Page 1 Dell™ PowerConnect™ 6200 Series User’s Guide Model PC6224, PC6248, PC6224P, PC6248P, and PC6224F w w w . d e l l . c o m | s u p p o r t . d e l l . c o m...
Page 2 Reproduction of these materials in any manner whatsoever without the written permission of Dell Inc. is strictly forbidden. Trademarks used in this text: Dell, the DELL logo, PowerEdge, PowerConnect, and OpenManage are trademarks of Dell Inc.; Microsoft and Windows are either trademarks or registered trademarks of Microsoft Corporation in the United States and/or other countries; sFlow is a registered trademark of InMon Corporation.
Page 3: Table Of Contents
......Using Dell™ OpenManage™ Switch Administrator Setting the IP Address of the Switch .
Page 4 Device Management Buttons ......Check Boxes ....... . Defining Fields .
Page 5 Stacking LEDs ....... . Configuring Dell PowerConnect Overview ........
Page 6 Advanced Configuration ......CLI Basics ........6200 Series CLI Reference Guide .
Page 7 Time Zone Configuration ......Summer Time Configuration ..... . . Clock Detail .
Page 8 Authorization Network RADIUS ..... Telnet Server ....... Denial of Service .
Page 9 Defining Stacking ....... Overview ....... . . Synchronizing the Running Configuration between the Master and Standby Units Configuring Stacking .
Page 10 Port Configuration ......Protected Port Configuration ..... . . LAG Configuration .
Page 11 Managing Multicast Support ......Multicast Global Parameters ..... . . Bridge Multicast Group .
Page 12 DHCP Snooping ....... . DHCP Snooping Configuration ..... . DHCP Snooping Interface Configuration .
Page 13 Configuring Routing Overview ................ARP Create .
Page 14 Router Discovery ....... . Router Discovery Configuration ..... Router Discovery Status .
Page 15 Prefix Delegation Configuration ..... DHCPv6 Pool Summary ......DHCPv6 Interface Configuration .
Page 16 Service Detailed Statistics ......Class of Service ....... . Mapping Table Configuration .
Page 17 ......Dell Enterprise Training and Certification ....
Page 19: Introduction
NOTE: Before proceeding, read the release notes for this product. Release notes are provided with the firmware available on the Dell Support website, support.dell.com. The Dell™ PowerConnect™ 6200 series are standalone Layer 2 and 3 switches that extend the Dell PowerConnect LAN switching product range. These switches include the following features: •...
Page 20: System Features
System Features sFlow sFlow is the standard for monitoring high-speed switched and routed networks. sFlow Version 5 technology is built into network equipment and gives complete visibility into network activity, enabling effective management and control of network resources. CDP Interoperability Allows the PowerConnect switch to interoperate with Cisco™...
Page 21 Software Download Software download enables storage of backup firmware images. For information about downloading the software, see "Software Download and Reboot " Trivial File Transfer Protocol (TFTP) The PowerConnect 6200 Series switches support boot image, firmware, and configuration upload or download through TFTP .
Page 22 Configurable CX-4/Stacking Modules This feature allows the stacking and CX-4 plug-in modules to be configured to either role (Ethernet or Stacking). By default, the module will function according to its module ID. Upon changing the role of a module, a reboot will be required for the change to take effect. Non-stop Forwarding This feature enables a stack to continue forwarding packets when the stack management unit fails due to a power failure, hardware failure, or software fault.
Page 23: Switching Features
Switching Features IPv6 Access Control Lists An IPv6 ACL consists of a set of rules which are matched sequentially against a packet. When a packet meets the match criteria of a rule, the specified rule action (Permit/Deny) is taken and the additional rules are not checked for a match.
Page 24 IGMP Snooping Internet Group Management Protocol (IGMP) Snooping is a feature that allows a switch to forward multicast traffic intelligently on the switch. Multicast IP traffic is traffic that is destined to a host group. Host groups are identified by class D IP addresses, which range from 224.0.0.0 to 239.255.255.255. Based on the IGMP query and report messages, the switch forwards traffic only to the ports that request the multicast traffic.
Page 25: Port-Based Features
Port-Based Features Jumbo Frames Support Jumbo frames enable transporting data in fewer frames to ensure less overhead, lower processing time, and fewer interrupts. Auto-MDI/MDIX Support The switch supports auto-detection between crossed and straight-through cables. Media-Dependent Interface (MDI) is the standard wiring for end stations, and the standard wiring for hubs and switches is known as Media-Dependent Interface with Crossover (MDIX).
Page 26: Virtual Local Area Network Supported Features
For information about how to configure the AFS CLI Reference Guide feature, see the , which is located on the Dell Support website at www.support.dell.com/manuals. Link Dependency Features The link dependency feature provides the ability to enable or disable one or more ports based on the state of the link of one or more ports.
Page 27 GVRP Support GARP VLAN Registration Protocol (GVRP) provides IEEE 802.1Q-compliant VLAN pruning and dynamic VLAN creation on 802.1Q trunk ports. When GVRP is enabled, the switch registers and propagates VLAN membership on all ports that are part of the active spanning tree protocol topology. For information about configuring GVRP, see "GVRP Parameters."...
Page 28: Spanning Tree Protocol Features
Spanning Tree Protocol Features Spanning Tree Now Supports IEEE 802.1Q-2005 This version of the IEEE Multiple Spanning Tree Protocol corrects problems associated with the previous version, provides for faster transition-to-forwarding, and incorporates new features for a port (restricted role and restricted TCN). Spanning Tree Enhancements •...
Page 29: Link Aggregation Features
Spanning Tree Root Guard Spanning Tree Root Guard is used to prevent the root of a Spanning Tree instance from changing unexpectedly. The priority of a Bridge ID can be set to zero but another Bridge ID with a lower mac address could also set its priority to zero and take over root.
Page 30 Voice VLAN The Voice VLAN feature enables switch ports to carry voice traffic with defined priority. The priority level enables the separation of voice and data traffic coming onto the port. For information about configuring Voice VLAN, see "Configuring Voice VLAN." Introduction...
Page 31: Routing Features
Routing Features VLAN Routing The PowerConnect 6200 Series software supports VLAN routing. You can also configure the software to allow traffic on a VLAN to be treated as if the VLAN were a router port. Routing Information Protocol (RIP) The route configuration and route preference features have the following changes: •...
Page 32: Mac Address Supported Features
IP Interface Configuration IP interface configuration includes the ability to configure the bandwidth, Destination Unreachable messages, and ICMP Redirect messages. IP Helper Provides the ability to relay various protocols to servers on a different subnet. VRRP Route Interface Tracking Extends the capability of the Virtual Router Redundancy Protocol (VRRP) to allow tracking of specific route/interface IP state within the router that can alter the priority level of a virtual router for a VRRP group.
Page 33: Ipv4 Routing Features
MAC Multicast Support Multicast service is a limited broadcast service that allows one-to-many and many-to-many connections. In Layer 2 multicast services, a single frame addressed to a specific multicast address is received, and copies of the frame to be transmitted on each relevant port are created. For information about configuring MAC Multicast Support, see "Managing Multicast Support."...
Page 34: Ipv6
DHCPv6 DHCPv6 incorporates the notion of the “stateless” server, where DHCPv6 is not used for IP address assignment to a client, rather it only provides other networking information such as DNS, Network Time Protocol (NTP), and/or Session Initiation Protocol (SIP) information. OSPFv3 OSPFv3 provides a routing protocol for IPv6 networking.
Page 35: Ospfv3
OSPFv3 The OSPFv3 Configuration page has been updated with the following changes: • AutoCost Reference Bandwidth field • Default Passive Setting field • Maximum Paths increased from 2 to 4 • Passive Mode field Quality of Service Features Voice VLAN The Voice VLAN feature enables switch ports to carry voice traffic with defined priority.
Page 36: Multicast Features
Multicast Features IPv4 Multicast Features Updated IPv4 Multicast Routing Support The Multicast package code has been extensively re-engineered and furnished with the following: • PIM-DM advanced to RFC 3973 • PIM-SM advanced to RFC 4601, pim-sm-bsr-05, draft-ietf-pim-mib-v2-03 • DVMRP advanced to draft-ietf-idmr-dvmrp-v3-10.txt, draft-ietf-idmr-dvmrp-mib-11.txt Distance Vector Multicast Routing Protocol Distance Vector Multicast Routing Protocol (DVMRP) exchanges probe packets with all DVMRP- enabled routers, establishing two way neighboring relationships and building a neighbor table.
Page 37: Security Features
MLD/MLDv2 (RFC2710/RFC3810) MLD is used by IPv6 systems (listeners and routers) to report their IP multicast addresses memberships to any neighboring multicast routers. The implementation of MLD v2 is backward compatible with MLD v1. MLD protocol enables the IPv6 router to discover the presence of multicast listeners, the nodes that want to receive the multicast data packets, on its directly attached interfaces.
Page 38: Additional Documentation
Additional Documentation The following documents for the PowerConnect PowerConnect 6200 Series switches are available on the Dell Support website at www.support.dell.com/manuals: Getting Started Guide —provides information about the switch models in the series, including front • and back panel features. It also describes the installation and initial configuration procedures.
Page 39: Using Dell™ Openmanage™ Switch Administrator
Setting the IP Address of the Switch • Starting the Application • Understanding the Interface • Using the Switch Administrator Buttons • Defining Fields • Accessing the Switch Through the CLI • Using the CLI Using Dell™ OpenManage™ Switch Administrator...
Page 40: Setting The Ip Address Of The Switch
4. To configure an ip address of 10.256.24.64, with a netmask of 255.255.248.0, and a gateway of 10.256.24.1, type the following: ip address 10.256.24.64 255.255.248.0 ip default-gateway 10.256.24.1 5. Type exit. 6. At the console# prompt, type show ip interface management and press . Using Dell™ OpenManage™ Switch Administrator...
Page 41: Starting The Application
CLI by using the console port. Passwords are both case sensitive and alpha-numeric. For information about recovering a lost password, see "Password Recovery Procedure." 4. Click OK. 5. The Dell OpenManage Switch Administrator home page displays. Understanding the Interface The home page contains the following views: •...
Page 42 Figure 2-1. Switch Administrator Components: PowerConnect 6200 Series Table 2-1 lists the interface components with their corresponding numbers. Using Dell™ OpenManage™ Switch Administrator...
Page 43 The components list contains a list of feature components. You can also view components by expanding a feature in the tree view. The information buttons provide access to information about the switch and access to Dell Support. For more information, see "Information Buttons." Using Dell™ OpenManage™ Switch Administrator...
Page 44: Using The Switch Administrator Buttons
The online help pages are context sensitive. For example, if the IP Addressing page is open, the help topic for that page displays if you click Help. About Contains the version and build number and Dell copyright information. Log Out Logs out of the application. Device Management Buttons Table 2-3.
Page 45: Check Boxes
To enable a configuration item, i.e., adjust sensitivity of log files, select match criteria for diffserv, select ACL rule parameters. Defining Fields User-defined fields can contain 1 159 characters, unless otherwise noted on the Dell OpenManage – Switch Administrator Web page. All characters may be used except for the following: •...
Page 46: Console Connection
Privileged EXEC mode may require a password if the enable password is configured. See "Security Management and Password Configuration" on page 91 for more information on setting up enable passwords. Using Dell™ OpenManage™ Switch Administrator...
Page 47: User Exec Mode
4. To return from Privileged EXEC Mode to User EXEC Mode, type the exit command or press keys. The following example illustrates accessing privileged EXEC mode and then returning to the User EXEC mode: console>enable Enter Password: ****** console# console#exit console> Using Dell™ OpenManage™ Switch Administrator...
Page 48: Global Configuration Mode
Port Channel — Contains commands for configuring Link Aggregation Groups (LAG). • Ethernet — Contains commands for managing Ethernet port configuration. • Loopback—Contains commands for managing Loopback interface configuration. • Tunnel—Contains commands for managing Tunnel interface configuration. Using Dell™ OpenManage™ Switch Administrator...
Page 49: Cable And Port Information
Cable and Port Information Overview This section describes the switch’s physical interfaces and provides information about cable connections. Stations are connected to the switch’s ports through the physical interface ports on the front panel. For each station, the appropriate mode (Half-Duplex, Full-Duplex, Auto) is set. The topics covered in this section include: •...
Page 50: Ethernet Interface
Ethernet Interface The switching port can connect to stations wired in standard RJ-45 Ethernet station mode. Figure 3-1. RJ-45 Connector Cable and Port Information...
Page 51: Sfp Interfaces
SFP Interfaces SFP interfaces are on the console front. Figure 3-2 illustrates an SFP connector. Figure 3-2. SFP Connector Cable and Port Information...
Page 52: Bay 1 And Bay 2 Interfaces
Bay 1 and Bay 2 Interfaces The Dell™ PowerConnect™ 6200series switches support dual 10 Gb slot interfaces. These interfaces can operate at 10 Gbps when supporting optional SFP+, CX4, XFP , and 10GBase-T modules. Figure 3-3. Bay 1 and Bay 2 PowerConnect 6200 Series 10 Gb Slots...
Page 53: Power Connection
Power Connection 1. Using a 5-foot (1.5 m) standard power cable with safety ground connected, connect the power cable to the AC main socket located on the rear panel. 2. Connect the power cable to a grounded AC outlet. 3. If you are using a redundant DC power supply, such as the RPS600 or EPS470, connect the DC power cable to the DC socket located on the rear panel.
Page 54 Cable and Port Information...
Page 55: Hardware Description
Hardware Description Overview This section contains information about device characteristics and modular hardware configurations for the PowerConnect 6200 Series. The topics covered in this section include: • Front Panel • Rear Panel • Console (RS-232) Port • Physical Dimensions • Power Supplies •...
Page 56: Front Panel
Front Panel The PowerConnect 6224 front panels provides 24 10/100/1000M Base-T RJ-45 ports with four RJ-45/SFP combo ports that have an auto-sensing mode for speed, flow control, and duplex mode. Figure 4-1. PowerConnect 6224 with 24 10/100/1000 Base-T Ports 10/100/1000Base-T Auto-sensing...
Page 57 The PowerConnect 6224F front panel provides 24 10/100/1000M Base-FX SFP ports and four RJ-45/SFP combo ports. Figure 4-3. PowerConnect 6224F with 24 SFP Ports SFP Ports Combo Ports The PowerConnect 6224P front panel provides 24 10/100/1000M Base-T RJ-45 ports and four RJ-45/SFP combo ports.
Page 58 The PowerConnect 6248P front panel provides 44 10/100/1000 Base-T RJ-45 ports and four RJ-45/SFP combo ports. Figure 4-5. PowerConnect 6248P with 48 10/100/1000 Base-T Ports Combo Ports 10/100/1000Base-T Auto-sensing Full Duplex RJ-45 Ports • The switch automatically detects crossed and straight-through cables on RJ-45 ports. •...
Page 59: Rear Panel
Dual 10GbE XFP module, a CX4 module, or a stacking module. The right slot (Bay 2) can support a plug-in Dual 10GbE XFP module, a 10GBase-T module, or a CX4 module. Figure 4-6. PowerConnect 6224, 6248, and 6224F Rear Panel RS-232...
Page 60 Figure 4-8. Stacking Module Figure 4-9. XFP Module Figure 4-10. 10 GbE CX4 Module Figure 4-11. 10GBase-T Module Figure 4-12. SFP+ Module Hardware Description...
Page 61: Console (Rs-232) Port
Console (RS-232) Port The console (RS-232) port is used only for management through a serial interface. This port provides a direct connection to the switch and is used to access the CLI from a console terminal connected to an EIA/TIA-232 port. NOTE: The console port supports asynchronous data of eight data bits, one stop bit, no parity bit, and no flow control.
Page 62: Power Supplies
LEDs. See "System LEDs" on page 67 for information on the LEDs. Stacking You can stack up to 12 PowerConnect 6224 and/or 6248 switches, supporting up to 576 front panel ports. Create a stack by connecting adjacent units using the stacking ports on the left side of the switch rear.
Page 63: Stacking Standby
Figure 4-13. Connecting a Stack of PowerConnect 6200 Series Switches XG1 Port XG2 Port Unit 1 Unit 2 Unit 3 Unit 4 In Figure 4-13, the stack has the following physical connections between the switches: • Unit 1 and Unit 2 are connected through the XG1 ports on each switch. •...
Page 64: Led Definitions
LED Definitions The front panel contains light emitting diodes (LEDs) that indicate the status of links, power supplies, fans, system diagnostics, and the stack. Figure 4-14. Front Panel LEDs SFP Port LEDs Figure 4-15 illustrates the SFP port LEDs that are above each SFP port. Figure 4-15.
Page 65: Sfp+ Port Leds
SFP+ Port LEDs The following table contains SFP+ port LED definitions for the PowerConnect 6200 Series switches. Table 4-2. SFP+ Port LEDs Definitions Color Definition LNK/ACT Solid Green The port is linked. Flashing Green The port is sending and/or receiving network traffic.
Page 66 Figure 4-16. 10/100/1000 Base-T Port LEDs Port 1 Link/Duplex/Activity Speed LEDs LEDs Port 2 Link/Activity Duplex The following table contains 10/100/1000 Base-T port LED definitions. Table 4-4. 10/100/1000 Base-T Port Definitions (6224, 6248, and 6224F) Color Definition Link/Activity Green The port is operating at 1000 Mbps. Amber The port is operating at 10/100 Mbps.
Page 67: System Leds
Table 4-5. 10/100/1000 Base-T Port Definitions (6224P and 6248P) Color Definition Green Blinking The port is operating at transitional mode. The PoE powered device is being detected, or is faulty. Amber Solid An overload or short has occurred on the powered device. Amber Blinking The powered device power conception exceeds the predefined...
Page 68: Stacking Leds
Table 4-6. System LED Definitions Color Definition Redundant Power Supply is not present. Green Power Supply is operating correctly. Power Supply has failed. Green Fans are operating correctly. One or more fans have failed. Temp Green System temperature is below threshold limit. System temperature has exceeded threshold limit.
Page 69 Table 4-7. Stacking LED Definitions Color Definition The unit is not the 2nd or 8th switch in the stack. Green The unit is the 3rd or 9th switch in the stack. The unit is not the 3rd or 9th switch in the stack. 4/10 Green The unit is the 4th or 10th switch in the stack.
Page 70 Hardware Description...
Page 71: Configuring Dell Powerconnect
Performing other functions is described later in this section. NOTE: Before proceeding, read the release notes for this product. You can download the release notes from the Dell Support website at support.dell.com/manuals. Configuring Dell PowerConnect...
Page 72: Starting The Cli
However, to access the switch through Telnet, at least one user account must be defined. Also, if access is through a Telnet connection, the switch must have a defined IP address, corresponding management access granted, and a workstation connected to the switch before using CLI commands. Configuring Dell PowerConnect...
Page 73 Boot menu (Special functions) Enter Wizard Reboot Standard Switch Installation Initial Configuration: IP Address, Subnetmask, Wizard Configuration Users Basic Security Process configuration Advanced Configuration: Advanced IP Address from DHCP, Switch IP Address from bootp, Installation Security management Configuring Dell PowerConnect...
Page 74: General Configuration Information
The following is required for downloading embedded software and configuring the switch: • ASCII terminal (or emulation) connected to the serial port (cross-cable) in the rear of the unit • Assigned IP address for the switch for switch remote control use with Telnet, SSH, and so forth Configuring Dell PowerConnect...
Page 75: Booting The Switch
CPU Card ID: 0x508541 Mounting TFFS System ... Device details... volume descriptor ptr (pVolDesc): 0x1ae4898 XBD device block I/O handle: 0x10001 auto disk check on mount: NOT ENABLED volume write mode: copyback (DOS_WRITE) max # of simultaneously open files: Configuring Dell PowerConnect...
Page 76 8-bit (extended-ASCII) - root dir start sector: - # of sectors per root: - max # of entries in root: FAT handler information: ------------------------ - allocation group size: 2 clusters - free space on volume: 20,733,952 bytes Configuring Dell PowerConnect...
Page 77 To return to operational code from the [Boot Menu] prompt, press 1. The following output displays an example configuration. Items such as addresses, versions, and dates may differ for each switch. Operational Code Date: Tue May 26 14:12:20 2009 Configuring Dell PowerConnect...
Page 78 # of simultaneously open files: file descriptors in use: # of different files in use: # of descriptors for deleted files: # of obsolete descriptors: current volume configuration: - volume label: NO LABEL ; (in boot sector: - volume Id: Configuring Dell PowerConnect...
Page 79 44,380,160 bytes PCI unit 0: Dev 0xb624, Rev 0x12, Chip BCM56624_B1, Driver BCM56624_B0 SOC unit 0 attached to PCI device BCM56624_B1 Adding BCM transport pointers Configuring CPUTRANS TX Configuring CPUTRANS RX st_state(0) = 0x0 st_state(1) = 0x2 Configuring Dell PowerConnect...
Page 80 However, before configuring the switch, ensure that the software version installed on the switch is the latest version. If it is not the latest version, download and install the latest version. See "Software Download and Reboot." Configuring Dell PowerConnect...
Page 81: Configuration Overview
The Easy Setup Wizard guides you in the basic initial configuration of a newly installed switch so that it can be immediately deployed, functional, and completely manageable through the Web, CLI, and the remote Dell Network Manager. After the initial set up, you may enter the system to set up more advanced configuration.
Page 82 The next time the system reboots you are given another opportunity to run the set-up wizard. Functional Flow The following functional flow diagram illustrates the procedures for the Easy Setup Wizard. Configuring Dell PowerConnect...
Page 83 Is SNMP Management Community String & Required? Server IP Address Request user name, password Request IP Address, Network Mask, Default Gateway IP DHCP? Discard Changes and Restart Wizard Save Setup? Copy to Config Transfer to CLI mode Configuring Dell PowerConnect...
Page 84 The following example contains the sequence of prompts and responses associated with running an example Dell Easy Setup Wizard session, using the input values listed above. Unit 1 - Waiting to select management unit)> Applying Global configuration, please wait ...
Page 85 The wizard automatically assigns the highest access level [Privilege Level 15] to this account. You can use Dell Network Manager or other management interfaces to change this setting, and to add additional management system later.
Page 86 If the information is incorrect, select (N) to discard configuration and restart the wizard: [Y/N] y Thank you for using the Dell Easy Setup Wizard. You will now enter CLI mode..console>...
Page 87: Advanced Configuration
..print last deleted character Ctrl-Z ..return to root command prompt Ctrl-Q ..enables serial flow Ctrl-S ..disables serial flow Tab, command-line completion Exit ..go to next lower command prompt ..list choices Configuring Dell PowerConnect...
Page 88: 6200 Series Cli Reference Guide
(see below). If additional interface types are to be defined, they must predefined list of be registered with Dell. For example, 1/xg10 identifies the 10-gigabit port 10 on the first unit. • Interface Types — the following interface types are defined in the switches: •...
Page 89 The following table describes the switch port default settings. Table 5-1. Port Default Settings Function Default Setting Port speed and mode 1G Auto-negotiation Port forwarding state Enabled Head of line blocking prevention On (Enabled) Flow Control Back Pressure Configuring Dell PowerConnect...
Page 90 3. To verify the IP address, enter the show ip interface command at the system prompt as shown in the following examples. console#show ip interface Management Interface: IP Address........10.240.4.125 Subnet Mask........255.255.255.0 Default Gateway........ 10.240.4.1 Burned In MAC Address......00:10:18:82:04:35 Network Configuration Protocol Current..DHCP Management VLAN ID......1 Routing Interfaces: Netdir Multi Configuring Dell PowerConnect...
Page 91: Security Management And Password Configuration
HTTP • HTTPS NOTE: When creating a user name, the default priority is 1, which allows access but not configuration rights. A priority of 15 must be set to enable access and configuration rights to the switch. Configuring Dell PowerConnect...
Page 92 When initially logging onto a switch through a Telnet session, enter pass1234 at the password prompt. • When changing a switch mode to enable, enter pass1234. Configuring an Initial HTTP Password To configure an initial HTTP password, enter the following commands: console(config)#ip http authentication local console(config)#username admin password user1234 level 15 Configuring Dell PowerConnect...
Page 93 1 generate console(config-crypto-cert)#country US console(config-crypto-cert)#email [email protected] console(config-crypto-cert)#location Morrisville console(config-crypto-cert)#organization-name NWSoft console(config-crypto-cert)#organization-unit CustOp console(config-crypto-cert)#state NC console(config-crypto-cert)#key-generate console(config-crypto-cert)#exit console(config)# NOTE: HTTP and HTTPS services require level 15 access and connect directly to the configuration level access. Configuring Dell PowerConnect...
Page 94: Software Download And Reboot
1. Ensure that an IP address is configured on and pings can be sent to a TFTP server. 2. Ensure that the file to be downloaded is saved on the TFTP server (the .stk file). 3. Enter the command show version to verify which software version is currently running on the switch. Configuring Dell PowerConnect...
Page 95 Set TFTP Server IP......10.254.24.64 TFTP Path......../ TFTP Filename........PC6224v3.2.1.0.stk Data Type........Code Destination Filename......image Management access will be blocked for the duration of the transfer Are you sure you want to start? (y/n) y Configuring Dell PowerConnect...
Page 96 Management switch has unsaved changes. Are you sure you want to continue? (y/n) 7. Enter y. The following message then displays. Configuration Not Saved! Are you sure you want to reload the stack? (y/n) 8. Enter y to reboot the switch. Configuring Dell PowerConnect...
Page 97: Update Bootcode
To display the Boot menu, during the boot process, press 2 within ten seconds after the following message displays: Boot Menu Version: 3.2.0.1 Select an option. If no selection in 10 seconds then operational code will start. 1 - Start operational code. 2 - Start Boot Menu. Select (1, 2): Configuring Dell PowerConnect...
Page 98: Start Operational Code
Use option 1 to resume loading the operational code. To relaunch the boot process from the Boot menu, select 1 on the Boot menu and press . The following prompt displays: Operational Code Date: Tue Apr 29 10:15:36 2008 Uncompressing..100% ||||||||||||||||||||||||||||||||||||||||||||||||||| Configuring Dell PowerConnect...
Page 99: Change The Baud Rate
File asciilog.bin Ready to SEND in binary mode Estimated File Size 169K, 1345 Sectors, 172032 Bytes Estimated transmission time 3 minutes 20 seconds Send several Control-X characters to cancel before transfer starts. 2. The boot process resumes. Configuring Dell PowerConnect...
Page 100: Load New Operational Code Using Xmodem
1. On the Boot menu, select 5 and press . The following prompt displays: [Boot Menu] 5 The following image is in the Flash File System: File Name........image1 CRC..........0xb017 (45079) Target Device........0x00508541 Size...........0x8ec50c (9356556) Number of Components......2 Operational Code Size......0x7ec048 (8306760) Configuring Dell PowerConnect...
Page 101: Abort Boot Code Update
1. On the Boot menu, select 7 and press . The following prompt displays: Do you wish to update Boot Code? (y/n) y Validating image2..OK Extracting boot code from image...CRC valid Erasing Boot Flash..Done. Wrote 0x10000 bytes. Configuring Dell PowerConnect...
Page 102: Delete Backup Image
1. On the Boot menu, select 8 and press . The following prompt displays: Are you SURE you want to delete backup image : image2 ? (y/n):y Backup image deleted... [Boot Menu] 2. The boot process resumes. Configuring Dell PowerConnect...
Page 103: Reset The System
Use option 11 to activate the backup image. The active image becomes the backup when this option is selected. To activate the backup image: 1. From the Boot menu, select 11 and press . The following message displays: Backup image - image2 activated. 2. The boot process resumes. Configuring Dell PowerConnect...
