoS Policy for Layer 4 TCP/UDP Traffic The following example sho

Getting Started Need Only a Quick Start? Command Line Interface If you need information on a specific command in the CLI, type the command name follow

Quality of Service: Managing Bandwidth More Effectively Differentiated Services Codepoint (DSCP) Mapping Differentiated Services Codepoint (DSCP) Ma

Quality of Service: Managing Bandwidth More Effectively Differentiated Services Codepoint (DSCP) Mapping Table 6-11. The Default DSCP Policy Table DS

Quality of Service: Managing Bandwidth More Effectively Differentiated Services Codepoint (DSCP) Mapping Displaying Non-Default Codepoint Settings T

Quality of Service: Managing Bandwidth More Effectively Differentiated Services Codepoint (DSCP) Mapping In this case, the packets are handled as foll

Quality of Service: Managing Bandwidth More Effectively Differentiated Services Codepoint (DSCP) Mapping a. Reconfigure each QoS policy by re-enter

Quality of Service: Managing Bandwidth More Effectively Differentiated Services Codepoint (DSCP) Mapping In this case, you would use steps similar to

Quality of Service: Managing Bandwidth More Effectively Differentiated Services Codepoint (DSCP) Mapping 2. Change each QoS configuration by assign

Quality of Service: Managing Bandwidth More Effectively QoS Queue Configuration QoS Queue Configuration QoS queue configuration allows you to reduce t

Quality of Service: Managing Bandwidth More Effectively QoS Queue Configuration Table 6-13. Mapping of 802.1p Priorities to Outbound Port Queues 80

Quality of Service: Managing Bandwidth More Effectively QoS Queue Configuration Caution The qos queue-config command executes a write memory followed

1Getting Started To Set Up and Install the Switch in Your Network In the Main Menu of the Menu interface select 8. Run Setup For more on using the

Quality of Service: Managing Bandwidth More Effectively QoS Queue Configuration Viewing the QoS Queue Configuration To display the current priority

7 Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Contents Introduction to Stack Management on the 3500, 3500yl, 6200yl and 6600 Switc

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Contents Using the CLI To Access Member Switches for Configuration Changes and Traffic

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Introduction to Stack Management on the 3500, 3500yl, 6200yl and 6600 Switches Introdu

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Introduction to Stack Management on the 3500, 3500yl, 6200yl and 6600 Switches Summary

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Introduction to Stack Management on the 3500, 3500yl, 6200yl and 6600 Switches Compone

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Introduction to Stack Management on the 3500, 3500yl, 6200yl and 6600 Switches Member

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Introduction to Stack Management on the 3500, 3500yl, 6200yl and 6600 Switches Operati

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Introduction to Stack Management on the 3500, 3500yl, 6200yl and 6600 Switches Specifi

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Note In the default stack configuration, the Candidate A

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

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Options for Configuring a Commander and Candidates. Depe

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Default stacking configuration (Stack State set to Can

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management 2. Configure the Commander switch. Doing this first help

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Using the Menu Interface To View Stack Status and Configu

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management 4. Move the cursor to the Stack State field by pressing

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Using the Menu To Manage a Candidate Switch Using the men

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Figure 7-8. The Default Stack Configuration Screen 3. M

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management 6. Press [S] (for Save) to save your configuration chang

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management For status descriptions, see the table on page 7-45. Figu

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management • If the desired Candidate has a Manager password, press

Static Virtual LANs (VLANs) Contents Customizing the Show VLANs Output . . . . . . . . . . . . . . . . . . . . . . 2-36 Creating an Alias for Show V

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management 2. Stacking Status (All) You will then see the Stacking S

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management 8. Do one of the following: • If the stack containing t

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management To remove a Member from a stack, use the Stack Management

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management 4. To continue deleting the selected Member, press the S

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Main Menu for stack Member named “Coral Sea” (SN = 1 from

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management 3. Press [B] (for Back) to return to the Stacking Menu.

