OS10 Enterprise Edition User Guide Release 10.4.
Notes, cautions, and warnings NOTE: A NOTE indicates important information that helps you make better use of your product. CAUTION: A CAUTION indicates either potential damage to hardware or loss of data and tells you how to avoid the problem. WARNING: A WARNING indicates a potential for property damage, personal injury, or death. Copyright © 2018 Dell Inc. or its subsidiaries. All rights reserved. Dell, EMC, and other trademarks are trademarks of Dell Inc. or its subsidiaries.
Contents 1 Getting Started............................................................................................................................................ 20 Download OS10 image and license................................................................................................................................. 21 Installation......................................................................................................................................................................
delete...........................................................................................................................................................................49 description (alias).......................................................................................................................................................50 dir............................................................................................................................................................
Minimum links............................................................................................................................................................. 78 Assign IP address....................................................................................................................................................... 79 Remove or disable port-channel..............................................................................................................................
show port-group........................................................................................................................................................110 show switch-port-profile...........................................................................................................................................111 show unit-provision....................................................................................................................................................
show fcoe sessions...................................................................................................................................................137 show fcoe statistics..................................................................................................................................................137 show fcoe system.....................................................................................................................................................
Fast start repeat count............................................................................................................................................ 175 View LLDP configuration......................................................................................................................................... 176 Adjacent agent advertisements.............................................................................................................................. 177 Time to live.......
VLAN commands..................................................................................................................................................... 243 Port monitoring.............................................................................................................................................................. 244 Local port monitoring..............................................................................................................................................
Neighbor soft-reconfiguration................................................................................................................................ 281 BGP commands....................................................................................................................................................... 282 Equal cost multi-path....................................................................................................................................................
Assign route-map to interface............................................................................................................................... 405 View PBR information.............................................................................................................................................405 PBR commands.......................................................................................................................................................
User session management........................................................................................................................................... 454 User session management commands................................................................................................................. 454 Telnet server...................................................................................................................................................................
Enable flow-based monitoring......................................................................................................................................492 ACL commands..............................................................................................................................................................493 clear ip access-list counters...................................................................................................................................
permit tcp.................................................................................................................................................................. 516 permit tcp (IPv6)...................................................................................................................................................... 517 permit udp.........................................................................................................................................................
match route-type.....................................................................................................................................................544 match tag................................................................................................................................................................. 545 route-map...............................................................................................................................................................
match cos................................................................................................................................................................. 573 match dscp............................................................................................................................................................... 574 match precedence...................................................................................................................................................
show qos maps........................................................................................................................................................ 594 show qos wred-profile............................................................................................................................................ 596 system qos...............................................................................................................................................................
PFC commands....................................................................................................................................................... 626 Enhanced transmission selection.................................................................................................................................630 ETS configuration notes......................................................................................................................................... 630 Configure ETS..
Set contact information.......................................................................................................................................... 683 Schedule activity......................................................................................................................................................684 View status...............................................................................................................................................................
1 Getting Started Dell EMC Networking OS10 Enterprise Edition is a network operating system supporting multiple architectures and environments. The networking world is moving from a monolithic stack to a pick-your-own-world. The OS10 solution is designed to allow disaggregation of the network functionality.
Download OS10 image and license OS10 Enterprise Edition may come factory-loaded and is available for download from the Dell Digital Locker (DDL). A factory-loaded OS10 image has a perpetual license installed. An OS10 image that you download has a 120-day trial license and requires a perpetual license to run beyond the trial period. See the Quick Start Guide shipped with your device and My Account FAQs for more information.
Once you download the OS10 Enterprise Edition image, unzip the .tar file. Some Windows unzip applications insert extra carriage returns (CR) or line feeds (LF) when they extract the contents of a .tar file, which may corrupt the downloaded OS10 binary image. Turn off this option if you use a Windows-based tool to untar an OS10 binary file. Once you unzip the OS10 Enterprise Edition and download the license, see Installation and Install license for complete installation and license information.
the switch from ONIE for any reason other than installation, select the ONIE: Rescue or ONIE: Update ONIE option from the ONIE boot menu. CAUTION: During an automatic or manual OS10 installation, if an error condition occurs that results in an unsuccessful installation, perform Uninstall OS first to clear the partitions if there is an existing OS on the device. If the problem persists, contact Dell EMC Technical Support.
4 Create a USB mount location on the system. $ mkdir /mnt/media 5 Identify the path to the USB drive. $ fdisk -l 6 Mount the USB media plugged in the USB port on the device. $ mount -t vfat usb-drive-path /mnt/media 7 Install the software from the USB, where /mnt/media specifies the path where the USB partition is mounted. $ onie-nos-install /mnt/media/image_file The ONIE auto-discovery process discovers the image file at the specified USB path, loads the software image, and reboots.
• http://hostip/filepath — Copy from a remote HTTP server • http://hostip — Send request to a remote HTTP server. • localfs://filepath — Install from a local file directory. • scp://userid:passwd@hostip/filepath — Copy from a remote SCP server. • sftp://userid:passwd@hostip/filepath — Copy from a remote SFTP server. • tftp://hostip/filepath — Copy from a remote TFTP server. • usb://filepath — Install from a file directory on a storage device connected to the USB storage port on the switch.
Remote access OS10 CLI 1 Open an SSH session using the IP address of the device. You can also use PuTTY or a similar tool to access the device remotely. ssh admin@ip-address password: admin 2 Enter admin for both the default user name and password to log into OS10. You are automatically placed in EXEC mode. OS10# Remote access Linux shell ssh linuxadmin@ip-address password: linuxadmin Configure Management IP address To remotely access OS10, assign an IP address to the management port.
• ipv6-address/prefix-length — Enter an IPv6 address in x:x:x:x::x format with the prefix length in /x format. The prefix range is /0 to /128. • forwarding-router-address — Enter the next-hop IPv4/IPv6 address of a forwarding router for network traffic from the Management port. • managementethernet — Configures the Management port as the interface for the route, and associates the route with the Management interface. Configure management route OS10(config)# management route 10.10.20.0/24 10.1.1.
6 Select how you want to download the software files, then click Download Now. Install the OS10 image on an ONIE-enabled switch with an installed OS10 license. See Install OS10 license for complete instructions. CLI Basics The OS10 command-line interface (CLI) is the software interface you use to access a device running the software — from the console or through a network connection. The CLI is an OS10-specific command shell that runs on top of a Linux-based operating system kernel.
• When a session terminates while in the transaction-based configuration mode, and you have not entered the commit command, the changes are maintained in the candidate configuration. You can start a new transaction-based configuration session and continue with the remaining configuration changes. • All sessions in the transaction-based configuration mode update the same candidate configuration.
From CONFIGURATION mode, you can also configure L2 and L3 protocols with a specific protocol-configuration mode, such as spanningtree protocol (STP) or border gateway protocol (BGP). Command help To view a list of valid commands for any CLI mode, enter ? or the help command. 1 Enter ? to view the commands available in EXEC mode.
2 Enter CONFIGURATION mode. OS10# configure terminal OS10(config)# 3 Enter ? to show the commands available in CONFIGURATION mode.
• alias Show list of aliases boot Show boot information candidate-configuration Current candidate configuration class-map Show QoS class-map configuration cli-session This command is deprecated please use 'show sessions' instead clock Show the system date and time command-history shows command history of the current user control-plane Display control-plane related informations copy-file Show file copy operation information diag Show diagnostic information for port adapters/modules diff Display differences
• • • 6 Thu Apr 20 19:47:16 UTC 2017 terminal length 0 7 Thu Apr 20 19:47:18 UTC 2017 terminal datadump 8 Thu Apr 20 19:47:20 UTC 2017 %abc 9 Thu Apr 20 19:47:22 UTC 2017 switchshow 10 Thu Apr 20 19:47:24 UTC 2017 cmsh 11 Thu Apr 20 19:47:26 UTC 2017 show version 12 Thu Apr 20 19:47:28 UTC 2017 cmsh 13 Thu Apr 20 19:47:30 UTC 2017 show version 14 Thu Apr 20 19:47:32 UTC 2017 show system 15 Fri Apr 21 12:35:31 UTC 2017 BIOS 3.20.0.
Use the show diff command to check differences between the running configuration and the candidate configuration. After comparing the two, you can decide if you would like to commit the changes to the running configuration. Use the discard command to delete uncommitted changes. • Enter show ? from EXEC mode to view a list of commands to monitor a device.
interface breakout 1/1/28 map 40g-1x interface breakout 1/1/29 map 40g-1x interface breakout 1/1/30 map 40g-1x interface breakout 1/1/31 map 40g-1x interface breakout 1/1/32 map 40g-1x ipv6 forwarding enable username admin password $6$q9QBeYjZ$jfxzVqGhkxX3smxJSH9DDz7/3OJc6m5wjF8nnLD7/VKx8SloIhp4NoGZs0I/ UNwh8WVuxwfd9q4pWIgNs5BKH. role sysadmin aaa authentication local snmp-server contact http://www.dell.
username admin password $6$q9QBeYjZ$jfxzVqGhkxX3smxJSH9DDz7/3OJc6m5wjF8nnLD7/VKx8SloIhp4NoGZs0I/ UNwh8WVuxwfd9q4pWIgNs5BKH. role sysadmin aaa authentication local snmp-server contact http://www.dell.
NOTE: After you enter the do commit command, the current session switches back to the default behavior of committing all configuration changes automatically.
Restore startup file from backup OS10# copy config://backup-9-28.xml config://startup.xml OS10# reload Back up startup file to server OS10# copy config://startup.xml scp://userid:password@hostip/backup-9-28.xml Restore startup file from server OS10# copy scp://admin:admin@hostip/backup-9-28.xml config://startup.xml OS10# reload Reload system image Reboot the system manually using the reload command in EXEC mode. You are prompted to confirm the operation. OS10# reload System configuration has been modified.
Alias command The alias command allows you to create shortcuts for commonly used or long commands, and execute long commands along with their parameters. The alias supports the following modes: • Persistent mode — The alias is persistent and can be used in other sessions as well. The aliases created in the Configuration mode are persistent. • Non-persistent mode — The alias can be used only within the current session. Once the session is closed, the alias is removed from the system.
Eth 1/1/25 up 40G A 1 Eth 1/1/26 up 40G A 1 Eth 1/1/27 up 40G A 1 Eth 1/1/28 up 40G A 1 Eth 1/1/29 up 40G A 1 Eth 1/1/30 up 40G A 1 Eth 1/1/31 up 40G A 1 Eth 1/1/32 up 40G A 1 -------------------------------------------------------------------------------View alias output for goint OS10(config)# goint 1/1/1 OS10(conf-if-eth1/1/1)# View alias information OS10# show alias Name ---govlt goint shconfig showint shver Type ---Config Config Local Local Local Number of config aliases : 2 Number of local aliases :
You cannot use the exiting CLI keywords as alias names. The alias name is case-sensitive and can have a maximum of 16 characters. • Create an alias in the CONFIGURATION mode. The switch enters the ALIAS mode. alias alias-name • Enter the commands to be executed prefixed by the line n command in the ALIAS mode. Enter the commands in double quotes and use $n to enter input parameters.
line 2 "no shutdown" line 3 "show configuration" line 4 exit View alias information OS10# show alias Name ---mTest Type ---Config Number of config aliases : 1 Number of local aliases : 0 View alias information brief (displays the first 10 characters of the alias value) OS10# show alias brief Name Type ------mTest Config Value ----line 1 "interface ..." line 2 "no shutdow..." line 3 "show confi...
Directory contents for Date (modified) --------------------2017-02-15T19:25:35Z b.cmd ... • folder: home Size (bytes) -----------77 Name ------------------------------------------ Execute the batch file using the batch command in EXEC mode. OS10# batch b.cmd OS10# Feb 15 19:26:1: %Dell EMC (OS10) %Node.1-Unit.1:PRI:OS10 %log-notice:IP_ADDRESS_ADD: IP Address add is successful.:IP 172.17.4.1/24 added successfully • (Optional) Verify the new commands in the running configuration.
no shutdown admin@OS10:/opt/dell/os10/bin$ User admin logged out at session 16 SSH commands You can execute commands remotely using an SSH session. This is supported only for show commands. • Enter the show command along with SSH. $ ssh admin@ip-address show-command $ ssh admin@10.11.98.39 "show version" admin@10.11.98.39's password: Dell EMC Networking OS10 Enterprise Copyright (c) 1999-2017 by Dell Inc. All Rights Reserved. OS Version: 10.3.9999E(X) Build Version: 10.3.9999E(X.
alias Creates a command alias. Syntax Parameters alias alias-name alias-value • alias-name — Enter the name of the alias (up to 20 characters). • alias-value — Enter the command to be executed within double quotes (1 to 9 or *). Enter the $ followed by either numbers ranging from 1 to 9 or with an asterisk (*) and enter the parameters while executing the commands using the alias. Use asterisk (*) to represent any number of parameters.
Eth 1/1/32 up 40G A 1 -------------------------------------------------------------------------------OS10# configure terminal OS10(config)# alias goint "interface ethernet $1" OS10(config)# goint 1/1/1 OS10(conf-if-eth1/1/1)# Supported Releases 10.3.0E or later alias (multi-line) Creates a mulit-line command alias. Syntax alias alias-name Parameters alias-name — Enter the name of the alias (up to 20 characters).
Supported Releases 10.2.0E or later boot Configures which OS10 image to use the next time the system boots up. Syntax Parameters boot system [active | standby] • active — Reset the running partition as the next boot partition. • standby — Set the standby partition as the next boot partition. Default Not configured Command Mode EXEC Usage Information Use this command to configure the location of the OS10 image used to reload the software at boot time.
Usage Information Enter conf t for auto-completion. Example OS10# configure terminal OS10(config)# Supported Releases 10.2.0E or later copy Copies the current running configuration to the startup configuration and transfers files between an OS10 switch and a remote device.
OS10# copy config://startup.xml scp://os10user:os10passwd@10.11.222.1:/home/ os10/backup.xml Example (retrieve backed-up configuration) OS10# copy scp://os10user:os10passwd@10.11.222.1:/home/os10/backup.xml home:// config.xml OS10(conf-if-eth1/1/5)# dir home Directory contents for Date (modified) --------------------… 2017-02-15T21:19:54Z config.
• supportbundle://filepath — (Optional) Delete from support-bundle directory. • usb://filepath — (Optional) Delete from USB file system. Default Not configured Command Mode EXEC Usage Information Use this command to remove a regular file, software image, or startup configuration. Removing the startup configuration restores the system to factory default. You need to reboot the switch — reload for the operation to take effect. Use caution when removing the startup configuration.
Default Not configured Command Mode EXEC Usage Information Use the dir config command to display configuration files.
! ... Supported Releases 10.2.0E or later feature config-os9-style Configure commands in OS9 environment. Syntax feature config-os9-style Parameters None Default Not configured Command Mode CONFIGURATION Usage Information Once you enable the feature to configure the commands in OS9 format, log out of the session. In the next session, you can configure the commands in OS9 format. The current release supports VLAN tagging and Port channel grouping commands.
license Installs a license file from a local or remote location. Syntax Parameters license install [ftp: | http: | localfs: | scp: | sftp: | tftp: | usb:] filepath • ftp: — (Optional) Install from remote file system (ftp://userid:passwd@hostip/filepath). • http[s]: — (Optional) Install from remote file system (http://hostip/filepath). • http[s]: — (Optional) Request from remote server (http://hostip). • localfs: — (Optional) Install from local file system (localfs://filepath).
lock Locks the candidate configuration and prevents any configuration changes on any other CLI sessions, either in transaction or nontransaction-based configuration mode. Syntax lock Parameters None Default Not configured Command Mode EXEC Usage Information The lock command fails if there are uncommitted changes in the candidate configuration. Example OS10# lock Supported Releases 10.2.0E or later management route Configures an IPv4/IPv6 static route used by the Management port.
move Moves or renames a file on the config or home system directories. Syntax Parameters move [config: | home: | usb:] • config: — Move from configuration directory (config://filepath). • home: — Move from home directory (home://filepath). • usb: — Move from USB file system (usb://filepath). Default Not configured Command Mode EXEC Usage Information Use the dir config command to view the directory contents. Example OS10# move config://startup.xml config://startup-backup.
reload Reloads the software and reboots the ONIE-enabled device. Syntax reload Parameters None Default Not configured Command Mode EXEC Usage Information Use caution while using this command, as it reloads the OS10 image and reboots the device. Example OS10# reload Proceed to reboot the system? [confirm yes/no]:y Supported Releases 10.2.0E or later show alias Displays configured alias commands available in both persistent and non-persistent modes.
shver Local "show versi...
show candidate-configuration Displays the current candidate configuration file.
Example OS10# show candidate-configuration ! Version 10.2.9999E ! Last configuration change at Apr 11 10:36:43 2017 ! username admin password $6$q9QBeYjZ$jfxzVqGhkxX3smxJSH9DDz7/3OJc6m5wjF8nnLD7/ VKx8SloIhp4NoGZs0I/UNwh8WVuxwfd9q4pWIgNs5BKH. aaa authentication local snmp-server contact http://www.dell.com/support snmp-server location "United States" logging monitor disable ip route 0.0.0.0/0 10.11.58.
show environment Displays information about environmental system components, such as temperature, fan, and voltage.