Page 104: Password Recovery Procedure
Formatting.../RamDisk/: file system is marked clean, skipping check Then, the file system is copied from flash memory to RAM: copying file /DskVol/files/image1 -> /RamDisk/image1 copying file /DskVol/files/image2 -> /RamDisk/image2 copying file /DskVol/files/startup-config -> /RamDisk/startup-config 2. The system reboots. Configuring Dell PowerConnect...
Page 105: Sample Configuration Process
Straight or cross UTP (category 5) cable(s) Initial Connection 1. Using the RS-232 port, connect the switch to the workstation. 2. Set the serial console with the following settings and select the appropriate COM port. The sample screen uses the HyperTerminal. Configuring Dell PowerConnect...
Page 106 RAM. The code starts running from the RAM and the list of available port numbers and their states (up or down) are displayed. NOTE: The following screen is an example configuration. Items such as addresses, versions, and dates may differ for each switch. Configuring Dell PowerConnect...
Page 107 - max # of entries in root: FAT handler information: ------------------------ - allocation group size: 4 clusters - free space on volume: 44,380,160 bytes Boot Menu Version: 3.2.0.1 Select an option. If no selection in 10 seconds then operational code will start. Configuring Dell PowerConnect...
Page 108 (pVolDesc): 0x706d770 XBD device block I/O handle: 0x10001 auto disk check on mount: NOT ENABLED volume write mode: copyback (DOS_WRITE) max # of simultaneously open files: file descriptors in use: # of different files in use: Configuring Dell PowerConnect...
Page 109 8-bit (extended-ASCII) - root dir start sector: - # of sectors per root: - max # of entries in root: FAT handler information: ------------------------ - allocation group size: 4 clusters - free space on volume: 44,380,160 bytes Configuring Dell PowerConnect...
Page 110 Instantiating RamCP: as rawFs, device = 0x20001 Formatting RamCP: for DOSFS Instantiating RamCP: as rawFs, device = 0x20001 Formatting...OK. (Unit 1 - Waiting to select management unit)> Applying Global configuration, please wait ... Applying Interface configuration, please wait ... console> Configuring Dell PowerConnect...
Page 111: Device Default Settings
3. Ensure (on the serial console) that the interface status changed to “up” and that the STP status is forwarding (after 30 seconds), as shown below: console# 01-Jan-2000 01:43:03 %LINK-I-Up: Vlan 1 01-Jan-2000 01:43:03 %LINK-I-Up: 1/xg1 01-Jan-2000 01:43:34 %STP-I-PORTSTATUS: Port 1/xg1: STP status Forwarding Configuring Dell PowerConnect...
Page 112 7. Define a user name and password to allow privileged level 15 switch access for a remote user (HTTP and HTTPS). In this example, the user name Dell, the password is Dell1234, and the privilege level is 15. Privilege levels range from 1 15, with 15 being the highest level.
Page 113 The enable password for console, telnet, and SSH is tommy123, bobby123, and jones123, respectively. In this example, the user name is Dell, the password is Dell1234, and the privilege level is 15. console(config)#username Dell password Dell1234 level 15 console(config)#aaa authentication login default local...
Page 114: Configuring Secure Management Access (Https)
4. Click Yes to confirm accept the security certification (if it is not authenticated by a third party). The Login Screen displays. 5. Enter the assigned user name and password. The switch Dell OpenManage™ Switch Administrator displays. Configuring Dell PowerConnect...
Page 115: Configuring System Information
Configuring System Information Overview Use the menus listed on the System page to define the switch’s relationship to its environment. To display the System page, click System in the tree view. The System menu page contains links to the following features: •...
Page 116: Defining General Device Information
Defining General Device Information The General menu page contains links to pages that allow you to configure device parameters. Use this page to access the following features: • Asset • System Health • Versions • System Resources • Time Zone Configuration •...
Page 117 The Asset page contains the following fields: • System Name (0 255 characters) — Use to assign device system name. – • System Contact (0 255 characters) — Use to assign the contact person’s name. – • System Location (0 255 characters) —...
Page 118: System Health
• System Management Commands • SNMP Commands • Clock Commands The following table summarizes the equivalent CLI commands you use to configure device information. Table 6-1. Device Configuration Commands CLI Command Description asset-tag Use to specify the switch asset tag. banner motd Controls the display of message-of-the-day banners.
Page 119: Versions
Power Supply Status — Displays the power supply status. • – — The power supply is operating normally. – — The power supply is not operating normally. – Not Present — The power supply is currently not present. • Temperature — Displays the temperature at which the device is currently running. Viewing System Health Information Using CLI Commands For information about the CLI commands that perform this function, see the System Management CLI Reference Guide...
Page 120: System Resources
Current-Active — Displays the currently active software image. • • Next-Active — Displays the software image which will be loaded the next time the switch is rebooted. Displaying Device Versions Using CLI Commands For information about the CLI commands that perform this function, see the System Management CLI Reference Guide Commands chapter in the : The following table summarizes the equivalent CLI...
Page 121 Figure 6-4. System Resources The System Resources page contains the following fields: Total Memory — Displays the total memory present on the switch. • • Available Memory — Displays the available memory (Free for allocation) present on the switch. • Task Name —...
Page 122: Time Zone Configuration
Displaying System Resources Using CLI Commands For information about the CLI commands that perform this function, see the System Management CLI Reference Guide Commands chapter in the . The following table summarizes the equivalent CLI commands you use to display system resources information. Table 6-4.
Page 123: Summer Time Configuration
The time zone settings are modified, and the device is updated. Configuring Time Zone Settings Using CLI Commands For information about the CLI commands that perform this function, see the Clock Commands chapter CLI Reference Guide in the . The following table summarizes the equivalent CLI commands you use to configure time zone settings.
Page 124 Location — This field displays only when the Recurring check box is selected. The summer time • configuration is predefined for the United States and European Union. To set the summer time for a location other than the USA or EU, select None. •...
Page 125: Clock Detail
Table 6-6. Summer Time Parameters Commands CLI Command Description clock summer-time recurring Sets the summertime offset to UTC recursively every year. clock summer-time date Sets the summertime offset to UTC. no clock summer-time Resets the recurring summertime configuration. Clock Detail Use the Clock Detail page to set the time and date or view information about the current time, time zone, and summer time settings.
Page 126: Reset
Table 6-7. Clock Detail Commands CLI Command Description clock set Sets the current date and time. show clock Displays the time and date of the system clock. Reset Use the Reset page to reset the device. To display the Reset page, click System → General → Reset in the tree view. Figure 6-8.
Page 127: Configuring Sntp Settings
Configuring SNTP Settings The device supports the Simple Network Time Protocol (SNTP). SNTP assures accurate network device clock time synchronization up to the millisecond. Time synchronization is performed by a network SNTP server. The device operates only as an SNTP client and cannot provide time services to other systems.
Page 128: Sntp Global Settings
• If more than one Unicast device responds, synchronization information is preferred from the device with the lowest stratum. • If the servers have the same stratum, synchronization information is accepted from the SNTP server that responded first. MD5 (Message Digest 5) Authentication safeguards device synchronization paths to SNTP servers. MD5 is an algorithm that produces a 128-bit hash.
Page 129: Sntp Authentication
Receive Broadcast Servers Update — If enabled, listens to the SNTP servers for Broadcast server time • information on the selected interfaces. The device is synchronized whenever an SNTP packet is received, even if synchronization was not requested. • Receive Unicast Servers Update — If enabled, polls the SNTP servers defined on the device for Unicast server time information.
Page 130 Figure 6-10. SNTP Authentication The SNTP Authentication page contains the following fields: • SNTP Authentication — If enabled, requires authenticating an SNTP session between the device and an SNTP server. • Authentication — Type of authentication. System supports MD5 only. •...
Page 131 Figure 6-11. Add Authentication Key 3. Define the fields as needed. 4. Click Apply Changes. The SNTP authentication key is added, and the device is updated. Displaying the Authentication Key Table 1. Open the SNTP Authentication page. 2. Click Show All. The Authentication Key Table page displays: Figure 6-12.
Page 132: Sntp Server
Defining SNTP Authentication Settings Using CLI Commands For information about the CLI commands that perform this function, see the Clock Commands chapter CLI Reference Guide in the . The following table summarizes the equivalent CLI commands you use to define SNTP authentication settings. Table 6-9.
Page 133 • Priority (1 8) — Specifies the priority of this server entry in determining the sequence of servers to – which SNTP requests are sent. Values are 1 to 8, and the default is 1. Servers with lowest numbers have priority.
Page 134 Figure 6-15. SNTP Servers Table Modifying an SNTP Server 1. Open the SNTP Servers page. 2. Click Show All. The SNTP Servers Table opens. 3. Click Edit next to the SNTP Server entry you wish to modify. 4. Modify the relevant fields. 5.
Page 135: Managing Logs
Table 6-10. SNTP Servers Commands CLI Command Description show sntp configuration Displays the SNTP configuration. show sntp status Displays the SNTP status. sntp server Configures the SNTP server to use SNTP to request and accept NTP traffic from it. Managing Logs The switch may generate messages in response to events, faults, or errors occurring on the platform as well as changes in configuration or other occurrences.
Page 136: Global Settings
• RAM Log Table • Log File • Remote Log Server Settings Global Settings Use the Global Settings page to enable logs globally, and to define log parameters. The Severity log messages are listed from the highest severity to the lowest. To display the Global Settings page, click System →...
Page 137 Emergency — The highest level warning level. If the device is down or not functioning properly, an • emergency log is saved to the device. Alert — The second highest warning level. An alert log is saved if there is a serious device malfunction, •...
Page 138: Ram Log Table
RAM Log Table Use the RAM Log Table page to view information about specific RAM (cache) log entries, including the time the log was entered, the log severity, and a description of the log. To display the RAM Log Table, click System → Logs → RAM Log in the tree view. Figure 6-17.
Page 139: Log File
Table 6-12. Log Information Commands CLI Command Description clear logging Use to clear messages from the logging buffer. show logging Displays the state of logging and the syslog messages stored in the internal buffer. Log File The Log File contains information about specific log entries, including the time the log was entered, the log severity, and a description of the log.
Page 140: Remote Log Server Settings
Removing Log Information Using CLI Commands For information about the CLI commands that perform this function, see the Syslog Commands chapter CLI Reference Guide in the . The following table summarizes the equivalent CLI commands you use to remove log information. Table 6-13.
Page 141 The Remote Log Server Settings page contains the following fields: • Log Server — Server to which logs can be sent. • UDP Port (1 65535) — Sets the UDP port from which the logs are sent. The default value is 514. –...
Page 142 Figure 6-20. Add Remote Log Server Settings 3. Complete the fields in the dialog and click Apply Changes. The Remote Log Server Settings page displays the server in the Log Server list only after you go back to the Remote Log Server Settings page. Viewing/Removing a Log Server 1.
Page 143: Defining Ip Addressing
The server is removed, and the device is updated. Working with Remote Server Logs Using CLI Commands For information about the CLI commands that perform this function, see the Syslog Commands chapter CLI Reference Guide in the . The following table summarizes the equivalent CLI commands you use to work with remote server logs.
Page 144: Domain Name Server (Dns)
Domain Name Server (DNS) The Domain Name System converts user-defined domain names into IP addresses. Each time a domain name is assigned, this service translates the name into a numeric IP address. Domain Name System servers maintain domain name databases and their corresponding IP addresses. Use the Domain Name Server (DNS) page to enable and activate specific DNS servers.
Page 145: Default Domain Name
Figure 6-23. Add DNS Server 3. Define the relevant fields. 4. Click Apply Changes. The new DNS server is defined, and the device is updated. Configuring DNS Servers Using CLI Commands For information about the CLI commands that perform this function, see the IP Addressing Commands CLI Reference Guide chapter in the .
Page 146: Host Name Mapping
The Default Domain Name page contains the following field: • Default Domain Name (0 255 characters) — Contains the user-defined default domain name. When – configured, the default domain name is applied to all unqualified host names. Defining DNS Domain Names Using CLI Commands For information about the CLI commands that perform this function, see the IP Addressing Commands CLI Reference Guide chapter in the...
Page 147 Adding Host Domain Names 1. Open the Host Name Mapping page. 2. Click Add. The Add Static Host Name Mapping page displays: Figure 6-26. Add Static Host Name Mapping 3. Define the relevant fields. 4. Click Apply Changes. The IP address is mapped to the host name, and the device is updated. Displaying the Static Host Name Mapping Table 1.
Page 148: Dynamic Host Name Mapping
3. Select a Host Name Mapping Table entry. 4. Check the Remove check box. 5. Click Apply Changes. The Host Name Mapping Table entry is removed, and the device is updated. Mapping an IP Address to Domain Host Names Using CLI Commands For information about the CLI commands that perform this function, see the IP Addressing Commands CLI Reference Guide chapter in the...
Page 149: Arp Table
Click Clear All Entries to remove all Host Name IP Mapping entries from the table. Viewing Dynamic Host Entries Using CLI Commands For information about the CLI commands that perform this function, see the IP Addressing Commands CLI Reference Guide chapter in the .
Page 150: Ipv6 Management Features
Viewing the ARP Table Using CLI Commands For information about the CLI commands that perform this function, see the IP Addressing Commands CLI Reference Guide chapter in the . The following table summarizes the equivalent CLI commands you use. Table 6-19. ARP Table Commands CLI Command Description show arp switch...
Page 151 IPv6 Stateless Address AutoConfig Mode — Enable or disable IPv6 auto address configuration on the • interface. When IPv6 AutoConfig Mode is enabled, automatic IPv6 address configuration and gateway configuration is allowed by processing the Router Advertisements received on the management interface.
Page 152: Running Cable Diagnostics
Table 6-20. Ipv6 Management Information Commands CLI Command Description ipv6 address Use to display the entries in the ARP table. ipv6 enable Enables IPv6 on the management interface. ipv6 gateway Configures an IPv6 gateway for the management interface. Running Cable Diagnostics Use the Diagnostics menu page to perform virtual cable tests for copper and fiber optics cables.
Page 153 Figure 6-32. Integrated Cable Test for Copper Cables The Integrated Cable Test for Copper Cables page contains the following fields: • Interface — The interface to which the cable is connected. • Test Result — The cable test results. Possible values are: –...
Page 154: Optical Transceiver Diagnostics
2. Click Show All. 3. Select the desired unit from the drop-down menu. The web page displays the Integrated Cable Test Results Table page showing the results of previous tests for every port on the selected unit. Figure 6-33. Integrated Cable Test Results Table Optical Transceiver Diagnostics Use the Optical Transceiver Diagnostics page to perform tests on Fiber Optic cables.
Page 155 Figure 6-34. Optical Transceiver Diagnostics The Optical Transceiver Diagnostics page contains the following fields: • Interface — The port IP address on which the cable is tested. • Temperature — The temperature (C) at which the cable is operating. • Voltage —...
Page 156 Figure 6-35. Optical Transceiver Diagnostics Table The test runs and displays the Optical Transceiver Diagnostics Table page. Performing Fiber Optic Cable Tests Using CLI Commands For information about the CLI commands that perform this function, see the PHY Diagnostics CLI Reference Guide Commands chapter in the .
Page 157: Managing Device Security
Managing Device Security Use the Management Security menu page to set management security parameters for port, user, and server security. To display the Management Security page, click System → Management Security in the tree view. Use this page to go to the following features: •...
Page 158 Figure 6-36. Access Profile The Access Profile page contains the following fields: • Access Profile — Shows the Access Profile. • Current Active Access Profile — Shows profile that is activated. • Set Active Access Profile — Activates the access profile. •...
Page 159 Figure 6-37. Profile Rules Table Adding an Access Profile 1. Open the Access Profile page. 2. Click Add Profile. The Add an Access Profile page displays. Figure 6-38. Add an Access Profile 3. Enter the profile name in the Access Profile Name text box. 4.
Page 160 Management Method — Select from the dropdown box. The policy is restricted by the management chosen. Interface — Choose the check box for the interface if the policy should have a rule based on the interface. Interface can be a physical interface, a LAG, or a VLAN. Source IP Address —...
Page 161 Figure 6-39. Add An Access Profile Rule 3. Complete the fields in the dialog: Management Method — Select from the dropdown box. The policy is restricted by the management chosen. Interface — Choose the check box for the interface if the policy should have a rule based on the interface.
Page 162: Authentication Profiles
Removing a Rule 1. Open the Access Profile page. 2. Click Show All to display the Profile Rules Table page. 3. Select a rule. 4. Check the Remove check box. 5. Click Apply Changes. The rule is removed, and the device is updated. Defining Access Profiles Using CLI Commands For information about the CLI commands that perform this function, see the Management ACL CLI Reference Guide...
Page 163 Figure 6-40. Authentication Profiles The Authentication Profiles page contains the following fields: Authentication Profile Name Displays lists to which user-defined authentication profiles are added. Use the radio buttons to apply the authentication profile to govern either Login or Enable part of the switch’s operations, and to select one of two available lists: •...
Page 164 NOTE: User authentication occurs in the order the methods are selected. If an error occurs during the Local RADIUS authentication, the next selected method is used. For example, if then options are selected, RADIUS the user is authenticated first locally and then through an external server.
Page 165 The user authentication profile is updated to the device. Removing an Authentication Profiles Entry 1. Open the Authentication Profiles page. 2. Click Show All. The Authentication Profiles Table opens. Figure 6-42. Authentication Profiles Table 3. Check the Remove check box next to the profile to be removed. 4.
Page 166: Select Authentication
Select Authentication After authentication profiles are defined, you can apply them to management access methods. For example, console users can be authenticated by Authentication Profile List 1, while Telnet users are authenticated by Authentication Profile List 2. To display the Select Authentication page, click System → Management Security → Select Authentication in the tree view.
Page 167 TACACS+ — Authentication occurs at the TACACS+ server. – – Local, None — Authentication first occurs locally. – RADIUS, None — Authentication first occurs at the RADIUS server. If authentication cannot be verified, no authentication method is used. Authentication cannot be verified if the remote server cannot be contacted to verify the user.
Page 168 The following example shows an entry in the FreeRADIUS /etc/raddb/users file that allows a admin user (name: ) to log onto the switch with read/write privileges, which is equivalent to privilege level admin Auth-Type := Local, User-Password == "pass1234" Service-Type = NAS-Prompt-User enable Auth-Type := Local, User-Password == "pass5678"...
Page 169: Password Management
2. Under HTTP , select an authentication method in the Optional Methods field and click the right arrow button. The selected authentication method moves to the Selected Methods field. 3. Repeat until the desired authentication sequence is displayed in the Selected Methods field. 4.
Page 170 • Preventing frequent password reuse • Locking out users out after failed login attempts To display the Password Management page, click System → Management Security → Password Management in the tree view. Figure 6-44. Password Management The Password Management page contains the following fields: •...
Page 171: Local User Database
3. Click Apply Changes. The password constraints are defined, and the device is updated. Defining Password Constraints Using CLI Commands For information about the CLI commands that perform this function, see the Password Management CLI Reference Guide Commands chapter in the .
Page 172 Figure 6-45. Local User Database The Local User Database page contains the following fields: • User Name — List of users. • Access Level — User access level. The lowest user access level is 1 (readonly), and 15 (readwrite) is the highest.
Page 173 Figure 6-46. Add a New User 3. Complete the fields. 4. Click Apply Changes. The new user is defined, and the device is updated. NOTE: You can define as many as eight local users on the device. Displaying Users on the Local User Database 1.
Page 174: Line Passwords
Assigning Users With CLI Commands For information about the CLI commands that perform this function, see the AAA Commands chapter CLI Reference Guide in the . The following table summarizes the equivalent CLI commands you use. Table 6-26. Users Commands CLI Command Description password...
Page 175: Enable Password
3. Define the Line Password field for the type of session you use to connect to the device. 4. Confirm the Line Password. 5. Click Apply Changes. The line password for the type of session is defined, and the device is updated. Assigning Line Passwords Using CLI Commands For information about the CLI commands that perform this function, see the AAA Commands chapter CLI Reference Guide...
Page 176: Tacacs+ Settings
3. Confirm the Enable password. 4. Click Apply Changes. The Enable password is set. Defining Enable Passwords Using CLI Commands For information about the CLI commands that perform this function, see the AAA Commands chapter CLI Reference Guide. in the The following table summarizes the equivalent CLI commands you use.
Page 177 Figure 6-50. TACACS+ Settings The TACACS+ Settings page contains the following fields: Host Name / IP Address — Specifies the TACACS+ Server. • • Priority (0 65535) — Specifies the order in which the TACACS+ servers are used. The default is 0. –...
Page 178 Timeout for Reply (1 30) — Enter the global user configuration time that passes before the • – connection between the device and the TACACS+ times out. Defining TACACS+ Parameters 1. Open the TACACS+ Settings page. 2. Define the fields as needed. 3.
Page 179 Figure 6-52. TACACS+ Servers Table Removing a TACACS+ Server from the TACACS+ Servers List 1. Open the TACACS+ Settings page. 2. Click Show All. The TACACS+ Servers Table opens. 3. Select a TACACS+ Servers Table entry. 4. Select the Remove check box. 5.
Page 180: Radius Global Configuration
RADIUS Global Configuration The Remote Authorization Dial-In User Service (RADIUS) client on the PowerConnect 6200 Series switch supports multiple, named RADIUS servers. The RADIUS authentication and accounting server groups can contain one or more configured authentication servers that share the same RADIUS server name.
Page 181 Configured Authentication Servers — The number of RADIUS authentication servers configured on • the system. The value can range from 0 to 32. Configured Accounting Servers — The number of RADIUS accounting servers configured on the • system. The value can range from 0 to 32. •...
Page 182: Radius Server Configuration
Table 6-30. RADIUS Global Commands CLI Command Description radius-server attribute Sets the network access server (NAS) IP address for the RADIUS server. radius-server retransmit Specifies the number of times the software searches the list of RADIUS server hosts. radius-server timeout Sets the interval for which a switch waits for a server host to reply.
Page 183 Port — Identifies the authentication port the server uses to verify the RADIUS server authentication. • The port is a UDP port, and the valid range is 1-65535. The default port for RADIUS authentication is 1812. • Secret — Shared secret text string used for authenticating and encrypting all RADIUS communications between the device and the RADIUS server.
Page 184 Figure 6-55. Add RADIUS Server 3. Enter an IP address and name for the RADIUS server to add. 4. Click Apply Changes. The new RADIUS server is added, and the device is updated. Viewing RADIUS Server Status and Removing a Named Server 1.
Page 185: Radius Accounting Server Configuration
Table 6-31. RADIUS Server Commands CLI Command Description auth-port Sets the port number for authentication requests of the designated radius server. Sets the authentication and encryption key for all RADIUS communications between the switch and the RADIUS daemon. msgauth Enables the message authenticator attribute to be used for the RADIUS Authenticating server being configured.
Page 186 RADIUS Accounting Server Host Address — Use the drop-down menu to select the IP address of the • accounting server to view or configure. Click Add to display the Add RADIUS Accounting Server page used to configure additional RADIUS servers. •...
Page 187: Radius Accounting Server Statistics
Figure 6-59. RADIUS Accounting Server Status 3. To remove a named accounting server, select the check box in the Remove column. 4. Click Apply Changes. The RADIUS accounting server is removed from the list. Configuring RADIUS Accounting Server Settings Using CLI Commands For information about the CLI commands that perform this function, see the RADIUS Commands CLI Reference Guide chapter in the...
Page 188 Figure 6-60. RADIUS Accounting Server Statistics The RADIUS Accounting Server Statistics page contains the following fields: RADIUS Accounting Server Host Address — Use the drop-down menu to select the IP address of the • RADIUS accounting server for which to display statistics. •...
Page 189: Radius Server Statistics
Packets Dropped — The number of RADIUS packets received from this server on the accounting port • and dropped for some other reason. Viewing RADIUS Accounting Server Statistics Using CLI Commands For information about the CLI commands that perform this function, see the RADIUS Commands CLI Reference Guide chapter in the .
Page 190 Round Trip Time — The time interval, in hundredths of a second, between the most recent Access- • Reply/Access-Challenge and the Access-Request that matched it from this RADIUS authentication server. • Access Requests — The number of RADIUS Access-Request packets sent to this server. This number does not include retransmissions.
Page 191: Authorization Network Radius
Authorization Network RADIUS In some networks, the RADIUS server is responsible for assigning traffic to a particular VLAN. From the Authorization Network RADIUS page, you can enable the switch to accept VLAN assignment by the RADIUS server. To display the Authorization Network RADIUS page, click System Management → Security → Authorization Network RADIUS in the tree view.
Page 192 Figure 6-63. Telnet Server The Telnet Server page contains the following fields: • New Telnet Sessions — Controls the administrative mode for inbound telnet sessions. If you set the mode to Block, new telnet sessions are not allowed, but existing sessions are not interrupted. The default value is Allow.
Page 193: Denial Of Service
Denial of Service Denial of Service refers to the exploitation of a variety of vulnerabilities which would interrupt the service of a host or make a network unstable. Use the Denial of Service page to configure settings to help prevent denial of service attacks. To display the Denial of Service page, click System →...
Page 194 – Both TCP flags SYN and FIN set • Denial of Service L4 Port — Enabling L4 Port DoS prevention causes the switch to drop packets that have the TCP/UDP source port equal to TCP/UDP destination port. • Denial of Service ICMP — Enabling ICMP DoS prevention causes the switch to drop ICMP packets that have a type set to ECHO_REQ (ping) and a size greater than the configured ICMP packet size (ICMP Pkt Size).
Page 195: Captive Portal
Table 6-37. Denial of Service Configuration Commands CLI Command Description dos-control sipdip Enables Source IP Address = Destination IP Address (SIP=DIP) Denial of Service protection. dos-control tcpflag Enables TCP Flag Denial of Service protections. dos-control tcpfrag Enables TCP Fragment Denial of Service protection. ip icmp echo-reply Enables or disables the generation of ICMP Echo Reply messages.
Page 196: Cp Global Configuration
• User Group • Interface Association • CP Status • CP Activation and Activity Status • Interface Activation Status • Interface Capability Status • Client Summary • Client Detail • CP Interface Client Status • CP Client Status CP Global Configuration From the CP Global Configuration page, you can control the administrative state of the CP feature and configure global settings that affect all captive portals configured on the switch.
Page 197: Cp Configuration
– No IPv4 Address – Routing Enabled, but no IPv4 routing interface • Additional HTTP Port — HTTP traffic uses port 80, but you can configure an additional port for HTTP traffic. Enter a port number between 0-65535 (excluding ports 80, 443, and the configured switch management port).
Page 198 Figure 6-66. CP Configuration The CP Configuration page contains the following fields: • Configuration Name — If multiple CP configurations exist on the system, select the CP configuration to view or configure. Use the Add button to add a new CP configuration to the switch. •...
Page 199 RADIUS Auth Server — If the verification mode is RADIUS, click the drop-down menu and select the • name of the RADIUS server used for client authentications. The switch acts as the RADIUS client and performs all RADIUS transactions on behalf of the clients. To configure RADIUS server information, go to the Management Security →...
Page 200: Cp Web Customization
Figure 6-68. CP Summary 3. To remove a CP configuration, select the Remove option in the CP configuration row and click Apply Changes. CP Web Customization When a client connects to the access point, the user sees a Web page. The CP Web Customization page allows you to customize the appearance of that page with specific text and images.
Page 201 Figure 6-69. CP Web Customization The CP Web Customization page contains the following fields: • Captive Portal ID — The drop-down menu lists each CP configured on the switch. To view information about the clients connected to the CP, select it from the list. •...
Page 202 Page Title — Enter the text to use as the page title. This is the text that identifies the page. • • Separator Color — Enter the hexadecimal color code to use as the separator above and below the login area and acceptance use policy.
Page 203: Local User
Welcome Title — Enter the title to display to greet the user after he or she successfully connects to the • network. Welcome Text — Enter the optional text to display to further identify the network to be access by the •...