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Using Any Stacked Switch To View the Status for All Switc

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management You will then see the Commander’s Stacking Status screen:

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Figure 7-20. Example of a Member’s Stacking Status Scree

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Using the CLI To View Stack Status and Configure Stacking

Static Virtual LANs (VLANs) Contents Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-69 Verify

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management CLI Command Operation [no] stack member <switch-num&g

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Using the CLI To View Stack Status You can list the stack

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Viewing the Status of all Stack-Enabled Switches Discover

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Using the CLI To Configure a Commander Switch You can con

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management The stack commander command configures the Commander and

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Figure 7-27. Example of Using a Member’s CLI To Convert

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Using the Commander’s CLI To Manually Add a Candidate to

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management For example, if the switch in the above listing did not h

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management The Candidate’s Auto Join is set to Yes (and you do n

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Syntax: stack member < switch-number > mac-addres

Static Virtual LANs (VLANs) Overview Overview This chapter describes how to configure and use static, port-based and protocol-based VLANs on the swi

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Syntax: no stack name < stack name> stack join &

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Use show stack view to list the stack Members. For exampl

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management You would then execute this command in the “North Sea” sw

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management SNMP Community Operation in a Stack Community Membership

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Note that in the above example (figure 7-37) you cannot u

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management Stacking uses only the primary VLAN on each switch in

Stack Management for the 3500, 3500yl, 6200yl and 6600 Switches Configuring Stack Management 7-46

8 QinQ (Provider Bridging) Contents QinQ (Provider Bridging) Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

QinQ (Provider Bridging) Contents Show Commands for VLANs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-25 Displaying Spanning

QinQ (Provider Bridging) Overview License Requirements Overview This chapter describes how to enable QinQ operations on the switch and how to configur

Static Virtual LANs (VLANs) Introduction Introduction VLAN Features Feature Default Menu CLI Web view existing VLANs n/a page 2-25 thru 2-30 pag

QinQ (Provider Bridging) Introduction Introduction The IEEE 802.1ad specification, commonly known as QinQ or provider bridg-ing, extends the IEEE 802.

QinQ (Provider Bridging) Introduction How QinQ Works Under QinQ, the provider network operates on a different VLAN space, independent of the VLANs tha

QinQ (Provider Bridging) Introduction Terminology C-VLANs. Customer network VLANs that can exist across multiple locations. These are assigned and man

QinQ (Provider Bridging) Introduction S-VLAN bridge. Provider-owned device configured in qinq svlan mode that uses S-VLANs only to forward frames in t

QinQ (Provider Bridging) Introduction QinQ Mixed Vlan Mode The QinQ mixed vlan mode configuration supports both C-VLAN and S-VLAN operations on the sa

100 100 QinQ (Provider Bridging) Introduction QinQ and Duplicate VIDs. Duplicate VID’s for c-tagged and s-tagged VLANs (for example, C-VID=100; S-VI

QinQ (Provider Bridging) Introduction Note Assigning Ports to VLANs. In mixed vlan mode, a port can be a member of a C-VLAN or of an S-VLAN but not b

QinQ (Provider Bridging) Introduction IP support. Regular VLANs support IP and can be routing enabled. S-VLANs of mixed vlan mode devices cannot be

QinQ (Provider Bridging) Introduction • In QinQ mixed vlan mode, only ports that are members of S-VLANs can be configured as customer network or prov

QinQ (Provider Bridging) Configuring QinQ Configuring QinQ QinQ must be configured on all the devices and ports participating in the provider bridge.

Static Virtual LANs (VLANs) Introduction Types of Static VLANs Available in the Switch Port-Based VLANs This type of static VLAN creates a specific

QinQ (Provider Bridging) Configuring QinQ Note Enabling QinQ By default, QinQ is disabled on the switch. To enable QinQ, the switch must be put into e

QinQ (Provider Bridging) Configuring QinQ Configuring Per-Port S-VLAN Membership The svlan <vid> command supports tagged and untagged options to

QinQ (Provider Bridging) Configuring QinQ Now when you configure the port, the CLI will issue a warning prompt: <config #> svlan 200 tagged a1,a

QinQ (Provider Bridging) Configuration Example Configuration Example Figure 8-6 shows a configuration example that uses four ProCurve switches to esta

QinQ (Provider Bridging) Configuration Example The relationship between S-VLANs and C-VIDs is typically one to many. An alternative configuration m

QinQ (Provider Bridging) Configuration Example 3. Configure S-VLANs and ports connected to the customer network. Edge1 (config)# svlan100 Edge1(svlan

QinQ (Provider Bridging) Configuration Example 2. Reboot the box with the configuration saved to transfer into svlan bridge mode. 3. Configure S-VLA

QinQ (Provider Bridging) Configuration Example 2. Reboot the box with the configuration saved to transfer into svlan bridge mode. 3. Configure S-VLA