Supported Releases 10.2.0E or later show ip management-route Displays the IPv4 routes used to access the management port. Syntax Parameters show ip management-route [all | connected | summary | static] • all — (Optional) Display the IPv4 routes that the management interface uses. • connected — (Optional) Display only routes directly connected to a management interface. • summary — (Optional) Display the number of active and non-active management routes and their remote destinations.
Supported Releases 10.2.2E or later show license status Displays license status information. Syntax show license status Parameters None Default Not configured Command Mode EXEC Usage Information Use this command to view the show license status command to verify the current license for running OS10, its duration, and the service tag of the switch to which it is assigned.
• control-plane — (Optional) Current operating control-plane configuration. • dot1x — (Optional) Current operating dot1x configuration. • extcommunity-list — (Optional) Current operating extcommunity-list configuration. • interface — (Optional) Current operating interface configuration. • lacp — (Optional) Current operating LACP configuration. • lldp — (Optional) Current operating LLDP configuration. • logging — (Optional) Current operating logging configuration.
! interface ethernet1/1/5 switchport access vlan 1 no shutdown ! interface ethernet1/1/6 switchport access vlan 1 no shutdown --more-Example (compressed) OS10# show running-configuration compressed username admin password $6$q9QBeYjZ$jfxzVqGhkxX3smxJSH9DDz7/3OJc6m5wjF8nnLD7/ VKx8SloIhp4NoGZs0I/UNwh8WVuxwfd9q4pWIgNs5BKH. aaa authentication local snmp-server contact http://www.dell.com/support snmp-server location "United States" logging monitor disable ip route 0.0.0.0/0 10.11.58.
interface ethernet1/1/1 switchport access vlan no shutdown ! interface ethernet1/1/2 switchport access vlan no shutdown ! interface ethernet1/1/3 switchport access vlan no shutdown ! interface ethernet1/1/4 switchport access vlan no shutdown ! interface ethernet1/1/5 switchport access vlan no shutdown ! --more-Example (compressed) 1 1 1 1 1 OS10# show startup-configuration compressed username admin password $6$q9QBeYjZ$jfxzVqGhkxX3smxJSH9DDz7/3OJc6m5wjF8nnLD7/ VKx8SloIhp4NoGZs0I/UNwh8WVuxwfd9q4pWIgNs5
Default Not configured Command Mode EXEC Usage Information None Example OS10#show system Node Id MAC Number of MACs Up Time : : : : 1 34:17:18:19:20:21 0 1 week 4 days 08:08:17 -- Unit 1 -Status System Identifier Down Reason System Location LED Required Type Current Type Hardware Revision Software Version Physical Ports BIOS System CPLD Master CPLD Slave CPLD : : : : : : : : : : : : : up 1 off S4048 S4048 10.3.9999E(X) 48x10GbE, 6x40GbE 3.21.0.
Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Example (brief) 1/1/16 1/1/17 1/1/18 1/1/19 1/1/20 1/1/21 1/1/22 1/1/23 1/1/24 1/1/25 1/1/26 1/1/27 1/1/28 1/1/29 1/1/30 1/1/31 1/1/32 No Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes No No No No BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 OS10# show system bri
Supported Releases 10.2.0E or later start Activates the transaction-based configuration mode for the active session. Syntax start transaction Parameters transaction - Enables transaction-based configuration. Default Not configured Command Mode EXEC Usage Information Use this command to save changes to the candidate configuration before applying configuration changes to the running configuration. Example OS10# start transaction Supported Releases 10.3.
Example OS10(config)# system identifier 1 Supported Releases 10.3.0E or later terminal Sets the number of lines to display on the terminal and enables logging. Syntax Parameters terminal {length lines | monitor} • length lines — Enter the number of lines to display on the terminal (0 to 512, default 24). • monitor — Enables logging on the terminal. Default 24 terminal lines Command Mode EXEC Usage Information Enter zero (0) for the terminal to display without pausing.
– -t tos — (Optional) For IPv4, enter the Type of Service (TOS) and Precedence values to use. 16 sets a low delay; 8 sets a high throughput. – -UL — (Optional) Use UDPLITE for tracerouting (default port is 53). – -w waittime — (Optional) Enter the time (in seconds) to wait for a response to a probe (default 5 seconds). – -z sendwait — (Optional) Enter the minimal time interval to wait between probes (default 0).
write Copies the current running configuration to the startup configuration file. Syntax write {memory} Parameters memory — Copy the current running configuration to the startup configuration. Default Not configured Command Mode EXEC Usage Information This command has the same effect as the copy running-configuration startup-configuration command. The running configuration is not saved to a local configuration file other than the startup configuration.
2 Interfaces You can configure and monitor physical interfaces (Ethernet), port-channels, and virtual local area networks (VLANs) in Layer 2 (L2) or Layer 3 (L3) modes. Table 1.
A Trunk interface carries VLAN traffic that is tagged using 802.1q encapsulation. If an Access interface receives a packet with an 802.1q tag in the header that is different from the Access VLAN ID, it drops the packet. By default, a trunk interface carries only untagged traffic on the Access VLAN. You must manually configure other VLANs for tagged traffic. 1 2 Select one of the two available options: • Configure L2 trunking in INTERFACE mode and the tagged VLAN traffic that the port can transmit.
Figure 1. S4148U-ON port groups On a S4148U-ON, the activated FC interfaces depend on the currently configured port profile. For more information, see S4148U-ON port profiles. To enable a fibre channel interface: 1 Configure a unified port group in CONFIGURATION mode. Enter 1/1 for node/slot. The port-group range is 1–10. port-group node/slot/port-group 2 Activate the unified port group for FC operation in PORT-GROUP mode.
Address is 14:18:77:20:8d:fc, Current address is 14:18:77:20:8d:fc Pluggable media present, QSFP-PLUS type is QSFPPLUS_4X16_16GBASE_FC_SW Wavelength is 850 Receive power reading is 0.
Configure VLAN OS10(config)# interface vlan 10 OS10(conf-if-vl-10)# ip address 1.1.1.2/24 You cannot simultaneously use egress rate shaping and ingress rate policing on the same VLAN. User-configured default VLAN By default, VLAN1 serves as the default VLAN for switching untagged L2 traffic on OS10 ports in Trunk or Access mode. The default VLAN is used for untagged protocol traffic sent and received between switches, such as STPs.
Hardware is unknown. Interface index is 102863300 Internet address is 120.120.120.
Add port member When you add a port interface to a port-channel: • The port-channel configuration and administrative status are applied to member interfaces. • A port-channel operates in either L2 (default) or L3 mode. To place a port-channel in L2 mode, use the switchport mode command. To place a port-channel in L3 mode and remove L2 configuration before you configure an IP address, use the no switchport command. • All interfaces should have the same speed (recommended).
Configure minimum operationally up links OS10(config)# interface po 1 OS10(conf-if-po-1)# minimum-links 5 Assign IP address Assign an IP address to a port-channel and use port-channels in L3 routing protocols. • Configure an IP address and mask for the interface in INTERFACE mode. Use the secondary parameter to configure up to eight secondary IP addresses, if needed. ip address A.B.C.D/x [secondary] Assign port-channel IP address OS10(config)# interface port-channel 10 OS10(conf-if-po10)# ip address 1.1.
– ipv6-selection [destination-ip | source-ip | protocol | vlan-id | l4–destination-port | l4– source-port] — Uses the destination IPv6 address, source IPv6 address, protocol, VLAN ID, Layer 4 destination IPv6 address, or Layer 4 source IPv6 address in the hash calculation. – mac—selection [destination-mac | source-mac] [ethertype | vlan-id] — Uses the destination MAC address or source MAC address, and ethertype, or VLAN ID in the hash calculation.
switchport access vlan 1 ! interface ethernet1/1/4 no shutdown switchport access vlan 1 ! interface ethernet1/1/5 no shutdown switchport access vlan 1 Configure range of VLANs OS10(config)# interface range vlan 1-100 OS10(conf-range-vl-1-100)# Configure range of port channels OS10(config)# interface range port-channel 1-25 OS10(conf-range-po-1-25)# Switch-port profiles A port profile determines the enabled front-panel ports and supported breakout modes on Ethernet and unified ports.
profile-2 profile-3 profile-4 profile-5 profile-6 S4148-ON Series port profiles On the S4148-ON Series of switches, port profiles determine the available front-panel Ethernet ports and supported breakout interfaces on uplink ports. In the port profile illustration, blue boxes indicate the supported ports and breakout interfaces. Blank spaces indicate ports and speeds that are not available. • • • • • 10GE mode is an SFP+ 10GE port or a 4x10G breakout of a QSFP+ or QSFP28 port.
Fibre Channel port modes and breakout interfaces. Blank spaces indicate ports and speeds that are not available. Unified port groups are numbered 1 to 10. S4148U-ON unified port modes—SFP+ ports 1-24 and QSFP28 ports 25-26 and 29-30: • 10GE is an SFP+ port in Ethernet mode or a 4x10G breakout of a QSFP+ or QSFP28 port in Ethernet mode. • 25GE is a 4x25G breakout of a QSFP28 Ethernet port. • 40GE is a QSFP+ or QSFP28 Ethernet port that uses QSFP+ 40GE transceivers.
• QSFP28 ports in 4x16GFC mode support 32GFC oversubscription. Breakout interfaces: • To configure breakout interfaces on a unified port, use the mode {FC | Eth} command in Port-Group Configuration mode. The mode {FC | Eth} command configures a unified port to operate at line rate and guarantees no traffic loss. • To configure breakout interfaces on a QSFP+ Ethernet port, use the interface breakout command in global Configuration mode.
OS10(conf-pg-1/1/7)# exit OS10(config)# interface ethernet 1/1/25:1 OS10(conf-if-fc-1/1/25:1)# View Ethernet unified port interface OS10(config)# interface ethernet 1/1/25:1 OS10(conf-if-fc-1/1/25:1)# show configuration ! interface ethernet1/1/25:1 no shutdown Configure breakout mode Using a supported breakout cable, you can split a 40GE QSFP+ or 100GE QSFP28 Ethernet port into separate breakout interfaces. All breakout interfaces have the same speed.
RJ-45 ports and ports that are members of a port group do not support breakout auto-configuration. Breakout auto-configuration is disabled by default.
3 Reset an interface to its default configuration in CONFIGURATION mode. Enter multiple interfaces in a comma-separated string or a port range using the default interface range command. default interface {ethernet | fibrechannel} node/slot/port[:subport] 4 Enter INTERFACE mode and verify the factory-default configuration.
• CL91-RS — Supports 100G • CL108-RS — Supports 25G and 50G • off — Disables FEC NOTE: OS10 does not support FEC on 10G and 40G.
Auto-negotiation performs at power-up, on command from the LAN controller, on detection of a PHY error, or following Ethernet cable reconnection. During the link establishment process, both link partners indicate their EEE capabilities. If EEE is supported by both link partners for the negotiated PHY type, EEE functions independently in either direction. Changing the EEE configuration resets the interface because the device restarts Layer 1 auto-negotiation.
Eth ...
clear counters interface ethernet eee Clears EEE counters on a specified interface. Syntax clear counters interface ethernet node/slot/port[:subport] eee Parameters node/slot/port[:subport]—Enter the interface information. Default Not configured Command Mode EXEC Usage Information Use this command to clear EEE counters on a specified Ethernet interface. Example OS10# clear counters interface 1/1/48 eee Clear eee counters on ethernet1/1/48 [confirm yes/no]:yes Supported Releases 10.3.
Eth Eth Eth Eth Eth Supported Releases 1/1/48 1/1/49 1/1/50 1/1/51 1/1/52 on n/a n/a n/a n/a up 1000M 10.3.0E or later show interface eee statistics Displays EEE statistics for all interfaces. Syntax show interface eee statistics Parameters None Default Not configured Command Mode EXEC Example OS10# show interface eee statistics Port EEE TxEventCount TxDuration(us) RxEventCount RxDuration(us) -----------------------------------------------------------------------------Eth 1/1/1 off 0 0 0 0 ..
Parameters node/slot/port[:subport]—Enter the interface information. Default Not configured Command Mode EXEC Example OS10# show interface ethernet 1/1/48 eee statistics Eth 1/1/48 EEE : on TxIdleTime(us) : 2560 TxWakeTime(us) : 5 Last Clearing : 18:45:53 TxEventCount : 0 TxDuration(us) : 0 RxEventCount : 0 RxDuration(us) : 0 Supported Releases 10.3.
Output statistics: 0 packets, 0 octets 0 64-byte pkts, 0 over 64-byte pkts, 0 over 127-byte pkts 0 over 255-byte pkts, 0 over 511-byte pkts, 0 over 1023-byte pkts 0 Multicasts, 0 Broadcasts, 0 Unicasts 0 throttles, 0 discarded, 0 Collisions, 0 wred drops Rate Info(interval 30 seconds): Input 0 Mbits/sec, 0 packets/sec, 0% of line rate Output 0 Mbits/sec, 0 packets/sec, 0% of line rate Time since last interface status change: 02:46:36 Ethernet 1/1/2 is up, line protocol is up Hardware is Eth, address is 00:0
View running configuration OS10# show running-configuration Current Configuration ... ! interface ethernet1/1/1 no ip address shutdown ! interface ethernet1/1/2 no ip address shutdown ! interface ethernet1/1/3 no ip address shutdown ! interface ethernet1/1/4 no ip address shutdown ...
View VLAN configuration OS10# show vlan Codes: * - Default VLAN, M - Management VLAN, R - Remote Port Mirroring VLANs, @ – Attached to Virtual Network Q: A - Access (Untagged), T - Tagged NUM Status Description Q Ports 1 Inactive A Eth1/1/1,1/1/6-1/1/32 10 Inactive 20 Inactive 22 Inactive 23 Active A Eth1/1/2 24 Inactive 25 Inactive 26 Inactive 27 Inactive 28 Inactive 29 Inactive 30 Inactive Interface commands channel-group Assigns an interface to a port-channel group.
• fibrechannel node/slot/port[:subport] — Resets a Fibre Channel interface to its default settings. • range ethernet node/slot/port:[subport]-node/slot/port[:subport] — Resets a range of Ethernet interfaces to their default settings. Default Not configured Command mode CONFIGURATION Usage information To remove the configuration from an Ethernet or Fibre Channel interface and reset the interface to its default settings, use the default interface command.
OS10 # show running-configuration interface fibrechannel 1/1/1 interface fibrechannel1/1/1 shutdown Example (Range of interfaces) OS10(config)# interface range ethernet 1/1/1-1/1/4 OS10(conf-range-eth1/1/1-1/1/4)# show configuration ! interface ethernet1/1/1 no shutdown no switchport ip address 192.21.43.1/31 ipv6 address 2000:21:43::21:43:1/127 ! interface ethernet1/1/2 no shutdown no switchport ! interface ethernet1/1/3 no shutdown no switchport ip address 192.28.43.
switchport access vlan 1 ! interface ethernet1/1/4 no shutdown switchport access vlan 1 OS10(conf-range-eth1/1/1-1/1/4)# Supported releases 10.4.0E(R1) or later default vlan-id Reconfigures the VLAN ID of the default VLAN. Syntax default vlan-id vlan-id Parameters vlan-id — Enter the default VLAN ID number (1 to 4093). Default VLAN 1 Command Mode CONFIGURATION Usage Information By default, VLAN 1 serves as the default VLAN for switching untagged L2 traffic on OS10 ports in trunk or access mode.
Parameters string — Enter a text string for the interface description (up to 240 characters). Default Not configured Command Mode INTERFACE Usage Information • To use special characters as a part of the description string, enclose the string in double quotes. • Spaces between characters are not preserved after entering this command unless you enclose the entire description in quotation marks (“text description”).
Usage information After you enter the feature auto-breakout command and plug a supported breakout cable in a QSFP+ or QSFP28 port, the port autoconfigures breakout interfaces for media type and speed. Use the interface breakout command to manually configure breakout interfaces. The media type plugged into a port is no longer automatically learned. The no version of this command disables the auto-breakout feature. Example OS10(config)# feature auto-breakout Supported releases 10.4.
Command Mode Usage Information CONFIGURATION • Each breakout interface operates at the configured speed; for example, 10G, 25G, or 50G. • The no interface breakout node/slot/port command resets a port to its default speed — 40G or 100G. • To configure breakout interfaces on a unified port, use the mode {Eth | FC} command in the Port-Group configuration mode. Example OS10(config)# interface breakout 1/1/41 map 10g-4x Supported Releases 10.2.