Page 204 Password — Enter a password for the user. The password length can be from 8 to 64 characters. • • User Group — Assign the user to at least one User Group. New users are assigned to the 1-Default user group by default.
Page 205: User Group
Figure 6-72. CP Local User Summary 3. To remove a configured user, select the Remove option in the appropriate row, and then click Apply Changes. Configuring Users in a Remote RADIUS Server You can use a remote RADIUS server client authorization. You must add all users to the RADIUS server. The local database does not share any information with the remote RADIUS database.
Page 206 Figure 6-73. User Group The User Group page contains the following fields: • Group Name — The menu contains the name of all of the groups configured on the system. The Default user group is configured by default. New users are assigned to the 1-Default user group by default.
Page 207: Interface Association
Displaying the User Group Page 1. Open the User Group page. 2. Click Show All. The User Group Summary page displays: Figure 6-75. CP User Group Summary 3. To remove a configured group, select the Remove option in the appropriate row, and then click Apply Changes.
Page 208: Cp Status
CP Configuration — Lists the captive portals configured on the switch by number and name. • • Interface List — Lists the interfaces available on the switch that are not currently associated with a captive portal. Use the following steps to associate one or more interfaces with a captive portal: 1.
Page 209 Figure 6-77. CP Status The CP Status page contains the following fields: • CP Global Operational Status — Shows whether the CP feature is enabled. • CP Global Disable Reason — Indicates the reason for the CP to be disabled, which can be one of the following: –...
Page 210: Cp Activation And Activity Status
CP Activation and Activity Status The CP Activation and Activity Status page provides information about each CP configured on the switch. The CP Activation and Activity Status page has a drop-down menu that contains all captive portals configured on the switch. When you select a captive portal, the activation and activity status for that portal displays.
Page 211: Interface Activation Status
Authenticated Users — Shows the number of users that successfully authenticated to this captive • portal and are currently using the portal. The following buttons are available on the CP Activation and Activity page: • Block—Click Block to prevent users from gaining access to the network through the selected captive portal.
Page 212: Interface Capability Status
Interface Capability Status The Interface Capability Status page contains information about interfaces that can have CPs associated with them. The page also contains status information for various capabilities. Specifically, this page indicates what services are provided through the CP to clients connected on this interface. The list of services is determined by the interface capabilities.
Page 213: Client Summary
Client Summary Use the Client Summary page to view summary information about all authenticated clients that are connected through the captive portal. From this page, you can manually force the captive portal to disconnect one or more authenticated clients. The list of clients is sorted by client MAC address. To view information about the clients connected to the switch through the captive portal, click System →...
Page 214: Cp Interface Client Status
Figure 6-82. Client Detail The Client Detail page contains the following fields: • MAC Address — The menu lists each associated client by MAC address. To view status information for a different client, select its MAC address from the list. Client IP Address —...
Page 215: Cp Client Status
Figure 6-83. Interface - Client Status The Interface Client Status page contains the following fields: • Interface — The drop-down menu lists each interface on the switch. To view information about the clients connected to a CP on this interface, select it from the list. •...
Page 216 Configuration Name — The drop-down menu lists each CP configured on the switch. To view • information about the clients connected to the CP configuration, select the CP configuration name from the list. • MAC Address — Identifies the MAC address of the client. •...
Page 217 (continued) Table 6-39. Captive Portal Configuration Commands CLI Command Description captive-portal client deauthenticate Deauthenticates a specific captive portal client. show captive-portal client status Displays client connection details or a connection summary for connected captive portal users. show captive-portal configuration client Displays the clients authenticated to all captive portal configurations status or a to specific configuration.
Page 218: Defining Snmp Parameters
Defining SNMP Parameters Simple Network Management Protocol (SNMP) provides a method for managing network devices. The device supports SNMP version 1, SNMP version 2, and SNMP version 3. NOTE: By default, SNMPv2 is automatically enabled on the device. To enable SNMPv3, a local engine ID must be defined for the device.
Page 219 To display the Global Parameters page, click System → SNMP → Global Parameters in the tree view. Figure 6-85. Global Parameters The Global Parameters page contains the following parameters: • Local Engine ID (6 32 hexadecimal characters) — Sets local SNMP engine ID. –...
Page 220: Snmp View Settings
SNMP notifications are enabled, and the device is updated. Enabling Authentication Trap 1. Open the Global Parameters page 2. Select Enable in the Authentication trap field. 3. Click Apply Changes. Authentication notifications are enabled, and the device is updated. Enabling SNMP Notifications Using CLI Commands For information about the CLI commands that perform this function, see the SNMP Commands chapter CLI Reference Guide in the...
Page 221 Figure 6-86. SNMP View Settings The SNMP View Settings page contains the following fields: • View Name — Contains a list of user-defined views. A view name can contain a maximum of 30 alphanumeric characters. • OID Subtree — Specifies a valid SNMP OID string that can include meta characters like *. •...
Page 222 3. Define the relevant fields. 4. Click Apply Changes. The SNMP view is added, and the device is updated. Displaying the View Table 1. Open the SNMP View Settings page 2. Click Show All. The View Table page displays: Figure 6-88. View Table Removing SNMP Views 1.
Page 223: Access Control Group
Table 6-41. SNMP Views Commands CLI Command Description show snmp views Displays the configuration of views. snmp-server view Creates or updates an SNMP server view entry. Access Control Group Use the Access Control Group page to view information for creating SNMP groups, and to assign SNMP access privileges.
Page 224 auth nopriv — Authenticates SNMP messages without encrypting them. – – auth priv — Authenticates SNMP messages and encrypts them. • Context Prefix (1 30) — This field permits the user to specify the context name by entering the first 1 –...
Page 225: Snmpv3 User Security Model (Usm)
Figure 6-91. Access Table Removing a Group 1. Open the Access Control Configuration page. 2. Click Show All. The Access Table opens. 3. Select a group. 4. Check Remove. 5. Click Apply Changes. The group is removed, and the device is updated. Defining SNMP Access Control Using CLI Commands For information about the CLI commands that perform this function, see the SNMP Commands chapter CLI Reference Guide...
Page 226 Figure 6-92. SNMPv3 User Security Model (USM) The SNMPv3 User Security Model (USM) page contains the following fields: • User Name — Contains a list of user-defined user names. • Group Name — Contains a list of user-defined SNMP groups. SNMP groups are defined in the Access Control Group page.
Page 227 des — Use a CBC-DES Symmetric Encryption Password for the authentication key. – – des-key — Use an HMAC-MD5-96 Authentication Pre-generated key. • Authentication Key(MD5-16; SHA-20 HEX character pairs) — Specify the authentication key. An authentication key is defined only if the authentication method is MD5 or SHA. •...
Page 228 Figure 6-94. Add Remote User 3. Define the relevant fields. 4. Click Apply Changes. 5. The user is added to the group, and the device is updated. Viewing the User Security Model Table 1. Open the SNMPv3 User Security Model (USM) page. 2.
Page 229: Communities
4. Check the Remove check box. 5. Click Apply Changes. The entry is removed, and the device is updated. Defining SNMP Users Using CLI Commands For information about the CLI commands that perform this function, see the SNMP Commands chapter CLI Reference Guide.
Page 230 Community String — Contains a list of user-defined community strings that act as a password and are • used to authenticate the SNMP management station to the device. A community string can contain a maximum of 20 characters. • SNMP Management Station — Contains a list of management station IP address for which community strings have been defined.
Page 231 In addition to the fields in the SNMPv1, 2 Community page, the Add SNMPv1,2 Community page contains the All (0.0.0.0) field, which indicates that the community can be used from any management station. 4. Click Apply Changes. The new community is saved, and the device is updated. Displaying Communities 1.
Page 232: Notification Filter
Configuring Communities Using CLI Commands For information about the CLI commands that perform this function, see the SNMP Commands chapter CLI Reference Guide in the . The following table summarizes the equivalent CLI commands you use to configure SNMP communities. Table 6-44.
Page 233 Excluded — Restricts sending OID traps or informs. – – Included — Sends OID traps or informs. Adding SNMP Filters 1. Open the Notification Filter page. 2. Click Add. The Add Filter page displays: Figure 6-100. Add Filter 3. Define the relevant fields. 4.
Page 234: Notification Recipients
Removing a Filter 1. Open the Notification Filter page. 2. Click Show All. The Show Notification page displays. 3. Select the Filter Table entry. 4. Check Remove. The filter entry is removed, and the device is updated. Configuring Notification Filters Using CLI Commands For information about the CLI commands that perform this function, see the SNMP Commands chapter CLI Reference Guide in the...
Page 235 Figure 6-102. Notification Recipients The Notification Recipients page contains the following fields: • Recipient IP — Contains a user-defined list of notification recipients IP addresses. • Notification Type — The type of notification sent. The possible field values are: – Trap —...
Page 236 Auth NoPriv — The packet is authenticated. • • Auth Priv — The packet is both authenticated and encrypted. • UDP Port (1 65535) — UDP port used to send notifications. The default is 162. – • Filter Name — Check this check box to apply a user-defined SNMP filter (selected from the drop- down menu) to notifications.
Page 237 the Notification Recipients Tables Displaying 1. Open Notification Recipients page. 2. Click Show All. The Notification Recipient Tables page opens: Figure 6-104. Notification Recipient Tables Removing Notification Recipients 1. Open the Notification Recipients page. 2. Click Show All. The Notification Recipient Tables page open. 3.
Page 238: File Management
Table 6-46. SNMP Notification Recipients Commands CLI Command Description show snmp Displays the SNMP status. snmp-server host Specifies the recipient of SNMP notifications. snmp-server v3-host Specifies the recipient of SNMPv3 notifications. File Management Use the File Management menu page to manage device software, the image file, and the configuration files.
Page 239: Active Images
The File System page contains the following fields: • File Name — A text field listing the names of the files on the file system. • Image Description — A field 0-128 characters in length that displays an image description of the file. •...
Page 240: File Download
Version — The version of the current active image. • • After Reset — From the menu, select the image that should be active after the next reset. • Version — Displays the version of the image after reset. Setting the Boot Image Using CLI Commands For information about the CLI command that performs this function, see the Configuration and Image CLI Reference Guide File Commands chapter in the...
Page 241 SSH-1 RSA Key File — SSH-1 Rivest-Shamir-Adleman (RSA) Key File • • SSH-2 RSA Key PEM File — SSH-2 Rivest-Shamir-Adleman (RSA) Key File (PEM Encoded) • SSH-2 DSA Key PEM File — SSH-2 Digital Signature Algorithm (DSA) Key File (PEM Encoded) NOTE: To download SSH key files, SSH must be administratively disabled and there can be no active SSH sessions.
Page 242: File Upload
Downloading Files 1. Open the File Download From Server page. 2. Verify the IP address of the server and ensure that the software image or boot file to be downloaded is available on the server. 3. Complete the Server Address and Source File Name (full path without server IP address) fields. 4.
Page 243 Figure 6-108. File Upload to Server The File Upload to Server page contains the following fields: • File Type — Select the type of file to be uploaded. Possible filetypes are: – Firmware — Uploads the active image. – Configuration — Uploads the configuration file. If File Type - Configuration is selected, the Transfer File Name field is also displayed.
Page 244: Copy Files
Running Configuration — Uploads the running configuration file. – – Startup Configuration — Uploads the startup configuration files. – Backup Configuration — Uploads the backup configuration files. Uploading Files 1. Open the File Upload to Server page. 2. Define the applicable fields in the page. 3.
Page 245 Figure 6-109. Copy Files The Copy Files page contains the following fields: Copy Master Firmware — Specifies that a software image file should be copied. • • Destination — The destination unit(s) (within the stack) to which the file is copied. Select from the menu one of the following values: –...
Page 246: Defining Advanced Settings
Copy Files Using CLI Commands For information about the CLI command that perform this function, see the Configuration and Image CLI Reference Guide Files Commands chapter in the . The following table summarizes the equivalent CLI command you use to copy files from one location to another. Table 6-51.
Page 247 • The IP addresses of DNS name servers (option 6). The IP addresses of DNS name servers should be returned from the DHCP server only if the DNS server is in the same LAN as the switch performing Auto Configuration. A DNS server is needed to resolve the IP address of the TFTP server if only the “sname”...
Page 248 Disable — Uses the configuration file as the running configuration only. When the switch reboots, – it will load the configuration from the startup configuration file. Retry Count — Indicates the number of times to attempt the auto configuration process during boot •...
Page 249: Defining Stacking
Defining Stacking Overview A stack is created by daisy-chaining stacking links on adjacent units. A stack of units is manageable as a single entity when the units are connected together. If a unit cannot detect a stacking partner on a port enabled for stacking, the unit automatically operates as a standalone unit.
Page 250: Configuring Stacking
Configuring Stacking Use the Stacking menu to set the stacking characteristics of the device. The changes to these attributes are applied only after the device is reset. Click System → Stacking in the tree view to display the Stacking page. Use this page to go to the following features: •...
Page 251 Figure 6-111. Unit Configuration The Unit Configuration page contains the following fields: Switch ID — Specifies unit to be configured. • • Change Switch ID to — Changes the unit number of the selected unit. • Management Status — Shows whether the selected unit is a Management Unit or a Stack Member. •...
Page 252 Plugged-in Model Identifier — A 16-byte character string to identify the plugged-in model of the • selected unit. Switch Status — Displays the status of the selected unit. The possible values are: • – OK — The unit is in place and functioning. –...
Page 253 Standby Status — This field identifies the switch that is configured as the Standby Unit. Possible • values are: – OPR Standby — Indicates that this unit is operating as the Standby Unit and the configured Standby Unit is not part of the stack. –...
Page 254 Table 6-53. Stack Summary Commands CLI Command Description show switch Displays information about all units in the stack. switch priority Configures the ability of the switch to become the Management Switch. switch renumber Changes the identifier for a switch in the stack. member Configures the switch as a member of a stack.
Page 255 Management Preference — Determines whether this unit is capable of becoming the master switch. If • the value is set to zero then the unit cannot support Master Switch function. The higher value means that the unit is more desirable than another unit with lower value for running the management function.
Page 256 Figure 6-114. Stack Port Summary The Stack Port Summary page contains the following fields: • Unit — ID number of the unit. • Interface — Identifies the stack interface assigned to the unit. • Configured Stack Mode — Indicates whether or not each unit is able to participate in the stack. •...
Page 257 Figure 6-115. Stack Port Counters The Stack Port Counters page contains the following fields: • Unit — Indicates the subordinate switch being viewed. • Interface — Indicates the name of the interface. • Data Rate (Mb/s) — Indicates the speed at which the data is transmitted. Transmit Error Rate (Errors/sec) —...
Page 258 Stack Port Diagnostics The Stack Port Diagnostics page is intended for Field Application Engineers (FAEs) and developers only. Nonstop Forwarding Overview When switches are members of a stack, packet forwarding rules, protocol configurations, and state information are controlled by a designated stack management unit. Typically, when the management unit fails due to a power failure, hardware failure, or software fault, neighbor routers detect that the management unit is down or restarting.
Page 259 Figure 6-116. NSF Summary • Admin Status — Select the administrative mode for the interface. When enabled, the stack selects a backup unit to receive checkpointed data from applications on the management unit. • Operation Status — Indicates whether NSF is operational on the stack, which may differ from the Admin Status setting.
Page 260 • Backup Configuration Age — Indicates the time since the running configuration was last copied to the backup unit. Click Initiate Failover to start a warm restart. On a warm restart, the backup unit becomes the management unit without clearing its hardware tables (on a cold restart, hardware tables are cleared). Applications apply checkpointed data from the former management unit to the backup unit as the original management unit reboots.
Page 261 Figure 6-117. Checkpoint Statistics • Messages Checkpointed — The number of messages sent from master unit to backup unit. • Bytes Checkpointed — How much data has been sent from master unit to the backup unit. • Time Since Counters Cleared — The amount of time since the counters have been reset. •...
Page 262: Trap Manager
Trap Manager Use the Trap Manager menus to configure traps flags and view the trap log. Click System → Trap Manager in the tree view to display the Trap Manager page. Use this page to go to the following features: •...
Page 263 The Trap Flags page contains the following fields: • Switch Traps – Authentication — Enable or disable activation of authentication failure traps by selecting the corresponding line on the pull-down entry field. The factory default is enabled. – Link Up/Down — Enable or disable activation of link status traps by selecting the corresponding line on the pull-down entry field.
Page 264: Ospfv2 Trap Flags
Table 6-59. Trap Flag Commands CLI Command Description snmp-server enable traps Enables SNMP traps globally or enables specific SNMP traps. show trapflags Shows the status of the configurable SNMP traps. show trapflags captive-portal Shows the status of captive portal trapflags. OSPFv2 Trap Flags The OSPFv2 Trap Flags page is used to specify which OSPFv2 traps you want to enable or disable.
Page 265 Figure 6-119. OSPFv2 Trap Flags The OSPFv2 Trap Flags page contains the following fields: • Error Traps – Authentication Failure — Signifies that a packet has been received on a non-virtual interface from a router with an authentication key or authentication type that conflicts with this router's authentication key or authentication type.
Page 266 – Virtual Authentication Failure — Signifies that a packet has been received on a virtual interface from a router with an authentication key or authentication type that conflicts with this router's authentication key or authentication type. The factory default is disabled. –...
Page 267: Ospfv3 Trap Flags
Virtual Link Interface State Change — Signifies that there has been a change in the state of an – OSPF virtual interface. This trap should be generated when the interface state regresses (e.g., goes from Point- to-Point to Down) or progresses to a terminal state (i.e., Point-to-Point). The factory default is disabled.
Page 268 Figure 6-120. OSPFv3 Trap Flags The OSPFv3 Trap Flags page contains the following fields: • Error Traps – Bad Packet — Signifies that an OSPF packet has been received on a non-virtual interface that cannot be parsed. The factory default is disabled. –...
Page 269 LSA Max Age — Signifies that one of the LSA in the router link-state database has aged to – MaxAge. The factory default is disabled. LSA Originate — Signifies that a new LSA has been originated by this router. This trap should not –...
Page 270: Trap Log
Configuring OSPFv3 Traps Using CLI Commands For information about the CLI command that performs this function, see the SNMP Commands chapter CLI Reference Guide in the . The following table shows the equivalent CLI command you use to configure OSPFv3 traps. Table 6-61.
Page 271: Sflow
Trap Log Capacity — The maximum number of traps stored in the log. If the number of traps exceeds • the capacity, the entries will overwrite the oldest entries. Number of Traps Since Log Last Viewed — The number of traps that have occurred since the traps •...
Page 272: Sflow Agent Summary
MIB Version; Organization; Software Revision where: – MIB Version — 1.3, the version of this MIB. – Organization — Dell Corp. – Revision — 1.0 • Agent Address — The IP address associated with this agent.
Page 273: Sflow Receiver Configuration
Configuring and Viewing sFlow Settings Using CLI Commands For information about the CLI commands that perform this function, see the Flow Commands chapter CLI Reference Guide in the . The following table summarizes the equivalent CLI commands you use to configure and view sFlow settings.
Page 274 Receiver Owner String — The entity making use of this sFlowRcvrTable entry. The empty string • indicates that the entry is currently unclaimed and the receiver configuration is reset to the default values. An entity wishing to claim an sFlowRcvrTable entry must ensure that the entry is unclaimed before trying to claim it.
Page 275: Sflow Sampler Configuration
Table 6-64. sFlow Receiver Commands CLI Command Description sflow destination Configures sFlow collector parameters (owner string, receiver timeout, ip address, and port). sFlow Sampler Configuration The sFlow Agent collects a statistical packet-based sampling of the switched flows and sends them to the configured receivers.
Page 276 Figure 6-125. sFlow Sampler Configuration The sFlow Sampler Configuration page contains the following fields: • Sampler DataSource— The sFlow data source for this sFlow sampler. This Agent supports physical ports only. • Receiver Index — The sFlow Receiver for this sFlow sampler. If set to zero, no packets will be sampled. Only active receivers can be set.
Page 277: Sflow Poll Configuration
Figure 6-126. sFlow Sampler Summary Configuring and Viewing sFlow Settings Using CLI Commands For information about the CLI commands that perform this function, see the sFlow Commands chapter CLI Reference Guide in the . The following table summarizes the equivalent CLI commands you use to configure and view sFlow settings.
Page 278 To access the sFlow Poll Configuration page, click System → sFlow → Poll Configuration in the navigation tree. Figure 6-127. sFlow Poll Configuration The sFlow Poll Configuration page contains the following fields: • Poll DataSource — The sFlow Sampler data source for this flow sampler. This Agent supports physical ports only.
Page 279: Industry Standard Discovery Protocol
Configuring and Viewing sFlow Settings Using CLI Commands For information about the CLI commands that perform this function, see the sFlow Commands chapter CLI Reference Guide in the . The following table summarizes the equivalent CLI commands you use to configure and view sFlow settings.
Page 280 Figure 6-129. ISDP Global Configuration The ISDP Global Configuration page contain the following fields: • ISDP Mode — Use this field to enable or disable the Industry Standard Discovery Protocol on the switch. • ISDP V2 Mode — Use this field to enable or disable the Industry Standard Discovery Protocol v2 on the switch.
Page 281: Cache Table
other — Indicates that the value is in the form of a platform specific ASCII string containing info – that identifies the device. For example: ASCII string contains serialNumber appended/prepended with system name. Configuring ISDP Using CLI Commands For information about the CLI commands that perform this function, see the CDP Interoperability CLI Reference Guide Commands chapter in the .
Page 282: Interface Configuration
IP Address — The (first) network-layer address that is reported in the Address TLV of the most • recently received ISDP message. Version — Displays the Version string for the neighbor. • • Holdtime — Displays the ISDP holdtime for the neighbor. •...
Page 283 Figure 6-131. ISDP Interface Configuration The ISDP Interface Configuration page contain the following fields: • Interface — Select the interface with the ISDP mode status to configure or view. • ISDP Mode — Use this field to enable or disable the Industry Standard Discovery Protocol on the selected interface.
Page 284: Isdp Statistics
Table 6-69. ISDP Interface Commands CLI Command Description isdp enable (Interface Mode) Enables ISDP on an interface. show isdp interface Displays ISDP settings for the specified interface. ISDP Statistics From the ISDP Statistics page, you can view information about the ISDP packets sent and received by the switch.
Page 285 The ISDP Statistics page contain the following fields: • Packets Received — Displays the number of all ISDP protocol data units (PDUs) received. • Packets Transmitted — Displays the number of all ISDP PDUs transmitted. • ISDPv1 Packets Received — Displays the number of v1 ISDP PDUs received. •...
Page 286 Configuring System Information...
Page 287: Configuring Switching Information
Configuring Switching Information Overview This section provides all system operations and general information for network security, ports, address tables, GARP , VLANs, Spanning Tree, Port Aggregation, and Multicast Support. The topics covered in this section include: • Configuring Network Security •...
Page 288: Configuring Network Security
Configuring Network Security Use the Network Security menu page to set network security through port-based authentication, locked ports, DHCP Filtering configuration, and access control lists. To display the Network Security page, click Switching → Network Security in the tree view. The Network Security menu page contains links to the following features: •...
Page 289 Figure 7-1. Dot1x Authentication The Dot1x Authentication page contains the following fields: Global Parameters • Administrative Mode— Permits 802.1X port-based authentication on the switch. The possible field values are: Enable — Enables 802.1X authentication on the switch. – – Disable — Disables 802.1X authentication on the switch. •...
Page 290 None — Indicates that no authentication method is used. – – RADIUS — Indicates that authentication occurs at the RADIUS server. Interface Parameters • Interface — Selects the Unit and Port to be affected. • Guest VLAN — Enables or disables the guest VLAN mode on this interface. To enable the guest VLAN, select the VLAN ID to use as the guest VLAN.
Page 291 Max Users — Set the maximum number of clients supported on the port when MAC-based 802.1X • authentication is enabled on the port. The number of users allowed to authenticate per port ranges from 1 to 16. • Termination Cause — Displays the reason for termination. •...
Page 292 Figure 7-2. Dot1x Authentication Table 3. Use the horizontal scroll bar or click the right arrow at the bottom of the screen to display the right side of the table. 4. Use the Unit drop-down menu to view the Dot1x Authentication Table for other units in the stack, if they exist.
Page 293 Changing Administrative Port Control 1. Open the Dot1x Authentication page. 2. Click Show All. The Dot1x Authentication Table displays. 3. Scroll to the right side of the table and select the Edit check box for each port to configure. Change Admin Port Control to Authorized, Unauthorized, or Automode as needed for chosen ports.
Page 294: Authenticated Users
Table 7-1. 802.1x Authentication Commands CLI Command Description dot1x mac-auth-bypass Enables MAB on an interface. dot1x max-req Sets the maximum number of times the switch sends an EAP-request frame to the client before restarting the authentication process. dot1x max-users Sets the maximum number of clients supported on the port when MAC-based 802.1X authentication is enabled on the port.
Page 295: Port Security
Figure 7-3. Network Security Authenticated Users The Authenticated Users page contains the following fields: Port — Displays the port used for authentication. • • User Name — Specifies a user from the list of users authorized via the RADIUS Server. Displaying Authenticated Users Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide...
Page 296 Figure 7-4. Network Security Port Security The Port Security page contains the following fields: • Interface — Displays the unit and port or the LAG on which the locked port security is enabled. • Set Port — Enables locking the port or LAG. When a port is locked, all the current addresses that had been dynamically learned by the switch on that port are removed from the list.
Page 297 Figure 7-5. Port Security Table 3. Use the Unit drop-down menu to view the Port Security Table for other units in the stack, if they exist. Defining Multiple Locked Ports 1. Open the Port Security page. 2. Click Show All. The Port Security Table displays.
Page 298: Ip Acl Configuration
IP ACL Configuration Access control lists (ACL) allow network managers to define classification actions and rules for specific ingress ports. Your switch supports up to 100 ACLs. However, the hardware resources are limited and may not be able to fully support 100 completely populated ACLs. Packets can be filtered on ingress or egress.
Page 299 Figure 7-7. Add IP ACL 3. Enter the desired ACL Name in the related entry field. 4. Click Apply Changes. The IP-based ACL is added, and the device is updated. Removing an IP-based ACL 1. Open the IP ACL Configuration page, and select the ACL to be deleted from the IP ACL drop-down menu.
Page 300: Ip Acl Rule Configuration
The following table summarizes the equivalent CLI commands you use to configure an IP-based ACL. Table 7-4. IP ACL Commands CLI Command Description access-list Creates an Access Control List show ip access-lists Displays access lists applied on interfaces and all rules that are defined for the access lists.
Page 301 Figure 7-9. IP ACL - Rule Configuration (Standard) The IP ACL Rule Configuration page contains the following fields: • IP ACL Name — Specifies an existing IP ACL. To set up a new IP ACL use the "IP ACL Configuration" page. •...
Page 302 Redirect Interface — Select from the drop-down list of interfaces one that packets meeting this rule • can be redirected to. Mirror Interface — Select from the drop-down list of interfaces one that packets meeting this rule can • be mirrored to. •...
Page 303 Match to Port — Click to add a user-defined Port ID. – • IP Precedence — Matches the packet IP Precedence value to the rule when checked. Enter the IP Precedence value to match. Either the DSCP value or the IP Precedence value is used to match packets to ACLs.
Page 304: Mac Acl Configuration
Table 7-5. IP Access Rule Command CLI Command Description access-list Use this command to specify rules for the IP access list. show ip access-lists Displays an Access Control List (ACL) and all of the rules that are defined for the ACL. MAC ACL Configuration The MAC ACL Configuration page allows network administrators to define a MAC-based ACL.