QinQ (Provider Bridging) Updating QinQ Configurations Updating QinQ Configurations This section considers the impacts of updating QinQ modes and confi

QinQ (Provider Bridging) Updating QinQ Configurations Note To avoid a misconfiguration, it is recommended that you use a default inter-face configura

Static Virtual LANs (VLANs) Terminology Note In a multiple-VLAN environment that includes some older switch models there may be problems related to t

---------------------------------------------------------------------------------------------------------- ---------- QinQ (Provider Bridging) Dis

------- ------------ ------ QinQ (Provider Bridging) Displaying QinQ Config and Status Show Commands for VLANs The fol

---------------- --------- ------------- ------QinQ (Provider Bridging) Displaying QinQ Config and Status Displaying the Configurati

----- ------QinQ (Provider Bridging) Displaying QinQ Config and Status Displaying the VLAN Membership of One or More Ports. This com-mand shows to w

QinQ (Provider Bridging) Effects of QinQ on Other Switch Features Effects of QinQ on Other Switch Features Per the IEEE standards, protocols such as S

QinQ (Provider Bridging) Effects of QinQ on Other Switch Features CDP In QinQ mixed vlan or svlan modes: • CDP frames are consumed at customer netwo

QinQ (Provider Bridging) Effects of QinQ on Other Switch Features LACP/ In QinQ mixed vlan mode: Port Trunks • Dynamic-LACP is not supported on S-VL

QinQ (Provider Bridging) Effects of QinQ on Other Switch Features Mirroring/ In QinQ mixed vlan mode: Monitoring • Remote mirroring is not supported

QinQ (Provider Bridging) Effects of QinQ on Other Switch Features Stacking In QinQ mixed vlan mode: • Stacking is only supported on C-VLANs. The dev

QinQ (Provider Bridging) Event Log Messages and SNMP Support Event Log Messages and SNMP Support Table 8-3 shows the event log messages that may be ge

© Copyright 2005–2010 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change with-out notice. All Rights Rese

Static Virtual LANs (VLANs) Static VLAN Operation Static VLAN Operation A group of networked ports assigned to a VLAN form a broadcast domain that i

QinQ (Provider Bridging) Event Log Messages and SNMP Support Table 8-4. MIB Objects for QinQ MIB Object Notes and Descriptions Standard MIBs dot1qVla

QinQ (Provider Bridging) Event Log Messages and SNMP Support MIB Object Notes and Descriptions hpicfProviderBridgePortTable Used to configure each p

QinQ (Provider Bridging) Event Log Messages and SNMP Support 8-36

9 Classifier-Based Software Configuration Contents Using Classifier-Based Service Policies . . . . . . . . . . . . . . . . . . . . . . . . . 9-2 Int

Classifier-Based Software Configuration Using Classifier-Based Service Policies Using Classifier-Based Service Policies Introduction Classifier-based

Classifier-Based Software Configuration Using Classifier-Based Service Policies 1. Determine the inbound traffic you want to manage and how you want

Classifier-Based Software Configuration Creating a Traffic Class Creating a Traffic Class In the classifier-based configuration model, you use match

Classifier-Based Software Configuration Creating a Traffic Class If a default class is configured in the policy, the actions specified in the defau

Classifier-Based Software Configuration Creating a Traffic Class 2. Enter one or more match or ignore commands from the class configuration context

Classifier-Based Software Configuration Creating a Traffic Class When entering a match/ignore command in an IPv4 or IPv6 class, type ? to display a li

Static Virtual LANs (VLANs) Static VLAN Operation Port-Based VLANs Protocol-Based VLANs Untagged VLAN Membership A port can be a member of one untagg

Classifier-Based Software Configuration Creating a Traffic Class • host < SA | DA > — Matches only packets from a specified IPv4 or IPv6 host

Classifier-Based Software Configuration Creating a Traffic Class • SAv6/prefix-length | DAv6/prefix-length — Matches packets received from, or destin

Classifier-Based Software Configuration Creating a Traffic Class To display a list of valid codepoint entries when you enter ip-dscp in a match/ignor

Classifier-Based Software Configuration Creating a Traffic Class Valid values are the numeric value or corresponding name of the DTR bit set. Some use

Classifier-Based Software Configuration Creating a Traffic Class 3. Enter the exit command to exit the class configuration context. To display a cla