Parameters node/slot/port — Enter the physical port interface information for the Management interface. Default Enabled Command Mode CONFIGURATION Usage Information You cannot delete a Management port. To assign an IP address to the Management port, use the ip address command. Example OS10(config)# interface mgmt 1/1/1 OS10(conf-if-ma-1/1/1)# Supported Releases 10.2.0E or later interface null Configures a null interface on the switch.
interface range Configures a range of Ethernet, port-channel, or VLAN interfaces for bulk configuration. Syntax interface range {ethernet node/slot/port[:subport]-node/slot/port[:subport], [...]} | {port-channel IDnumber-IDnumber,[ ...]} | vlan vlanID-vlanID,[...]} Parameters • node/slot/port[:subport]-node/slot/port[:subport] — Enter a range of Ethernet interfaces. • IDnumber-IDnumber — Enter a range of port-channel numbers (1 to 128). • vlanID-vlanID — Enter a range VLAN ID numbers (1 to 4093).
link-bundle-utilization Configures link-bundle utilization. Syntax link-bundle-utilization trigger-threshold value Parameters value — Enter the percentage of port-channel bandwidth that triggers traffic monitoring on port-channel members (0 to 100). Default Disabled Command Mode CONFIGURATION Usage Information None Example OS10(config)# link-bundle-utilization trigger-threshold 10 Supported Releases 10.2.
Usage Information Example • The mode {FC | Eth} command configures a port group to operate at line rate and guarantees no traffic loss. • The no version of the command resets port-group interfaces to the default Ethernet port mode/speed. Use the no mode command before you reset the mode on an interface. • To configure oversubscription on a FC interface, use the speed command. • To configure breakout interfaces on an Ethernet port, use the interface breakout command.
port-group Configures a group of front-panel unified ports or a double-density QSFP28 (QSFP28-DD) port. Syntax Parameters port-group node/slot/port-group • node/slot — Enter 1/1 for node/slot when you configure a port group. • port-group — Enter the port-group number (1–14). The available port-group range depends on the switch.
Command Mode EXEC Usage Information Use the do show interface command to view interface information from other command modes. Example OS10# show interface Ethernet 1/1/2 is up, line protocol is up Hardware is Dell EMC Eth, address is 00:0c:29:54:c8:57 Current address is 00:0c:29:54:c8:57 Pluggable media present, QSFP-PLUS type is QSFP_40GBASE_CR4_1M Wavelength is 64 Receive power reading is 0.
show inventory media Displays installed media in switch ports. Syntax show inventory media Parameters None Command Mode EXEC Usage Information Use the show inventory media command to verify the media type inserted in a port.
show port-channel summary Displays port-channel summary information.
Example: S4148UON OS10(config)# show port-group port-group mode ports 1/1/1 Eth 10g-4x 1 2 3 4 1/1/2 FC 16g-2x 5 6 7 8 1/1/3 FC 16g-2x 9 10 11 12 1/1/4 FC 16g-2x 13 14 15 16 1/1/5 FC 16g-2x 17 18 19 20 1/1/6 FC 16g-2x 21 22 23 24 1/1/7 Eth 100g-1x 25 1/1/8 Eth 40g-1x 26 1/1/9 Eth 100g-1x 29 1/1/10 Eth 40g-1x 30 Supported Releases 10.3.1E or later show switch-port-profile Displays the current and default port profile on a switch.
show vlan Displays the current VLAN configuration. Syntax show vlan [vlan-id] Parameters vlan-id — (Optional) Enter a VLAN ID (1 to 4093). Default Not configured Command Mode EXEC Usage Information None Example OS10# show vlan Codes: * - Default VLAN, M - Management VLAN, R - Remote Port Mirroring VLANs Q: A - Access (Untagged), T - Tagged NUM Status Description Q Ports 1 down Supported Releases 10.2.0E or later shutdown Disables an interface.
• 16 — 16GFC • 32 — 32GFC • auto — Set the port speed to the speed of the installed media. Defaults Auto Command Mode INTERFACE Usage Information The speed command is supported only on the Management and Fibre Channel interfaces. This command is not supported on Ethernet interfaces. • To configure oversubscription for bursty storage traffic on a FC interface, use the speed command. Oversubscription allows a port to operate faster, but may result in traffic loss.
switch-port-profile Configures a port profile on the switch. The port profile determines the available front-panel ports and breakout modes. Syntax switch-port-profile node/unit profile Parameters • node/unit — Enter switch information. For a standalone switch, enter 1/1. • profile — Enter the name of a platform-specific profile.
– profile-2 — SFP+ unified ports (1-24), QSFP28 unified ports (25-26 and 29-30), QSFP+ Ethernet ports (27-28), and SFP+ Ethernet ports (31-54) are enabled. ◦ SFP+ unified ports operate in Ethernet 10GE mode by default. SFP+ unified port groups support 4x8GFC and 2x16GFC breakouts (ports 1 and 3) in FC mode. ◦ QSFP28 unified ports 25 and 29 operate in Ethernet 100GE mode by default, and support 40GE with QSFP+ transceivers and 4x10G breakouts.
switchport access vlan Assigns access VLAN membership to a port in L2 access or trunk mode. Syntax switchport access vlan vlan-id Parameters vlan vlan-id — Enter the VLAN ID number (1 to 4093). Default VLAN 1 Command Mode INTERFACE Usage Information This command enables L2 switching for untagged traffic and assigns a port interface to default VLAN 1. Use this command to change the assignment of the access VLAN that carries untagged traffic.
switchport trunk allowed vlan Configures the tagged VLAN traffic that a L2 trunk interface can carry. An L2 trunk port has no tagged VLAN membership and does not transmit tagged traffic. Syntax switchport trunk allowed vlan vlan-id-list Parameters vlan-id-list — Enter the VLAN numbers of the tagged traffic that the L2 trunk port can carry. Commaseparated and hyphenated VLAN number ranges are supported.
3 Fibre channel F_Port Fibre channel fabric port (F_Port) is the switch port that connects the Fibre Channel (FC) fabric to a node. S4148U-ON switches support F_Port. Enable Fibre channel F_Port mode globally using the feature fc domain-ID domain-ID command in CONFIGURATION mode.
Configure FIP snooping 1 Enable the FIP snooping feature globally using the feature fip-snooping command in CONFIGURATION mode. 2 Before applying FIP snooping to a VLAN, ensure that the VLAN already contains Ethernet or LAG members that are enabled with FCF port mode. You can enable FCF mode on an Ethernet or port-channel using the fip-snooping port-mode fcf command in INTERFACE mode. 3 Enable FIP snooping on the VLAN using the fip-snooping enable command in VLAN INTERFACE mode.
Number of VN Port Session Timeouts :0 Number of Session failures due to Hardware Config :0 OS10# show fcoe vlan * = Default VLAN VLAN FC-MAP FCFs Enodes ---- ------ ---- -----*1 100 0X0EFC00 1 2 Sessions -------17 OS10# show fcoe system Mode: FIP Snooping Bridge FCOE VLAN List (Operational) FCFs Enodes Sessions : : : : 1, 100 1 2 17 OS10# show fcoe sessions Enode MAC Enode Interface FCF MAC FCF interface ID PORT WWPN PORT WWNN ----------------- ---------------- ----------------- -------------------- --
The F_Port and NPG modes are mutually exclusive. If you have already configured a vfabric in F_Port mode, while configuring vfabrics in NPG mode, disable the F_Port mode. The existing vfabric is removed when you disable F_Port mode and you need to configure new vfabrics in NPG mode. If you are moving from NPG mode to F_Port mode, then disable the NPG mode and create new vfabric in F_Port mode. Zoning allows you to increase network security by partitioning the devices connected to the vfabric into subsets.
Switch Zoning Parameters ========================================== Default Zone Mode: Allow Active ZoneSet: set ========================================== Members fibrechannel1/1/1 fibrechannel1/1/2 fibrechannel1/1/3 fibrechannel1/1/4 fibrechannel1/1/5 fibrechannel1/1/6 fibrechannel1/1/7 fibrechannel1/1/8 fibrechannel1/1/9 fibrechannel1/1/10 fibrechannel1/1/11 fibrechannel1/1/12 fibrechannel1/1/15 fibrechannel1/1/17 fibrechannel1/1/18 fibrechannel1/1/19 fibrechannel1/1/20 fibrechannel1/1/21 fibrechannel1/1
fcoe fka-adv-period 8 fcoe vlan-priority 3 OS10# show vfabric Fabric Name 10 Fabric Type NPG Fabric Id 10 Vlan Id 100 FC-MAP 0xEFC01 Vlan priority 3 FCF Priority 128 FKA-Adv-Period Enabled,8 Config-State ACTIVE Oper-State DOWN ========================================== Members ========================================== OS10# show running-configuration vfabric ! vfabric 10 name 10 vlan 100 fcoe fcmap 0xEFC01 fcoe fcf-priority 128 fcoe fka-adv-period 8 fcoe vlan-priority 3 Fibre Channel zoning Fibre channel
OS10(config)# fc zoneset set OS10(conf-fc-zoneset-set)# member hba1 OS10(conf-fc-zoneset-set)# exit OS10(config)# vfabric 100 OS10(conf-vfabric-100)# zoneset activate set OS10(conf-vfabric-100)# zone default-zone permit View FC zone configuration OS10(config-fc-zone-hba1)# show configuration ! fc zone hba1 member wwn 21:00:00:24:ff:7b:f5:c8 member wwn 10:00:00:90:fa:b8:22:19 OS10# show fc zone Zone Name Zone Member ================================================= hba1 21:00:00:24:ff:7b:f5:c8 10:00:00:90:fa
F_Port on Ethernet OS10 supports configuring F_Port mode on an Ethernet port that is connected to converged network adapters (CNA). After enabling F_Port mode, configure a vfabric and apply the vfabric to Ethernet ports connected to CNA. You can configure only one vfabric in F_Port mode. You can apply the configured vfabric to multiple Ethernet interfaces. You can also add the Ethernet interfaces to a port-channel and apply the vfabric to the port-channel.
Parameters interface-type — (Optional) Enter the interface type. The interface may be ethernet, VLAN, or port-channel. Default Not configured Command Mode EXEC Usage Information If you do not specify the interface interface-type information, then the command clears the statistics for all the interfaces and VLANs. Example OS10# clear fcoe statistics interface ethernet 1/1/1 OS10# clear fcoe statistics interface port-channel 5 Supported Releases 10.4.0E(R1) or later fc alias Creates an FC alias.
fc zoneset Creates an FC zoneset and adds the existing FC zones to the zoneset. Syntax fc zoneset zoneset-name Parameters zoneset-name — Enter a name for the FC zoneset. The name must start with a letter and may contain characters: A-Z, a-z, 0-9, $, _, -, ^ Defaults Not configured Command Mode CONFIGURATION Usage Information The no version of this command removes the FC zoneset. Example OS10(config)# fc zoneset set OS10(conf-fc-zoneset-set)# member hba1 Supported Releases 10.3.
Supported Releases 10.3.1E or later fcoe max-sessions-per-enodemac Configures the maximum number of sessions allowed for an ENode. Syntax fcoe max-sessions-per-enodemac max-session-number Parameters max-session-number — Enter the maximum number of sessions to be allowed, ranging from 1 to 64. Defaults 32 Command Mode CONFIGURATION Usage Information The no version of this command resets the number of sessions to the default value.
Example OS10(config)# feature fc npg Supported Releases 10.4.0E(R1) or later feature fip-snooping Enables the FIP snooping feature globally. Syntax feature fip-snooping Parameters None Defaults Disabled Command Mode CONFIGURATION Usage Information The no version of this command disables FIP snooping. Example OS10(config)# feature fip-snooping Supported Releases 10.4.0E(R1) or later fip-snooping enable Enables FIP snooping on specified VLAN.
Command Mode VLAN INTERFACE Usage Information The no version of this command disables the FC map configuration. Example OS10(config)# interface vlan 3 OS10(conf-if-vl-3)# fip-snooping fc-map 0xEFC64 Supported Releases 10.4.0E(R1) or later fip-snooping port-mode fcf Sets the FIP snooping port mode to FCF for interfaces. Syntax fip-snooping port-mode fcf Parameters None Defaults ENode port mode Command Mode INTERFACE Usage Information By default, the port mode of an interface is set to ENode.
member (zone) Adds members to existing zones. Identify a member by an FC alias, a World Wide Name (WWN), or an FC ID. Syntax Parameters member {alias-name alias-name | wwn wwn-ID | fc-id fc-id} • alias-name — Enter the FC alias name. • wwn-ID — Enter the WWN name. • fc-id — Enter the FC ID name. Defaults Not configured Command Mode Zone CONFIGURATION Usage Information The no version of this command removes the member from the zone.
Usage Information The no version of this command removes the vfabric name.. Example OS10(config)# vfabric 100 OS10(conf-vfabric-100)# name test_vfab Supported Releases 10.3.1E or later show fc alias Displays the details of a FC alias and its members. Syntax show fc alias [alias-name] Parameters alias-name — (Optional) Enter the FC alias name.
Example (brief) Supported Releases Registered with NameServer Registered for SCN Yes Yes Switch Name Domain Id Switch Port FC-Id Port Name Node Name Class of Service Symbolic Port Name Symbolic Node Name Port Type Registered with NameServer Registered for SCN 10:00:14:18:77:20:8d:cf 100 fibrechannel1/1/29 64:74:00 21:00:00:24:ff:7b:f5:c8 20:00:00:24:ff:7b:f5:c8 8 QLogic Port0 WWPN 21:00:00:24:ff:7b:f5:c8 QLE2742 FW:v8.03.05 DVR:v9.2.3.
Number of FDISC Rejects Number of FLOGO Accepts Number of FLOGO Rejects Supported Releases : 0 : 0 : 0 10.3.1E or later show fc switch Displays the FC switch parameters. Syntax show fc switch Parameters None Default Not configured Command Mode EXEC Usage Information None Example OS10# show fc switch Switch Mode : FPORT Switch WWN : 10:00:14:18:77:20:8d:cf Supported Releases 10.3.1E or later show fc zone Displays the FC zones and the zone members.
21:00:00:24:ff:7f:ce:ee 21:00:00:24:ff:7f:ce:ef Supported Releases 10.3.1E or later show fc zoneset Displays the FC zonesets, the zones in the zoneset, and the zone members. Syntax show fc zoneset [active | zoneset-name] Parameters zoneset-name — Enter the FC zoneset name.
21:00:00:24:ff:7f:ce:ee 21:00:00:24:ff:7f:ce:ef Example (with zoneset name) OS10# show fc zoneset set ZoneSetName ZoneName ZoneMember ================================================================== set hba1 21:00:00:24:ff:7b:f5:c8 10:00:00:90:fa:b8:22:19 21:00:00:24:ff:7f:ce:ee 21:00:00:24:ff:7f:ce:ef hba2 Supported Releases 20:01:00:0e:1e:e8:e4:99 50:00:d3:10:00:ec:f9:1b 50:00:d3:10:00:ec:f9:05 50:00:d3:10:00:ec:f9:1f 20:35:78:2b:cb:6f:65:57 10.3.
Supported Releases 10.4.0E(R1) or later show fcoe sessions Displays the details of established FCoE sessions. Syntax show fcoe sessions [interface vlanvlan-id] Parameters vlan-id — (Optional) Enter the VLAN ID. This option displays the sessions established on the specified VLAN.
Number Number Number Number Supported Releases of of of of CVL :0 FCF Discovery Timeouts :0 VN Port Session Timeouts :0 Session failures due to Hardware Config :0 10.4.0E(R1) or later show fcoe system Displays the system information related to FCoE.
Parameters None Default Not configured Command Mode EXEC Usage Information Use the brief option to display minimum details.
show vfabric Displays vfabric details.
vfabric Configures a virtual fabric (vfabric). Enable the F_Port before configuring a vfabric. You can configure only one vfabric in F_Port mode. The vfabric becomes active only when you configure the vfabric with a valid VLAN and FC map. Do not use spanned VLAN as vfabric VLAN. Syntax vfabric fabric-ID Parameters fabric-ID — Enter the fabric ID, from 1 to 255. Defaults Not configured Command Mode CONFIGURATION Usage Information The no version of this command removes the vfabric.
Example OS10(config)# interface vlan 1023 10OS10(conf-if-vl-1023)# exit OS10(config)# vfabric 100 OS10(conf-vfabric-100)# vlan 1023 Supported Releases 10.3.1E or later zone default-zone permit Enables access between all logged-in FC nodes of vfabric in the absence of an active zoneset configuration. A default zone advertises a maximum of 527 members in the registered state change notification (RSCN) message.
4 Layer 2 802.1X Verifies device credentials prior to sending or receiving packets using the extensible authentication protocol (see 802.1X Commands). Link Aggregation Control Protocol (LACP) Exchanges information between two systems and automatically establishes a LAG between the systems (see LACP Commands). Link Layer Discovery Enables a LAN device to advertise its configuration and receive configuration information from adjacent LLDPProtocol (LLDP) enabled infrastructure devices (see LLDP Commands).
NOTE: OS10 supports only RADIUS as the back-end authentication server. The authentication process involves three devices: • Supplicant — The device attempting to access the network performs the role of supplicant. Regular traffic from this device does not reach the network until the port associated to the device is authorized. Prior to that, only the supplicant can exchange 802.1x messages (EAPOL frames) with the authenticator.
6 If the identity information the supplicant provides is valid, the authentication server sends an Access Accept frame in which network privileges are specified. The authenticator changes the port state to authorize and forwards an EAP Success frame. If the identity information is invalid, the server sends an Access Reject frame. If the port state remains unauthorized, the authenticator forwards an EAP Failure frame. EAP over RADIUS 802.