Page 305 Figure 7-11. Add MAC ACL 3. Enter the desired MAC ACL Name in the entry field. 4. Click Apply Changes. The MAC-based ACL is added, and the device is updated. Removing a MAC-based ACL 1. Open the MAC ACL Configuration page, and select the ACL to be removed from the MAC ACL drop-down menu.
Page 306: Mac Acl Rule Configuration
Table 7-6. MAC ACL Commands CLI Command Description mac access-list Configures conditions required to allow traffic based on MAC addresses. show mac access-lists Displays a MAC access list and all of the rules that are defined for the ACL. MAC ACL Rule Configuration Use the MAC ACL Rule Configuration page to define rules for MAC-based ACLs.
Page 307 Rule Id — Selects or creates a user-defined ACLs. Enter an existing Rule ID, or create a new one by • selecting Create from the drop-down menu and entering the desired new Rule ID in the field next to it. The new ID is created once Apply Changes is clicked. •...
Page 308 1. Open the MAC ACL Rule Configuration page. 2. Select the desired ACL from the MAC ACL drop-down menu. 3. Select the desired rule from the Rule ID drop-down menu. 4. Modify the remaining fields as needed. 5. Click Apply Changes. The MAC-based rule is modified, and the device is updated.
Page 309: Ipv6 Access Control Lists
Table 7-7. MAC ACL Commands CLI Command Description deny|permit Use the deny command to deny traffic if the conditions defined in the deny statement are matched. Use the permit command in Mac-Access- List Configuration mode to allow traffic if the conditions defined in the permit statement are matched.
Page 310 Figure 7-14. IPv6 ACL Configuration The IPv6 ACL Configuration page contains the following fields: • IPv6 ACL Name — Specify an IPv6 ACL name string which includes alphanumeric characters only. The name must start with an alphabetic character. This field displays the name of the currently selected IPv6 ACL if any ACLs have already been created.
Page 311 Displaying IPv6 ACLs 1. Open the IPv6 ACL Configuration page. 2. Click Show All. All IP ACLs and their related data display in the IPv6 ACL Table. Figure 7-16. IPv6 ACL Table The Summary page has the following fields: • IPv6 ACL Name —...
Page 312: Ipv6 Acl Rule Configuration
IPv6 ACL Rule Configuration Use the IPv6 ACL Rule Configuration page to define rules for IPv6-based ACLs. The access list definition includes rules that specify whether traffic matching the criteria is forwarded normally or discarded. Additionally, you can specify to assign traffic to a particular queue, filter on some traffic, change VLAN tag, shut down a port, and/or redirect the traffic to a particular port.
Page 313 Rule ID — Select an existing Rule ID to modify or select Create Rule to configure a new ACL Rule. To • create a new rule, enter a rule ID from 1–127 in the available field. New rules cannot be created if the maximum number of rules has been reached.
Page 314: Acl Bind Configuration
– Select one of the keyword from the list: DOMAIN, ECHO, FTP, FTPDATA, HTTP, SMTP, SNMP, TELNET, TFTP, and WWW. Each of these values translates into its equivalent port number, which is used as both the start and end of the port range. •...
Page 315 NOTE: Binding an ACL in the egress direction is not supported by the PowerConnect 6200 Series switches. IP ACLs may be bound to an Ethernet interface in the egress direction. To display the ACL Bind Configuration page, click Switching → Network Security → Access Control Lists →...
Page 316 Assigning an ACL to an Interface 1. Open the ACL Bind Configuration page. 2. In the Interface field, specify the Unit and Port, LAG, or VLAN to configure. 3. Select the IP, IPv6, or MAC ACL in the Select an ACL field. NOTE: Whenever an ACL is assigned on a port, LAG, or VLAN, flows from that ingress interface that do not match the ACL are matched to the default rule, which is Drop unmatched packets.
Page 317: Configuring Ports
Configuring Ports The Ports menu page provides links for configuring port functionality, including advanced features such as storm control and port mirroring, and for performing virtual port tests. To display the page, click Switching → Ports in the tree view. The Ports menu page contains links to the following features: •...
Page 318 Enabling Ingress Backpressure 1. Open the Ports Global Parameters page. 2. Select Enable from the drop-down menu in the Flow Control field. 3. Click Apply Changes. 4. Ingress backpressure is now enabled. Configuring Flow Control Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide •...
Page 319: Port Configuration
Port Configuration Use the Port Configuration page to define port parameters. To display the Port Configuration page, click Switching → Ports → Port Configuration in the tree view. Figure 7-20. Port Configuration The Port Configuration page contains the following fields: •...
Page 320 Admin Duplex — Specifies the port duplex mode. • – Full — Indicates that the interface supports transmission between the switch and the client in both directions simultaneously. – Half — Indicates that the interface supports transmission between the switch and the client in only one direction at a time.
Page 321 2. Click Show All. The Port Configuration Table displays. Figure 7-21. Port Configuration Table 3. Use the Unit drop-down menu to view the Port Configuration Table for other units in the stack, if they exist. Copying Port Configuration Settings 1. Open the Port Configuration page. 2.
Page 322: Protected Port Configuration
Configuring Ports with CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • Ethernet Configuration Commands The following table summarizes the equivalent CLI commands for this feature. Table 7-12. Port Configuration Commands CLI Command Description description...
Page 323 Figure 7-22. Protected Port Configuration The Protected Port Configuration page contains the following fields: • Port — Specifies the Unit and Port for which port parameters are defined. • Protected Group ID — Drop-down menu used to assign a port to Group 0, 1, or 2. Remove Group Name —...
Page 324: Lag Configuration
4. Use the Unit drop-down menu to view the Protected Port Summary table for other units in the stack, if they exist. Adding Protected Port Groups 1. Open the Protected Port Configuration page. 2. Click Add. The Add Protected Group displays. Figure 7-24.
Page 325 To display the LAG Configuration page, click Switching → Ports → LAG Configuration in the tree view. Figure 7-25. LAG Configuration The LAG Configuration page contains the following fields: • LAG — Contains a list of LAG numbers. • LAG Type — The port types that comprise the LAG. •...
Page 326 Figure 7-26. LAG Configuration Table Editing LAG Parameters 1. Open the LAG Configuration page. 2. Click Show All. 3. The LAG Configuration Table displays. 4. Check Edit for all LAGs to be modified. 5. Admin Status and Description can now be edited as needed. 6.
Page 327: Storm Control
Table 7-14. LAG Commands CLI Command Description channel-group Configure a port-to-port channel. description Adds a description to a LAG . hashing-mode Sets the hashing algorithm on trunk ports. interface port-channel Configure a port-channel type and enters port-channel configuration mode. interface range port-channel Use this command in Global Configuration mode to execute a command on multiple port channels at the same time.
Page 328 The Storm Control page contains the following fields: • Port — Specifies the Unit and Port for which storm control is enabled. • Storm Control Mode — Specifies the mode of broadcast affected by storm control. – Broadcast — If the rate of L2 broadcast traffic ingressing on an interface increases beyond the configured threshold, the traffic will be dropped.
Page 329 Modifying Broadcast Control 1. Open the Storm Control interface. 2. Click Show All. The Storm Control Settings Table displays. 3. Check Edit for each port that Broadcast Control is to be modified. 4. Edit Broadcast Control as needed. 5. Click Apply Changes. The storm control port parameters are saved to the switch.
Page 330: Configuring Traffic Mirroring
Configuring Traffic Mirroring Traffic mirroring allows the user to configure the switch to send copies of packets on a port that is being mirrored to the mirroring port. The mirroring can be port-based or flow-based. Use the Traffic Mirroring menu page to define port mirroring sessions and configure flow-based mirroring.
Page 331 The Port Mirroring page contains the following fields: • Session — Specifies the monitoring session. • Admin Mode — Enables or Disables the port mirroring. • Destination Port — Select the port to which port traffic may be copied. • Reset Session —...
Page 332: Flow Based Mirroring
Modifying a Port Mirroring Session 1. Open the Port Mirroring page. 2. Modify the fields. 3. Click Apply Changes. The port mirroring session fields are modified, and the device is updated. Removing a Port Mirroring Session 1. Open the Port Mirroring page. 2.
Page 333 Figure 7-31. Flow Based Mirroring The Flow Based Mirroring page contains the following fields: • Policy Name — Selects policy to associate with a traffic class. Policy Name is defined using the DiffServ "Policy Configuration" web page. Member Classes — Selects the traffic class associated with this policy. Member Class is defined using •...
Page 334: Configuring Address Tables
Table 7-17. Flow-based Mirroring Commands CLI Command Description diffserv Sets the DiffServ operational mode to active. policy-map Establishes a new DiffServ policy mirror Mirrors all the data that matches a policy to the specified destination port. Configuring Address Tables MAC addresses are stored in either the static or dynamic address table. Static addresses are defined by you.
Page 335 Delete on Timeout — The MAC address is deleted when a timeout occurs. – Adding a Static MAC Address 1. Open the Static MAC Address page 2. Click Add. The Add Static MAC Address page displays. Figure 7-33. Adding Static MAC Address 3.
Page 336: Dynamic Address Table
Figure 7-34. Static MAC Address Table Removing a Static Address from the Static Address Table 1. Open the Static MAC Address page. 2. Click Show All to display the Static MAC Address Table. 3. Check the Remove check box for the address to be removed. 4.
Page 337 Figure 7-35. Dynamic Address Table The Dynamic Address Table contains the following fields: Address Aging (10–1000000) — Specifies aging time in seconds before a dynamic MAC address is • erased. The default value is 300 seconds. • Clear Table — Clears all dynamic MAC address data from the table when checked and Apply Changes is clicked.
Page 338 VLAN ID — Displays the VLAN Tag value. • • MAC Address— Displays the MAC address. • Interface — Displays the port number. Defining the Aging Time 1. Open the Dynamic Address Table page. 2. Define the Address Aging field. 3.
Page 339: Configuring Garp
Configuring GARP Generic Attribute Registration Protocol (GARP) is a general-purpose protocol that registers any network connectivity or membership-style information. GARP defines a set of switches interested in a given network attribute, such as VLAN or multicast address. The GARP Timers page is accessible from the GARP menu page.
Page 340 Defining GARP Timers 1. Open the GARP Timers page. 2. Complete the fields. 3. Click Apply Changes. The parameters are copied to the selected ports or LAGs in the GARP Timers Table, and the device is updated. Displaying Parameters in the GARP Timers Table 1.
Page 341 Modifying GARP Timers Settings for Multiple Ports 1. Open the GARP Timers page. 2. Click Show All. The GARP Timers Table displays. 3. Click Edit for each Interface to modify. 4. Edit the GARP Timers fields as needed. 5. Click Apply Changes. The GARP Timers settings are modified, and the device is updated.
Page 342: Configuring The Spanning Tree Protocol
Configuring the Spanning Tree Protocol The Spanning Tree Protocol (STP) provides a tree topology for any arrangement of bridges. STP also provides one path between end stations on a network, eliminating loops. Spanning tree versions supported include Classic STP, Multiple STP , and Rapid STP . Classic STP provides a single path between end stations, avoiding and eliminating loops.
Page 343 Figure 7-38. Spanning Tree Global Settings The STP Global Settings page contains the following fields: • Spanning Tree Status — Enables or disables RSTP, STP, or MSTP on the switch. • STP Operation Mode — Specifies the STP mode by which STP is enabled on the switch. Possible field values are: Classic STP , Rapid STP, and Multiple STP.
Page 344 BPDU Protection — Disables a port in case a new switch tries to enter the already existing topology of • STP. This keeps switches not originally part of an STP from influencing the STP topology. If set to Enable, when a BPDU is received on an edge port, that port is disabled. Once the port has been disabled it requires manual-intervention to be re-enabled.
Page 345 Table 7-21. Spanning Tree Global Commands CLI Command Description spanning-tree Enables spanning-tree functionality. spanning-tree bpdu flooding Allows flooding of BPDUs received on nonspanning-tree ports to all other non-spanning-tree ports. spanning-tree bpdu-protection Enables BPDU protection on a switch. spanning-tree forward-time Configures the spanning-tree bridge forward time, which is the amount of time a port remains in the listening and learning states before entering the forwarding state.
Page 346: Stp Port Settings
STP Port Settings Use the STP Port Settings page to assign STP properties to individual ports. To display the STP Port Settings page, click Switching → Spanning Tree → STP Port Settings in the tree view. Figure 7-39. STP Port Settings The STP Port Settings page contains the following fields: •...
Page 347 Blocking — The port is currently blocked and cannot be used to forward traffic or learn MAC – addresses. Listening — The port is currently in the listening mode. The port cannot forward traffic nor can it – learn MAC addresses. –...
Page 348: Stp Lag Settings
Displaying the STP Port Table and Configuring STP Port Settings 1. Open the STP Port Settings page. 2. Click Show All. The STP Port Table displays. Figure 7-40. STP Port Table 3. Use the Unit drop-down menu to view the STP Port Table for other units in the stack, if they exist. 4.
Page 349 To display the STP LAG Settings page, click Switching → Spanning Tree → STP LAG Settings in the tree view. Figure 7-41. STP LAG Settings The STP LAG Settings page contains the following fields: Select a LAG — Specifies the LAG number for which you want to modify STP settings. •...
Page 350 Learning — The LAG is in the learning mode and cannot forward traffic, but it can learn new – MAC addresses. Forwarding — The LAG is currently in the forwarding mode, and it can forward traffic and learn – new MAC addresses. –...
Page 351: Rapid Spanning Tree
Figure 7-42. STP LAG Table 3. To change the STP settings for one or more LAGs, select the Edit option for the LAG(s), configure the desired settings, and then click Apply Changes. Defining STP LAG Settings Using CLI Commands See "Configuring Spanning Tree Port Settings Using CLI Commands" on page 348. Rapid Spanning Tree Rapid Spanning Tree Protocol (RSTP) detects and uses network topologies that allow a faster convergence of the spanning tree without creating forwarding loops.
Page 352: Mstp Settings
Mode — Displays the administrative mode and if its enabled or disabled. • • Fast Link Operational Status — Indicates if Fast Link is enabled or disabled for the port or LAG. If Fast Link is enabled for a port, the port is automatically placed in the forwarding state. This setting can be changed from the "STP Port Settings"...
Page 353 To display the MSTP Settings page, click Switching → Spanning Tree → MSTP Settings in the tree view. Figure 7-45. MSTP Settings The MSTP Settings page contains the following fields divided into two sections, Global Settings and Instance Settings: Region Name (1–32 characters) — Specifies a user-defined MST region name. •...
Page 354 Root Bridge ID of the root bridge which is the one with the lowest path cost. • • Root Port — Indicates the root port of the selected instance. • Root Path Cost — Indicates the path cost of the selected instance. Modifying MSTP Settings: 1.
Page 355: Mstp Interface Settings
Table 7-23. MST CLI Command Description instance Maps VLANS to an MST instance. name Define the configuration name for an MST instance. revision Identifies the configuration revision number of an MST instance. spanning-tree max-hops Sets the MSTP Max Hops parameter to a new value for the common and internal spanning tree.
Page 356 Port State — Indicates whether the port is enabled or disabled in the specific instance. • • Port Type — Indicates whether MSTP treats the port as a point-to-point port or a port connected to a hub and whether the port is internal to the MST region or a boundary port. If the port is a boundary port, it also indicates whether the switch on the other side of the link is working in RSTP or STP mode •...
Page 357 Displaying the MSTP Interface Settings Table 1. Open the MSTP Settings page. 2. Click Show All. The MSTP Interface Table displays. Figure 7-48. MSTP Interface Table 3. Use the Unit drop-down menu to view the MSTP Interface Table for other units in the stack, if they exist.
Page 358: Configuring Vlans
Table 7-24. MST Port Commands CLI Command Description spanning-tree mst 0 external-cost Sets the external cost for the common spanning tree. spanning-tree mst cost Configure the path cost for multiple spanning tree (MST) calculations. spanning-tree mst port-priority Configures port priority. Configuring VLANs Adding Virtual LAN (VLAN) support to a Layer 2 switch offers some of the benefits of both bridging and routing.
Page 359 Valid VLANs that can be created are 2–4093. VLAN 4094 is reserved. To display the VLAN Membership page, click Switching → VLAN → VLAN Membership in the tree view. Figure 7-49. VLAN Membership The VLAN Membership page is divided into two sections. The top section contains fields that define the entire VLAN’s membership.
Page 360 Dynamic — Indicates the VLAN was dynamically created through GVRP. – – Static — Indicates the VLAN is user-defined and may be modified. – Default — Indicates the VLAN is the default VLAN. • Remove VLAN — Removes the displayed VLAN from the VLAN Membership Table when checked. The VLAN Membership tables display which Ports and LAGs are members of the VLAN, and whether they’re tagged (T), untagged (U), or forbidden (F).
Page 361 Figure 7-50. Add VLAN 3. Enter a new VLAN ID and VLAN Name. 4. Click Apply Changes. The new VLAN is added, and the device is updated. Assigning VLAN Membership to a Port or LAG 1. Open the VLAN Membership page. 2.
Page 362: Double Vlan
The selected VLAN is removed, and the device is updated. Configuring VLAN Membership Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • Virtual LAN Routing Commands The following table summarizes the equivalent CLI commands for this feature.
Page 363 Figure 7-51. Double VLAN Global Configuration The Double VLAN Global Configuration page contains the following fields: • EtherType — The two-byte hex Ethertype to be used as the first 16 bits of the Double VLAN tag: 802.1Q — Commonly used tag representing 0x8100. This value is supported by several network –...
Page 364 Figure 7-52. Double VLAN Interface Configuration The Double VLAN Interface Configuration page contains the following fields: • Interface — Select the port or LAG for which you want to display or configure data. • Interface Mode — Enables or disables double VLAN tagging on the selected interface. The default value is Disable.
Page 365 Figure 7-53. Double VLAN Port Parameters Table Copying Double VLAN Parameters 1. Open the Double VLAN Interface Configuration page. 2. Click Show All. The Double VLAN Port Parameters Table displays. 3. Specify the Port you are copying from in Copy Parameters From. 4.
Page 366: Vlan Port Settings
Table 7-27. Double VLAN Commands CLI Command Description dvlan-tunnel ethertype Configures the EtherType for the interface. mode dvlan-tunnel Enables Double VLAN tunneling on the specified interface show dvlan-tunnel Displays all interfaces enabled for Double VLAN Tunneling. show dvlan-tunnel interface Displays detailed information about Double VLAN Tunneling for the specified interface.
Page 367 General — The port belongs to VLANs, and each VLAN is user-defined as tagged or untagged – (full 802.1Q mode). Access — The port belongs to a single untagged VLAN. When a port is in Access mode, the packet – types which are accepted on the port (packet type) cannot be designated.
Page 368: Vlan Lag Settings
NOTE: If an Access port is chosen, the packet types that are accepted on the port (packet type) cannot be designated. It is also not possible to enable or disable ingress filtering on an access port. 3. Use the Unit drop-down menu to view the VLAN Port Table for other units in the stack, if they exist. Modifying Settings for Multiple Ports 1.
Page 369 Figure 7-56. VLAN LAG Settings The VLAN LAG Settings page contains the following fields: • LAG — Specifies the LAG number included in the VLAN. • Port VLAN Mode — Indicates the Port VLAN mode for the LAG. Possible values are: –...
Page 370: Bind Mac To Vlan
The VLAN LAG parameters are defined, and the device is updated. Displaying the VLAN LAG Table 1. Open the VLAN LAG Settings page. 2. Click Show All. The VLAN LAG Table displays. Figure 7-57. VLAN LAG Table Modifying Settings for Multiple LAGs 1.
Page 371 To display the Bind MAC to VLAN page, click Switching → VLAN → Bind MAC to VLAN in the tree view. Figure 7-58. Bind MAC to VLAN The Bind MAC to VLAN page contains the following fields: • MAC Address — Specifies MAC Address for a VLAN. •...
Page 372 Figure 7-59. MAC - VLAN Bind Table Modifying VLAN for Multiple MAC Addresses 1. Open the Bind MAC to VLAN page. 2. Click Show All. The MAC - VLAN Bind Table displays. 3. Click Edit for each MAC Address with a VLAN to modify. 4.
Page 373: Bind Ip Subnet To Vlan
Table 7-29. MAC - VLAN Binding Commands CLI Command Description vlan association mac Associates a MAC address to a VLAN. show vlan association mac Displays the VLAN associated with a specific configured MAC address. Bind IP Subnet to VLAN An IP Subnet to VLAN mapping is defined by configuring an entry in the IP Subnet to VLAN table, an entry is specified through a source IP address, network mask, and the desired VLAN ID.
Page 374 4. Enter the VLAN ID to which the IP address and subnet mask are assigned. 5. Click Apply Changes. The listed VLAN and IP Subnet are now bound, and the device is updated. Displaying the IP Subnet - VLAN Bind Table 1.
Page 375: Protocol Group
Binding IP Subnets to VLANs Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • VLAN Commands The following table summarizes the equivalent CLI commands for this feature. Table 7-30.
Page 376 Figure 7-62. Protocol Group The Protocol Group page contains the following fields: • Protocol Group — Displays the name associated with the protocol group ID (up to 16 characters). Create a new group by clicking the Add button. • Protocol — Specifies protocols (in hexadecimal format in the range 0x0600 to 0xffff) associated with this group.
Page 377 Adding a Protocol Group 1. Open the Protocol Group page. 2. Click Add. The Add Protocol Group page displays. Figure 7-63. Add Protocol Group 3. Enter a new Protocol Group Name and a VLAN ID to associate with this group. 4.
Page 378 8. Click Apply Changes. The VLAN protocol group parameters are modified, and the device is updated. Removing Multiple Protocols From the Protocol Group Table 1. Open the Protocol Group page. 2. Click Show All. The Protocol Group Table displays. Figure 7-64. Protocol Group Table 3.
Page 379: Gvrp Parameters
GVRP Parameters The GARP VLAN Registration Protocol provides a mechanism that allows networking switches to dynamically register (and de-register) VLAN membership information with the MAC networking switches attached to the same segment, and for that information to be disseminated across all networking switches in the bridged LAN that support GVRP.
Page 380 2. Select Enable in the GVRP Global Status field. 3. Click Apply Changes. GVRP is enabled on the switch. Enabling VLAN Registration Through GVRP 1. Open the GVRP Global Parameters page. 2. Select Enable in the GVRP Global Status field for the desired interface. 3.
Page 381 3. Specify the Port or LAG you are copying from in Copy Parameters From. 4. Click Copy To for each Interface/LAG to receive these parameters. 5. Click Apply Changes. The GVRP Port Parameter settings are copied, and the device is updated. Modifying GVRP Parameters for Multiple Ports 1.
Page 382: Configuring Voice Vlan
Configuring Voice VLAN The Voice VLAN feature enables switch ports to carry voice traffic with defined priority. The priority level enables the separation of voice and data traffic coming onto the port. A primary benefit of using Voice VLAN is to ensure that the sound quality of an IP phone is safeguarded from deteriorating when the data traffic on the port is high.
Page 383 None — Allow the IP phone to use its own configuration to send untagged voice traffic. – – VLAN ID — Configure VLAN tagging for the voice traffic. The VLAN ID range is 1–4093. – dot1p — Configure Voice VLAN 802.1p priority tagging for voice traffic. The priority tag range is 0–7.
Page 384: Aggregating Ports
Aggregating Ports Link Aggregation allows one or more full-duplex (FDX) Ethernet links to be aggregated together to form a Link Aggregation Group (LAG). This allows the networking switch to treat the LAG as if it is a single link. Static LAGs are supported. When a port is added to a LAG as a static member, it neither transmits nor receives LACPDUs.
Page 385 Global Parameters • LACP System Priority (1–65535) — Indicates the LACP priority value for global settings. The default value is 1. Port Parameters • Interface— Specifies the unit and port number to which timeout and priority values are assigned. • LACP Port Priority (1–65535) —...
Page 386: Lag Membership
Modifying LACP Parameters for Multiple Ports 1. Open the LACP Parameters page. 2. Click Show All. The LACP Parameters Table displays. 3. Click Edit for each Port to modify. 4. Edit the fields as needed. 5. Click Apply Changes. The LACP Parameter settings are modified, and the device is updated. Configuring LACP Parameters Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide...
Page 387 Figure 7-70. LAG Membership The LAG Membership page contains a table with the following fields: • LACP — Aggregates a LAG port to LACP membership. For ports with a number in the LAG row, you can click in the LACP row to toggle LACP "on." Each click toggles between L (LACP) and blank (no LACP).
Page 388: Assigning Ports To Lags And Lacps Using Cli Commands
Assigning Ports to LAGs and LACPs Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • Port Channel Commands The following table summarizes the equivalent CLI commands for this feature. Table 7-35.
Page 389: Lag Hash Summary
– Source/Destination MAC, VLAN, EtherType, source MODID/port – Source/Destination IP and source/destination TCP/UDP port Configuring the LAG Hash 1. Open the LAG Hash Configuration page. 2. Select the LAG to configure and the hash algorithm to assign to the LAG. 3.
Page 390 Figure 7-72. LAG Hash Summary The LAG Hash Summary page contains a table with the following fields: • LAGs — Lists the LAG numbers. • Hash Algorithm Type — Shows the type of HASH algorithm for unicast traffic flows that is associated with the LAG.
Page 391: Managing Multicast Support
Managing Multicast Support The Layer 2 Multicast Forwarding Database is used by the switch to make forwarding decisions for packets that arrive with a multicast destination MAC address. By limiting multicasts to only certain ports in the switch, traffic is prevented from going to parts of the network where that traffic is unnecessary. When a packet enters the switch, the destination MAC address is combined with the VLAN ID and a search is performed in the Layer 2 Forwarding database.
Page 392: Bridge Multicast Group
The Multicast Global Parameters page contains the following field: • Bridge Multicast Filtering — Enables or disables bridge Multicast filtering. The default value is disabled. • IGMP Snooping Status — Enables or disables IGMP snooping. The default value is disabled. •...
Page 393 Figure 7-74. Bridge Multicast Group The Bridge Multicast Group page contains the following fields: • VLAN ID — Selects the VLAN to add a multicast group to or to modify ports on an existing multicast group. • Bridge Multicast Address — Identifies the multicast group MAC address/IP address associated with the selected VLAN ID.
Page 394 LAGs — Displays and assigns multicast group membership to LAGs. To assign membership, click in • Static for a specific LAG. Each click toggles between S, F, and blank. See the following table for definitions. The following table contains definitions for port/LAG IGMP management settings. Table 7-39.
Page 395 3. Select the VLAN ID from the drop-down menu. 4. Define the New Bridge Multicast IP or MAC address. 5. In the Bridge Multicast Group tables, assign a setting by clicking in the Static row for a specific port/LAG. Each click toggles between S, F, and blank. (not a member). 6.
Page 396: Bridge Multicast Forward
Table 7-40. Bridge Multicast Groups Commands CLI Command Description bridge multicast address Register MAClayer Multicast addresses to the bridge table and adds ports to the group statically. bridge multicast forbidden address Forbids adding a specific Multicast address to specific ports. show bridge multicast address-table Displays Multicast MAC address table information.
Page 397: Igmp Snooping
Changing the Bridge Multicast Forwarding Mode. 1. Open the Bridge Multicast Forward page. 2. Select the VLAN ID from the drop-down menu. 3. Select the Forwarding Mode to assign the VLAN from the drop-down menu. 4. Click Apply Changes. The VLAN is updated with the Forwarding Mode setting, and the device is updated. Configuring Bridge Multicast Forwarding Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide...
Page 398: General Igmp Snooping
To display the IGMP Snooping page, click Switching → Multicast Support → IGMP Snooping in the tree view. Use this page to go to the following features: • General IGMP Snooping • Global Querier Configuration • VLAN Querier • VLAN Querier Status •...