Classifier-Based Software Configuration Creating a Traffic Class Optional ICMP Match Criteria To more precisely define the ICMP packets that you want

Classifier-Based Software Configuration Creating a Traffic Class [ icmpv4-type-name ] You can also enter any of the following ICMPv4 packet-type name

Classifier-Based Software Configuration Creating a Traffic Class [ icmpv6-type-name ] You can also enter any of the following ICMPv6 packet-type names

Classifier-Based Software Configuration Creating a Traffic Class Optional IGMP Match Criteria To more precisely define the IGMP packets that you want

Classifier-Based Software Configuration Creating a Traffic Class Optional TCP and UDP Match Criteria In a class configuration, you can enter match/ign

Static Virtual LANs (VLANs) Static VLAN Operation Table 2-2. VLAN Environments VLAN Environment Elements The default VLAN (port-based; In the defa

Classifier-Based Software Configuration Creating a Traffic Class • neq < tcp/udp-port-number> — “Not Equal” matches any packet with a TCP or UD

Classifier-Based Software Configuration Creating a Traffic Class For example, a Telnet connection requires TCP traffic to move both ways between a hos

Classifier-Based Software Configuration Creating a Traffic Class Table 9-1. How CIDR Notation is Used with IPv4 SA/DA Match Criteria IPv4 Source/Des

Classifier-Based Software Configuration Creating a Traffic Class Note Although IPv4 and IPv6 masks are applied in opposite directions: An IPv4 mas

Classifier-Based Software Configuration Creating a Traffic Class Example of How IPv6 Mask Bit Settings Define a Match. Figure 9-4 shows an example i

Classifier-Based Software Configuration Creating a Traffic Class Figure 9-6 shows how the binary equivalent (1100) of the “C” value in the last block

Classifier-Based Software Configuration Creating a Service Policy The following example shows how to resequence a class configuration so that you can

Classifier-Based Software Configuration Creating a Service Policy 1. To create a service policy that performs feature-specific actions on selected pa

Classifier-Based Software Configuration Creating a Service Policy • class < ipv4 | ipv6 > <classname > — Defines the preconfigured class

Classifier-Based Software Configuration Creating a Service Policy The default class differs from other classes because it contains no match/ ignore st

Static Virtual LANs (VLANs) Static VLAN Operation on the switch, then the external router is not needed for traffic to move between port-based VLANs.

Classifier-Based Software Configuration Creating a Service Policy To configure a mirroring policy, use the policy mirror command as described in t

Classifier-Based Software Configuration Creating a Service Policy Resequencing Classes in a Policy In policy configuration mode, you can use the reseq

Classifier-Based Software Configuration Applying a Service Policy to an Interface Applying a Service Policy to an Interface To apply the feature-spec

Classifier-Based Software Configuration Applying a Service Policy to an Interface To apply a service policy on a port or VLAN interface, enter one of

Classifier-Based Software Configuration Where to Go From Here Where to Go From Here Classifier-based service policies are designed to work with your e

Classifier-Based Software Configuration Where to Go From Here 9-34

Index Numerics 802.1ad QinQ … 8-4, 8-6 802.1p priority definition … 6-7 determining outbound port queue … 6-76 in DSCP policy … 6-8 mapped to DSCP cod

QoS configuration … 6-6, 6-70, 6-71, 9-3, 9-27, 9-33 examples … 6-86 resources used … 6-85 viewing … 6-81 resource usage, displaying … 6-83, 9-31 res

See Delay Throughput Reliability bits. E event log Event Log Message Reference Guide … -xv F forbid option See GVRP. forwarding database See VLAN. G G

Static Virtual LANs (VLANs) Static VLAN Operation Port- IPX IPv4 IPv6 ARP Apple SNA2 Netbeui2 Based -Talk SNA2 — — — — — — — — NETbeui2— —

in ToS byte … 6-9, 6-43 in Traffic Class byte … 6-43 match criteria classifier … 6-72, 9-10 global QoS … 6-41 IPv4 DSCP codepoint, defined … 6-7 mask

domain, defined … 5-4 dynamic vlan … 5-21 edge switch … 5-4, 5-16 filtering … 5-20 GVRP … 5-21 GVRP requirement … 5-6 hop count … 5-5 hub not allowed

redundant path … 4-10 port trunk meshed switch … 5-24 VLAN … 2-63 port-type (QinQ) customer-edge port … 8-12 customer-network port … 8-6 provider-netw

stacking … 8-10, 8-32 UDLD … 8-10, 8-32 Voice VLANs … 8-32 VRRP … 8-32 interoperating with non-ProCurve devices … 8-12 IP support … 8-11 jumbo frames