Enable 802.1X 1 Enable 802.1X globally in CONFIGURATION mode. dot1x system-auth-control 2 Enter an interface or a range of interfaces in INTERFACE mode. interface range 3 Enable 802.1X on the supplicant interface only in INTERFACE mode. dot1x port-control auto Configure and verify 802.
Identity retransmissions If the authenticator sends a Request Identity frame but the supplicant does not respond, the authenticator waits 30 seconds and then retransmits the frame. There are several reasons why the supplicant might fail to respond — the supplicant may have been booting when the request arrived, there may be a physical layer problem, and so on.
Failure quiet period If the supplicant fails the authentication process, the authenticator sends another Request Identity frame after 30 seconds by default. The quiet period is a transmit interval time after a failed authentication. The Request Identity Re-transmit interval is for an unresponsive supplicant. You can configure the interval for a maximum of 10 times for an unresponsive supplicant.
force-authorized (default) This is an authorized state. A device connected to this port does not use the authentication process but can communicate on the network. Placing the port in this state is same as disabling 802.1X on the port. forceauthorized is the default mode. force-unauthorized This is an unauthorized state. A device connected to a port does not use the authentication process but is not allowed to communicate on the network.
Configure and verify reauthentication time period OS10(config)# interface range ethernet 1/1/7-1/1/8 OS10(conf-range-eth1/1/7-1/1/8)# dot1x re-authentication OS10(conf-range-eth1/1/7-1/1/8)# dot1x timeout re-authperiod 3600 OS10(conf-range-eth1/1/7-1/1/8)# show dot1x interface ethernet 1/1/7 802.
Port Auth Status: Re-Authentication: Tx Period: Quiet Period: Supplicant Timeout: Server Timeout: Re-Auth Interval: Max-EAP-Req: Host Mode: Auth PAE State: Backend State: UNAUTHORIZED Enable 120 seconds 120 seconds 45 seconds 60 seconds 3600 seconds 5 MULTI_HOST Initialize Initialize View interface running configuration OS10(conf-range-eth1/1/7-1/1/8)# do show running-configuration interface ...
Supported Releases 10.2.0E or later dot1x max-req Changes the maximum number of requests that the device sends to a supplicant before restarting 802.1X authentication. Syntax dot1x max-req retry-count Parameters max-req retry-count — Enter the retry count for the request sent to the supplicant before restarting 802.1X reauthentication (1 to 10). Default 2 Command Mode INTERFACE Usage Information The no version of this command resets the value to the default.
Example OS10(conf-range-eth1/1/7-1/1/8)# dot1x re-authentication Supported Releases 10.2.0E or later dot1x timeout quiet-period Sets the number of seconds that the device remains in quiet state following a failed authentication exchange with a supplicant. Syntax dot1x timeout quiet-period seconds Parameters quiet period seconds — Enter the number of seconds for the 802.1X quiet period timeout (1 to 65535).
dot1x timeout supp-timeout Sets the number of seconds that the device waits for the supplicant to respond to an EAP request frame before the device retransmits the frame. Syntax dot1x timeout supp-timeout seconds Parameters supp-timeout seconds — Enter the number of seconds for the 802.1X supplicant timeout (1 to 65535). Default 30 seconds Command Mode INTERFACE Usage Information The no version of this command resets the value to the default.
show dot1x interface Displays 802.1X configuration information. Syntax show dot1x interface ethernet node/slot/port[:subport] Parameters ethernet node/slot/port[:subport] — Enter the Ethernet interface information. Command Mode EXEC Usage Information Use this command to view the dot1x interface configuration for a specific interface. Example OS10# show dot1x interface 802.1x information on ethernet1/1/1 ------------------------------------Dot1x Status: Enable 802.
Link aggregation control protocol Group Ethernet interfaces to form a single link layer interface called a LAG or port-channel. Aggregating multiple links between physical interfaces creates a single logical LAG, which balances traffic across the member links within an aggregated Ethernet bundle and increases the uplink bandwidth. If one member link fails, the LAG continues to carry traffic over the remaining links.
Configure LACP OS10(config)# lacp system-priority 65535 OS10(config)# interface range ethernet 1/1/7-1/1/8 OS10(conf-range-eth1/1/7-1/1/8)# lacp port-priority 4096 OS10(conf-range-eth1/1/7-1/1/8)# lacp rate fast Verify LACP configuration OS10(conf-range-eth1/1/7-1/1/8)# do show running-configuration ... ! interface ethernet1/1/7 lacp port-priority 4096 lacp rate fast no shutdown ! interface ethernet1/1/8 lacp port-priority 4096 lacp rate fast no shutdown ! ...
Configure LACP timeout OS10(conf-if-eth1/1/29)# lacp rate fast View port status OS10# show lacp port-channel Port-channel 20 admin up, oper up, mode lacp Actor System ID: Priority 32768, Address f8:b1:56:00:02:33 Partner System ID: Priority 4096, Address 10:11:22:22:33:33 Actor Admin Key 20, Oper Key 20, Partner Oper Key 10 LACP LAG ID 20 is an aggregatable link A - Active LACP, B - Passive LACP, C - Short Timeout, D - Long Timeout E - Aggregatable Link, F - Individual Link, G - IN_SYNC, H - OUT_OF_SYNC, I
Bravo LAG configuration summary OS10(config)# interface port-channel 1 OS10(conf-if-po-1)# exit OS10(config)# interface ethernet 1/1/49 OS10(conf-if-eth1/1/49)# no switchport OS10(conf-if-eth1/1/49)# channel-group 1 mode active OS10(conf-if-eth1/1/49)# interface ethernet 1/1/50 OS10(conf-if-eth1/1/50)# no switchport OS10(conf-if-eth1/1/50)# channel-group 1 mode active OS10(conf-if-eth1/1/50)# interface ethernet 1/1/51 OS10(conf-if-eth1/1/51)# no switchport OS10(conf-if-eth1/1/51)# channel-group 1 mode activ
0 runts, 0 giants, 0 throttles 0 CRC, 0 overrun, 465 discarded Output statistics: 7840 packets, 938965 octets 0 64-byte pkts,1396 over 64-byte pkts, 6444 over 127-byte pkts 0 over 255-byte pkts, 0 over 511-byte pkts, 0 over 1023-byte pkts 7840 Multicasts, 0 Broadcasts,0 Unicasts 0 throttles, 0 discarded, 0 Collisions, 0 wreddrops Rate Info(interval 299 seconds): Input 0 Mbits/sec, 0 packets/sec, 0% of line rate Output 0 Mbits/sec, 1 packets/sec, 0% of line rate Time since last interface status change : 01:2
Actor Admin: State Key 1 Priority 32768 Oper: State Key 1 Priority 32768 Partner Admin: State Key 0 Priority 0 Oper: State Key 1 Priority 32768 Port ethernet1/1/31 is Enabled, LACP is enabled and mode is lacp Actor Admin: State Key 1 Priority 32768 Oper: State Key 1 Priority 32768 Partner Admin: State Key 0 Priority 0 Oper: State Key 1 Priority 32768 Verify LAG membership OS10# show lacp interface ethernet 1/1/29 Interface ethernet1/1/29 is up Channel group is 1 port channel is po1 PDUS sent: 17 PDUS rcvd:
• active — Enter to enable the LACP interface. The interface is in the Active Negotiating state when the port starts negotiations with other ports by sending LACP packets. • on — Enter so that the interface is not part of a dynamic LAG but acts as a static LAG member. • passive — Enter to only enable LACP if it detects a device. The interface is in the Passive Negotiation state when the port responds to the LACP packets that it receives but does not initiate negotiation until it detects a device.
Default 32 Command Mode INTERFACE Usage Information The no version of this command resets the maximum bundle size to the default value. Example OS10(conf-if-po-10)# lacp max-bundle 10 Supported Releases 10.2.0E or later lacp port-priority Sets the priority for the physical interfaces for LACP. Syntax lacp port-priority priority Parameters priority — Enter the priority for the physical interfaces (0 to 65535).
lacp system-priority Sets the system priority of the device for LACP. Parameters priority — Enter the priority value for physical interfaces (0 to 65535). Default 32768 Command Mode CONFIGURATION Usage Information Each device that runs LACP has an LACP system priority value. LACP uses the system priority with the MAC address to form the system ID and also during negotiation with other systems. The system ID is unique for each device.
show lacp interface Displays information about specific LACP interfaces. Syntax show lacp interface ethernet node/slot/port Parameters node/slot/port — Enter the interface information. Default Not configured Command Mode EXEC Usage Information The LACP_activity field displays if you configure the link in Active or Passive port-channel mode. The Port Identifier field displays the port priority as part of the information including the port number.
Parameters • interface port-channel — (Optional) Enter the interface port-channel. • channel-number — (Optional) Enter the port-channel number for the LACP neighbor (1 to 128). Default Not configured Command Mode EXEC Usage Information All channel groups display if you do not enter the channel-number parameter.
show lacp system-identifier Displays the LACP system identifier for a device. Syntax show lacp system-identifier Parameters None Default Not configured Command Mode EXEC Usage Information The LACP system ID is a combination of the configurable LACP system priority value and the MAC address. Each system that runs LACP has an LACP system priority value. The default value is 32768 or configure a value between 1 and 65535.
LAN devices transmit LLDPDUs, which encapsulate TLVs, to neighboring LAN devices. LLDP is a one-way protocol and LAN devices (LLDP agents) transmit and/or receive advertisements but they cannot solicit and do not respond to advertisements. There are three mandatory TLVs followed by zero or more optional TLVs and the end of the LLDPDU TLV.
Organizationally-specific TLVs There are eight TLV types defined by the 802.1 and 802.3 working groups as a basic part of LLDP. Configure OS10 to advertise any or all of these TLVs. Optional TLVs 4 — Port description User-defined alphanumeric string that describes the port. 5 — System name User-defined alphanumeric string that identifies the system. 6 — System description Detailed description of all components of the system. 7 — System capabilities Determines the capabilities of the system.
Media endpoint discovery LLDP media endpoint discovery (LLDP-MED) provides additional organizationally-specific TLVs to allow endpoint devices and network connectivity devices to advertise their characteristics and configuration information. LLDP-MED endpoint devices are located at the IEEE 802 LAN network edge and participate in IP communication service using the LLDPMED framework, such as IP phones and conference bridges.
LLDP-MED capabilities Bit 0 LLDP-MED capabilities Bit 1 Network policy Bit 2 Location ID Bit 3 Extended power via MDI-PSE Bit 4 Extended power via MDI-PD Bit 5 Inventory Bits 6-15 Reserved LLDP-MED device types 0 Type not defined 1 Endpoint class 1 2 Endpoint class 2 3 Endpoint class 3 4 Network connectivity 5-255 Reserved Network policies TLVs A network policy in the context of LLDP-MED is a device’s VLAN configuration and associated Layer 2 and Layer 3 configurations.
0 — Reserved — 1 — Voice Used for dedicated IP telephony handsets and other appliances supporting interactive voice services. 2 — Voice signaling Used only if voice control packets use a separate network policy than voice data. 3 — Guest voice Used only for a separate limited voice service for guest users with their own IP telephony handsets and other appliances supporting interactive voice services.
2 Enter the multiplier value for the hold time in CONFIGURATION mode. lldp holdtime-multiplier 3 Enter the delay (in seconds) for LLDP initialization on any interface in CONFIGURATION mode.
Enable LLDP OS10(config)# interface ethernet 1/1/1 OS10(conf-if-eth1/1/1)# lldp transmit OS10(conf-if-eth1/1/1)# lldp receive Disable LLDP globally OS10(config)# no lldp enable Disable and re-enable LLDP on management ports By default, LLDP is enabled on management ports. You can disable or enable the following LLDP configurations on management ports. 1 Disable the LLDPDU transmit or receive. no lldp transmit no lldp receive 2 Disable LLDP TLVs.
Configure advertise TLVs OS10(conf-if-eth1/1/3)# lldp tlv-select basic-tlv system-name OS10(conf-if-eth1/1/1)# lldp tlv-select dot3tlv macphy-config max-framesize OS10(conf-if-eth1/1/3)# lldp tlv-select dot1tlv link-aggregation Network policy advertisement LLDP-MED is enabled on all interfaces by default. Configure OS10 to advertise LLDP-MED TLVs out of configured interfaces. Define LLDPMED network policies before applying the policies to an interface. Attach only one network policy per interface.
• Enable fast start repeat count which is the number of packets sent during activation in CONFIGURATION mode (1 to 10, default 3). lldp-med fast-start-repeat-count number Configure fast start repeat count OS10(config)# lldp med fast-start-repeat-count 5 View LLDP configuration • View the LLDP configuration in EXEC mode. show running-configuration • View LLDP error messages in EXEC mode. show lldp errors • View LLDP timers in EXEC mode. show lldp timers • View the LLDP traffic in EXEC mode.
Total Total Total Total Total Total Med Med Med Med Med Med Frames In : Frames Discarded : TLVS Discarded : Capability TLVS Discarded: Policy TLVS Discarded : Inventory TLVS Discarded : 0 0 0 0 0 0 Adjacent agent advertisements • • • View brief information about adjacent devices in EXEC mode. show lldp neighbors View all information that neighbors are advertising in EXEC mode. show lldp neighbors detail View all interface-specific information that neighbors are advertising in EXEC mode.
Extended Power via MDI - PD, Inventory Management Device Class: Endpoint Class 3 Network Policy: Application: voice, Tag: Tagged, Vlan: 50, L2 Priority: 6, DSCP Value: 46 Inventory Management: H/W Revision : 12.1.1 F/W Revision : 10.1.9750B S/W Revision : 10.1.9750B Serial Number : B11G152 Manufacturer : Dell Model : S6010-ON Asset ID : E1001 Power-via-MDI: Power Type: PD Device Power Source: Local and PSE Power Priority: Low Power required: 6.
clear lldp counters Clears LLDP and LLDP-MED transmit, receive, and discard statistics from all the physical interfaces. Syntax clear lldp counters Parameters None Default Not configured Command Mode EXEC Usage Information The counter default value resets to zero for all physical interfaces. Example OS10# clear lldp counters Supported Releases 10.2.0E or later clear lldp table Clears LLDP neighbor information for all interfaces.
lldp holdtime-multiplier Configures the multiplier value for the hold time (in seconds). Syntax lldp holdtime-multiplier integer Parameters integer — Enter the holdtime-multiplier value in seconds (2 to 10). Default 4 seconds Command Mode CONFIGURATION Usage Information Hold time is the amount of time (in seconds) that a receiving system waits to hold the information before discarding it. Formula: Hold Time = (Updated Frequency Interval) X (Hold Time Multiplier).
Supported Releases 10.2.0E or later lldp med network-policy Manually defines an LLDP-MED network policy. Syntax Parameters lldp-med network-policy number app {voice | voice-signaling | guest-voice | guestvoice-signaling | softphone-voice | streaming-video | video-conferencing | video-signaling} {vlan vlan-id vlan-type {tag | untag} priority priority dscp dscp value} • number — Enter a network policy index number (1 to 32).
Command Mode INTERFACE Usage Information Attach only one network policy for per interface. Example OS10(conf-if-eth1/1/5)# lldp med network-policy add 1 Supported Release 10.2.0E or later lldp med tlv-select Configures the LLDP-MED TLV type to transmit or receive. Syntax lldp med tlv-select {network—policy | inventory} Parameters • network-policy — Enable or disable the port description TLV. • inventory — Enable or disable the system TLV.
Usage Information The no version of this command resets the value to the default. Example OS10(config)# lldp reinit 5 Supported Releases 10.2.0E or later lldp timer Configures the rate (in seconds) at which LLDP packets send to the peers. Syntax lldp timer seconds Parameters seconds — Enter the LLDP timer rate in seconds (5 to 254). Default 30 seconds Command Mode CONFIGURATION Usage Information The no version of this command sets the LLDP timer back to its default value.
• link-aggregation — Enable the link aggregation TLV. Default Enabled Command Mode INTERFACE Usage Information The lldp tlv-select dot1tlv link-aggregation command advertises link aggregation as a dot1 TLV in the LLDPDUs. The no version of this command disables TLV transmissions. Example (Port) OS10(conf-if-eth1/1/3)# lldp tlv-select dot1tlv port-vlan-id Example (Link Aggregation) OS10(conf-if-eth1/1/3)# lldp tlv-select dot1tlv link-aggregation Supported Releases 10.2.
show lldp interface Displays the LLDP information advertised from a specific interface. Syntax Parameters show lldp interface ethernet node/slot/port[:subport] [med | local—device] • ethernet node/slot/port[:subport] — Enter the Ethernet interface information. • med — Enter the interface to view the MED information. • local-device — Enter the interface to view the local-device information.
Example OS10# Total Total Total Supported Release 10.2.0E or later show lldp errors Memory Allocation Failures: 0 Input Queue Overflows: 0 Table Overflows: 0 show lldp med Displays the LLDP MED information for all the interfaces. Syntax show lldp med Parameters None Default Not configured Command Mode EXEC Usage Information Use the show lldp interface command to view MED information for a specific interface.
show lldp neighbors Displays the status of the LLDP neighbor system information. Syntax Parameters show lldp neighbors [detail | interface ethernet node/slot/port[:subport]] • detail — View LLDP neighbor detailed information. • interface ethernet node/slot/port[:subport] — Enter the Ethernet interface information. Command Mode EXEC Usage Information This command status information includes local port ID, remote host name, remote port ID, and remote node ID.