Page 399 Leave Timeout — Specifies time, in seconds, after a port leave message is received before the entry is • aged out. Enter an amount of time for the timeout period, or click Immediate Leave to specify an immediate timeout. The default timeout is 10 seconds. Enabling IGMP Snooping on an Interface 1.
Page 400 5. Click Apply Changes. The IGMP Snooping settings are modified, and the device is updated. Copying IGMP Snooping Settings to Multiple Ports, LAGs, or VLANs 1. Open the General IGMP snooping page. 2. Click Show All. The IGMP Snooping Table displays. 3.
Page 401: Global Querier Configuration
(continued) Table 7-42. IGMP Snooping Commands CLI Command Description ip igmp snooping maxresponse Sets the IGMP Maximum Response time on a particular VLAN. ip igmp snooping mcrtrexpiretime Sets the Multicast Router Present Expiration time. Global Querier Configuration Use the Global Querier Configuration page to configure the parameters for the IGMP Snooping Querier.
Page 402: Vlan Querier
Configuring IGMP Snooping Querier Settings with CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: • IGMP Snooping Querier Commands The following table summarizes the equivalent CLI commands for this feature. Table 7-43.
Page 403 The VLAN Querier page contains the following fields: • VLAN ID — Specifies the VLAN for the IGMP Snooping Querier configuration. • VLAN Mode — Enables or disables the IGMP Snooping Querier on the VLAN selected in the VLAN ID field. •...
Page 404: Vlan Querier Status
Figure 7-82. VLAN Querier Summary Table Configuring VLAN Querier Settings with CLI Commands See "Configuring IGMP Snooping Querier Settings with CLI Commands" on page 402. VLAN Querier Status Use the VLAN Querier Status page to view the IGMP Snooping Querier settings for individual VLANs. To display the VLAN Querier Status page, click Switching →...
Page 405: Mfdb Igmp Snooping Table
Querier Election Participate Mode — Shows whether the mode is enabled or disabled. When this • mode is disabled, upon seeing another querier of same version in the VLAN, the Snooping Querier transitions to non-querier state. When this mode is enabled, the Snooping Querier participates in querier election, where in the lowest IP address wins the querier election and operates as the querier in that VLAN.
Page 406 Figure 7-84. MFDB IGMP Snooping Table The MFDB IGMP Snooping Table page contains the following fields: • VLAN — Displays the VLAN ID associated with an IGMP group entry in the MFDB table. MAC Address — Displays the MAC Address associated with an IGMP group entry in the MFDB table. •...
Page 407: Mrouter Status
MRouter Status Use the MRouter Status page to display the status of dynamically learned multicast router interfaces. To access this page, click Switching → Multicast Support → MRouter Status in the navigation tree. Figure 7-85. MRouter Status The MRouter Status page contains the following fields: •...
Page 408: Mld Snooping
MLD Snooping In IPv4, Layer 2 switches can use IGMP snooping to limit the flooding of multicast traffic by dynamically configuring Layer-2 interfaces so that multicast traffic is forwarded to only those interfaces associated with an IP multicast address. In IPv6, MLD snooping performs a similar function. With MLD snooping, IPv6 multicast data is selectively forwarded to a list of ports that want to receive the data instead of being flooded to all ports in a VLAN.
Page 409 • Auto Learn — Enable or Disable the ability of the switch to automatically learn about dynamic MLD ports. • Host Timeout — Specifies time (in seconds) before an MLD snooping entry is aged out. The range is from 2 to 3600 seconds. The default time is 260 seconds. •...
Page 410: Mld Snooping Global Querier Configuration
Configuring MLD Snooping with CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: • IPv6 MLD Snooping Commands The following table summarizes the equivalent CLI commands for this feature. Table 7-46.
Page 411 Figure 7-88. MLD Snooping Global Querier Configuration The MLD Snooping Global Querier Configuration page contains the following fields: • IP Address— Specifies the Snooping Querier IPv6 Address which will be used as the source address in periodic MLD queries. This address is used when no address is configured for the VLAN on which the query is being sent.
Page 412: Mld Snooping Vlan Querier
Table 7-47. MLD Snooping Querier Commands CLI Command Description ipv6 mld snooping querier Enables MLD Snooping Querier on the system or on a VLAN. ipv6 mld snooping querier address Sets the global MLD Snooping Querier address on the system or on a VLAN.
Page 413 VLAN Mode — Enables or disables the MLD Snooping Querier on the VLAN selected in the VLAN • ID field. Querier Election Participate Mode — Enables or disables the MLD participation in election mode by • the Snooping Querier. When this mode is disabled, upon seeing another querier of same version in the VLAN, the Snooping Querier transitions to non-querier state.
Page 414: Fmld Snooping Vlan Querier Status
Figure 7-91. VLAN Querier Summary Table Configuring VLAN Querier Settings with CLI Commands See "Configuring IGMP Snooping Querier Settings with CLI Commands" on page 402. FMLD Snooping VLAN Querier Status Use the VLAN Querier Status page to view the MLD Snooping Querier settings for individual VLANs. To display the VLAN Querier Status page, click Switching →...
Page 415: Mfdb Mld Snooping Table
Querier Election Participate Mode — Shows whether the mode is enabled or disabled. When this • mode is disabled, upon seeing another querier of same version in the VLAN, the Snooping Querier transitions to non-querier state. When this mode is enabled, the Snooping Querier participates in querier election, where in the lowest IP address wins the querier election and operates as the querier in that VLAN.
Page 416 To display the MFDB MLD Snooping Table page, click Switching → Multicast Support → MLD Snooping → MFDB MLD Snooping Table in the tree view. Figure 7-93. MFDB MLD Snooping Table The MFDB MLD Snooping Table page contains the following fields: •...
Page 417: Configuring The Link Layer Discovery Protocol (Lldp)
Configuring the Link Layer Discovery Protocol (LLDP) The IEEE 802.1AB defined standard, Link Layer Discovery Protocol (LLDP), allows stations residing on an 802 LAN to advertise major capabilities and physical descriptions. This information is viewed by a network manager to identify system topology and detect bad configurations on the LAN. LLDP is a one-way protocol;...
Page 418 Figure 7-94. LLDP Configuration The LLDP Configuration page contains the following fields: Global Settings • Transmit Interval (1–32768) — Specifies the interval at which frames are transmitted. The default is 30 seconds. • Hold Multiplier (2–10) — Specifies multiplier on the transmit interval to assign to TTL. Default is 4. •...
Page 419 Included TLVs — Selects TLV information to transmit. Choices include System Name, System • Capabilities, System Description, and Port Description. Modifying the LLDP Configuration 1. Open the LLDP Configuration page. 2. Define the fields as needed. 3. Click Apply Changes. LLDP parameters are saved to the switch.
Page 420: Lldp Statistics
Modifying LLDP Interface Settings for Multiple Ports 1. Open the LLDP Configuration page. 2. Click Show All. The LLDP Interface Settings Table displays. 3. Click Edit for each Unit/Port to modify. 4. Edit the LLDP Interface fields as needed. 5. Click Apply Changes. The LLDP Interface settings are modified, and the device is updated.
Page 421 Figure 7-96. LLDP Statistics Configuring Switching Information...
Page 422 The LLDP Statistics page displays the following statistics: System-wide Statistics • Last Update — Displays the value of system up time the last time a remote data entry was created, modified, or deleted. • Total Inserts — Displays the number of times a complete set of information advertised by a remote switch has been inserted into the table.
Page 423: Lldp Connections
Table 7-51. LLDP Statistics Commands CLI Command Description show lldp statistics Displays the current LLDP traffic statistics. clear lldp statistics Resets all LLDP statistics. LLDP Connections Use the LLDP Connections page to view the list of ports with LLDP enabled. Basic connection details are displayed.
Page 424 Viewing Details about the LLDP Connections 1. Open the LLDP Connections page. 2. Click the interface in the Local Interface field to view details about that device. The LLDP Connections - Detailed page for the device displays. Figure 7-98. Detailed LLDP Connections 3.
Page 425: Configuring Link Layer Discovery Protocol (Lldp) For Media Endpoint Devices
Table 7-52. LLDP Connections Commands CLI Command Description show lldp interface Displays the current LLDP interface state. show lldp local-device Displays the LLDP local data show lldp remote-device Displays the LLDP remote data clear lldp remote data Deletes all data from the remote data table. Configuring Link Layer Discovery Protocol (LLDP) for Media Endpoint Devices The IEEE 802.1AB standard, which describes the Link Layer Discovery Protocol (LLDP), formalizes the...
Page 426 To display the LLDP-MED Global Configuration page, click Switching→ LLDP → LLDP-MED → LLDP-MED Global Configuration in the tree view. Figure 7-99. LLDP-MED Global Configuration The LLDP-MED Global Configuration page contains the following fields: Fast Start Repeat Count — Specifies the number of LLDP PDUs that will be transmitted when the •...
Page 427: Lldp-Med Interface Configuration
Table 7-53. LLDP-MED Global Commands CLI Command Description lldp med faststartrepeatcount Sets the value of the fast start repeat count. show lldp med Displays a summary of the current LLDP MED configuration. lldp med confignotification Enables sending the topology change notifications. lldp med transmit-tlv Spruciest which optional TLVs in the LLDP MED set are transmitted in the LLDPDUs.
Page 428 Config Notification Mode — Specifies the LLDP-MED topology notification mode for the selected • interface. Transmit TLVs — Specifies which optional type length values (TLVs) in the LLDP-MED will be • transmitted in the LLDP PDUs frames for the selected interface. –...
Page 429: Lldp-Med Local Device Information
Table 7-54. LLDP MED Interface Commands CLI Command Description lldp med Enables/disables LLDP-MED on an interface. lldp med confignotification Enables sending the topology change notification. lldp med transmit-tlv Specifies which optional TLVs in the LLDP MED set are transmitted in the LLDPDUs. show lldp med interface Displays a summary of the current LLDP MED configuration for a specific interface.
Page 430 Network Policies Information — If a network policy TLV is present in the LLDP frames, the following • information displays: Network Application — Specifies the type of media application the local device advertises in the – policy. A port may receive one or more types, which include the following: •...
Page 431: Lldp-Med Remote Device Information
Available — Specifies available power sourcing equipment's power value in tenths of watts on the – port of local device. Source — Specifies power source of this port. – – Priority — Specifies PSE port power priority. • Extended PoE PD — If an extended PD TLV is present in LLDP frame, the following information displays: –...
Page 432 Figure 7-103. LLDP-MED Remote Device Information The LLDP-MED Remote Device Information page contains the following fields: • Local Interface — Specifies the list of all the ports on which LLDP-MED is enabled. • Capability Information — Specifies the supported and enabled capabilities that was received in MED TLV on this port.
Page 433 • softphonevoice • videoconferencing • streammingvideo • videosignalling – Vlan Id — Specifies the VLAN ID associated with a particular policy type. – Priority — Specifies the priority associated with a particular policy type. DSCP — Specifies the DSCP associated with a particular policy type. –...
Page 434 Viewing LLDP-MED Remote Device Information with CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: • LLDP Commands The following table summarizes the equivalent CLI commands for this feature. Table 7-56.
Page 435: Creating Link Dependencies
Creating Link Dependencies The link dependency feature provides the ability to enable or disable one or more ports based on the link state of one or more different ports. With link dependency enabled on a port, the link state of that port is dependent on the link state of another port.
Page 436 Figure 7-104. Link Dependency Summary The Link Dependency Summary page contains the following fields: • Group ID — The ID number of the group. • Member Ports — The list of member ports belonging to the group. Ports Depended On — The list of ports upon which the group depends. •...
Page 437 Figure 7-105. Link Dependency Group Configuration 3. To add a port to the Member Ports column, click the port in the Available Ports column, and then click the << button to the left of the Available Ports column. Ctrl + click to select multiple ports. 4.
Page 438: Dynamic Arp Inspection
Table 7-57. Link Dependency Commands CLI Command Description link-dependency group Enters the link-dependency mode to configure a link-dependency group. add ethernet Adds member Ethernet port(s) to the dependency list. add port-channel Adds member port-channels to the dependency list. depends-on ethernet Adds the dependent Ethernet ports list.
Page 439: Dai Interface Configuration
Figure 7-106. Dynamic ARP Inspection Global Configuration The Dynamic ARP Inspection Global Configuration page contains the following fields: • Validate Source MAC — Select the DAI Source MAC Validation Mode for the switch. If you select Enable, Sender MAC validation for the ARP packets will be enabled. The default is Disable. •...
Page 440 To display the DAI Interface Configuration page, click Switching → Dynamic ARP Inspection → DAI Interface Configuration in the navigation tree. Figure 7-107. Dynamic ARP Inspection Interface Configuration The Dynamic ARP Inspection Interface Configuration page contains the following fields: Port— Select the port or LAG for which data is to be displayed or configured. •...
Page 441: Dai Vlan Configuration
Table 7-59. Dynamic ARP Inspection Interface Commands CLI Command Description ip arp inspection limit Configures the rate limit and burst interval values for an interface. ip arp inspection trust Configures an interface as trusted for Dynamic ARP Inspection. show ip arp inspection interfaces Displays the Dynamic ARP Inspection configuration on all the DAI enabled interfaces.
Page 442: Dai Acl Configuration
Static Flag — Use this flag to determine whether the ARP packet needs validation using the DHCP • snooping database, in case the ARP ACL rules do not match. If Enabled, then the ARP Packet will be validated by the ARP ACL Rules only. If Disabled, then the ARP Packet needs further validation by using the DHCP Snooping entries.
Page 443: Dai Acl Rule Configuration
ARP ACL Name — Use this field to create a new ARP ACL for Dynamic ARP Inspection. The name • can be 1 to 31 alphanumeric characters in length. Displaying the DAI ACL Summary Table and Removing an Entry 1. Open the DAI ACL Configuration page. 2.
Page 444 Figure 7-111. Dynamic ARP Inspection Rule Configuration The Dynamic ARP Inspection Rule Configuration page contains the following fields: • ARP ACL Name — Select the ARP ACL for which information is to be displayed or configured. • Sender IP Address — To create a new rule for the selected ARP ACL, enter in this field the Sender IP Address match value for the ARP ACL.
Page 445: Dai Statistics
The following table summarizes the equivalent CLI commands for this feature. Table 7-62. Dynamic ARP Inspection Rule Command CLI Command Description permit ip host mac host Configures a rule for a valid IP address and MAC address combination used in ARP packet validation. DAI Statistics Use the DAI Statistics page to display the statistics per VLAN.
Page 446: Dhcp Snooping
Bad Source MAC — The number of ARP packets that were dropped by DAI because the sender MAC • address in the ARP packet did not match the source MAC in the Ethernet header. Bad Dest MAC — The number of ARP packets that were dropped by DAI because the target MAC •...
Page 447: Dhcp Snooping Configuration
The hardware identifies all incoming DHCP packets on ports where DHCP snooping is enabled. DHCP snooping is enabled on a port if (a) DHCP snooping is enabled globally, and (b) the port is a member of a VLAN where DHCP snooping is enabled. On untrusted ports, the hardware traps all incoming DHCP packets to the CPU.
Page 448: Dhcp Snooping Interface Configuration
Figure 7-114. DHCP Snooping Configuration The DHCP Snooping Configuration page contains the following fields: • DHCP Snooping Mode — Enables or disables the DHCP Snooping feature. The default is Disable. MAC Address Validation — Enables or disables the validation of sender MAC Address for DHCP •...
Page 449 To prevent DHCP packets from being used as a DoS attack when DHCP snooping is enabled, the snooping application enforces a rate limit for DHCP packets received on untrusted interfaces. DHCP snooping monitors the receive rate on each interface separately. If the receive rate exceeds the configuration limit, DHCP snooping brings down the interface.
Page 450 Logging Invalid Packets — If it is enabled, the DHCP snooping application logs invalid packets on • this interface. The default is Disable. Rate Limit — Specifies the rate limit value for DHCP snooping purposes. If the incoming rate of •...
Page 451: Dhcp Snooping Vlan Configuration
Table 7-66. DHCP Snooping Interface Configuration Commands CLI Command Description ip dhcp snooping limit Controls the maximum rate of DHCP messages. ip dhcp snooping log-invalid Enables logging of DHCP messages filtered by the DHCP Snooping application. ip dhcp snooping trust Configure a port as trusted for DHCP snooping.
Page 452: Dhcp Snooping Persistent Configuration
VLAN ID — Select the VLAN for which information to be displayed or configured for the DHCP • snooping application. DHCP Snooping Mode — Enables or disables the DHCP snooping feature on the selected VLAN. • The default is Disable. Displaying the DHCP Snooping VLAN Summary Table 1.
Page 453 Figure 7-119. DHCP Snooping Persistent Configuration The DHCP Snooping Persistent Configuration page contains the following fields: • Store Locally — Choose whether to store the DHCP snooping database locally in flash or on a remote system: – Local — Select the Local check box to store the DHCP binding database in the flash memory on the switch.
Page 454: Dhcp Snooping Static Bindings Configuration
Table 7-68. DHCP Snooping Persistent Database Commands CLI Command Description ip dhcp snooping database Configures the persistent location of the DHCP snooping database. ip dhcp snooping database write-delay Configures the interval in seconds at which the DHCP Snooping database will be stored in persistent storage. show ip dhcp snooping database Displays the DHCP snooping configuration related to the database persistence.
Page 455 Figure 7-120. States of Client Binding No Binding DISCOVER, REQUEST RELEASE, NACK DECLINE, NACK DISCOVER Tentative Complete Binding Binding To access the DHCP Snooping Static Bindings Configuration page, click Switching → DHCP Snooping → Static Bindings Configuration in the navigation tree. Figure 7-121.
Page 456: Dhcp Snooping Dynamic Bindings Summary
IP Address — Specify a valid IP address for the binding rule. • Displaying the DHCP Snooping Static Bindings Summary Table 1. Open the DHCP Snooping Static Bindings Configuration page. 2. Click Show All. The DHCP Snooping Static Bindings Summary table displays. Figure 7-122.
Page 457: Dhcp Snooping Statistics
Figure 7-123. DHCP Snooping Dynamic Bindings Summary The DHCP Snooping Dynamic Bindings Summary page contains the following fields: • Interface — Displays the interface. • MAC Address — Displays the MAC address. VLAN ID — Displays the VLAN ID. • •...
Page 458 Figure 7-124. DHCP Snooping Statistics The DHCP Snooping Statistics page contains the following fields: • Interface — Select the untrusted and snooping-enabled interface for which statistics are to be displayed. MAC Verify Failures — The number of DHCP messages that were filtered on an untrusted interface •...
Page 459: Dhcp Relay
DHCP Relay When a DHCP client and server are in the same IP subnet, they can directly connect to exchange IP address requests and replies. However, having a DHCP server on each subnet can be expensive and is often impractical. Alternatively, network infrastructure devices can be used to relay packets between a DHCP client and server on different subnets.
Page 460: Dhcp Relay Interface Configuration
Figure 7-125. DHCP Relay Global Configuration If you enable or disable the DHCP Relay feature, click Apply Changes to submit the changes to system. Configuring DHCP Relay With CLI Commands For information about the CLI commands that perform this function, refer to the following chapter in CLI Reference Guide •...
Page 461 Figure 7-126. DHCP Relay Interface Configuration The DHCP Relay Interface Configuration page contains the following fields: • Interface — Select the slot/port to configure this feature on. • DHCP Relay Mode — Enable or disable L2 Relay mode on the selected interface. •...
Page 462: Dhcp Relay Interface Statistics
Figure 7-127. DHCP Relay Interface Summary Configuring DHCP Relay With CLI Commands For information about the CLI commands that perform this function, refer to the following chapter in CLI Reference Guide • L2 DHCP Relay Agent Commands The following table summarizes the equivalent CLI commands for this feature. Table 7-73.
Page 463: Dhcp Relay Vlan Configuration
The DHCP Relay Interface Statistics page contains the following fields: • Interface — Select the slot/port to configure this feature on. • Untrusted Server Msgs With Option-82 — If the selected interface is configured in untrusted mode, this field shows the number of messages received on the interface from a DHCP server that contained Option 82 data.These messages are dropped.
Page 464 If the S-VID is enabled for DHCP Relay, then the packet can be forwarded. If the C-VID does not correspond to an S-VID that is enabled for DHCP Relay, then the switch will not relay the DHCP request packet. To access this page, click Switching → DHCP Relay → VLAN Configuration in the tree view. Figure 7-129.
Page 465 Displaying the DHCP Relay VLAN Summary Table 1. Open the DHCP Relay VLAN Configuration page. 2. Click Show All. The DHCP Relay VLAN Summary table displays. Figure 7-130. DHCP Relay VLAN Summary Configuring DHCP Relay With CLI Commands For information about the CLI commands that perform this function, refer to the following chapter in CLI Reference Guide •...
Page 466 Configuring Switching Information...
Page 467: Viewing Statistics And Remote Monitoring
Viewing Statistics and Remote Monitoring Overview This section explains the RMON options available from the Statistics/RMON menu page. These options include viewing statistics in table form, editing and viewing RMON statistics, and charting Port and LAG statistics. The Statistics/RMON menu page provides access to these options through the following menu pages: •...
Page 468: Interface Statistics
Table Views The Table Views menu page contains links to web pages that display statistics in table form. To display this page, click Statistics/RMON → Table Views in the tree view. Following are the web pages accessible from this menu page: •...
Page 469 The Interface Statistics page contains the following fields: • Interface — Select physical interface (unit, port) or LAG interface for which statistics is displayed. • Refresh Rate — Specifies amount of time that passes before statistics are refreshed. The possible field values are No Refresh, 15, 30 and 60 seconds.
Page 470: Etherlike Statistics
Etherlike Statistics Use the Etherlike Statistics page to display interface statistics. To display the page, click Statistics/RMON → Table Views → Etherlike Statistics in the tree view. Figure 8-2. Etherlike Statistics The Etherlike Statistics page contains the following fields: • Interface —...
Page 471: Gvrp Statistics
Oversize Packets — Displays the total number of packets received that were longer than 1518 octets • (excluding framing bits, but including FCS octets) and were otherwise well formed. Internal MAC Receive Errors — Displays number of internal MAC received errors on the selected •...
Page 472 Figure 8-3. GVRP Statistics Viewing Statistics and Remote Monitoring...
Page 473 The GVRP Statistics page contains the following fields: • Interface — Select physical interface (unit, port) or LAG interface for which statistics will be displayed. • Refresh Rate — Specifies amount of time that passes before statistics are refreshed. The possible field values are No Refresh, 15, 30, and 60 seconds.
Page 474: Eap Statistics
EAP Statistics Use the EAP Statistics page to display information about EAP packets received on a specific port. For more information about EAP, see "Dot1x Authentication." To display the EAP Statistics page, click Statistics/RMON → Table Views → EAP Statistics in the tree view Figure 8-4.
Page 475: Utilization Summary
Respond Frames Received — Displays the number of valid EAP Respond frames received on the port. • • Request ID Frames Received — Displays the number of EAP Request ID frames that have been received on the port. • Request Frames Transmitted — Displays the number of EAP Request frames transmitted through the port.
Page 476 Figure 8-5. Utilization Summary The Utilization Summary page contains the following fields: • Unit — Specifies the unit for which statistics are displayed. • Refresh Rate — Specifies amount of time that passes before statistics are refreshed. The possible field values are No Refresh, 15, 30, and 60 seconds.
Page 477: Counter Summary
Error Packets Received % — Displays number packets with errors received on the interface. • Viewing Interface Utilization Statistics Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide •...
Page 478 Figure 8-6. Counter Summary The Counter Summary page contains the following fields: • Unit — Specifies the unit for which statistics are displayed. • Refresh Rate — Specifies amount of time that passes before statistics are refreshed. The possible field values are No Refresh, 15, 30, and 60 seconds.
Page 479: Rmon
Setting Refresh Rate 1. Open the Counter Summary page. 2. Select the Refresh Rate from the drop-down menu. Statistics refresh for the displayed interfaces at the selected frequency. Viewing Numeric Port Utilization Statistics Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide •...
Page 480 Figure 8-7. RMON Statistics The RMON Statistics page contains the following fields: • Interface — Specifies whether statistics are shown for a Unit or a LAG as well as which Unit/LAG is displayed. • Refresh Rate — Specifies amount of time that passes before statistics are refreshed. The possible field values are No Refresh, 15, 30, and 60 seconds.
Page 481 Broadcast Packets Received — Displays number of good broadcast packets received on the interface • since the switch was last refreshed. This number does not include multicast packets. Multicast Packets Received — Displays number of good multicast packets received on the interface •...
Page 482: Rmon History Control Statistics
• RMON Commands The following table summarizes the equivalent CLI commands for this feature. Table 8-7. RMON Commands CLI Command Description show rmon statistics Displays RMON Ethernet Statistics. RMON History Control Statistics Use the RMON History Control page to maintain a history of statistics on each port. For each interface (either a physical port or a port-channel), you can define how many buckets exist, and the time interval between each bucket snapshot.
Page 483 Sampling Interval (1–3600) — Sets the frequency at which samplings are taken from the ports. The • possible values are from 1 to 3600 seconds. The default is 1800 seconds (30 minutes). Remove — Removes the RMON History Control Table entry displayed when checked. •...
Page 484 Figure 8-10. RMON History Control Table Removing a History Control Table Entry 1. Open the RMON History Control page. 2. Select the Remove check box in the row of the history entry to remove. 3. Click Apply Changes. The table entry is removed, and the device is updated. Viewing RMON History Control Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide...
Page 485: Rmon History Table
Table 8-8. RMON History Control Commands CLI Command Description rmon collection history Enables a Remote Monitoring (RMON) MIB history statistics group on an interface. RMON History Table Use the RMON History Table page to display interface-specific statistical network samplings. Each table entry represents all counter values compiled during a single sample.
Page 486 Drop Events — Displays the total number of events in which packets were dropped by the port due to • lack of resources. Note that this number is not necessarily the number of packets dropped; it is just the number of times this condition has been detected. •...
Page 487: Rmon Event Control
Viewing RMON History Table Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • RMON Commands The following table summarizes the equivalent CLI commands for this feature. Table 8-9.
Page 488 Description — Describes the user-defined event. • • Event Type — Selects the event type. Possible values are: – Log — Event type is a log entry. – Trap — Event type is a trap. – Log and Trap — Event type is both a log entry and a trap. –...
Page 489: Rmon Event Log
The RMON Events Table entry is modified, and the device is updated. Displaying the RMON Event Control Table 1. Open the RMON Event Control page. 2. Click Show All. The Event Control Table displays. Figure 8-14. Event Control Table Removing RMON Event Entries 1.
Page 490: Rmon Alarms
Figure 8-15. RMON Event Log The RMON Event Log page contains the following fields: • Event — Displays the RMON Events Log entry number. • Log No. — Displays the log number. Log Time — Displays the time when the log entry was entered. •...
Page 491 Figure 8-16. RMON Alarms The RMON Alarms page contains the following fields: • Alarm Entry — Selects a specific alarm from the drop-down menu. • OID — Specifies the Object Identifier. Counter Value — Displays the number of selected events counted. •...
Page 492 Falling Threshold (0–2147483647) — Displays the falling counter value that triggers the falling • threshold alarm. The falling threshold is graphically presented on top of the graph bars. Each monitored variable is designated a color. The default is 20. • Falling Event —...
Page 493 Displaying the Alarm Table 1. Open the RMON Alarms page. 2. Click Show All. The left side of the RMON Alarms Table displays. Figure 8-18. RMON Alarms Table 3. Click the right arrow at the bottom of the screen to view the right side of the table. Removing One Alarm Table Entry 1.
Page 494 Table 8-12. Alarm Configuration Commands CLI Command Description rmon alarm Configures alarm conditions. show rmon alarm display alarm configuration. show rmon alarm-table Displays the alarms summary table. Viewing Statistics and Remote Monitoring...