802.1p priority … 6-14, 6-18 classifier-based QoS … 6-18, 6-71 DSCP codepoint … 6-16, 6-18 global QoS … 6-14, 6-20 IP precedence … 6-18 rate-limit … 6

configuration, MSTI per-port … 4-41 configuration, port … 4-26 CST … 4-8, 4-11, 4-13 CST and legacy devices … 4-11 CST, view status … 4-55, 4-56 debug

root bridge per-region … 4-13 root port per-instance … 4-11 root switch, instance … 4-40 root switch, IST instance … 4-8, 4-13 root switch, MST instan

customer VLAN See C-VLAN customizing output … 2-36 C-VLAN (QinQ) … 8-5, 8-6 dedicated management … 2-51 default VLAN VID … 2-51 default VLAN, name cha

S-VLAN (QinQ) … 8-5, 8-6 svlan mode (QinQ) … 8-7 switch capacity … 2-5 switch mesh … 5-6 tagging … 2-46, 2-48 tunnel VLAN See S-VLAN unknown VLAN … 3-

Static Virtual LANs (VLANs) Static VLAN Operation Red Server ProCurve Switch Blue Server ProCurve Switch Red VLAN Red VLAN Blue VLAN Blue VLAN Red VLA

ProCurve 5400zl SwitchesInstallation and Getting Startd Guide Technology for better business outcomes To learn more, visit www.hp.com/go/procurve/ ©

Static Virtual LANs (VLANs) Static VLAN Operation “CLI: Configuring VLAN Parameters” (page 2-24) “Web: Viewing and Configuring VLAN Parameters

Static Virtual LANs (VLANs) VLAN Operating Rules Parameter Effect on Port Participation in Designated VLAN No - or -Auto No: Appears when the switch

Static Virtual LANs (VLANs) VLAN Operating Rules protocol VLAN that does not already include the ARP VLAN protocol, the switch displays this message

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 Do

Contents Product Documentation About Your Switch Manual Set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xv Printed Publications. . . .

2-18 Static Virtual LANs (VLANs) VLAN Operating Rules tagged member must have the same VID as that carried by the inbound, tagged packets generated

Static Virtual LANs (VLANs) General Steps for Using VLANs Port-bank 1-24 Port-bank 25-48 VLAN A VLAN B Figure 2-9. Example of VLANs Using Ports fr

Static Virtual LANs (VLANs) Multiple VLAN Considerations Multiple VLAN Considerations Switches use a forwarding database to maintain awareness of wh

Static Virtual LANs (VLANs) Multiple VLAN Considerations Table 2-6. Forwarding Database Structure for Managed ProCurve Switches Multiple Forwarding Da

Static Virtual LANs (VLANs) Multiple VLAN Considerations Example of an Unsupported Configuration and How To Correct It The Problem. In figure 2-10,

Static Virtual LANs (VLANs) Multiple VLAN Considerations time. For this reason, the 8000M discards some packets directed through it for the 8212zl swi

Static Virtual LANs (VLANs) Configuring VLANs 4108gl Switch VLAN 1 VLAN 2 8212zl Switch VLAN 1 VLAN 2 Both switches have multiple forwarding data

Static Virtual LANs (VLANs) Configuring VLANs To Change VLAN Support Settings This section describes: Changing the maximum number of VLANs to suppo

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

Static Virtual LANs (VLANs) Configuring VLANs Default VLAN and VLAN ID Figure 2-15. The Default VLAN Names Screen 2. Press [A] (for Add). You will t

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5 General VLAN Operation . . . .