Inventory Management: H/W Revision : 12.1.1 F/W Revision : 10.1.9750B S/W Revision : 10.1.9750B Serial Number : B11G152 Manufacturer : Dell Model : S6010-ON Asset ID : E1001 Power-via-MDI: Power Type: PD Device Power Source: Local and PSE Power Priority: Low Power required: 6.
Usage Information None Example OS10# show lldp tlv-select interface ethernet 1/1/4 port-description system-name system-description system-cababilities management-address port-vlan mac-phy-config link-aggregation max-frame-size Supported Releases 10.2.0E or later show lldp traffic Displays LLDP traffic information including counters, packets transmitted and received, discarded packets, and unrecognized TLVs.
show nework-policy profile Displays the network policy profiles. Syntax show network-policy profile [profile number] Parameters profile number — (Optional) Enter the network policy profile number (1 to 32). Default Not configured Command Mode EXEC Usage Information If you do not enter the network profile ID, all configured network policy profiles display.
Set Static MAC Address OS10(config)# mac address-table static 34:17:eb:f2:ab:c6 vlan 10 interface ethernet 1/1/5 MAC Address Table OS10 maintains a list of MAC address table entries. • View the contents of the MAC address table in EXEC mode.
Clear MAC Address Table OS10# clear mac address-table dynamic vlan 20 interface ethernet 1/2/20 MAC Commands clear mac address-table dynamic Clears L2 dynamic address entries from the MAC address table. Syntax clear mac address-table dynamic {all | address mac_addr | vlan vlan-id | interface {ethernet node/slot/port[:subport] | port-channel number}} Parameters • all — (Optional) Delete all MAC address table entries.
mac address-table static Configures a static entry for the L2 MAC address table. Syntax Parameters mac address-table static mac-address vlan vlan-id interface {ethernet node/ slot/port[:subport] | port-channel number} • mac-address — Enter the MAC address to add to the table in nn:nn:nn:nn:nn:nn format. • vlan vlan-id — Enter the VLAN to apply the static MAC address to (1 to 4093). • interface — Enter the interface type: – ethernet node/slot/port[:subport] — Enter the Ethernet information.
Usage Information The network device maintains static MAC address entries saved in the startup configuration file, and reboots and flushes dynamic entries.
3 Ensure the same region name is configured in all the bridges running MST. 4 (Optional) Configure the revision number. Configure MST protocol When you enable MST globally, all L2 physical, port-channel, and VLAN interfaces are automatically assigned to MST instance (MSTI) zero (0). Within an MSTI, only one path from any one bridge to another is enabled for forwarding. • Enable MST in CONFIGURATION mode.
View VLAN instance mapping OS10# show spanning-tree mst configuration Region Name: force10 Revision: 100 MSTI VID 0 1,31-4093 1 2-10 2 11-20 3 21-30 View port forwarding/discarding state OS10# show spanning-tree msti 0 brief Spanning tree enabled protocol msti with force-version mst MSTI 0 VLANs mapped 1,31-4093 Executing IEEE compatible Spanning Tree Protocol Root ID Priority 32768, Address 3417.4455.
ethernet1/1/9 ethernet1/1/10 Disb Disb 128.292 128.296 128 128 200000000 BLK 200000000 BLK 0 AUTO No Root selection MSTP determines the root bridge according to the lowest bridge ID. Assign a lower bridge priority to increase its likelihood of becoming the root bridge. • Assign a bridge priority number to a specific instance in CONFIGURATION mode (0 to 61440 in increments of 4096, default 32768). Use a lower priority number to increase the likelihood of the bridge to become a root bridge.
• Change the region revision number in MULTIPLE-SPANNING-TREE mode (0 to 65535, default 0). revision number Configure and verify region name OS10(conf-mstp)# name my-mstp-region OS10(conf-mstp)# do show spanning-tree mst config MST region name: my-mstp-region Revision: 0 MSTI VID 1 100 2 200-300 Modify parameters The root bridge sets the values for forward-delay, hello-time, max-age, and max-hops and overwrites the values set on other MST bridges.
ethernet1/1/6 128.280 128 500 BLK 0 32768 3417.4455.667f Interface Name Role PortID Prio Cost Sts Cost Link-type Edge -----------------------------------------------------------------ethernet1/1/5 Root 128.276 128 500 FWD 0 AUTO No ethernet1/1/6 Altr 128.280 128 500 BLK 0 AUTO No 128.150 Interface parameters Adjust two interface parameters to increase or decrease the likelihood that a port becomes a forwarding port. Port cost Value that is based on the interface type.
Configure EdgePort OS10(conf-if-eth1/1/4)# spanning-tree port type edge View interface status OS10# show spanning-tree interface ethernet 1/1/4 ethernet1/1/4 of MSTI 0 is designated Forwarding Edge port:yes port guard :none (default) Link type is point-to-point (auto) Boundary: YES bpdu filter :disable bpdu guard :disable bpduguard shutdown-onviolation :disable RootGuard: disable LoopGuard disable Bpdus (MRecords) sent 610, received 5 Interface Designated Name PortID Prio Cost Sts Cost Bridge ID PortID ----
To clear Error Disabled state: 2 • Use the shutdown command on the interface. • Use the spanning-tree bpdufilter disable command to disable the BPDU guard on the interface. • Use the spanning-tree disable command to disable STP on the interface. Enable STP BPDU guard in INTERFACE mode. spanning-tree bpduguard enable • To shut down the port channel interface, all member ports are disabled in the hardware.
Boundary: NO bpdu filter : bpdu guard : bpduguard shutdown-onviolation :disable RootGuard: disable LoopGuard enable Bpdus (MRecords) sent 7, received 20 Interface Designated Name PortID Prio Cost Sts Cost Bridge ID PortID ------------------------------------------------------------------------ethernet1/1/4 128.272 128 500 FWD 0 32769 90b1.1cf4.9d3b 128.
debug spanning-tree Enables STP debug and displays protocol information. Syntax Parameters debug spanning-tree {all | bpdu [tx | rx] | events} • all — Debugs all spanning tree operations. • bpdu — Enter transmit (tx) or receive (rx) to enable the debug direction. • events — Debugs PVST events. Default Not configured Command Mode EXEC Usage Information None Example OS10# debug spanning-tree bpdu rx Supported Releases 10.2.
Usage Information By default, MST protocol assigns system MAC as the region name. Two MST devices within the same region must share the same region name, including matching case. Example OS10(conf-mst)# name my-mst-region Supported Releases 10.2.0E or later revision Configures a revision number for the MSTP configuration. Syntax revision number Parameters number — Enter a revision number for the MSTP configuration (0 to 65535).
Default Disabled Command Mode INTERFACE Usage Information BPDU guard prevents a port from receiving BPDUs. If the port receives a BPDU, it is placed in the Error-Disabled state as a protective measure. Example OS10(conf-if-eth1/1/4)# spanning-tree bpduguard enable Supported Releases 10.2.0E or later spanning-tree disable Disables the spanning-tree mode configured with the spanning-tree mode command globally on the switch or on specified interfaces.
spanning-tree mode Enables an STP type (RSTP, Rapid-PVST+, or MST). Syntax spanning-tree mode {rstp | mst | rapid-pvst} Parameters • rstp — Sets the STP mode to RSTP. • mst — Sets the STP mode to MST. • rapid-pvst — Sets the STP mode to RPVST+. Default RPVST+ Command Mode CONFIGURATION Usage Information All STP instances are stopped in the previous STP mode, and are restarted in the new mode. You can also change to RSTP/MST mode.
spanning-tree msti Configures the MSTI, cost, and priority values for an interface. Syntax Parameters spanning-tree msti instance {cost cost | priority value} • msti instance — Enter the MST instance number (0 to 63). • cost cost — (Optional) Enter a port cost value (1 to 200000000).
spanning-tree mst disable Disables spanning tree on the specified MST instance. Syntax spanning-tree mst instance-number disable Parameters instance-number—Enter the instance number, ranging from 0 to 63. Default Enabled Command Mode CONFIGURATION Usage Information The no version of this command enables spanning tree on the specified MST instance. Example OS10(config)# spanning-tree mst 10 disable Supported Releases 10.4.
spanning-tree mst hello-time Sets the time interval between generation and transmission of MSTP BPDUs. Syntax spanning-tree mst hello-time seconds Parameters seconds — Enter a hello-time interval value in seconds (1 to 10). Default 2 seconds Command Mode CONFIGURATION Usage Information Dell EMC recommends increasing the hello-time for large configurations — especially configurations with multiple ports. The no version of this command resets the value to the default.
spanning-tree mst max-hops Configures the maximum hop count for a BPDU to travel before it is discarded. Syntax spanning-tree mst max-hops number Parameters number — Enter a maximum hop value (6 to 40). Default 20 Command Mode CONFIGURATION Usage Information A device receiving BPDUs waits until the max-hops value expires before discarding it. When a device receives the BPDUs, it decrements the received value of the remaining hops and uses the resulting value as remaining-hops in the BPDUs.
0 1 2 3 4 5 Supported Releases 1,7-4093 2 3 4 5 6 10.2.0E or later show spanning-tree msti Displays MST instance information. Syntax Parameters show spanning-tree msti [instance-number [brief | guard | interface interface]] • instance-number — (Optional) Displays MST instance information (0 to 63). • brief — (Optional) Displays MST instance summary information. • guard — (Optional) Displays which guard is enabled and current port state.
Example (Interface) OS10# show spanning-tree msti 1 interface ethernet 1/1/1 ethernet1/1/1 of vlan1 is root Forwarding Edge port:no (default) port guard :none (default) Link type is point-to-point (auto) Boundary :internal bpdu filter : bpdu guard : bpduguard shutdown-onviolation :disable RootGuard: disable LoopGuard disable Bpdus (MRecords) sent 3779, received 7 Interface Designated Name PortID Prio Cost Sts Cost Bridge ID PortID -----------------------------------------------------------ethernet1/1/1 128
By default, each VLAN instance is assigned default bridge priority 32768. For example, all three instances have the same forwarding topology. Traffic load balancing is not achievable with this kind of priority assignment. You must assign each instance a different priority to achieve load balancing, as shown in Load Balancing with RPVST+. Load balance and root selection All VLANs use the same forwarding topology — R2 is elected as the root and all 10G Ethernet ports have the same cost.
-----------------------------------------------------------------------ethernet1/1/5 128.276 128 500 FWD 0 32768 3417.4455.667f 128.146 ethernet1/1/6 128.280 128 500 BLK 0 32768 3417.4455.667f 128.150 Interface Name Role PortID Prio Cost Sts Cost Link-type Edge -------------------------------------------------------------ethernet1/1/5 Root 128.276 128 500 FWD 0 AUTO No ethernet1/1/6 Altr 128.280 128 500 BLK 0 AUTO No Select root bridge RPVST+ determines the root bridge.
ethernet1/1/5 128.276 128 500 FWD 0 4097 90b1.1cf4.a523 ethernet1/1/6 128.280 128 500 FWD 0 4097 90b1.1cf4.a523 ethernet1/1/7 128.284 128 200000000 FWD 0 32769 0000.0000.0000 ethernet1/1/8 128.288 128 200000000 FWD 0 32769 0000.0000.0000 ethernet1/1/9 128.292 128 200000000 FWD 0 32769 0000.0000.0000 ethernet1/1/10 128.296 128 200000000 FWD 0 32769 0000.0000.0000 ethernet1/1/11 128.300 128 200000000 FWD 0 32769 0000.0000.0000 ethernet1/1/12 128.304 128 200000000 FWD 0 32769 0000.0000.0000 ethernet1/1/13 128.
Executing IEEE compatible Spanning Tree Protocol Root ID Priority 24577, Address 90b1.1cf4.a523 Root Bridge hello time 2, max age 20, forward delay 15 Bridge ID Priority 24577, Address 90b1.1cf4.a523 We are the root of VLAN 1 Configured hello time 2, max age 20, forward delay 15 Interface Designated Name PortID Prio Cost Sts Cost Bridge ID PortID ---------------------------------------------------------------------ethernet1/1/5 128.276 128 500 FWD 0 24577 90b1.1cf4.a523 128.276 ethernet1/1/6 128.
• Modify the hello-time (in seconds) in CONFIGURATION mode (1 to 10, default 2). With large configurations (involving more number of ports), Dell EMC recommends increasing the hello-time. spanning-tree vlan vlan-id hello-time seconds • Modify the max-age (in seconds) in CONFIGURATION mode (6 to 40, default 20).
Default Not configured Command Mode EXEC Usage Information Use this command to force the RPVST+ port to re-negotiate with neighbors. If you use this command without parameters, the command applies to each device port. Example OS10# clear spanning-tree detected-protocol interface ethernet 1/1/1 Supported Release 10.2.0E or later debug spanning-tree Enables STP debug and displays protocol information.
ethernet1/1/4 ethernet1/1/5 ethernet1/1/6 ethernet1/1/7 ethernet1/1/8 ethernet1/1/9 ethernet1/1/10 ethernet1/1/11 ethernet1/1/12 Supported Releases 128.272 128.276 128.280 128.284 128.288 128.292 128.296 128.300 128.304 128 128 128 128 128 128 128 128 128 200000000 200000000 200000000 200000000 200000000 200000000 200000000 200000000 200000000 FWD FWD FWD FWD FWD FWD FWD FWD FWD 0 0 0 0 0 0 0 0 0 32769 32769 32769 32769 32769 32769 32769 32769 32769 0000.0000.0000 0000.0000.0000 0000.0000.0000 0000.
spanning-tree disable Disables the spanning-tree mode configured with the spanning-tree mode command globally on the switch or on specified interfaces. Syntax spanning-tree disable Parameters None Default Not configured. Usage Information The no version of this command re-enables STP and applies the currently configured spanning-tree settings.
Command Mode CONFIGURATION Usage Information All STP instances are stopped in the previous STP mode, and are restarted in the new mode. You can also change to RSTP/MST mode. Example (RSTP) OS10(config)# spanning-tree mode rstp Example (MST) OS10(config)# spanning-tree mode mst Supported Releases 10.2.0E or later spanning-tree port Sets the port type as the EdgePort.
spanning-tree vlan disable Disables spanning tree on specified VLAN. Syntax spanning-tree vlan vlan-id disable Parameters vlan-id — Enter the VLAN ID number, ranging from 1 to 4094. Default Enabled Command Mode CONFIGURATION Usage Information The no version of this command enables spanning tree on the specified VLAN. Example OS10(config)# spanning-tree vlan 100 disable Supported Releases 10.4.
spanning-tree vlan hello-time Sets the time interval between generation and transmission of RPVST BPDUs. Syntax Parameters spanning-tree vlan vlan-id hello-time seconds • vlan-id — Enter the VLAN ID number (1 to 4093). • seconds — Enter a hello-time interval value in seconds (1 to 10). Default 2 seconds Command Mode CONFIGURATION Usage Information Dell EMC recommends increasing the hello-time for large configurations — especially configurations with multiple ports.
Supported Releases 10.2.0E or later spanning-tree vlan priority Sets the priority value for RPVST+. Syntax spanning-tree vlan vlan-id priority priority value Parameters priority priority value — Enter a bridge-priority value in increments of 4096 (0 to 61440). Valid priority values are: 0, 4096, 8192, 12288, 16384, 20480, 24576, 28672, 32768, 36864, 40960, 45056, 49152, 53248, 57344, and 61440. All other values are rejected.
Usage Information None Example OS10(config)# spanning-tree vlan 1 root primary Supported Releases 10.2.0E or later Rapid spanning-tree protocol RSTP is similar to STP but provides faster convergence and interoperability with devices configured with STP and MSTP. RSTP is disabled by default. All enabled interfaces in L2 mode are automatically added to the RSTP topology. Configuring RSTP is a two-step process: 1 Ensure that the interfaces are in L2 mode. 2 Globally enable RSTP.
View all port participating in RSTP OS10# show spanning-tree Spanning tree enabled protocol rstp with force-version rstp Executing IEEE compatible Spanning Tree Protocol Root ID Priority 32768, Address 3417.4455.667f Root Bridge hello time 2, max age 20, forward delay 15 Bridge ID Priority 32768, Address 90b1.1cf4.
Forward-time 15 seconds — Amount of time an interface waits in the Listening state and the Learning state before it transitions to the Forwarding state. Hello-time 2 seconds — Time interval in which the bridge sends RSTP BPDUs. Max-age 20 seconds — Length of time the bridge maintains configuration information before it refreshes that information by recomputing the RSTP topology.
Port cost Value that is based on the interface type. The previous table lists the default values. The greater the port cost, the less likely the port is selected to be a forwarding port. Port priority Influences the likelihood that a port is selected to be a forwarding port in case that several ports have the same port cost. • Change the port cost of an interface in INTERFACE mode (1 to 200000000).
ethernet1/1/6:3 ethernet1/1/6:4 Root Altr 128.282 128 128.283 128 2000 FWD 0 2000 BLK 0 AUTO AUTO No No EdgePort forward traffic EdgePort allows the interface to forward traffic approximately 30 seconds sooner as it skips the Blocking and Learning states. The spanning-tree bpduguard enable command causes the interface hardware to shut down when it receives a BPDU. CAUTION: Configure EdgePort only on links connecting to an end station.