Page 495: Charts
Charts The Chart menu page contains links to web pages that allow you to chart statistics on a graph. To display the Charts menu page, click Statistics/RMON → Charts in the tree view. The Charts menu page contains links to the following features: •...
Page 496: Lag Statistics
GVRP Statistics — Selects GVRP Statistics when clicked, and specifies the type of GVRP statistics to • graph from the drop-down menu. The default is Join Empty - Receive. Refresh Rate — Selects the amount of time that passes before statistics are refreshed. The possible •...
Page 497 Figure 8-20. LAG Statistics The LAG Statistics page contains the following fields: • Interface Statistics — Selects Interface Statistics when clicked, and specifies the type of interface statistics to graph from the drop-down menu. The default is Received Rate. • Etherlike Statistics —...
Page 498 2. Click the radio button associated with the statistics to chart. 3. Select the type of statistics from the related drop-down menu. 4. Select the desired refresh rate from the Refresh Rate drop-down menu. 5. Click Draw. The selected statistics are charted on the graph. Viewing LAG Statistics Using CLI Commands For information about the CLI commands that perform this function, see the following chapters in the CLI Reference Guide...
Page 499: Configuring Routing
Configuring Routing Overview The PowerConnect 6200 Series supports the IP routing feature. Use the Routing menu page to configure routing on VLANs. The Routing menu page contains links to the following features: • • Router Discovery • • Router • OSPF •...
Page 500: Arp
The PowerConnect 6200 Series uses the ARP protocol to associate a layer 2 MAC address with a layer 3 IPv4 address. Additionally, the administrator can statically add entries into the ARP table. ARP is a necessary part of the internet protocol (IP) and is used to translate an IP address to a media (MAC) address, defined by a local area network (LAN) such as Ethernet.
Page 501 Figure 9-1. ARP Create The ARP Create page contains the following fields: • IP Address — Enter the IP address you want to add. It must be the IP address of a device on a subnet attached to one of the switch's existing routing interfaces. •...
Page 502: Arp Table Configuration
ARP Table Configuration Use this page to change the configuration parameters for the Address Resolution Protocol Table. You can also use this screen to display the contents of the table. To display the page, click Routing → ARP → ARP Table Configuration in the tree view. Figure 9-2.
Page 503 Dynamic Renew — This controls whether the ARP component automatically attempts to renew ARP • Entries of type Dynamic when they age out. The default setting is Enable. Total Entry Count — Total number of Entries in the ARP table. •...
Page 504 Table 9-2. ARP Table Commands CLI Command Description arp cachesize Configures the maximum number of entries in the ARP cache. arp dynamicrenew Enables the ARP component to automatically renew dynamic ARP entries when they age out. arp purge Causes the specified IP address to be removed from the ARP cache. arp resptime Configures the ARP request response timeout.
Page 505: Ip Configuration
The IP menu page contains links to web pages that configure and display IP routing data. To display this page, click Routing → IP in the tree view. Following are the web pages accessible from this menu page: • IP Configuration •...
Page 506: Ip Statistics
ICMP Redirects — Select Enable to allow the switch to generate ICMP redirect messages. Select • Disable to prevent the switch from generating ICMP redirect messages. The ICMP Redirect feature is also configurable on each interface. • ICMP Rate Limit Interval — To control the ICMP error packets, you can specify the number of ICMP error packets that are allowed per burst interval.
Page 507 Figure 9-4. IP Statistics The IP Statistics page contains the following fields: • IpInReceives — The total number of input datagrams received from interfaces, including those received in error. • IpInHdrErrors — The number of input datagrams discarded due to errors in their IP headers, including bad checksums, version number mismatch, other format errors, time-to-live exceeded, errors discovered in processing their IP options, etc.
Page 508 IpInDiscards — The number of input IP datagrams for which no problems were encountered to • prevent their continued processing, but which were discarded (for example, for lack of buffer space). Note that this counter does not include any datagrams discarded while awaiting re-assembly. •...
Page 509 IcmpInParmProbs — The number of ICMP Parameter Problem messages received. • • IcmpInSrcQuenchs — The number of ICMP Source Quench messages received. • IcmpInRedirects — The number of ICMP Redirect messages received. • IcmpInEchos — The number of ICMP Echo (request) messages received. •...
Page 510: Ip Interface Configuration
Displaying IP Statistics Using CLI Commands For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide: • IP Routing Commands The following table summarizes the equivalent CLI commands for this feature. Table 9-4.
Page 511 IP Address — Enter the IP address for the interface. • • Subnet Mask — Enter the subnet mask for the interface. This is also referred to as the subnet/network mask, and defines the portion of the interface's IP address that is used to identify the attached network.
Page 512 3. Click Apply Changes. Changes are saved, and the IP Interface is updated. IP Interface Configuration CLI Commands For information about the CLI commands that perform this function, see the following chapters in the CLI Reference Guide: • IP Addressing Commands •...
Page 513: Ospf
OSPF The Open Shortest Path First (OSPF) routing protocol is an Interior Gateway Protocol (IGP). Every OSPF router builds a shortest path tree of all the routers and networks in the domain. Routing information is propagated in Link State Update packets both periodically and in the event of network topology changes.
Page 514 Figure 9-6. OSPF Configuration The OSPF Configuration page contains the following fields: • Router ID — The 32-bit integer in dotted decimal format that uniquely identifies the router within the autonomous system (AS). If you want to change the Router ID you must first disable OSPF. After you set the new Router ID, you must re-enable OSPF to have the change take effect.
Page 515 RFC 1583 Compatibility — Select Enable or Disable from the drop-down menu to specify the • preference rules that are used when choosing among multiple AS-external-LSAs advertising the same destination. If you select Enable, the preference rules are those defined by RFC 1583. If you select Disable, the preference rules are those defined in Section 16.4.1 of the OSPF-2 standard (RFC 2328), which prevent routing loops when AS-external-LSAs for the same destination have been originated from different areas.
Page 516 External LSDB Limit — The maximum number of AS-External-LSAs that can be stored in the • database. A value of -1 implies there is no limit on the number that can be saved. The valid range of values is -1 to 2147483647. •...
Page 517 Table 9-6. OSPF Global Commands CLI Command Description auto-cost Changes the reference bandwidth used in computing link cost. bandwidth Changes the bandwidth used in computing link cost. capability opaque Enables Opaque Capability on the router. clear ip ospf Resets specific OSPF states. default-information originate Controls the advertisement of default routes.
Page 518: Area Configuration
Area Configuration The OSPF Area Configuration page lets you create a Stub area configuration and NSSA once you’ve enabled OSPF on an interface through Routing → OSPF → Interface Configuration. At least one router must have OSPF enabled for this web page to display. To display the page, click Routing →...
Page 519 Area LSA Checksum — The 32-bit unsigned sum of the link-state advertisements' LS checksums • contained in this area's link-state database. This sum excludes external (LS type 5) link-state advertisements. The sum can be used to determine if there has been a change in a router's link state database, and to compare the link-state database of two routers.
Page 520 Displaying an OSPF Area Configuration 1. Open the OSPF Area Configuration page. 2. Select the OSPF area to display from the drop-down menu. The OSPF area configuration is displayed for this area. Deleting an OSPF Area Configuration Use these steps to delete NSSA configuration or Stub area configuration. 1.
Page 521 Table 9-7. OSPF Area Configuration Commands CLI Command Description area default-cost Configures the monetary default cost for the stub area. area nssa Configures the specified area ID to function as an NSSA. area nssa default-info-originate Configures the metric value and type for the default route advertised into the NSSA.
Page 522: Stub Area Summary
Stub Area Summary The OSPF Stub Area Summary page displays OSPF stub area detail. To display the page, click Routing → OSPF → Stub Area Summary in the tree view. Figure 9-8. OSPF Stub Area Summary The OSPF Stub Area Summary page displays the following fields: Area ID —...
Page 523: Area Range Configuration
Area Range Configuration Use the OSPF Area Range Configuration page to configure and display an area range for a specified NSSA. To display the page, click Routing → OSPF → Area Range Configuration in the tree view. Figure 9-9. OSPF Area Range Configuration The OSPF Area Range Configuration page contains the following fields: •...
Page 524 Defining an OSPF Area Range 1. Open the OSPF Area Range Configuration page. 2. Enter Area ID, IP Address, Subnet Mask, LSDB Type and Advertisement. 3. Click the Add check box. 4. Click Apply Changes. The OSPF area range is defined and configured. All configured OSPF area ranges are displayed in the table on the OSPF Area Range Configuration page.
Page 525: Interface Statistics
Interface Statistics Use the OSPF Interface Statistics page to display statistics for the selected interface. The information is displayed only if OSPF is enabled. To display the page, click Routing → OSPF → Interface Statistics in the tree view. Figure 9-10. OSPF Interface Statistics The OSPF Interface Statistics page contains the following fields: •...
Page 526 OSPF Area ID — The OSPF area to which the selected router interface belongs. An OSPF Area ID is • a 32-bit integer in dotted decimal format that uniquely identifies the area to which the interface connects. • Area Border Router Count — The total number of area border routers reachable within this area. This is initially zero, and is calculated in each SPF Pass.
Page 527 No Neighbor at Source Address — The number of OSPF packets dropped because the sender is not an • existing neighbor or the sender's IP address does not match the previously recorded IP address for that neighbor. • Invalid OSPF Packet Type — The number of OSPF packets discarded because the packet type field in the OSPF header is not a known type.
Page 528: Interface Configuration
Interface Configuration Use the OSPF Interface Configuration page to configure an OSPF interface. To display the page, click Routing → OSPF → Interface Configuration in the tree view. Figure 9-11. OSPF Interface Configuration The OSPF Interface Configuration page contains the following fields: •...
Page 529 NOTE: Once OSPF is initialized on the router, it remains initialized until the router is reset. • OSPF Area ID — Enter the 32-bit integer in dotted decimal format that uniquely identifies the OSPF area to which the selected router interface connects. If you assign an Area ID which does not exist, the area is created with default values.
Page 530 Point-to-Point — When there are only two routers on the network, OSPF can operate more – efficiently by treating the network as a point-to-point network. For point-to-point networks, OSPF does not elect a designated router or generate a network link state advertisement (LSA). Both endpoints of the link must be configured to operate in point-to-point mode.
Page 531 Designated Router — This router is itself the Designated Router on the attached network. – Adjacencies are established to all other routers attached to the network. The router must also originate a network-LSA for the network node. The network- LSA contains links to all routers (including the Designated Router itself) attached to the network.
Page 532 Configuration data for this interface display. Configuring an OSPF Interface using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: • OSPF Commands The following table summarizes the equivalent CLI commands for this feature. Table 9-11.
Page 533: Neighbor Table
Neighbor Table Use the OSPF Neighbor Table page to display the OSPF neighbor table list. When a particular neighbor ID is specified, detailed information about a neighbor is given. The information below is only displayed if OSPF is enabled. To display the page, click Routing → OSPF → Neighbor Table in the tree view. Figure 9-12.
Page 534: Neighbor Configuration
Table 9-12. OSPF Neighbor Table Commands CLI Command Description show ip ospf neighbor Displays information about OSPF neighbors. Neighbor Configuration Use the OSPF Neighbor Configuration page to display the OSPF neighbor configuration for a selected neighbor ID. When a particular neighbor ID is specified, detailed information about a neighbor is given. The information below is only displayed if OSPF is enabled and the interface has a neighbor.
Page 535 communicate their capability level to other OSPF routers. Through this mechanism, routers of differing capabilities can be mixed within an OSPF routing domain. The Options value is a bitmap, and it signifies the capability of the neighbor. • Router Priority — Displays the OSPF priority for the specified neighbor. The priority of a neighbor is a priority integer from 0 to 255.
Page 536 Displaying OSPF Neighbor Configuration 1. Open the OSPF Neighbor Configuration page. 2. Select the interface and the IP address to display. The neighbor configuration displays. Displaying OSPF Neighbor Configuration Using CLI Commands For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide: •...
Page 537: Link State Database
Link State Database Use the OSPF Link State Database page to display OSPF link state, external LSDB table, and AS opaque LSDB table information. To display the page, click Routing → OSPF → Link State Database in the tree view. Figure 9-14.
Page 538 – Network Summary – ASBR Summary – AS-external • LS ID — The Link State ID identifies the piece of the routing domain that is being described by the advertisement. The value of the LS ID depends on the advertisement's LS type. •...
Page 539: Virtual Link Configuration
Virtual Link Configuration Use the Virtual Link Configuration page to create or configure virtual interface information for a specific area and neighbor. A valid OSPF area must be configured before this page can be displayed. To display the page, click Routing → OSPF → Virtual Link Configuration in the tree view. Figure 9-15.
Page 540 Dead Interval — Enter the OSPF dead interval for the specified interface in seconds. This specifies • how long a router waits to see a neighbor router's Hello packets before declaring that the router is down. This parameter must be the same for all routers attached to a network. This value should a multiple of the Hello Interval (for example, 4).
Page 541 None — This is the initial interface state. If you select this option from the drop-down menu on – the second screen and click Apply Changes, you are returned to the first screen. Simple — If you select Simple you are prompted to enter an authentication key. This key is –...
Page 542 Figure 9-16. OSPF Virtual Link Configuration 5. Click Configure Authentication to modify authentication. The following page appears: Configuring Routing...
Page 543 Figure 9-17. OSPF Virtual Link Authentication Configuration 6. Select values for Authentication Type and Authentication Key. 7. Click Apply Changes when finished. Configuring Virtual Link Data 1. Open the OSPF Virtual Link Configuration page. 2. Specify the area ID and neighbor router ID to configure. 3.
Page 544 The related virtual link data displays. 3. Click Delete. The virtual link is removed, and the device is updated. Configuring Virtual Link Data Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: •...
Page 545: Virtual Link Summary
Virtual Link Summary Use the OSPF Virtual Link Summary page to display all of the configured virtual links. To display the page, click Routing → OSPF → Virtual Link Summary in the tree view. Figure 9-18. OSPF Virtual Link Summary The OSPF Virtual Link Summary page contains the following fields: •...
Page 546: Route Redistribution Configuration
Iftransit Delay Interval (secs) — The OSPF Transit Delay for the virtual link in units of seconds. It • specifies the estimated number of seconds it takes to transmit a link state update packet over this interface. Displaying the Virtual Link Summary Using CLI Commands For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide: •...
Page 547 Metric — Sets the metric value for redistributed routes. This field displays a metric value if the source • was preconfigured. The valid values are 0 to 16777214. Metric Type — Select the OSPF metric type of redistributed routes from the drop-down menu. •...
Page 548: Route Redistribution Summary
Modifying OSPF Route Redistribution Data 1. Open the OSPF Route Redistribution Configuration page. 2. Select a source from the Configured Source drop-down. 3. Enter data in the fields as needed. 4. Click Apply Changes when finished. The route redistrbution data is configured, and the device is updated. Configuring OSPF Route Redistribution Data using CLI Command For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide:...
Page 549: Nonstop Forwarding Ospf Graceful Restart
The OSPF Route Redistribution Summary page contains the following fields: • Source — The Source Route to be redistributed by OSPF. • Redistribute — Specify whether to allow the routes learned through this protocol to be redistributed. • Metric — The Metric of redistributed routes for the given Source Route. Displays 0 when not configured.
Page 550 failure), to correct faulty system behavior which cannot be corrected through less severe management actions, or other reasons. An unplanned restart is an unexpected failover caused by a fatal hardware failure of the management unit or a software hang or crash on the management unit. To configure the OSPF graceful restart feature, click Routing →...
Page 551: Bootp/Dhcp Relay Agent
– Timed Out—The previous graceful restart timed out. – Topology Changed— The previous graceful restart terminated prematurely because of a topology change. If you change the Support Mode, click Submit to save your change. Click Refresh to redisplay the page with the latest values from the switch. Enabling the NSF OSPF Graceful Restart Using CLI Commands For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide:...
Page 552: Bootp/Dhcp Relay Agent Configuration
The BOOTP/DHCP Relay Agent menu page contains links to web pages that configure and display BOOTP/DHCP relay agent. To display this page, click Routing → BOOTP/DHCP Relay Agent in the tree view. Following are the web pages accessible from this menu page: •...
Page 553: Ip Helper
Configuring BOOTP/DHCP 1. Open the BOOTP/DHCP Configuration page. 2. Enter data in the fields as needed. 3. Click Apply Changes when finished. The BOOTP/DHCP data is configured, and the device is updated. Configuring BOOTP/DHCP using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: •...
Page 554: Ip Helper Global Configuration
IP Helper Global Configuration Use the IP Helper Global Configuration page to add, show, or delete UDP Relay and Helper IP configuration To display the page, click Routing → IP Helper → Global Configuration in the tree view. Figure 9-23. IP Helper Global Configuration The IP Helper Global Configuration page contains the following fields: •...
Page 555 Table 9-21. UDP Port Allocations UDP Port Number Acronym Application Echo Echo SysStat Active User NetStat NetStat Quote Quote of the day CHARGEN Character Generator FTP-data FTP Data Time Time NAMESERVER Host Name Server NICNAME Who is DOMAIN Domain Name Server TFTP Trivial File Transfer SUNRPC...
Page 556: Ip Helper Interface Configuration
2. Click Add to display the Add Helper IP Address page: Figure 9-24. Add Helper IP Address 3. Select a UDP Destination port name from the menu or enter the UDP Destination Port ID. Select the Default Set to configure for the relay entry for the default set of protocols. NOTE: If the DefaultSet option is specified, the device by default forwards UDP Broadcast packets for the following services: IEN-116 Name Service (port 42), DNS (port 53), NetBIOS Name Server (port 137), NetBIOS Datagram Server (port 138), TACACS Server (Port 49), and Time Service (port 37).
Page 557 Figure 9-25. IP Helper Interface Configuration The IP Helper Interface Configuration page contains the following fields: • Source IP Interface — Select the interface to use for UDP/Helper relays. Select All to configure relay entries on all available interfaces. • UDP Destination Port —...
Page 558: Ip Helper Statistics
Figure 9-26. Add Helper IP Address 3. Select the interface to use for the relay. 4. Select a UDP Destination port name from the menu or enter the UDP Destination Port ID. Select the Default Set to configure for the relay entry for the default set of protocols. NOTE: If the DefaultSet option is specified, the device by default forwards UDP Broadcast packets for the following services: IEN-116 Name Service (port 42), DNS (port 53), NetBIOS Name Server (port 137), NetBIOS Datagram Server (port 138), TACACS Server (Port 49), and Time Service (port 37).
Page 559 Figure 9-27. IP Helper Statistics The IP Helper Statistics page contains the following fields: • DHCP Client Messages Received — The number of valid messages received from a DHCP client. The count is only increased if IP helper is enabled globally, the ingress routing interface is up, and the packet passes a number of validity checks, such as having a TTL >1 and having valid source and destination IP addresses.
Page 560: Rip
DHCP Pkts Rcvd Too Early — The number of DHCP client messages received whose secs field is less • than the minimum value. The minimum secs value is a configurable value. A log message is written for each such failure. The DHCP relay agent does not relay these packets. •...
Page 561: Rip Configuration
• RIP Route Redistribution Configuration • RIP Route Redistribution Summary RIP Configuration Use the RIP Configuration page to enable and configure or disable RIP in Global mode. To display the page, click Routing → RIP → Configuration in the tree view. Figure 9-28.
Page 562 Global Route Changes — Displays the number of route changes made to the IP Route Database by • RIP. This does not include the refresh of a route's age. Global Queries — Displays the number of responses sent to RIP queries from other systems. •...
Page 563: Rip Interface Configuration
RIP Interface Configuration Use the RIP Interface Configuration page to enable and configure or to disable RIP on a specific interface. To display the page, click Routing → RIP → Interface Configuration in the tree view. Figure 9-29. RIP Interface Configuration The RIP Interface Configuration page contains the following fields: •...
Page 564 RIP Admin Mode — Select Enable or Disable from the drop-down menu. Before you enable RIP • version 1 or version 1c on an interface, you must first enable network directed broadcast mode on the corresponding interface. The default value is Disable. •...
Page 565: Rip Interface Summary
2. Specify the interface for which the authentication method is to be configured. 3. Click Modify. The Authentication Method page displays. 4. Specify the Authentication Type (None, Simple, or Encrypt) from the drop-down menu. 5. If you specify Simple or Encrypt as the Authentication Type, additional fields appear. Enter the Authentication Key (Simple or Encrypt) and Authentication Key ID (Encrypt).
Page 566 Figure 9-30. RIP Interface Summary The RIP Interface Summary page displays the following fields: • Interface — The interface, such as the routing-enabled VLAN on which RIP is enabled. • IP Address — The IP Address of the router interface. •...
Page 567: Rip Route Redistribution Configuration
Table 9-27. RIP Interface Summary Command CLI Command Description show ip rip interface brief Displays general information for each RIP interface. RIP Route Redistribution Configuration Use the RIP Route Redistribution Configuration page to configure the RIP Route Redistribution parameters. The allowable values for each fields are displayed next to the field. If any invalid values are entered, an alert message is displayed with the list of all the valid values.
Page 568 Source — Select the type of source route to configure for redistribution by RIP. Possible values are: • – Static – Connected – OSPF • Metric — Sets the metric value to be used as the metric of redistributed routes. This field displays the metric if the source was pre-configured and can be modified.
Page 569 2. Select the Configured Source to modify. 3. Change values on this screen as needed. 4. Click Apply Changes Specified changes are saved, and the device is updated. Configuring RIP Route Redistribution using CLI Command For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: •...
Page 570: Rip Route Redistribution Summary
RIP Route Redistribution Summary Use the RIP Route Redistribution Summary page to display Route Redistribution configurations. To display the page, click Routing → RIP → Route Redistribution Summary in the tree view. Figure 9-32. RIP Route Redistribution Summary The RIP Route Redistribution Summary page contains the following fields: •...
Page 571: Router Discovery
Displaying RIP Route Redistribution Summary Using CLI Commands For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide: • Routing Information Protocol (RIP) Commands The following table summarizes the equivalent CLI commands for this feature. Table 9-29.
Page 572 Figure 9-33. Router Discovery Configuration The Router Discovery Configuration page contains the following fields: • VLAN Interface — Select the router interface for which data is to be configured. Advertise Mode — Select Enable or Disable from the drop-down menu. If you select Enable, Router •...
Page 573: Router Discovery Status
Configuring Router Discovery Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: • Router Discovery Protocol Commands The following table summarizes the equivalent CLI commands for this feature. Table 9-30.
Page 574: Router
Advertise Mode — The values are Enable or Disable. Enable denotes that Router Discovery is enabled • on that interface. Advertise Address — The IP Address used to advertise the router. • • Maximum Advertise Interval (secs) — The maximum time (in seconds) allowed between router advertisements sent from the interface.
Page 575 To display the page, click Routing → Router → Route Table in the tree view. Figure 9-35. Router Route Table The Router Route Table page displays the following fields: • Total Number of Routes — The total number of routes in the route table. •...
Page 576: Best Routes Table
• IP Routing Commands The following table summarizes the equivalent CLI commands for this feature. Table 9-32. Router Route Table Commands CLI Command Description show ip route Displays the routing table. show ip route summary Shows the number of all routes, including best and non-best routes. Best Routes Table Use the Router Best Routes Table page to display the best routes from the routing table.
Page 577: Route Entry Configuration
– OSPF Type-1 – OSPF Type-2 – • Next Hop Interface — The outgoing router interface to use when forwarding traffic to the destination. • Next Hop IP Address — The outgoing router IP address to use when forwarding traffic to the next router (if any) in the path towards the destination.
Page 578 Network Address — Specify the IP route prefix for the destination from the drop-down menu. In order • to create a route, a valid routing interface must exist and the next hop IP Address must be on the same network as the routing interface. Routing interfaces are created on the IP Interface Configuration page.
Page 579 Figure 9-38. Add Route - Default Route Type 3. Next to Route Type, use the drop-down box to add a Default route or a Static route. If you select Static, the page refreshes and new fields appear, as Figure 9-39 shows. Default —...
Page 580: Configured Routes
Table 9-34. Router Route Configuration Commands CLI Command Description ip route Configures a static route. Use the no form of the command to delete the static route. ip route default Configures the default route. Use the no form of the command to delete the default route.
Page 581: Route Preferences Configuration
Default — Enter the default gateway address in the Next Hop IP Address field. Figure 9-38 shows the fields that display when the Route Type value is Default. Static — Enter values for Network Address, Subnet Mask, Next Hop IP Address, and Preference. Figure 9-39 shows the fields that display when the Route Type value is Static.
Page 582 NOTE: For a static reject route, the next hop interface value is Null0. Packets to the network address specified in static reject routes are intentionally dropped. To display the page, click Routing → Router → Route Preferences Configuration in the tree view. Figure 9-41.
Page 583: Vlan Routing
The following table summarizes the equivalent CLI commands for this feature. Table 9-36. Route Preference Commands CLI Command Description ip route Configures a static reject route. ip route distance Sets the default distance (preference) for static routes. VLAN Routing You can configure PowerConnect 6200 Series software with some VLANs that support routing. You can also configure the software to allow traffic on a VLAN to be treated as if the VLAN were a router port.
Page 584 Figure 9-42. VLAN Routing Summary The VLAN Routing Summary page displays the following fields: • VLAN ID — The ID of the VLAN whose data is displayed in the current table row. MAC Address — The MAC Address assigned to the VLAN Routing Interface. •...
Page 585: Vrrp
VRRP The Virtual Router Redundancy (VRRP) protocol is designed to handle default router failures by providing a scheme to dynamically elect a backup router. The driving force was to minimize “black hole” periods due to the failure of the default gateway router during which all traffic directed towards it is lost until the failure is detected.
Page 586: Vrrp Configuration
VRRP Configuration Use the VRRP Configuration page to enable or disable the administrative status of a virtual router. To display the page, click Routing → VRRP → Router Configuration in the tree view. Figure 9-43. VRRP Configuration The VRRP Configuration page contains the following field: •...
Page 587: Vrrp Router Configuration
VRRP Router Configuration Use the VRRP Configuration page to configure a virtual router. To display the page, click Routing → VRRP → Router Configuration in the tree view. Figure 9-44. VRRP Router Configuration The VRRP Router Configuration page contains the following fields: •...
Page 588 Priority — The operational priority of the VRRP router, which is relative to the configured priority and • depends on the priority decrements configured through tracking process. The priority and configured priority are the same unless a tracked event (for example a tracked interface is down) has occurred to change the value.
Page 589 Figure 9-45. Virtual Router Secondary Address 3. In the Secondary Address field, select Create to add a new secondary IP address, or select an existing secondary IP address to modify. 4. In the IP Address field, enter the secondary IP address. 5.
Page 590 Figure 9-47. Add VRRP Interface Tracking 4. Complete the fields as necessary. The Add VRRP Interface Tracking page contains the following fields. • Interface — The interface associated with the Virtual Router ID. • Virtual Router ID — The Virtual Router ID. •...
Page 591 Figure 9-49. Add VRRP Route Tracking 4. Complete the fields as necessary. The Add VRRP Route Tracking page contains the following fields. • Interface — The interface associated with the Virtual Router ID. • Virtual Router ID — The Virtual Router ID. •...
Page 592: Vrrp Virtual Router Status
Table 9-39. VRRP Configuration Commands CLI Command Description ip vrrp authentication Sets the authorization details value for the virtual router configured on a specified interface. ip vrrp ip Sets the virtual router IP address value for an interface. ip vrrp mode Enables the virtual router configured on an interface.
Page 593 VLANID - Indicates the interface associate with the VRID. • • Priority — The priority value used by the VRRP router in the election for the master virtual router. • Pre-empt Mode – Enable — If the Virtual Router is a backup router it preempts the master router if it has a priority greater than the master virtual router's priority provided the master is not the owner of the virtual router IP address.