Static Virtual LANs (VLANs) Configuring VLANs Example of a New VLAN and ID Figure 2-16. Example of VLAN Names Screen with a New VLAN Added 6. Repe

Static Virtual LANs (VLANs) Configuring VLANs A port can be assigned to several VLANs, but only one of those assignments can be “Untagged”. Default

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

Static Virtual LANs (VLANs) Configuring VLANs VLAN Commands Page show vlans below show vlans < vid > 2-35 show vlans ports <port-list> ma

Static Virtual LANs (VLANs) Configuring VLANs Status: Port-Based: Port-Based, static VLAN Protocol: Protocol-Based, static VLAN Dynamic: Port-Based,

Static Virtual LANs (VLANs) Configuring VLANs Descriptions of items displayed by the command are provided below. Port name: The user-specified po

Static Virtual LANs (VLANs) Configuring VLANs Figure 2-21 is an example of the output when the detail option is used. ProCurve (config)#

Static Virtual LANs (VLANs) Configuring VLANs Displaying the Configuration for a Particular VLAN . This command uses the VID to identify and display

Static Virtual LANs (VLANs) Configuring VLANs Figure 2-22. Example of “Show VLAN” for a Specific Static VLAN Show VLAN lists this data when GVRP is

Static Virtual LANs (VLANs) Configuring VLANs Fields that can be included in the customized display are shown in the table below. Field Display Exam

The Primary VLAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-51 The Secure Management VLAN . . . . . . . . .

Static Virtual LANs (VLANs) Configuring VLANs ProCurve(config)# show vlan custom idStatus and Counters - VLAN Information - Custom view VLANID ----

Static Virtual LANs (VLANs) Configuring VLANs Note on Using Pattern Matching with the “Show VLANs Custom” Command If you have included a pattern match

Static Virtual LANs (VLANs) Configuring VLANs more on the Primary VLAN, refer to “The Primary VLAN” on page 2-51.) To identify the current Primary V

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 name < ascii-name-string > When included in a vlan command for creating a new static VLAN, speci

Static Virtual LANs (VLANs) Configuring VLANs Converting a Dynamic VLAN to a Static VLAN. Use this feature if you want to convert a dynamic, port-bas

Static Virtual LANs (VLANs) Configuring VLANs forbid < port-list > Used in port-based VLANs to configures < port-list > as “forbidden” t

Static Virtual LANs (VLANs) Configuring VLANs Web: Viewing and Configuring VLAN Parameters In the web browser interface you can do the following: A

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

4 Per-Port Options for Handling GVRP “Unknown VLANs” . . . . . . . . 3-7 Per-Port Options for Dynamic VLAN Advertising and Joining . . . . 3-9 GVR

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 The default VLAN continues to operate as a standard VLAN (except, as noted above, you cannot delet

Static Virtual LANs (VLANs) Special VLAN Types Links with Ports Belonging to the Management VLAN and other VLANs Links Between Ports on a Hub and Port

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 3. Configure the Management VLAN on the selected switch ports. 4. Test the management VLAN from all o

Static Virtual LANs (VLANs) Special VLAN Types Using DHCP to Obtain an IP Address You can use DHCP to obtain an IPv4 address for your Management VLA

Static Virtual LANs (VLANs) Special VLAN Types 2. If Red_VLAN is configured as the Management VLAN and the DHCP server is on Blue_VLAN, Blue_VLAN rec

Configuring MST Instance Parameters . . . . . . . . . . . . . . . . . . . . . . . . . 4-39 Configuring MST Instance Per-Port Parameters . . . . . .

Static Virtual LANs (VLANs) Special VLAN Types 4. If Red_VLAN is configured as the Management VLAN and the client is on Red_VLAN, but the DHCP serv

Static Virtual LANs (VLANs) Special VLAN Types Deleting the Management VLAN You can disable the Secure Management feature without deleting the VLAN it

Static Virtual LANs (VLANs) Special VLAN Types Monitoring Shared Resources: The Management VLAN feature shares internal switch resources with sev

Static Virtual LANs (VLANs) Special VLAN Types Components of Voice VLAN Operation Voice VLAN(s): Configure one or more voice VLANs on the switch. S

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)

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 network

Static Virtual LANs (VLANs) VLAN Restrictions VLAN Restrictions A port must be a member of at least one VLAN. In the factory default configuratio

Static Virtual LANs (VLANs) Migrating Layer 3 VLANs Using VLAN MAC Configuration Migrating Layer 3 VLANs Using VLAN MAC Configuration ProCurve routing

Static Virtual LANs (VLANs) Migrating Layer 3 VLANs Using VLAN MAC Configuration Handling Incoming and Outgoing VLAN Traffic Incoming VLAN data pack

Static Virtual LANs (VLANs) Migrating Layer 3 VLANs Using VLAN MAC Configuration Sending Heartbeat Packets with a Configured MAC Address On the VLAN i