BPDUs using the spanning-tree guard loop command. After BPDUs are received, the port moves out of the Loop-Inconsistent (or blocking) state and transitions to an appropriate state determined by STP. Enabling loop guard on a per port basis enables it on all VLANs configured on the port. If you disable loop guard on a port, it is moved to the Listening state. If you enable BPDU filter and BPDU guard on the same port, the BPDU filter configuration takes precedence.
Boundary: NO bpdu filter : bpdu guard : bpduguard shutdown-onviolation :disable RootGuard: disable LoopGuard enable Bpdus (MRecords) sent 7, received 20 Interface Designated Name PortID Prio Cost Sts Cost Bridge ID PortID ------------------------------------------------------------------------ethernet1/1/4 128.272 128 500 FWD 0 32769 90b1.1cf4.9d3b 128.
Command Mode EXEC Usage Information None Example OS10# show spanning-tree active Spanning tree enabled protocol rstp with force-version rstp Executing IEEE compatible Spanning Tree Protocol Root ID Priority 32768, Address 90b1.1cf4.9b8a Root Bridge hello time 2, max age 20, forward delay 15 Bridge ID Priority 32768, Address 90b1.1cf4.
spanning-tree bpdufilter Enables or disables BPDU filtering on an interface. Syntax Parameters spanning-tree bpdufilter {enable | disable} • enable — Enables the BPDU filtering on an interface. • disable — Disables the BPDU filtering on an interface. Default Disabled Command Mode INTERFACE Usage Information Use the enable parameter to enable BPDU filtering. Example OS10(conf-if-eth1/1/4)# spanning-tree bpdufilter enable Supported Releases 10.2.
Example OS10(config)# interface ethernet 1/1/4 OS10(config-if-eth1/1/4)# spanning-tree disable Supported Releases 10.3.0E or later spanning-tree guard Enables or disables loop guard or root guard on an interface. Syntax spanning-tree guard {loop | root | none} Parameters • loop — Enables loop guard on an interface. • root — Enables root guard on an interface. • none — Sets the guard mode to none.
spanning-tree port Sets the port type as the EdgePort. Syntax spanning-tree port type edge Parameters None Default Not configured Command Mode INTERFACE Usage Information When you configure an EdgePort on a device running STP, the port immediately transitions to Forwarding state. Only configured ports connected to end hosts act as EdgePorts. Example OS10(config)# spanning-tree port type edge Supported Releases 10.2.
spanning-tree rstp hello-time Sets the time interval between generation and transmission of RSTP BPDUs. Syntax spanning-tree rstp hello-time seconds Parameters seconds — Enter a hello-time interval value in seconds (1 to 10). Default 2 seconds Command Mode CONFIGURATION Usage Information Dell EMC recommends increasing the hello-time for large configurations (especially configurations with multiple ports). Example OS10(config)# spanning-tree rstp hello-time 5 Supported Releases 10.2.
spanning-tree rstp Sets the priority value for RSTP. Syntax spanning-tree rspt priority priority value Parameters priority priority value — Enter a bridge-priority value in increments of 4096 (0 to 61440). Valid priority values are: 0, 4096, 8192, 12288, 16384, 20480, 24576, 28672, 32768, 36864, 40960, 45056, 49152, 53248, 57344, and 61440. All other values are rejected.
Default VLAN configuration OS10# show vlan Codes: * - Default VLAN, G-GVRP VLANs, R-Remote Port Mirroring VLANs, P-Primary, C-Community, IIsolated Q: A-Access (Untagged), T-Tagged x-Dot1x untagged, X-Dot1x tagged G-GVRP tagged, M-Vlan-stack, H-VSN tagged i-Internal untagged, I-Internal tagged, v-VLT untagged, V-VLT tagged NUM Status Description Q Ports * 1 up A Eth1/1/1-1/1/54 Create or remove VLANs You can create VLANs and add physical interfaces or port-channel (LAG) interfaces to the VLAN as tagged or u
View configured VLANs OS10(config)# do show interface vlan Vlan 1 is up, line protocol is up Address is , Current address is Interface index is 69208865 Internet address is not set MTU 1532 bytes LineSpeed auto Flowcontrol rx off tx off ARP type: ARPA, ARP Timeout: 240 Last clearing of "show interface" counters Queueing strategy: fifo Time since last interface status change: Vlan 200 is up, line protocol is up Address is , Current address is Interface index is 69209064 Internet address is not set MTU 1532 b
Show running configuration OS10# show running-configuration ... ! interface ethernet1/1/5 ... switchport access vlan 604 no shutdown ! interface vlan1 no shutdown ... Trunk mode A trunk port can be a member of multiple VLANs set up on an interface. A trunk port can transmit traffic for all VLANs. To transmit traffic on a trunk port with multiple VLANs, OS10 uses tagging or the 802.1q encapsulation method. 1 Configure a port in INTERFACE mode.
1 Create a VLAN in CONFIGURATION mode (1 to 4093). interface vlan vlan-id 2 Assign an IP address and mask to the VLAN in INTERFACE-VLAN mode. ip address ip-address/prefix-length [secondary] • ip-address/prefix—length — Enter the IP address in dotted-decimal format (A.B.C.D/x). • secondary — Enter the interface backup IP address (up to eight secondary IP addresses). Assign IP address to VLAN OS10(config)# interface vlan 200 OS10(conf-if-vl-200)# ip address 10.1.15.
View VLAN configuration OS10# show vlan Codes: * - Default VLAN, G-GVRP VLANs, R-Remote Port Mirroring VLANs, P-Primary, C-Community, IIsolated Q: A-Access (Untagged), T-Tagged x-Dot1x untagged, X-Dot1x tagged G-GVRP tagged, M-Vlan-stack, H-VSN tagged i-Internal untagged, I-Internal tagged, v-VLT untagged, V-VLT tagged NUM Status Description Q Ports * 1 up A Eth1/1/1-1/1/32 A Po40 200 up T Eth1/1/3:2 T Po40 A Eth1/1/31 320 up T Eth1/1/25:4 1/1/32 T Po40 A Eth1/1/3:1 View interface VLAN configuration OS10# s
VLAN commands description (VLAN) Adds a description to the selected VLAN. Syntax description description Parameters description — Enter a text string to identify the VLAN (up to 80 characters). Default Not configured Command Mode INTERFACE-VLAN Usage Information None Example OS10(conf-if-vlan)# description vlan3 Supported Releases 10.2.0E or later interface vlan Creates a VLAN interface. Syntax interface vlan vlan-id Parameters vlan-id — Enter the VLAN ID number (1 to 4093).
Primary, C-Community, I-Isolated Q: A-Access (Untagged), T-Tagged x-Dot1x untagged, X-Dot1x tagged G-GVRP tagged, M-Vlan-stack, H-VSN tagged i-Internal untagged, I-Internal tagged, v-VLT untagged, V-VLT tagged NUM Status Description Q Ports * 1 up A Eth1/1/2-1/1/32 A Po40 200 up T Eth1/1/3:2 T Po40 A Eth1/1/31 320 up T Eth1/1/25:4 1/1/32 T Po40 A Eth1/1/3:1 Supported Releases 10.2.
Configure source and destination port, and traffic direction OS10(conf-mon-local-1)# source interface ethernet 1/1/7-1/1/8 rx OS10(conf-mon-local-1)# destination interface ethernet1/1/1 OS10(conf-mon-local-1)# no shut View configured monitoring sessions In the State field, true indicates that the port is enabled. In the Reason field, Is UP indicates that hardware resources are allocated. OS10# show monitor session all S.
• • • • The member port of the reserved VLAN must have the MTU and IPMTU value as MAX+4 (to hold the VLAN tag parameter). To associate with source session, the reserved VLAN can have a maximum of four member ports. To associate with destination session, the reserved VLAN can have multiple member ports. The reserved VLAN cannot have untagged ports. Reserved L2 VLAN • • • MAC address learning in the reserved VLAN is automatically disabled.
View monitoring session OS10(conf-mon-rspan-source-10)# do show monitor session all S.Id Source Destination Dir SrcIP DstIP DSCP TTL State Reason --------------------------------------------------------------1 vlan10 vlan 100 rx N/A N/A N/A N/A true Is UP Encapsulated remote port monitoring The monitored traffic can also be transmitted over an L3 network to a remote analyzer.
OS10(conf-mon-erpm-source-10)# ip dscp 63 OS10(conf-mon-erpm-source-10)# no shut View configured ERPM session OS10(conf-mon-erpm-source-6)# do show monitor session all S.Id Source Destination Dir Mode Source IP Dest IP DSCP TTL GreProtocol State Reason ---------------------------------------------------------------------------------------------------------------------------6 ethernet1/1/2 remote-ip both port 1.1.1.1 3.3.3.
Remote port monitoring on VLT In a network, devices configured with peer VLT nodes are considered as a single device. You can apply remote port monitoring (RPM) on the VLT devices in a network. In a failover case, the monitored traffic reaches the packet analyzer connected to the TOR through the VLT interconnect link. NOTE: • In VLT devices configured with RPM, when the VLT link is down, the monitored packets might drop for some time.
Scenario Recommendation 1 Create an L2 ACL for the local session and attach it to the VLTi LAG interface. ! mac access-list span seq 10 permit any any capture session 10 ! interface ethernet 1/1/1 no shutdown switchport access vlan 1 mac access-group span in ! 2 Mirror a VLAN with VLTi LAG as member to VLT LAG on the same VLT device. The packet analyzer is connected to the TOR switch. Create a flow based local session on the VLT device to monitor VLTi LAG interface member (ethernet 1/1/1) as source.
description (Port Monitoring) Configures a description for the port monitoring session. The monitoring session can be one of the following: local, RPM, or ERPM. Syntax description string Parameters string — Enter a description of the monitoring session (up to 255 characters). Default Not configured Command Mode MONITOR-SESSION Usage Information The no version of this command removes the description text.
Usage Information The no version of this command disables the flow-based monitoring. Example OS10(conf-mon-local-1)# flow-based enable OS10(conf-mon-rspan-source-2)# flow-based enable OS10(conf-mon-erpm-source-3)# flow-based enable Supported Releases 10.2.0E or later ip Configures the IP time to live (TTL) value and the differentiated services code point (DSCP) value for the ERPM traffic.
Example (ERPM) OS10(config)# monitor session 10 type erpm-source OS10(conf-mon-erpm-source-10)# Supported Releases 10.2.0E or later show monitor session Displays information about a monitoring session. Syntax Parameters show monitor session {session-id | all} • session-id — Enter the session ID number (1 to 18). • all — View all monitoring sessions. Default All Command Mode EXEC Usage Information In the State field, true indicates that the port is enabled.
Example OS10(config)# monitor session 1 OS10(conf-mon-local-1)# no shut OS10(config)# monitor session 5 type rspan-source OS10(conf-mon-rspan-source-5)# no shut OS10(config)# monitor session 10 type erpm-source OS10(conf-mon-erpm-source-10)# no shut Supported Releases 10.2.0E or later source (Port Monitoring) Configures a source for port monitoring. The monitoring session can be one of the following: local, RPM, or ERPM.
Default Not configured Command Mode MONITOR-SESSION Usage Information None Example OS10(config)# monitor session 10 OS10(conf-mon-erpm-source-10)# source-ip 10.16.132.181 destination-ip 172.16.10.11 gre-protocol 35006 Supported Releases 10.4.
5 Layer 3 Border Gateway Protocol (BGP) Provides an external gateway protocol that transmits inter-domain routing information within and between autonomous systems (see BGP Commands). Equal Cost MultiPath (ECMP) Provides next-hop packet forwarding to a single destination over multiple best paths (see ECMP Commands). IPv4 Routing Provides forwarding of packets to a destination IP address, based on a routing table.
Classless interdomain routing BGPv4 supports classless interdomain routing (CIDR) with aggregate routes and AS paths. CIDR defines a network using a prefix consisting of an IP address and mask, resulting in efficient use of the IPv4 address space. Using aggregate routes reduces the size of routing tables. Path-vector routing BGP uses a path-vector protocol which maintains dynamically updated path information. Path information updates which return to the originating node are detected and discarded.
After the connection is established, the router sends and receives keepalive, update, and notification messages to and from its peer. Peer templates Peer templates allow BGP neighbors to inherit the same outbound policies. Instead of manually configuring each neighbor with the same policy, you can create a peer group with a shared policy that applies to individual peers. A peer template provides efficient update calculation with simplified configuration. Peer templates also aid in convergence speed.
BGP session supports multiple address family interface (AFI) and sub address family interface (SAFI) combinations, BGP uses OPEN message to convey this information to the peers. As a result, the IPv6 routing information is exchanged over the IPv4 peers and vice versa. BGP routers that support IPv6 can set up BGP sessions using IPv6 peers. If the existing BGP-v4 session is capable of exchanging ipv6 prefixes, the same is used to carry ipv4 as well as ipv6 prefixes.
6 Prefer external (EBGP) to internal (IBGP) paths or confederation EBGP paths, and prefer the path with the lowest IGP metric to the BGP next-hop. 7 The system deems the paths as equal and only performs the following steps if the criteria are not met: 8 • Configure the IBGP multipath or EBGP multipath using the maximum-path command. • The paths being compared were received from the same AS with the same number of AS in the AS Path but with different nexthops.
Multiexit discriminators If two autonomous systems connect in more than one place, use a multiexit discriminator (MED) to assign a preference to a preferred path. MED is one of the criteria used to determine best path—other criteria may also impact selection. One AS assigns the MED a value. Other AS uses that value to decide the preferred path. Assume that the MED is the only attribute applied and there are two connections between AS 100 and AS 200. Each connection is a BGP session.
AS path and next-hop The AS path is the AS list that all the prefixes listed in the update have passed through. The BGP speaker adds the local AS number when advertising to an EBGP neighbor. Any update that contains the AS path number 0 is valid. The next-hop is the IP address used to reach the advertising router: • For EBGP neighbors, the next-hop address is the IP address of the connection between neighbors. • For IBGP neighbors, the EBGP next-hop address is carried into the local AS.
More path support More path (Add-Path) reduces convergence times by advertising multiple paths to its peers for the same address prefix without replacing existing paths with new ones. By default, a BGP speaker advertises only the best path to its peers for a given address prefix. If the best path becomes unavailable, the BGP speaker withdraws its path from its local router information base (RIB) and recalculates a new best path. This situation requires both IGP and BGP convergence and is a lengthy process.
4-Byte AS numbers OS10 supports 4-byte AS number configurations by default. The 4-byte support is advertised as a new BGP capability - 4-BYTE-AS, in the OPEN message. A BGP speaker that advertises 4-Byte-AS capability to a peer, and receives the same from that peer must encode AS numbers as 4-octet entities in all messages. If the AS number of the peer is different, the 4-byte speaker brings up the neighbor session using a reserved 2-byte ASN,23456 called AS_TRANS.
The Local-AS does not prepend the updates with the AS number received from the EBGP peer if you use the no prepend command. If you do not select no prepend, the default, the Local-AS adds to the first AS segment in the AS-PATH. If you use an inbound route-map to prepend the AS-PATH to the update from the peer, the Local-AS adds first. If Router B has an inbound route-map applied on Router C to prepend 65001 65002 to the AS-PATH, these events take place on Router B: • • • Receive and validate the update.
connected to the router. The BGP process first determines if all internal BGP peers are reachable, then it determines which peers outside the AS are reachable. 1 Assign an AS number, and enter ROUTER-BGP mode from CONFIGURATION mode (1 to 65535 for 2-byte, 1 to 4294967295 for 4byte). Only one AS number is supported per system. If you enter a 4-byte AS number, 4-byte AS support is enabled automatically. router bgp as-number 2 Enter a neighbor in ROUTER-BGP mode.
Prefixes accepted 3, Prefixes advertised 0 Connections established 3; dropped 2 Closed by neighbor sent 00:03:26 ago Local host: 5.1.1.2, Local port: 43115 Foreign host: 5.1.1.1, Foreign port: 179 View BGP running configuration OS10# show running-configuration router bgp 65123 router-id 192.168.10.2 ! address-family ipv4 unicast ! neighbor 10.10.21.1 remote-as 65123 no shutdown ! neighbor 10.10.32.3 remote-as 65123 no shutdown ! neighbor 100.10.92.9 remote-as 65192 no shutdown ! neighbor 192.168.10.
peer template and assign a name to it before adding members to the peer template. Create a peer template before configuring any route policies for the template. NOTE: An outbound filter policy, distribute list or route map, is not supported on a peer group member. 1 Enable BGP, and assign the AS number to the local BGP speaker in CONFIGURATION mode, from 1 to 65535 for 2 byte, 1 to 4294967295 | 0.1 to 65535.65535 for 4 byte, or 0.1 to 65535.65535 in dotted format.
Minimum time between advertisement runs is 30 seconds For address family: Unicast BGP neighbor is ebgppg, peer-group external Update packing has 4_OCTET_AS support enabled Number of peers in this group 1 Peer-group members: View running configuration OS10(config-router-neighbor)# do show running-configuration bgp ! router bgp 300 ! neighbor 3.1.1.