Page 594 Table 9-40. Virtual Router Status Commands CLI Command Description show ip vrrp interface Displays all configuration information and VRRP router statistics of a virtual router configured on a specific interface. show ip vrrp interface brief Displays information about each virtual router configured on the switch.
Page 595: Vrrp Virtual Router Statistics
VRRP Virtual Router Statistics Use the Virtual Router Statistics page to display statistics for a specified virtual router. To display the page, click Routing → VRRP → Virtual Router Statistics in the tree view. Figure 9-51. Virtual Router Statistics The Virtual Router Statistics page contains the fields listed below. Many of the fields display only when there is a valid VRRP configuration.
Page 596 State Transitioned to Master — The total number of times that this virtual router's state has • transitioned to Master. Advertisement Received — The total number of VRRP advertisements received by this virtual router. • • Advertisement Interval Errors — The total number of VRRP advertisement packets received for which the advertisement interval was different than the one configured for the local virtual router.
Page 597: Tunnels
Table 9-41. VRRP Interface Statistics Command CLI Command Description show ip vrrp interface stats Displays the statistical information about each virtual router configured on the switch. Tunnels The PowerConnect 6200 Series switches support the creation, deletion, and management of tunnel interfaces.
Page 598: Tunnels Configuration
Tunnels Configuration Use the Tunnels Configuration page to create, configure, or delete a tunnel. To display the page, click Routing → Tunnels → Configuration in the tree view. Figure 9-52. Tunnels Configuration The Tunnels Configuration page contains the following fields: •...
Page 599 Source — Select the desired source, IPv4 Address or Interface. If Address is selected, the source • address for this tunnel must be entered in dotted decimal notation. If Interface is selected the source interface for this tunnel must be selected. The address associated with the selected interface is used as the source address.
Page 600: Tunnels Summary
4. Click Apply Changes. The new configuration is saved, and the device is updated. Removing a Tunnel 1. Open the Tunnels Configuration page. 2. Specify the tunnel to remove in the Tunnel drop-down menu. 3. Click Delete Tunnel. The tunnel is deleted, and the device is updated. Configuring a Tunnel using CLI Commands For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide:...
Page 601 Figure 9-54. Tunnels Summary The Tunnels Summary page contains the following fields: • Tunnel ID — The Tunnel ID. • Tunnel Mode — The corresponding mode of the Tunnel. • IPv6 Mode — Shows whether IPv6 is enabled on the tunnel. Source —...
Page 602: Loopbacks
Loopbacks The PowerConnect 6200 Series provides for the creation, deletion, and management of loopback interfaces. They are dynamic interfaces that are created and deleted through user-configuration. The PowerConnect 6200 Series supports multiple loopback interfaces. A loopback interface is always expected to be up. As such, it provides a means to configure a stable IP address on the device that may be referred to by other switches.
Page 603 Loopback — Use the drop-down menu to select from the list of currently configured loopback • interfaces. Create is also a valid choice if the maximum number of loopback interfaces has not been created. • Loopback ID — When Create is selected in the Loopback field, this list of available loopback ID's displays.
Page 604 The Loopback ID field goes away, and the remaining loopback fields display. Figure 9-56. Loopbacks Configuration - IPv4 Entry 5. Enter IPv4 in the Protocol field. 6. Enter desired values in the remaining fields. 7. Click Submit. The new loopback is saved, and the webpage reappears showing secondary address configuration fields. Figure 9-57.
Page 605 Creating a New Loopback (IPv6) 1. Open the Loopbacks Configuration page. 2. Select Create from the Loopback drop-down menu. 3. Specify an ID to use in the Loopback ID field. 4. Click Apply Changes. The Loopback ID field goes away, and the remaining loopback fields display. Figure 9-58.
Page 606: Loopbacks Summary
2. Specify the loopback to remove in the Loopback drop-down menu. 3. Click Delete Loopback. The loopback is deleted, and the device is updated. Removing a Secondary Address 1. Open the Loopback Configuration page. 2. Specify the loopback to be affected. 3.
Page 607 Figure 9-59. Loopbacks Summary The Loopbacks Summary page displays the following fields: Loopback Interface — The ID of the configured loopback interface. • • Addresses — A list of the addresses configured on the loopback interface. Displaying the Loopbacks Summary Using CLI Commands For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide: •...
Page 608 Configuring Routing...
Page 609: Configuring Ipv6
Configuring IPv6 Overview The IPv6 menu page contains links to the following features: • Global Configuration • Interface Configuration • Interface Summary • IPv6 Statistics • IPv6 Neighbor Table • DHCPv6 • OSPFv3 • IPv6 Routes IPv6 is the next generation of the Internet Protocol. With 128-bit addresses, versus 32-bit addresses for IPv4, IPv6 solves the address depletion issues seen with IPv4 and removes the requirement for Network Address Translation (NAT), which is used in IPv4 networks to reduce the number of globally unique IP addresses required for a given network.
Page 610: Global Configuration
Global Configuration Use the Global Configuration page to enable IPv6 forwarding on the router, enable the forwarding of IPv6 unicast datagrams, and configure global IPv6 settings. To display the page, click IPv6 → Global Configuration in the tree view. Figure 10-1. IPv6 Global Configuration The IPv6 Global Configuration page contains the following fields: •...
Page 611 Configuring IPv6 Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • IPv6 Routing Commands The following table summarizes the equivalent CLI commands for this feature. Table 10-1. IPv6 Routing Global Commands CLI Command Description ipv6 forwarding...
Page 612: Interface Configuration
Interface Configuration Use the Interface Configuration page to configure IPv6 interface parameters. This page has been updated to include the IPv6 Destination Unreachables field. To display the page, click IPv6 → Interface Configuration in the tree view. Figure 10-2. IPv6 Interface Configuration The IPv6 Interface Configuration page contains the following fields: •...
Page 613 IPv6 Prefix — Choose to Add or Delete an IPv6 prefix on this interface. If adding a prefix, specify that • prefix in the following IPv6 Prefix field. Checking Delete causes deletion of a displayed IPv6 Prefix. IPv6 Prefix — Specifies the IPv6 prefix for an interface. When the selection is changed, the screen is •...
Page 614 Router Advertisement NS Interval — Specifies retransmission time field of router advertisement sent • from the interface. A value of 0 means the interval is not specified for this router. The range of neighbor solicit interval is 1000 to 4294967295. •...
Page 615 Table 10-2. IPv6 Interface Routing Commands CLI Command Description ipv6 address Configures an IPv6 address on an interface (including tunnel and loopback interfaces). ipv6 enable Enables IPv6 routing on an interface (including tunnel and loopback interfaces) that has not been configured with an explicit IPv6 address. ipv6 host Defines static host name-to- ipv6 address mapping in the host cache.
Page 616: Interface Summary
Interface Summary Use the Interface Summary page to display settings for all IPv6 interfaces. To display the page, click IPv6 → Interface Summary in the tree view. Figure 10-3. IPv6 Interface Summary The IPv6 Interface Summary page contains the following fields: •...
Page 617 To display the page, click IPv6 → IPv6 Statistics in the tree view. Figure 10-4. IPv6 Statistics The IPv6 Statistics page contains the following fields: Interface — Selects the interface for which statistics are displayed. When the selection is changed, a •...
Page 618 Received Datagrams Locally Delivered — The total number of datagrams successfully delivered to • IPv6 user-protocols (including ICMP). This counter is incremented at the interface to which these datagrams were addressed, which might not be necessarily the input interface for some of the datagrams.
Page 619 Datagrams Forwarded — The number of output datagrams which this entity received and forwarded • to their final destinations. In entities which do not act as IPv6 routers, this counter includes only those packets which were Source-Routed through this entity, and the Source-Route processing was successful.
Page 620 ICMPv6 Router Solicit Messages Received — The number of ICMP Router Solicit messages received • by the interface. ICMPv6 Router Advertisement Messages Received — The number of ICMP Router Advertisement • messages received by the interface. • ICMPv6 Neighbor Solicit Messages Received — The number of ICMP Neighbor Solicit messages received by the interface.
Page 621 ICMPv6 Router Solicit Messages Transmitted — The number of ICMP Router Solicitation messages • sent by the interface. ICMPv6 Router Advertisement Messages Transmitted — The number of ICMP Router • Advertisement messages sent by the interface. • ICMPv6 Neighbor Solicit Messages Transmitted — The number of ICMP Neighbor Solicitation messages sent by the interface.
Page 622: Ipv6 Neighbor Table
IPv6 Neighbor Table Use the IPv6 Neighbor Table page to display IPv6 neighbor details for a specified interface. To display the page, click IPv6 → IPv6 Neighbor Table in the tree view. Figure 10-5. IPv6 Neighbor Table The IPv6 Neighbor Table page contains the following fields: •...
Page 623 Reachable — Positive confirmation was received within the last Reachable Time milliseconds that – the forward path to the neighbor was functioning properly. While in REACH state, the device takes no special action as packets are sent. – Stale — More than ReachableTime milliseconds have elapsed since the last positive confirmation was received that the forward path was functioning properly.
Page 624: Dhcpv6
DHCPv6 DHCP is generally used between clients (for example hosts) and servers (for example routers) for the purpose of assigning IP addresses, gateways, and other networking definitions such as DNS, NTP, and/or Session Initiation Protocol (SIP) parameters. However, IPv6 natively provides for auto configuration of IP addresses through IPv6 Neighbor Discovery Protocol (NDP) and the use of Router Advertisement messages.
Page 625: Dhcpv6 Pool Configuration
The DHCPv6 Global Configuration page contains the following fields: • DHCPv6 Admin Mode — Specifies DHCPv6 operation on the switch. Possible values are Enable and Disable; the default value is Disable. • Relay Option — Specifies Relay Agent Information Option value. The values allowed are between 32 to 65535, and represent the value exchanged between the relay agent and the server.
Page 626 Figure 10-7. Pool Configuration - Create The Pool Configuration page contains the following fields: • Pool Name — Drop-down menu that lists all the pool names configured. When Create is selected, fields on the page are cleared of data, in preparation for new pool information. •...
Page 627 Creating a DHCPv6 Pool 1. Open the Pool Configuration page. 2. Select Create from the Pool Name drop-down menu. 3. Enter a new name in the Pool Name field. 4. Specify an existing DNS Server Address to associate with this pool, or create a new one. 5.
Page 628: Prefix Delegation Configuration
Table 10-7. DHCPv6 Pool Configuration Commands CLI Command Description dns-server Sets the ipv6 DNS server address which is provided to a DHCPv6 client by the DHCPv6 server. domain-name Sets the DNS domain name which is provided to a DHCPv6 client by the DHCPv6 server.
Page 629: Dhcpv6 Pool Summary
Prefer Lifetime — Specifies the prefer lifetime in seconds for delegated prefix. • • Delete — Deletes the displayed pool prefix delegation configuration when checked and Apply Changes is clicked. Configuring a delegated prefix to a Pool 1. Open the Prefix Delegation Configuration page. 2.
Page 630: Dhcpv6 Interface Configuration
Figure 10-9. Pool Summary The Pool Summary page contains the following fields: • Pool Name — Selects the pool to display. • DNS Server — Displays the IPv6 address of the associated DNS server. • Domain Name — Displays the DNS domain name. •...
Page 631 Figure 10-10. DHCPv6 Interface Configuration The fields that display on the DHCPv6 Interface Configuration pages depend on the value selected in the Interface Mode field. The following list describes all the possible fields on the page: • Interface — Select the interface for which you are configuring DHCPv6 server functionality. •...
Page 632 Figure 10-11. DHCPv6 Interface Configuration - Relay 3. Modify the fields as needed. 4. Click Apply Changes. The DHCPv6 interface configuration is saved, and the device is updated. Configuring a DHCPv6 Interface for Server Interface Mode 1. Open the DHCPv6 Interface Configuration page. 2.
Page 633 The DHCPv6 interface configuration is saved, and the device is updated. Configuring a DHCPv6 Interface Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • DHCPv6 Commands The following table summarizes the equivalent CLI commands for this feature.
Page 634: Dhcpv6 Server Bindings Summary
DHCPv6 Server Bindings Summary Use the Server Bindings Summary page to display all DHCPv6 server bindings. To display the page, click IPv6 → DHCPv6 → Bindings Summary in the tree view. Figure 10-13. Server Bindings Summary The Server Bindings Summary page contains the following fields: •...
Page 635: Dhcpv6 Statistics
DHCPv6 Statistics Use the DHCPv6 Statistics page to display DHCPv6 statistics for one or all interfaces. To display the page, click IPv6 → DHCPv6 → Statistics in the tree view. Figure 10-14. DHCPv6 Statistics The DHCPv6 Statistics page displays the following fields: •...
Page 636 DHCPv6 Renew Packets Received — Specifies the number of Renews. • • DHCPv6 Rebind Packets Received — Specifies the number of Rebinds. • DHCPv6 Release Packets Received — Specifies the number of Releases. • DHCPv6 Decline Packets Received — Specifies the number of Declines. •...
Page 637: Ospfv3
Table 10-12. DHCPv6 Statistics Commands CLI Command Description show ipv6 dhcp statistics Displays the DHCPv6 server name and status. clear ipv6 dhcp Clears DHCPv6 statistics for all interfaces or for a specific interface. OSPFv3 OSPFv3 is the Open Shortest Path First routing protocol for IPv6. It is similar to OSPFv2 in its concept of a link state database, intra/inter area, and AS external routes and virtual links.
Page 638 To display the page, click IPv6 → OSPFv3 → Configuration in the tree view. Figure 10-15. OSPFv3 Configuration The OSPFv3 Configuration page contains the following fields: • Router ID — The 32-bit integer in dotted decimal format that uniquely identifies the router within the autonomous system (AS).
Page 639 ABR Status — The values of this are Enable or Disable. The field displays only when a valid • configuration exists. Enabled implies that the router is an area border router. Disabled implies that it is not an area border router. •...
Page 640 NOTE: The values for Always, Metric, and Metric Type can only be configured after Default Information Originate is set to Enable. If Default Information Originate is set to Enable and values for Always, Metric, and Metric Type are already configured, then setting Default Information Originate back to disable sets the Always, Metric, and Metric Type values to default.
Page 641: Ospfv3 Area Configuration
Table 10-13. OSPFv3 Global Configuration Commands CLI Command Description default-information originate Controls the advertisement of default routes. default-metric Sets a default for the metric of distributed routes. distance ospf Sets the route preference value of OSPF in the router. enable Resets the default administrative mode of OSPF in the router (active).
Page 642 Figure 10-16. OSPFv3 Area Configuration The OSPFv3 Area Configuration page contains the following fields: Area ID — The OSPFv3 area. An Area ID is a 32-bit integer in dotted decimal format that uniquely • identifies the area to which a router interface connects. •...
Page 643 The web page reappears with Create Stub Area and NSSA Create buttons. Figure 10-17. OSPFv3 Area Configuration - Create Stub Area and NSSA Create Configuring OSPFv3 Stub Area 1. Open the OSPFv3 Area Configuration page. 2. Modify the fields as needed. 3.
Page 644 2. Modify the fields as needed. 3. Click Apply Changes. The web page reappears with Create Stub Area and NSSA Create buttons. See Figure 10-17. 4. Click NSSA Create on the OSPFv3 Area Configuration web page. The web page reappears showing options for NSSA configuration. Figure 10-19.
Page 645 Configuring OSPFv3 Area Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • OSPFv3 Commands The following table summarizes the equivalent CLI commands for this feature. Table 10-14. OSPFv3 Area Configuration Commands CLI Command Description area default-cost...
Page 646: Ospfv3 Stub Area Summary
OSPFv3 Stub Area Summary Use the OSPFv3 Stub Area Summary page to display OSPFv3 stub area detail. To display the page, click IPv6 → OSPFv3 → Stub Area Summary in the tree view. Figure 10-20. OSPFv3 Stub Area Summary The OSPFv3 Stub Area Summary page displays the following fields: •...
Page 647: Ospfv3 Area Range Configuration
OSPFv3 Area Range Configuration Use the OSPFv3 Area Range Configuration page to configure OSPFv3 area ranges. To display the page, click IPv6 → OSPFv3 → Area Range Configuration in the tree view. Figure 10-21. OSPFv3 Area Range Configuration The OSPFv3 Area Range Configuration page contains the following fields: Area ID —...
Page 648 The OSPFv3 area range is saved, and the device is updated. Configuring OSPFv3 Area Range Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • OSPFv3 Commands The following table summarizes the equivalent CLI commands for this feature.
Page 649: Ospfv3 Interface Configuration
OSPFv3 Interface Configuration Use the OSPFv3 Interface Configuration page to create and configure OSPFv3 interfaces. This page has been updated to include the Passive Mode field. To display the page, click IPv6 → OSPFv3 → Interface Configuration in the tree view. Figure 10-22.
Page 650 OSPFv3 Area ID — Enter the 32-bit integer in dotted decimal format that uniquely identifies the • OSPFv3 area to which the selected router interface connects. If you assign an Area ID which does not exist, the area is created with default values. •...
Page 651 interface or through something like a bit error test. For this reason, IP packets may still be addressed to an interface in Loopback state. To facilitate this, such interfaces are advertised in router- LSAs as single host routes, whose destination is the IP interface address. –...
Page 652: Ospfv3 Interface Statistics
Table 10-17. OSPFv3 Interface Commands CLI Command Description ipv6 ospf Enables OSPF on a router interface or loopback interface. ipv6 ospf areaid Sets the OSPF area to which the specified router interface belongs. ipv6 ospf cost Configures the cost on an OSPF interface. ipv6 ospf dead-interval Sets the OSPF dead interval for the specified interface.
Page 653 Figure 10-23. OSPFv3 Interface Statistics The OSPFv3 Interface Statistics page displays the following fields: • Interface — Select the interface for which data is to be displayed. • OSPFv3 Area ID — The OSPF area to which the selected router interface belongs. An OSPF Area ID is a 32-bit integer in dotted decimal format that uniquely identifies the area to which the interface connects.
Page 654 Interface Events — The number of times the specified OSPF interface has changed its state, or an • error has occurred. Virtual Events — The number of state changes or errors that have occurred on this virtual link. • • Neighbor Events —...
Page 655: Ospfv3 Neighbors
LS Updates Received — The number of LS updates received on this interface by this router. • • LS Acknowledgements Sent — The number of LS acknowledgements sent on this interface by this router. • LS Acknowledgements Received — The number of LS acknowledgements received on this interface by this router.
Page 656 Figure 10-24. OSPFv3 Neighbors The OSPFv3 Neighbors page contains the following fields: • Interface — Selects the interface for which data is to be displayed or configured. Neighbor Router ID — Selects the IP Address of the neighbor for which data is to be displayed. •...
Page 657 Attempt — This state is only valid for neighbors attached to NBMA networks. It indicates that no – recent information has been received from the neighbor, but that a more concerted effort should be made to contact the neighbor. This is done by sending the neighbor Hello packets at intervals of Hello Interval.
Page 658: Ospfv3 Neighbor Table
Table 10-19. OSPFv3 Neighbor Command CLI Command Description show ipv6 ospf neighbor Displays information about OSPF neighbors. OSPFv3 Neighbor Table Use the OSPFv3 Neighbor Table page to display the OSPF neighbor table list. When a particular neighbor ID is specified, detailed information about a neighbor is given. The neighbor table is only displayed if OSPF is enabled.
Page 659: Ospfv3 Link State Database
IntlfID — The Interface ID that the neighbor advertises in its Hello packets on this link. • • Interface — The slot/port that identifies the neighbor interface index. • State — State of the relationship with this neighbor. • Dead Time — Number of seconds since last Hello was received from adjacent neighbors. Set this value to 0 for neighbors in a state less than or equal to Init.
Page 660 Figure 10-26. OSPFv3 Link State Database The OSPFv3 Link State Database page displays the following fields: • Adv. Router — The 32-bit integer in dotted decimal format that uniquely identifies the router within the autonomous system (AS). The Router ID is set on the OSPFv3 Configuration page. •...
Page 661: Ospfv3 Virtual Link Configuration
– Intra-Area-Prefix-LSA • Link ID — The Link State ID identifies the piece of the routing domain that is being described by the advertisement. The value of the LS ID depends on the advertisement's LS type. • Age — The time since the link state advertisement was first originated, in seconds. •...
Page 662 To display the page, click IPv6 → OSPFv3 → Virtual Link Configuration in the tree view. Figure 10-27. OSPFv3 Virtual Link Configuration The OSPFv3 Virtual Link Configuration page contains the following fields: • Create New Virtual Link — Select this option from the drop-down menu to define a new virtual link. The area portion of the virtual link identification is fixed: you are prompted to enter the Neighbor Router ID on a new screen.
Page 663 Interface Delay Interval (secs) — Enter the OSPF Transit Delay for the specified interface. This • specifies the estimated number of seconds it takes to transmit a link state update packet over the selected interface. Valid values range from 1 to 3600 seconds (1 hour). The default value is 1 second. •...
Page 664: Ospfv3 Virtual Link Summary
4. Click Create. The new link is created, and you are returned to the Virtual Link Configuration page. Configuring a Virtual Link 1. Open the OSPFv3 Virtual Link Configuration page. 2. Select the virtual link to configure. 3. Modify the remaining fields as needed. 4.
Page 665 Figure 10-28. OSPFv3 Virtual Link Summary The OSPFv3 Virtual Link Summary page displays the following fields: • Area ID — The Area ID portion of the virtual link identification for which data is to be displayed. The Area ID and Neighbor Router ID together define a virtual link. •...
Page 666: Ospfv3 Route Redistribution Configuration
Interface Delay Interval (secs) — The OSPF Transit Delay for the virtual link in units of seconds. It • specifies the estimated number of seconds it takes to transmit a link state update packet over this interface. Displaying OSPFv3 Virtual Link Summary Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide •...
Page 667: Ospfv3 Route Redistribution Summary
Tag — Sets the tag field in routes redistributed. This field displays the tag if the source was pre- • configured, otherwise 0 is displayed. Valid values are 0 to 4294967295. Redistribute — Enables or disables the redistribution for the selected source protocol. This field has to •...
Page 668 Figure 10-30. OSPFv3 Route Redistribution Summary The OSPFv3 Route Redistribution Summary page displays the following fields: • Source — The Source Route to be Redistributed by OSPF. • Redistribute — Specify whether to allow the routes learned through this protocol to be redistributed. •...
Page 669: Nonstop Forwarding Ospfv3 Graceful Restart
Displaying OSPFv3 Route Redistribution Summary Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • OSPFv3 Commands The following table summarizes the equivalent CLI commands for this feature. Table 10-25.
Page 670 Figure 10-31. NSF OSPFv3 Summary • Support Mode — Enables or disables OSPFv3 to perform graceful restarts. The following options are available: – Planned— OSPFv3 will perform a graceful restart for planned restarts. A planned restart is a failover initiated by the administrator (see "Enabling and Disabling NSF" on page 258). –...
Page 671 Click Refresh to redisplay the page with the latest values from the switch. Enabling the NSF OSPFv3 Graceful Restart Using CLI Commands For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide: •...
Page 672: Ipv6 Routes
IPv6 Routes The IPv6 Routes menu page contains links to web pages that define and display IPv6 Routes parameters and data. To display this page, click IPv6 → IPv6 Routes in the tree view. Following are the web pages accessible from this menu page: •...
Page 673: Ipv6 Route Table
2. Modify the fields as needed. 3. Click Apply Changes. The route entry is configured for IPv6, and the device is updated. Configuring Route Entry the CLI Command For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide •...
Page 674 Figure 10-33. IPv6 Route Table The IPv6 Route Table page displays the following fields: • Routes Displayed — Select to view either the Configured Routes, Best Routes, or All Routes from the drop-down menu. • Number of Routes — Displays the total number of active routes/best routes in the route table for the type of route selected.
Page 675: Ipv6 Route Preferences
Displaying the IPv6 Route Table Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide • IPv6 Routing Commands The following table summarizes the equivalent CLI commands for this feature. Table 10-28.
Page 676: Configured Ipv6 Routes
OSPF Intra — The OSPF intra route preference value in the router. The default value is 110. • • OSPF Inter — The OSPF inter route preference value in the router. The default value is 110. • OSPF External — The OSPF External route preference value in the router (OSPF Type-1 and OSPF Type-2 routes).
Page 677 Figure 10-35. Configured IPv6 Routes The Configured IPv6 Routes page contains the following fields: • Routes Displayed — Select to view either the Configured Routes, Best Routes or All Routes. When the Configured Routes option is selected, the following fields appear: •...
Page 678 Displaying IPv6 Routes 1. Open the Configured IPv6 Routes page. 2. Select the routes to view from the Routes Displayed drop-down menu. The selected routes and their configurations display. Displaying Configured IPv6 Routes Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide •...
Page 679: Configuring Quality Of Service
Configuring Quality of Service Overview The Quality of Service menu page contains links to the following pages: • Differentiated Services • Class of Service • Auto VoIP In a typical switch, each physical port consists of one or more queues for transmitting packets on the attached network.
Page 680: Differentiated Services
Differentiated Services DiffServ Overview The QoS feature contains Differentiated Services (DiffServ) support that allows traffic to be classified into streams and given certain QoS treatment in accordance with defined per-hop behaviors. Standard IP-based networks are designed to provide “best effort” data delivery service. “Best effort” service implies that the network delivers the data in a timely fashion, although there is no guarantee that it will.
Page 681: Diffserv Configuration
Diffserv Configuration Use the Diffserv Configuration page to display DiffServ General Status Group information, which includes the current administrative mode setting as well as the current and maximum number of rows in each of the main DiffServ private MIB tables. To display the page, click Quality of Service →...
Page 682: Class Configuration
Changing Diffserv Admin Mode 1. Open the Diffserv Configuration page. 2. Turn Diffserv Admin Mode on or off by selecting Enable or Disable from the drop-down menu. 3. Click Apply Changes. The Diffserv Admin Mode is changed, and the device is updated. Displaying MIB Tables Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide:...
Page 683 Figure 11-2. Diffserv Class Configuration The Diffserv Class Configuration page contains the following fields: • Class Name — Selects a class name to rename or delete. Click Add to set up a new class name. • Rename — Renames the class displayed when the box is checked and a new name is entered. •...
Page 684: Class Criteria
Figure 11-3. Add DiffServ Class Enter a name for the class and select the protocol to use for class match criteria. 3. Click Apply Changes. The new class is added and the device is updated. Adding a Class Configuration Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: •...
Page 685 Figure 11-4. Diffserv Class Criteria IPv4 The Diffserv Class Criteria page contains the following fields: • Class Name — Selects the class name for which you are specifying criteria. • Class Type — Displays the class type. The only configurable class type supported is All. Match Attributes (IPv4) Use the following fields to match IPv4 packets to a class.
Page 686 Subnet Mask — The subnet mask of the destination IP address. This field is required when • Destination IP Address is checked. Source L4 Port— Requires a packet’s TCP/UDP source port to match the port listed here. Select one • of the following options: –...
Page 687 Reference Class — Selects a class to start referencing for criteria. Select the Add Diffserv Class check • box, then select a previously configured Diffserv class from the related drop-down menu. Figure 11-5. Diffserv Class Criteria IPv6 Match Attributes (IPv6) Use the following fields to match IPv6 packets to a class.
Page 688 Service Type Criteria Click to select one of the following three Match fields to use in matching packets to class criteria: • IP DSCP — Matches the packet’s DSCP to the class criteria’s when selected. Either select the DSCP type from the drop-down menu or enter a DSCP value to match. Valid range is 0-63. •...