Received 23 messages 1 opens, 0 notifications, 1 updates 21 keepalives, 0 route refresh requests Sent 21 messages 1 opens, 0 notifications, 0 updates 20 keepalives, 0 route refresh requests Minimum time between advertisement runs is 30 seconds Minimum time before advertisements start is 0 seconds Capabilities received from neighbor for IPv4 Unicast: MULTIPROTO_EXT(1) ROUTE_REFRESH(2) CISCO_ROUTE_REFRESH(128) 4_OCTET_AS(65) Capabilities advertised to neighbor for IPv4 Unicast: MULTIPROTO_EXT(1) ROUTE_REFRESH
Fast external fallover is enabled by default. To disable or re-enable it, use the [no] fast-external-fallover command. For the fast-external-fallover command to take effect on an established BGP session, you must reset the session using the clear ip bgp {* | peer-ipv4-address | peer-ipv6-address} command. View fast external fallover configuration OS10(config)# do show running-configuration bgp ! router bgp 300 ! neighbor 3.1.1.
BGP router identifier 11.11.11.11 local AS number 300 Neighbor AS MsgRcvd MsgSent Up/Down State/Pfx ----------------------------------------------------------------3.1.1.1 100 7 4 00:00:29 3 3::1 100 9 5 00:00:29 4 OS10(conf-if-eth1/1/1)# OS10(config-router-bgp-neighbor-af)# Apr 27 01:39:03 OS10 dn_sm[2065]: Node.1-Unit.1:PRI:alert [os10:event], %Dell EMC (OS10) %BGP_NBR_BKWD_STATE_CHG: Backward state change occurred Hold Time expired for Nbr:3.1.1.3 VRF:default Apr 27 01:39:03 OS10 dn_sm[2065]: Node.
2 Enter a local-as number for the peer, and the AS values not prepended to announcements from the neighbors in ROUTERNEIGHBOR mode (1 to 4294967295). local-as as number [no prepend] 3 Return to ROUTER-BGP mode. exit 4 Enter a template name to assign to the peer-groups in ROUTER-BGP mode (up to 16 characters). template template-name 5 Enter a local-as number for the peer in ROUTER-TEMPLATE mode.
neighbor 17.1.1.
1 Assign an AS number in CONFIGURATION mode. router bgp as-number 2 Enter a neighbor and IP address (A.B.C.D) in ROUTER-BGP mode. neighbor ip-address 3 Enter Address Family mode in ROUTER-NEIGHBOR mode. address-family {[ipv4 | ipv6] [unicast]) 4 Allow the specified neighbor to send or receive multiple path advertisements in ROUTER-BGP mode. The count parameter controls the number of paths that are advertised — not the number of paths received.
4 Enter the neighbor to apply the route map configuration in ROUTER-BGP mode. neighbor {ip-address} 5 Apply the route map to the neighbor’s incoming or outgoing routes in ROUTER-BGP-NEIGHBOR-AF mode. route-map map-name {in | out) 6 Enter the peer group to apply the route map configuration in ROUTER-BGP mode. template template-name 7 Apply the route map to the peer group’s incoming or outgoing routes in CONFIG-ROUTER-TEMPLATE-AF mode.
OS10(config-router-bgp-10)# template zanzibar OS10(config-router-template)# weight 200 Enable multipath You can have one path to a destination by default, and enable multipath to allow up to 64 parallel paths to a destination. The show ip bgp network command includes multipath information for that network. • Enable multiple parallel paths in ROUTER-BGP mode.
Configure clusters of routers where one router is a concentration router and the others are clients who receive their updates from the concentration router. 1 Assign an ID to a router reflector cluster in ROUTER-BGP mode. You can have multiple clusters in an AS. cluster-id cluster-id 2 Assign a neighbor to the router reflector cluster in ROUTER-BGP mode. neighbor {ip-address} 3 Configure the neighbor as a route-reflector client in ROUTER-NEIGHBOR mode, then return to ROUTER-BGP mode.
! neighbor 32.1.1.2 remote-as 104 no shutdown ! address-family ipv4 unicast Confederations Another way to organize routers within an AS and reduce the mesh for IBGP peers is to configure BGP confederations. As with route reflectors, Dell EMC recommends BGP confederations only for IBGP peering involving many IBGP peering sessions per router. When you configure BGP confederations, you break the AS into smaller sub-ASs. To devices outside your network, the confederations appear as one AS.
Route dampening When EBGP routes become unavailable, they “flap” and the router issues both WITHDRAWN and UPDATE notices. A flap occurs when a route is withdrawn, readvertised after being withdrawn, or has an attribute change. The constant router reaction to the WITHDRAWN and UPDATE notices causes instability in the BGP process. To minimize this instability, configure penalties (a numeric value) for routes that flap.
View dampened paths OS10# show ip bgp dampened-paths BGP local router ID is 80.1.1.1 Status codes: s suppressed, S stale, d dampened, h history, * valid, > best Origin codes: i - IGP, e - EGP, ? - incomplete Network From Reuse Path d* 3.1.2.0/24 80.1.1.2 00:00:12 800 9 8 i d* 3.1.3.0/24 80.1.1.2 00:00:12 800 9 8 i d* 3.1.4.0/24 80.1.1.2 00:00:12 800 9 8 i d* 3.1.5.0/24 80.1.1.2 00:00:12 800 9 8 i d* 3.1.6.0/24 80.1.1.
1 Enable soft-reconfiguration for the BGP neighbor and BGP template in ROUTER-BGP mode. BGP stores all the updates that the neighbor receives but does not reset the peer-session. Entering this command starts the storage of updates, which is required to do inbound soft reconfiguration. neighbor {ip-address} soft-reconfiguration inbound 2 Enter Address Family mode in ROUTER-NEIGHBOR mode. address-family {[ipv4 | ipv6] [unicast]} 3 Configure soft-configuration for the neighbors belonging to the template.
• receive — Receive multiple paths from the peer. • send path count — Enter the number of multiple paths to send multiple to the peer, from 2 to 64. Default Not configured Command Mode ROUTER-BGP-NEIGHBOR-AF Usage Information Advertising multiple paths to peers for the same address prefix without replacing the existing path with a new one reduces convergence times. The no version of this command disables the multiple path advertisements for the same destination.
Usage Information The time interval applies to all peer group members of the template in ROUTER-TEMPLATE mode. The no version of this command resets the advertisement-interval value to the default. Example OS10(conf-router-neighbor)# advertisement-interval 50 Supported Releases 10.3.0E or later advertisement-start Delays initiating the OPEN message for the specified time.
allowas-in Sets the number of times a local AS number appears in the AS path. Syntax allowas-in as-number Parameters as-number—Enter the number of occurrences for a local AS number, from 1 to 10. Default Disabled Command Mode ROUTER-BPG-TEMPLATE-AF Usage Information Use this command to enable the BGP speaker to allow the AS number to be present for the specified number of times in updates received from the peer. You cannot set this configuration for a peer associated with a peer group.
Command Mode ROUTER-BGP Usage Information To enable load-balancing across different EBGP peers, configure the mutlipath-relax option. If you configure both ignore or multipath-relax options at the same time, a system-generated error message appears. The no version of this command disables configuration. Example OS10(conf-router-bgp-10)# bestpath as-path multipath-relax Supported Releases 10.3.0E or later bestpath med Changes the best path MED attributes during MED comparison for path selection.
Parameters • IPv4–address — Enter an IPv4 address to clear a BGP neighbor configuration. • IPv6–address — Enter an IPv6 address to clear a BGP neighbor configuration. • * — Clears all BGP sessions. Default Not configured Command Mode EXEC Usage Information To reset BGP IPv4 or IPv6 neighbor sessions, use this command. Example OS10# clear ip bgp 1.1.15.4 Supported Releases 10.3.0E or later clear ip bgp * Resets BGP sessions.
Usage Information Configure your system to accept 4-byte formats before entering a 4-byte AS number. All routers in the Confederation must be 4-byte or 2-byte identified routers. You cannot have a mix of 2-byte and 4-byte identified routers. The autonomous system number you configure in this command is visible to the EBGP neighbors. Each autonomous system is fully meshed and contains a few connections to other autonomous systems.
cluster-id Assigns a cluster ID to a BGP cluster with multiple route reflectors. Syntax Parameters cluster-id {number | ip-address} • number—Enter a route reflector cluster ID as a 32-bit number, from 1 to 4294967295. • ip-address—Enter an IP address as the route-reflector cluster ID. Default Router ID Command Mode ROUTER-BGP Usage Information If a cluster contains only one route reflector, the cluster ID is the route reflector’s router ID.
Supported Releases 10.3.0E or later default-metric Assigns a default-metric of redistributed routes to locally originated routes. Syntax default-metric number Parameters number — Enter a number as the metric to assign to routes from other protocols, from 1 to 4294967295. Default Disabled Command Mode ROUTER-BGP Usage Information Assigns a metric for locally-originated routes such as redistributed routes.
Command Mode ROUTER-NEIGHBOR Usage Information This command avoids installation of default multihop peer routes to prevent loops and creates neighbor relationships between peers. Networks indirectly connected are not valid for best path selection. The no version of this command removes multihop session. Example OS10(conf-router-neighbor)# ebgp-multihop 2 Supported Releases 10.3.
fast-external-fallover Resets BGP sessions immediately when a link to a directly connected external peer fails. Syntax fast-external-fallover Parameters None Default Not configured Command Mode ROUTER-BGP Usage Information Fast external fall-over terminates the EBGP session immediately after the IP unreachability or link failure is detected. This only applies after you manually reset all existing BGP sessions. For the configuration to take effect, use the clear ip bgp command.
Supported Releases 10.2.0E or later local-as Configures a local AS number for a peer. Syntax Parameters local-as as-number [no-prepend] • as-number—Enter the local AS number, from 1 to 4294967295. • no-prepend—(Optional) Enter so that local AS values are not prepended to announcements from the neighbor. Default Disabled Command Mode ROUTER-NEIGHBOR or ROUTER-TEMPLATE Usage Information Facilitates the BGP network migration operation and allows you to maintain existing AS numbers.
• number—Enter the number of parallel paths, from 1 to 64. Default 64 paths Command Mode ROUTER-BGP Usage Information Dell EMC recommends not using multipath and add path simultaneously in a route reflector. To recompute the best path, use the clear ip bgp * command. The no version of this command resets the value to the default. Example (EBGP) OS10(conf-router-bgp-2)# maximum-paths ebgp 2 maxpaths Example (IBGP) OS10(conf-router-bgp-2)# maximum-paths ibgp 4 maxpaths Supported Releases 10.3.
Example OS10(conf-router-bgp-2)# neighbor 32.1.0.0 OS10(conf-router-neighbor)# Supported Releases 10.3.0E or later next-hop-self Disables the next-hop calculation for a neighbor. Syntax next-hop-self Parameters None Default Enabled Command Mode ROUTER-NEIGHBOR-AF Usage Information Influences next-hop processing of EBGP routes to IBGP peers. The no version of this command disables the nexthop calculation. Example OS10(conf-router-neighbor-af)# next-hop-self Supported Releases 10.3.
Usage Information Enable or disable outbound optimization dynamically to reset all neighbor sessions. When you enable outbound optimization, all peers receive the same update packets. The next-hop address chosen as one of the addresses of neighbor’s reachable interfaces is also the same for the peers. The no version of this command disables outbound optimization. Example OS10(conf-router-bgp-10)# outbound-optimization Supported Releases 10.3.
Example (Static — IPv6) OS10(conf-router-bgp-102)# address-family ipv6 unicast OS10(conf-router-bgpv6-af)# redistribute static Example (OSPF — IPv4) OS10(conf-router-bgp-102)# address-family ipv4 unicast OS10(conf-router-bgpv4-af)# redistribute ospf 1 Example (OSPF — IPv6) OS10(conf-router-bgp-102)# address-family ipv6 unicast OS10(conf-router-bgpv6-af)# redistribute ospf 1 Supported Releases 10.2.0E or later route-reflector-client Configures a neighbor as a member of a route-reflector cluster.
router-id Assigns a user-given ID to a BGP router. Syntax router-id ip-address Parameters ip-address — Enter an IP address in dotted decimal format. Default First configured IP address or random number Command Mode ROUTER-BGP Usage Information Change the router ID of a BGP router to reset peer-sessions. The no version of this command resets the value to the default. Example OS10(conf-router-bgp-10)# router-id 10.10.10.40 Supported Releases 10.3.
Example (IPv4) OS10(conf-router-bgp-102)# neighbor 3.3.3.1 OS10(conf-router-neighbor)# address-family ipv4 unicast OS10(conf-router-bgp-neighbor-af)# sender-side-loop-detection Example (IPv6) OS10(conf-router-bgp-102)# neighbor 32::1 OS10(conf-router-neighbor)# address-family ipv6 unicast OS10(conf-router-bgp-neighbor-af)# no sender-side-loop-detection Supported Releases 10.3.0E or later show ip bgp Displays information that BGP neighbors exchange.
Status codes: s suppressed, S stale, d dampened, h history, * valid, > best Origin codes: i - IGP, e - EGP, ? - incomplete Network From Reuse Path d* 3.1.2.0/24 80.1.1.2 00:00:12 800 9 8 i d* 3.1.3.0/24 80.1.1.2 00:00:12 800 9 8 i d* 3.1.4.0/24 80.1.1.2 00:00:12 800 9 8 i d* 3.1.5.0/24 80.1.1.2 00:00:12 800 9 8 i d* 3.1.6.0/24 80.1.1.2 00:00:12 800 9 8 i Total number of prefixes: 5 Supported Releases 10.3.0E or later show ip bgp flap-statistics Displays BGP flap statistics on BGP routes.
Command Mode EXEC Usage Information This command provides output which displays locally advertised BGPv4 routes configured using the network command. These routes show as r for redistributed/network-learned routes. Example OS10# show ip bgp ipv4 unicast summary BGP router identifier 80.1.1.1 local AS number 102 Neighbor AS MsgRcvd MsgSent Up/Down State/Pfx 80.1.1.2 800 8 4 00:01:10 5 Supported Releases 10.3.0E or later show ip bgp ipv6 unicast Displays route information for BGP IPv6 routes.
Command Mode Usage Information EXEC • BGP neighbor — Displays the BGP neighbor address and its AS number. The last phrase in the line indicates whether the link between the BGP router and its neighbor is an external or internal one. If they are located in the same AS, the link is internal; otherwise the link is external. • BGP version — Displays the BGP version (always version 4) and the remote router ID.
Example advertised- OS10# show ip bgp ipv6 unicast neighbors 192:168:1::2 advertised-routes BGP local router ID is 100.1.1.
Total number of prefixes: 10 OS10# Supported Releases 10.3.0E or later show ip bgp peer-group Displays information on BGP peers in a peer-group. Syntax show ip bgp peer-group peer-group-name Parameters peer-group-name — (Optional) Enter the peer group name to view information about that peer-group only. Default Not configured Command Mode EXEC Usage Information Example • Peer-group — Displays the peer group name. Minimum time displays the time interval between BGP advertisements.
• AS—Displays the AS number of the neighbor • MsgRcvd—Displays the number of BGP messages that the neighbor received. • MsgSent—Displays the number of BGP messages that the neighbor sent. • Up/Down—Displays the amount of time that the neighbor is in the Established stage. If the neighbor has never moved into the Established stage, the word never displays.
Command Mode CONFIG-ROUTER-BGP Usage Information Members of a peer-group template inherit the configuration properties of the template and share the same update policy. The no version of this command removes a peer-template configuration. Example OS10(conf-router-bgp-10)# template solar OS10(conf-router-bgp-template)# Supported Releases 10.3.0E or later timers Adjusts BGP keepalive and holdtime timers.
Equal cost multi-path ECMP is a routing technique where next-hop packet forwarding to a single destination occurs over multiple best paths. OS10 uses a hashing algorithm to determine the next-hop when you enable ECMP. The hashing algorithm makes hashing decisions based on values in various packet fields as well as some internal values. • Configure the hash algorithm in CONFIGURATION mode.
hash-algorithm Changes the hash algorithm that distributes traffic flows across ECMP paths and the LAG. Syntax hash-algorithm {ecmp | lag} {crc | xor | random} Parameters • ecmp — Enables ECMP hash configuration. • lag — Enables LAG hash configuration for L2 only. • crc — Enables CRC polynomial for hash computation. • xor — Enables upper 8 bits of CRC and lower 8 bits of XOR value for computation. • random — Enables a hash algorithm random value for ECMP or LAG hash computation.
source-ip | protocol | vlan-id | l4–destination-port | l4–source-port] | [macselection destination-mac | source-mac | ethertype | vlan-id]} Parameters Default Command Mode Usage Information • ingress-port enable — Enables load-balancing on ingress ports. • tcp-udp-selection — Enables the TCP UDP port for load-balancing configuration. • ip-selection — Enables IPv4 key parameters to use in the hash computation. • ipv6-selection — Enables IPV6 key parameters to use in hash computation.