Page 689: Policy Configuration
Policy Configuration Use the Diffserv Policy Configuration page to associate a collection of classes with one or more policy statements. To display the page, click Quality of Service → Differentiated Services → Policy Configuration in the tree view. Figure 11-6. Diffserv Policy Configuration The Diffserv Policy Configuration page contains the following fields: •...
Page 690 Use Add a Class to associate a class with this policy. Use Remove a Class to remove the class from this policy. 4. Select the class to be affected from the relevant drop-down menu. 5. Click Apply Changes. The modified policy is saved, and the device is updated. Renaming a Policy 1.
Page 691 Figure 11-8. Diffserv Policy Summary Removing a Policy Configuration 1. Open the Diffserv Policy Configuration page. 2. Select the policy name to be deleted from the Policy Name drop-down menu. 3. Check the Remove check box. 4. Click Apply Changes. The associated policy configuration is removed, and the device is updated.
Page 692: Policy Class Definition
Policy Class Definition Use the Diffserv Policy Class Definition page to associate a class to a policy, and to define attributes for that policy-class instance. To display the page, click Quality of Service → Differentiated Services → Policy Class Definition in the tree view.
Page 693 Policing: Allows you to configure how policing is performed, as well as configure what happens to – packets that are considered conforming and non-conforming. For more information on the fields that display when Policing is selected, see "Policing Traffic Condition." •...
Page 694 You have the option of marking one of the following fields in the packet: • IP DSCP — Selects the IP DSCP to mark. Select from the drop down menu or enter directly in the User Value field. • IP Precedence — Selects the specified IP Precedence queue number to mark. •...
Page 695 Color Mode — Selects the type of color policing used. Choose Color Blind or Color Aware from the • drop-down menu. Conform Action Selector — Selects what happens to packets that are considered conforming (below • the police rate). Options are Send, Drop, Mark CoS, Mark IP DSCP, Mark IP Precedence. •...
Page 696 Table 11-5. Policy Class Configuration Commands CLI Command Description assign-queue Modifies the queue ID to which the associated traffic stream is assigned. conform-color Specifies for each outcome, the only possible actions are drop, set-cos- transmit, set-sec-cos-transmit, setdscp-transmit, set-prec-transmit, or transmit drop Use the drop policy-class-map configuration command to specify that all packets for the associated traffic stream are to be dropped at ingress.
Page 697 (continued) Table 11-5. Policy Class Configuration Commands CLI Command Description match protocol Adds to the specified class definition a match condition based on the value of the IP Protocol field in a packet using a single keyword notation or a numeric value notation. match source-address mac Adds to the specified class definition a match condition based on the source MAC address of the packet.
Page 698: Service Configuration
Service Configuration Use the Diffserv Service Configuration page to activate a policy on a port. To display the page, click Quality of Service → Differentiated Services → Service Configuration in the tree view. Figure 11-13. Diffserv Service Configuration The Diffserv Service Configuration page contains the following fields: Interface —...
Page 699: Service Detailed Statistics
Figure 11-14. Diffserv Service Summary Assigning a Policy to a Port Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: • QoS Commands The following table summarizes the equivalent CLI commands for this feature. Table 11-6.
Page 700 Figure 11-15. Diffserv Service Detailed Statistics The Diffserv Service Detailed Statistics page contains the following fields: • Counter Mode Selector — Type of statistics to display. Packets is the only available type. • Interface — Selects the Unit and Port or LAG for which service statistics are to display. •...
Page 701: Class Of Service
Table 11-7. DiffServ Statistics Commands CLI Command Description show diffserv service brief Displays all interfaces in the system to which a DiffServ policy has been attached. Class of Service The Class of Service (CoS) queueing feature lets you directly configure certain aspects of switch queueing.
Page 702 The Trust Mode selected on the Mapping Table Configuration page affects how the page displays and the fields accessible from the page. There are three trust modes available from here: • Untrusted (None) • CoS(802.1P) • IP DSCP CoS(802.1P) is the default mode, so this is the page that displays when Mapping Table Configuration is selected from the Class of Service menu page.
Page 703 Class of Service — Lists each class of service on a separate line, so a separate queue can be assigned to • each class of service. Queue — Selects a queue for each Class of Service from the drop-down menu. Default queues are •...
Page 704 Figure 11-17. DSCP Queue Mapping Table The DSCP Queue Mapping Table page contains the following fields: • DSCP In — Check to select as a criterion, and enter which DiffServ Code Point in the packet to use. This field determines to which queue the packet is sent. Queue ID —...
Page 705: Interface Configuration
The following table summarizes the equivalent CLI commands for this feature. Table 11-8. Mapping Table Configuration Commands CLI Command Description classofservice dotlp-mapping Maps an 802.1p priority to an internal traffic class for a switch. classofservice ip-dscp-mapping Maps an IP DSCP value to an internal traffic class. classofservice trust Sets the class of service trust mode of an interface.
Page 706: Interface Queue Configuration
Interface Shaping Rate — Sets the cap on how much traffic can leave a port. The specified value • represents the maximum negotiated bandwidth in kilobit per second (Kbps). The range is 0 - Infinity or 64 to 4294967295 kbps. •...
Page 707 To display the Interface Queue Configuration page, click Quality of Service → Class of Service → Interface Queue Configuration in the tree view. Figure 11-19. Interface Queue Configuration The Interface Queue Configuration page contains the following fields: • Interface — Specifies the Interface (Unit/Port, LAG, or Global) that’s being configured. •...
Page 708 The queue is configured, and the device is updated. Displaying Interface Queue Settings 1. Open the Interface Queue Configuration page. 2. Click Show All. The Interface Queue Status page displays. 3. Select Unit / Port, LAG, or Global. Figure 11-20. Interface Queue Status Configuring an Interface Queue Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide:...
Page 709: Auto Voip
Auto VoIP Voice over Internet Protocol (VoIP) allows you to make telephone calls using a computer network over a data network like the Internet. With the increased prominence of delay-sensitive applications (voice, video, and other multimedia applications) deployed in networks today, proper QoS configuration will ensure high-quality application performance.
Page 710: Auto Voip Interface Configuration
The Auto VoIP Configuration page contains the following fields: • Auto VoIP Mode — Enables or Disables Auto VoIP mode. The default is Disable. • Traffic Class — Displays the traffic class used for VoIP traffic. Configuring Auto VoIP Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: •...
Page 711 Viewing the Auto VoIP Summary Table 1. Open the Auto VoIP Interface Configuration page. 2. Click Show All. The Auto VoIP Summary page opens. Figure 11-23. Auto VoIP Summary Configuring Auto VoIP Interfaces Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: •...
Page 712 Configuring Quality of Service...
Page 713: Configuring Ip Multicast
Configuring IP Multicast Overview This chapter describes how to configure IPv4 and IPv6 multicast features on the PowerConnect 6200 Series. To display the IPv4 Multicast menu page, click IPv4 Multicast in the tree view. The IPv4 Multicast menu page contains links to the following features: •...
Page 714: Multicast
Multicast The IPv4 Multicast menu page contains links to web pages that define and display Multicast parameters and data. To display this page, click IPv4 Multicast → Multicast in the tree view. Following are the web pages accessible from this menu page: •...
Page 715 The Multicast Global Configuration page contains the following fields: • Admin Mode — Select Enable or Disable to set the administrative status of Multicast Forwarding in the router. The default is Disable. • Protocol State — The operational state of the multicast forwarding module. •...
Page 716 (continued) Table 12-1. Multicast Global Commands CLI Command Description ip pimsm spt-threshold Configures the Data Threshold rate for the last hop router to switch to the shortest path. ip pimsm ssm Defines the Source Specific Multicast (SSM) range of IP multicast addresses.
Page 717: Multicast Interface Configuration
Multicast Interface Configuration Use the Multicast Interface Configuration page to configure the TTL threshold of a multicast interface. You must configure at least one router interface before fields display on this page. To display the page, click IPv4 Multicast → Multicast → Interface Configuration in the tree view. Figure 12-2.
Page 718: Multicast Route Table
Table 12-2. Multicast Interface Configuration Commands CLI Command Description ttlvalue ip multicast ttl-threshold Applies a to a routing interface. show ip mcast interface Displays the multicast information for the specified interface. Multicast Route Table Use the Multicast Route Table page is used to display MRoute data. To display the page, click IPv4 Multicast →...
Page 719: Multicast Admin Boundary Configuration
Outgoing Interfaces — The list of outgoing interfaces on which multicast packets for this • source/group are forwarded. Up Time — The time in hours:minutes:seconds since the entry was created. • • Expiry Time — The time in hours:minutes:seconds before this entry ages out and is removed from the table.
Page 720 Figure 12-4. Multicast Admin Boundary Configuration The Multicast Admin Boundary Configuration page contains the following fields: • Interface — Select the router interface for which the administratively scoped boundary is to be configured. • Group IP — Enter the multicast group address for the start of the range of addresses to be excluded. The address must be in the range of 239.0.0.0 through 239.255.255.255.
Page 721: Multicast Admin Boundary Summary
Multicast Admin Boundary Summary Use the Multicast Admin Boundary Summary page to display existing administratively scoped boundaries. To display the page, click IPv4 Multicast → Multicast → Admin Boundary Summary in the tree view. Figure 12-5. Multicast Admin Boundary Summary The Multicast Admin Boundary Summary page displays the following fields: Interface —...
Page 722 To display the page, click IPv4 Multicast → Multicast → Static MRoute Configuration in the tree view. Figure 12-6. Multicast Static Routes Configuration The Multicast Static MRoute Configuration page contains the following fields: • Source IP — Enter the IP Address that identifies the multicast packet source for the entry you are creating.
Page 723: Multicast Static Mroute Summary
Table 12-6. Multicast Static Route Configuration Commands CLI Command Description ip mroute Creates a static multicast route for a source range. Multicast Static MRoute Summary Use the Multicast Static Routes Summary page to display static routes and their configurations. To display the page, click IPv4 Multicast → Multicast → Static MRoute Summary in the tree view. Figure 12-7.
Page 724 Table 12-7. Multicast Static Route Summary Command CLI Command Description show ip mcast mroute static Displays all the static routes configured in the static mcast table. Configuring IP Multicast...
Page 725: Distance Vector Multicast Routing Protocol
Distance Vector Multicast Routing Protocol Distance Vector Multicast Routing Protocol (DVMRP) exchanges probe packets with all its DVMRP enabled routers, it establishes two way neighboring relationships, and it builds a neighbor table. It exchanges report packets and creates a unicast topology table, with which it builds the multicast routing table.
Page 726: Dvmrp Interface Configuration
Total Number of Routes — The number of routes in the DVMRP routing table. • • Reachable Routes — The number of routes in the DVMRP routing table that have a non-infinite metric. Setting the DVMRP Admin Mode 1. Open the DVMRP Global Configuration page. 2.
Page 727 Figure 12-9. DVMRP Interface Configuration The DVMRP Interface Configuration page contains the following fields: • Interface — Select the interface for which data is to be configured. You must configure at least one router interface before you configure a DVMRP interface. •...
Page 728: Dvmrp Configuration Summary
DVMRP Configuration Summary Use the DVMRP Configuration Summary page to display or print the DVMRP configuration and data for a selected interface. You must configure at least one router interface before you can display data for a DVMRP interface. Otherwise you see a message telling you that no router interfaces are available, and the configuration summary screen is not displayed.
Page 729 Protocol State — Displays the operational state of the DVMRP protocol on the selected interface, • either Operational or Non-operational. Local Address — Displays the IP address used as a source address in packets sent from the selected • interface. •...
Page 730: Next Hop Summary
The following table summarizes the equivalent CLI commands for this feature. Table 12-10. DVMRP Configuration Summary Commands CLI Command Description show ip dvmrp interface Displays the interface information for DVMRP on the specified interface. show ip dvmrp neighbor Displays the neighbor information for DVMRP . Next Hop Summary Use the Next Hop Summary page to display or print the next hop summary by Source IP .
Page 731: Prune Summary
Displaying the Next Hop Summary Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: • DVMRP Commands The following table summarizes the equivalent CLI commands for this feature. Table 12-11.
Page 732: Route Summary
Source Mask — The subnet mask to be combined with the source IP address to identify the source or • source network which has been pruned. Expiry Time (secs) — The amount of time remaining before this prune should expire at the upstream •...
Page 733 Source Address - The network address that is combined with the source mask to identify the sources • for this entry. Source Mask — The subnet mask to be combined with the source address to identify the sources for • this entry.
Page 734: Internet Group Management Protocol
Internet Group Management Protocol The Internet Group Management Protocol (IGMP) is used by IPv4 systems (hosts and routers) to report their IP multicast group memberships to any neighboring multicast routers. The PowerConnect 6200 Series performs the multicast router role of the IGMP protocol, which means it collects the membership information needed by the active multicast routing.
Page 735: Routing Interface
2. Set Admin Mode to Enable or Disable, to turn IGMP on or off. 3. Click Apply Changes. The IGMP configuration is saved, and the device is updated. Setting IGMP Mode Using CLI Commands For information about the CLI commands that perform this function, see the following chapter in the CLI Reference Guide: •...
Page 736 Figure 12-15. IGMP Interface Configuration The IGMP Interface Configuration page contains the following fields: • Interface — Select the interface for which data is to be displayed or configured from the drop-down menu. Interface Mode — Select Enable or Disable from the drop-down menu to set the administrative status •...
Page 737 Last Member Query Interval (1/10 of a second) — Enter the last member query interval in tenths of a • second. This is the maximum response time to be inserted into group-specific queries sent in response to leave group messages, and is also the amount of time between group-specific query messages. Valid values are from 0 to 255.
Page 738 IGMP Configuration Summary Use the IGMP Configuration Summary page to display IGMP routing parameters and data. You must configure at least one IGMP router interface to access this page. To display the page, click IPv4 Multicast → IGMP → Routing Interface → Configuration Summary in the tree view.
Page 739 Query Interval (secs) — The frequency at which IGMP host-query packets are transmitted on the • selected interface. Query Max Response Time (1/10 of a second) — The maximum query response time advertised in • IGMPv2 queries sent from the selected interface. •...
Page 740 Table 12-16. IGMP Configuration Summary Command CLI Command Description show ip igmp interface Displays the IGMP information for the specified interface. IGMP Cache Information Use the IGMP Cache Information page to display cache parameters and data for an IP multicast group address.
Page 741 Version 1 Host Timer — The time remaining until the local router assumes that there are no longer • any IGMP version 1 members on the IP subnet attached to this interface. When an IGMPv1 membership report is received, this timer is reset to the group membership timer. While this timer is non-zero, the local router ignores any IGMPv2 leave messages for this group that it receives on the selected interface.
Page 742 Figure 12-18. IGMP Interface The IGMP Interface page displays the following fields: • Multicast Group IP — Select the IP multicast group address for which data is to be displayed. If no group membership reports have been received on the selected interface, you cannot make this selection, and none of the remaining fields are displayed.
Page 743: Proxy Interface
Displaying IGMP Interface Detailed Membership Using CLI Commands For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide: • IGMP Commands The following table summarizes the equivalent CLI commands for this feature. Table 12-18.
Page 744 Figure 12-19. IGMP Proxy Interface Configuration The IGMP Proxy Interface Configuration page contains the following fields: • Interface — Select the port for which data is to be displayed or configured from the drop-down menu. You must have configured at least one router interface before configuring or displaying data for an IGMP Proxy interface and it should not be a IGMP routing interface.
Page 745 Table 12-19. IGMP Proxy Global Commands CLI Command Description ip igmp-proxy Enables the IGMP Proxy on the router. ip igmp-proxy unsolicited-report-interval Sets the unsolicited report interval for the IGMP Proxy router. IGMP Proxy Configuration Summary Use the IGMP Proxy Configuration Summary page to display proxy interface configurations by interface.
Page 746 Figure 12-20. IGMP Proxy Configuration Summary The IGMP Proxy Configuration Summary page displays the following fields: • Interface — Displays the interface on which IGMP proxy is enabled. There can be only one IGMP Proxy interface. • IP Address — The IP address of the IGMP Proxy interface. •...
Page 747 Number of Groups — The current number of multicast group entries for the IGMP Proxy interface in • the cache table. Version — The version of IGMP configured on the IGMP Proxy interface. • • Unsolicited Report Interval — The Unsolicited Report Interval is the time between repetitions of a host's initial report of membership in a group.
Page 748 Figure 12-21. IGMP Proxy Interface Membership Info The IGMP Proxy Interface Membership Info page displays the following fields: • Interface — Displays the interface on which IGMP proxy is enabled. Multicast Group IP — Select the IP multicast group address for which data is to be displayed. If no •...
Page 749 Table 12-21. IGMP Proxy Interface Membership Command CLI Command Description show ip igmp-proxy Displays a summary of the host interface status parameters. show ip igmp-proxy groups Displays a table of information about multicast groups that IGMP Proxy reported. IGMP Proxy Interface Membership Info Detailed Use the IGMP Proxy Interface Membership Info Detailed page to display detailed interface membership data.
Page 750 Up Time (secs) — Displays the up time since the entry was created in the cache table. • • State — The state of the host entry. A host can be in one of the following states: – Non-member State — Does not belong to the group on the interface. –...
Page 751: Multicast Listener Discovery
Multicast Listener Discovery Multicast Listener Discovery (MLD) protocol enables IPv6 routers to discover the presence of multicast listeners, the nodes who wish to receive the multicast data packets, on its directly-attached interfaces. The protocol specifically discovers which multicast addresses are of interest to its neighboring nodes and provides this information to the active multicast routing protocol that makes decisions on the flow of multicast data packets.
Page 752: Mld Routing Interface Configuration
Configuring MLD Global Settings Using CLI Commands For information about the CLI command that performs this function, see the following chapter in the CLI Reference Guide: • IPv6 Routing Commands The following table summarizes the equivalent CLI commands for this feature. Table 12-23.
Page 753: Mld Routing Interface Summary
Query Interval — Specify the number of seconds between MLD general queries. Valid values are 1 to • 3600. The default value is 125. Query Max Response Time (secs) — Enter the maximum query response time to be advertised in •...
Page 754 Figure 12-25. MLD Routing Interface Summary The MLD Routing Interface Summary page contains the following fields: • Interface — Select the VLAN for which data is to be displayed. Interface Parameters • Global Admin Mode — Displays whether MLD has been globally enabled or disabled. •...
Page 755 Robustness — Displays the robustness parameter for the selected interface. This value allows tuning • for the expected packet loss on a subnet. If a subnet is expected to be lossy, increase the robustness variable. MLD is robust to (robustness variable - 1) packet losses. •...
Page 756: Mld Routing Interface Cache Information
The following table summarizes the equivalent CLI commands for this feature. Table 12-25. IPv6 MLD Interface Summary Commands CLI Command Description show ipv6 mld interface Displays MLD related information for an interface. MLD Routing Interface Cache Information The MLD Routing Interface Cache Information page displays cache parameters and data for an IP multicast group address that has been reported to operational MLD routing interfaces.
Page 757: Mld Routing Interface Source List Information
Expiry Time — The cache timer value which indicates the remaining lifetime in • hours:minutes:seconds for each entry. Version1 Host Timer — The time in hours:minutes:seconds remaining until the local router assumes • that there are no longer any MLD version 1 members on the IP subnet attached to this interface. When an MLDv1 membership report is received, this timer is reset to the group membership timer.
Page 758: Mld Traffic
Figure 12-27. MLD Routing Interface Source List Information The MLD Routing Interface Source List Information page contains the following fields: • Multicast Group IP — Select the IP multicast group address for which data is to be displayed. Only if group membership reports have been received on the selected interface can you make this selection, and the data on this page displays.
Page 759 Figure 12-28. MLD Traffic The MLD Traffic page contains the following fields: • Valid MLD Packets Received — The total number of valid MLD packets received by the router. • Valid MLD Packets Sent — The total number of valid MLD packets sent from the router •...
Page 760: Mld Proxy Configuration
MLD Proxy Configuration When you configure an interface in MLD proxy mode, it acts as a proxy multicast host that sends MLD membership reports on one interface for MLD Membership reports received on all other MLD-enabled router interfaces. Use the MLD Proxy Interface Configuration page to enable and disable ports as MLD proxy interfaces. To display this page, click IPv6 Multicast →...
Page 761: Mld Proxy Configuration Summary
Table 12-28. IPv6 MLD Proxy Global Commands CLI Command Description ipv6 mld-proxy Enables MLD Proxy on the router. ipv6 mld-proxy reset-status Resets the host interface status parameters of the MLD Proxy router. ipv6 mld-proxy unsolicit-rprt-interval Sets the unsolicited report interval for the MLD Proxy router. MLD Proxy Configuration Summary Use the MLD Proxy Configuration Summary page to view configuration and statistics on MLD proxy- enabled interfaces.
Page 762: Interface Membership Information
Interface — Select the interface on which MLD proxy is enabled and for which data is to be displayed. • • IPv6 Address — The IPv6 address of the MLD Proxy interface. • Prefix Length — Displays the prefix length for the IPv6 address of the MLD Proxy interface. •...
Page 763 Figure 12-31. Interface Membership Information The Interface Membership Information page contains the following fields: • Interface — Displays the interface on which MLD proxy is enabled. Multicast Group IP — Select the IP multicast group address for which data is to be displayed. If no •...
Page 764: Interface Membership Information-Detailed
Table 12-30. IPv6 MLD Membership Information Command CLI Command Description show ipv6 mld-proxy groups Displays information about multicast groups that the MLD Proxy reported. Interface Membership Information—Detailed The Interface Membership Information—Detailed page provides additional information on the IP multicast groups for which the MLD proxy interface has received membership reports. To display this page, click IPv6 Multicast →...
Page 765: Protocol Independent Multicast
The following table summarizes the equivalent CLI commands for this feature. Table 12-31. IPv6 MLD Membership Detailed Information Command CLI Command Description show ipv6 mld-proxy groups detail Displays information about multicast groups that MLD Proxy reported. Protocol Independent Multicast Protocol Independent Multicast-Dense Mode (PIM-DM) protocol is a simple, protocol-independent multicast routing protocol.
Page 766: Pim Global Configuration
• PIM Global Configuration • PIM Global Status • PIM Interface Configuration • Interface Summary • Candidate RP Configuration • Static RP Configuration • SSM Range Configuration • BSR Candidate Configuration • BSR Candidate Summary PIM Global Configuration Use the PIM Global Configuration page to configure the administrative status of PIM-DM or PIM-SM on the switch.
Page 767: Pim Global Status
Register Threshold Rate — If PIM-SM is selected as the protocol, enter the minimum source data rate • in K bits/second above which the Rendezvous Point router switches to a source-specific shortest path tree. The valid values are from 0 to 2000 K bits/sec. The default value is 0. This field is not available for PIM-DM.
Page 768: Pim Interface Configuration
Admin Mode — Displays the administrative status of the selected PIM protocol on the system. • • Data Threshold Rate — If PIM-SM is selected as the protocol, shows the minimum source data rate in Kbps above which the last-hop router switches to a source-specific shortest path tree. •...
Page 769 Interface — Select the interface for which data is to be displayed or configured. You must have • configured at least one router interface before configuring or displaying data for a PIM interface, otherwise an error message is displayed. • Admin Mode —...
Page 770: Interface Summary
Interface Summary Use the PIM Interface Summary page to display a PIM interface and its settings. To display the page, click IPv4 Multicast → PIM → Interface Summary or IPv6 Multicast → PIM → Interface Summary in the tree view. Figure 12-36.
Page 771: Candidate Rp Configuration
BSR Border — Specifies the BSR border mode on the PIM interface. This field is not supported for • PIM-DM. Designated Router — The designated router on the selected PIM interface. For point-to-point • interfaces, this is 0.0.0.0. Interface Neighbors fields are: •...
Page 772 Figure 12-37. Candidate RP Configuration The Candidate RP Configuration page contains the following fields: • RP Interface — Displays the interface for which the Candidate RP data is to be displayed. Slot 0 is the base unit. Group Address — Displays the group address transmitted in Candidate-RP-Advertisements. •...
Page 773: Static Rp Configuration
Table 12-36. PIM Candidate RP Configuration Commands CLI Command Description ipv6 pimsm rp-candidate Configures the router to advertise itself as a PIM candidate rendezvous point (RP) to the bootstrap router (BSR). Adding a Candidate RP Use the Add Candidate RP page to add PIM Candidate rendezvous points (RPs) for each IP multicast group.
Page 774 Figure 12-39. Static RP Configuration The Static RP Configuration page contains the following fields: • RP Address — Select the slot and port for which data is to be displayed. Slot 0 is the base unit. • Group Address — Specify the group address transmitted in Candidate-RP-Advertisements in Prefix/Length format.
Page 775: Ssm Range Configuration
Figure 12-40. Add Static RP 3. Enter the IP address of the RP for the group range. 4. Enter the group address of the RP. 5. Enter the group mask of the RP. 6. Check the Override option to configure the static RP to override the dynamic (candidate) RPs learned for same group ranges.
Page 776 Figure 12-41. SSM Range Configuration The SSM Range Configuration page contains the following fields: • SSM Group Address — Displays the Source-Specific Multicast (SSM) group IP address. • SSM Group Mask — (IPv4) Displays the SSM group ip-address mask. • SSM Prefix Length —...
Page 777: Bsr Candidate Configuration
Figure 12-42. Add SSM Range 3. Click the Add Default SSM Range check box to add the default SSM Range. The default SSM Range is ff3x::/32. 4. Enter the SSM Group IP Address. 5. Enter the SSM Group Mask (IPv4) or SSM Prefix Length (IPv6). 6.
Page 778: Bsr Candidate Summary
Figure 12-43. BSR Candidate Configuration The BSR Candidate Configuration page contains the following fields: • Interface — Select the interface for which data is to be displayed. Hash Mask Length — The CBSR hash mask length to be advertised in bootstrap messages if this •...
Page 779 Figure 12-44. BSR Candidate Summary The BSR Candidate Summary page contains the following fields: • BSR Address — Displays the IP address of the elected bootstrap router (BSR). • BSR Priority — Displays the priority value of the elected BSR. •...
Page 780 Configuring IP Multicast...
Page 781: Getting Help
This section contains information about getting help for questions about the PowerConnect 6200 Series switches. The topics covered in this section include: • Obtaining Assistance • Dell Enterprise Training and Certification • Problems With Your Order • Product Information •...
Page 782: Obtaining Assistance
3. If the preceding steps have not resolved the problem, see "Contacting Dell" on page 786. NOTE: Call Dell Support from a telephone near or at the computer so that the support staff can assist you with any necessary procedures.
Page 783: Automated Order-Status Service
Log in as user: anonymous, and use your e-mail address as your password. Automated Order-Status Service To check on the status of any Dell products that you have ordered, you can go to support.dell.com, or you can call the automated order-status service. A recording prompts you for the information needed to locate and report on your order.
Page 784: Product Information
If you need information about additional products available from Dell, or if you would like to place an order, visit the Dell website at www.dell.com. For the telephone number to call for your region or to speak to a sales specialist, see "Contacting Dell" on page 786.
Page 785 See your operating system documentation to determine the contents of the system’s start-up files. If the computer is connected to a printer, print each file. Otherwise, record the contents of each file before calling Dell. Error message, beep code, or diagnostic code:...
Page 786: Contacting Dell
Dell product catalog. Dell provides several online and telephone-based support and service options. Availability varies by country and product, and some services may not be available in your area. To contact Dell for sales, technical support, or customer service issues: 1.

This manual is also suitable for:

Powerconnect 6224f Powerconnect 6224p Powerconnect 6248 Powerconnect 6248p

Dell PowerConnect 6224 User Manual

1 Introduction

2 Using Dell™ Openmanage™ Switch Administrator

3 Cable and Port Information

4 Hardware Description

5 Configuring Dell Powerconnect

6 Configuring System Information

7 Configuring Switching Information

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Summary of Contents for Dell PowerConnect 6224