Default Not configured Command Mode EXEC Usage Information None Example OS10# show hash-algorithm EcmpAlgo - crc LabAlgo - crc Supported Releases 10.3.0E or later IPv4 routing OS10 supports IPv4 addressing including variable-length subnetting mask (VLSM), address resolution protocol (ARP), static routing, and routing protocols. With VLSM, you can configure one network with different masks. You can also use supernetting, which increases the number of subnets.
Wavelength is 64 SFP receive power reading is 0.
ethernet 1/1/5 has IP address on subnet 100.0.0.0/8, and if 10.1.1.0/24 recursively resolves to 100.1.1.1, the system installs the static route: • When the interface goes down, OS10 withdraws the route. • When the interface comes up, OS10 reinstalls the route. • When the recursive resolution is broken, OS10 withdraws the route. • When the recursive resolution is satisfied, OS10 reinstalls the route.
• A.B.C.D/mask —Specify the IP route to be removed from the IP routing table. This option refreshes all the routes in the routing table, but the traffic flow is affected only for the specified route in the switch. Default Not configured Command Mode EXEC Usage Information This command does not remove the static routes from the routing table. Example OS10# clear ipv6 Supported Releases 10.3.0E or later route 10.1.1.0/24 ip address Configures IP address to an interface.
Default Not configured Command Mode INTERFACE Usage Information Do not use Class D (multicast) or Class E (reserved) IP addresses. Zero MAC addresses (00:00:00:00:00:00) are also invalid. The no version of this command disables IP ARP configuration. Example OS10(conf-if-eth1/1/6)# ip arp 10.1.1.5 08:00:20:b7:bd:32 Supported Releases 10.2.0E or later ip route Assigns a static route on the network device.
• summary — (Optional) Enter the keyword to display a summary of all ARP entries. Default Not configured Command Mode EXEC Usage Information This command shows both static and dynamic ARP entries. Example (IP Address) OS10# show ip arp ip 192.168.2.2 Example (Static) OS10# show ip arp summary Total Entries Static Entries Dynamic Entries -----------------------------------------------------------3994 0 3994 OS10# show ip arp 100.1.2.
• ip-prefix/mask — (Optional) Displays routes for the destination prefix-list. • summary — (Optional) Displays an IP route summary.
Hardware is Dell EMC Eth, address is ec:f4:bb:fb:fa:30 Current address is ec:f4:bb:fb:fa:30 Pluggable media present, QSFP-PLUS type is QSFP_40GBASE_SR4 Wavelength is 850 Receive power reading is 0.0 Interface index is 17305562 Internet address is 20.20.20.1/24 Mode of IPv4 Address Assignment: MANUAL Interface IPv6 oper status: Enabled Link local IPv6 address: fe80::eef4:bbff:fefb:fa30/64 Global IPv6 address: 2020::1/64 ...
Link-local addresses When an OS10 switch boots up, an IPv6 unicast link-local address is automatically assigned to an interface using stateless configuration. A link-local address allows IPv6 devices on a local link to communicate without requiring a globally unique address. IPv6 reserves the address block FE80::/10 for link-local unicast addressing. Global addresses To enable stateless autoconfiguration of an IPv6 global address and set the interface to Host mode, use the ipv6 address autoconfig command.
Stateless autoconfiguration of IPv6 addresses is performed using: Prefix advertisement Routers use router advertisement messages to advertise the network prefix. Hosts append their interface-identifier MAC address to generate a valid IPv6 address. Duplicate address detection An IPv6 host node checks whether that address is used anywhere on the network using this mechanism before configuring its IPv6 address.
3 • ipv6 nd ra-lifetime seconds — (Optional) Sets the lifetime of a default router in RA messages (0 to 9000 milliseconds; default 3 times the max-ra-interval setting). 0 indicates that this router is not used as a default router. • ipv6 nd reachable-time milliseconds — (Optional) Sets the advertised time for which the router sees that a neighbor is up after it receives neighbor reachability confirmation (0 to 3600000 milliseconds; default 0). 0 indicates that no reachable time is sent in RA messages.
To disable IPv6 on an interface when a duplicate link-local address is detected, use the ipv6 nd dad disable-ipv6-on-failure command. To re-enable IPv6 after you resolve a duplicate link-local address, enter no ipv6 enable, followed by ipv6 enable. • Disable or re-enable IPv6 duplicate address discovery in Interface mode. ipv6 nd dad {disable | enable} • Disable IPv6 on an interface if a duplicate link-local address is discovered in Interface mode.
Enable IPv6 unreachable destination messaging OS10(config)# interface ethernet 1/1/8 OS10(conf-if-eth1/1/8)# ipv6 unreachables IPv6 hop-by-hop options A hop-by-hop header extension in an IPv6 packet contains options that are processed by all IPv6 routers in the packet's path. By default, hop-by-hop header options in an IPv6 packet are not processed locally. To enable local processing of IPv6 hop-by-hop options on an interface, use the ipv6 hop-by-hop command.
clear ipv6 route Clears routes from the IPv6 routing table. Syntax Parameters clear ipv6 route {* | A::B/mask} • *— Clears all routes and refreshes the IPv6 routing table. Traffic flow for all the routes in the switch is affected. • A::B/mask — Removes the IPv6 route and refreshes the IPv6 routing table. Traffic flow in the switch is affected only for the specified route.
Command Mode Usage Information INTERFACE • This command sets an interface in Host mode to perform IPv6 stateless auto-configuration by discovering prefixes on local links, and adding an EUI-64 based interface identifier to generate each IPv6 address. The command disables IPv6 forwarding. Addresses are configured depending on the prefixes received in router advertisement messages.
ipv6 address eui-64 Configures a global IPv6 address on an interface by entering only the network prefix and length. Syntax ipv6 address ipv6-prefix/prefix-length eui-64 Parameters ipv6-prefix — Enter an IPv6 prefix in x:x::y/mask format. Defaults None Command Mode INTERFACE Usage Information Use this command to manually configure an IPv6 address in addition to the link-local address generated with stateless autoconfiguration. Specify only the network prefix and length.
Command Mode Usage Information INTERFACE • Use this command to enable local processing of IPv6 packets with hop-by-hop options in conformance with RFC 8200, IPv6 Specification. • The no version of this command disables IPv6 processing of hop-by-hop header options. Example: Disable hop-by-hop option processing OS10(config)# interface ethernet 1/2/3 OS10(conf-if-eth1/2/3)# no ipv6 hop-by-hop Supported Releases 10.4.
Command Mode INTERFACE Usage Information The configured hop limit is advertised in RA messages and included in IPv6 data packets sent by the router. 0 indicates that no hop limit is specified by the router. Example OS10(config)# interface ethernet 1/2/3 OS10(conf-if-eth1/2/3)# ipv6 nd hop-limit 100 Supported Releases 10.4.0E(R1) or later ipv6 nd managed-config-flag Sends RA messages that tell hosts to use stateful address autoconfiguration, such as DHCPv6, to obtain IPv6 addresses.
Defaults 1500 bytes Command Mode INTERFACE Usage Information The no version of this command restores the default MTU value advertised in RA messages. Example OS10(config)# interface ethernet 1/2/3 OS10(conf-if-eth1/2/3)# ipv6 nd mtu 2500 Supported Releases 10.4.0E(R1) or later ipv6 nd other-config-flag Sends RA messages that tell hosts to use stateful autoconfiguration to obtain nonaddress-related information.
seconds (4 hours). The infinite setting allows addresses that are autoconfigured using the prefix to be preferred with no time limit. Defaults All prefixes in IPv6 subnets configured on an interface are advertised. Command Mode INTERFACE Usage Information Examples • By default, all prefixes configured in IPv6 addresses on an interface are advertised. To advertise all default parameters in the subnet prefixes on an interface, enter the default keyword.
Parameters • reachable-time milliseconds — Enter the reachable time in milliseconds (0 to 3600000). Defaults 0 Command Mode INTERFACE Usage Information The no version of this command restores the default reachable time. 0 indicates that no reachable time is sent in RA messages. Example OS10(config)# interface ethernet 1/2/3 OS10(conf-if-eth1/2/3)# ipv6 nd reachable-time 1000 Supported Releases 10.4.
ipv6 route Configures a static IPv6 static route. Syntax Parameters ipv6 route ipv6–prefix mask {next-hop | interface interface-type [routepreference]} • ipv6-prefix — Enter the IPv6 address in x:x:x:x::x format • mask — Enter the mask in slash prefix-length format (/x) • next-hop — Enter the next-hop IPv6 address in x:x:x:x::x format. • interface interface-type — Enter the interface type then the slot/port or number information.
show ipv6 route Displays IPv6 routes. Syntax show ipv6 route [all | bgp | connected | static | A::B/mask | summary] Parameters • all—(Optional) Displays all routes including nonactive routes. • bgp—(Optional) Displays BGP route information. • connected—(Optional) Displays only the directly connected routes. • static—(Optional) Displays all static routes. • A::B/mask—(Optional) Enter the IPv6 destination address and mask. • summary—(Optional) Displays the IPv6 route summary.
show ipv6 interface brief Displays IPv6 interface information. Syntax Parameters show ipv6 interface brief [interface interface] • brief — Displays a brief summary of IPv6 interface information.
• (Optional) You can disable IGMP snooping on specific VLAN interfaces using the no ip igmp snooping enable command in the VLAN INTERFACE mode. • IGMP snooping functions in a network with a multicast router that generates IGMP queries. The tables created are associated with the IGMP querier. Enable IGMP and MLD querier on a VLAN interface with the ip igmp snooping querier command in the VLAN INTERFACE mode.
IGMP snooping last member query response interval is 1000 ms IGMP snooping fast-leave is disabled on this interface IGMP snooping querier is enabled on this interface --more-<
IGMP snooping commands ip igmp snooping enable Enables IGMP and MLD snooping globally. Syntax ip igmp snooping enable Parameters None Default Disabled Command Mode CONFIGURATION Usage Information The no version of this command disables the IGMP and MLD snooping. Example OS10(config)# ip igmp snooping enable Supported Releases 10.4.0E(R1) or later ip igmp snooping enable (VLAN) Enables IGMP and MLD snooping on the specified VLAN interface.
Example OS10(config)# interface vlan 100 OS10(conf-if-vl-100)# ip igmp snooping mrouter interface ethernet 1/1/1 Supported Releases 10.4.0E(R1) or later ip igmp snooping querier Enables IGMP and MLD querier processing for the specified VLAN interface. Syntax ip igmp snooping querier Parameters None Default Not configured Command Mode VLAN INTERFACE Usage Information The no version of this command disables the IGMP and MLD querier processing on the VLAN.
Member Ports: ethernet1/1/6:1 225.1.0.9 Member Ports: ethernet1/1/6:1 --more-- vlan3031 IGMPv2-Compat <
IGMP snooping querier is enabled on this interface Vlan3032 is up, line protocol is up IGMP snooping is enabled on interface IGMP snooping query interval is 125 seconds IGMP snooping querier timeout is 255 seconds IGMP snooping last member query response interval is 1000 ms IGMP snooping fast-leave is disabled on this interface IGMP snooping querier is enabled on this interface Vlan3033 is up, line protocol is up IGMP snooping is enabled on interface IGMP snooping query interval is 125 seconds IGMP snooping
vlan3049 vlan3050 vlan3051 vlan3052 --more-- port-channel31 port-channel31 port-channel31 port-channel31 <
Member Ports: port-channel31 ff02::1:ff00:b Member Ports: port-channel31 ff02::1:ff00:c Member Ports: port-channel31 ff02::1:ff00:f Member Ports: ethernet1/1/6:1 ff02::1:ff00:11 Member Ports: port-channel31 ff02::1:ff0c:86c9 Member Ports: port-channel31 ff02::1:ff31:0 Member Ports: port-channel31, ff02::1:ffaa:9bcc Member Ports: port-channel31 ff0e:225:1:: Member Ports: port-channel31, ff0e:225:1::1 Member Ports: port-channel31, ff0e:225:1::2 Member Ports: port-channel31, ff0e:225:1::3 Member Ports: port-ch
Areas allow you to further organize routers within the AS with one or more areas within the AS. Areas are valuable in that they allow subnetworks to hide within the AS—minimizing the size of the routing tables on all routers. An area within the AS may not see the details of another area’s topology. An area number or the router’s IP address identifies AS areas. Areas, networks, and neighbors The backbone of the network is Area 0, also called Area 0.0.0.0, the core of any AS.
Router types Router types are attributes of the OSPF process—multiple OSPF processes may run on the same router. A router connected to more than one area, receiving routing from a BGP process connected to another AS, acts as both an area border router and an autonomous system border router. Each router has a unique ID, written in decimal format—A.B.C.D. You do not have to associate the router ID with a valid IP address.
Designated and backup designated routers OSPF elects a designated router (DR) and a backup designated router (BDR). The DR is responsible for generating LSAs for the entire multiaccess network. Designated routers allow a reduction in network traffic and in the size of the topological database. Designated router Maintains a complete topology table of the network and sends updates to the other routers via multicast. All routers in an area form a slave/master relationship with the DR.
(OSPFv2), IntraArea Prefix LSA (OSPFv3) Type 11—Grace LSA Link-local opaque LSA for OSPFv3 only is sent during a graceful restart by an OSPFv3 router. (OSPFv3) The LSA header is common to LSA types. Its size is 20 bytes. One of the fields of the LSA header is the link-state ID. Each router link is defined as one of four types—type 1, 2, 3, or 4. The LSA includes a link ID field that identifies the object this link connects to, by the network number and mask.
Shortest path first throttling Use shortest path first (SPF) throttling to delay SPF calculations during periods of network instability. In an OSPF network, a topology change event triggers an SPF calculation that is performed after a start time. When the start timer finishes, a hold time can delay the next SPF calculation for an additional time.
SPF schedule delay 1345 msecs, Hold time between two SPFs 2324 msecs Min LSA origination 5000 msec, Min LSA arrival 1000 msec Min LSA hold time 0 msec, Max LSA wait time 0 msec Number of area in this router is 1, normal 1 stub 0 nssa Area (0.0.0.1) Number of interface in this area is 1 SPF algorithm executed 2 times OSPFv2 OSPFv2 supports IPv4 address families. OSPFv2 routers initially exchange hello messages to set up adjacencies with neighbor routers.
router ospf 100 ... Assign router identifier For managing and troubleshooting purposes, you can assign a router ID for the OSPFv2 process. Use the router’s IP address as the router ID. • Assign the router ID for the OSPFv2 process in ROUTER-OSPF mode router-id ip-address Assign router ID OS10(config)# router ospf 10 OS10(conf-router-ospf-10)# router-id 10.10.1.5 View OSPFv2 status OS10# show ip ospf 10 Routing Process ospf 10 with ID 10.10.1.
SPF algorithm executed 1 times Area ranges are OS10# show running-configuration ospf ! router ospf 10 area 10.10.5.1 stub Passive interfaces A passive interface does not send or receive routing information. Configuring an interface as a passive interface suppresses both receiving and sending routing updates. Although the passive interface does not send or receive routing updates, the network on that interface is included in OSPF updates sent through other interfaces.
Configure fast convergence OS10(config)# router ospf 65535 OS10(conf-router-ospf-65535)# fast-converge 1 View fast convergence OS10(conf-router-ospf-65535)# do show ip ospf Routing Process ospf 65535 with ID 99.99.99.
7 Change the wait period between link state update packets sent out the interface in INTERFACE mode, from 1 to 3600. The default wait period is 1. The transmit delay must be the same on all routers in the OSPF network.
View default route configuration OS10(config-router-ospf-10)# show configuration ! router ospf 10 default-information originate always Summary address You can configure a summary address for an ASBR to advertise one external route as an aggregate, for all redistributed routes that are covered by specified address range. • Configure the summary address in ROUTER-OSPF mode.
View text authentication OS10(conf-if-eth1/1/1)# show configuration ! interface ethernet1/1/1 ip address 10.10.10.2/24 no switchport no shutdown ip ospf 100 area 0.0.0.0 ip ospf authentication-key sample Configure MD5 authentication OS10(config)# interface ethernet 1/1/1 OS10(conf-if-eth1/1/1)# ip ospf message-digest-key 2 md5 sample12345 View MD5 authentication OS10(conf-if-eth1/1/1)# show configuration ! interface ethernet1/1/1 ip address 10.10.10.2/24 no switchport no shutdown ip ospf 100 area 0.0.0.
router ospf 100 log-adjacency-changes OSPFv2 commands area default-cost Sets the metric for the summary default route generated by the ABR and sends it to the stub area. Use the area default-cost command on the border routers at the edge of a stub area. Syntax area area-id default-cost cost Parameters • area-id — Enter the OSPF area in dotted decimal format (A.B.C.D.) or enter a number (0 to 65535). • cost — Enter a cost for the stub area’s advertised external route metric (0 to 65535).
• ip-address — (Optional) Enter an IP address/mask in dotted decimal format. • no-advertise — (Optional) Set the status to Do Not Advertise. The Type 3 summary-LSA is suppressed and the component networks remain hidden from other areas. Default Not configured Command Mode ROUTER-OSPF Usage Information The no version of this command disables the route summarizations. Example OS10(conf-router-ospf-10)# area 0 range 10.1.1.4/8 no-advertise Supported Releases 10.2.
clear ip ospf process Clears all OSPF routing tables. Syntax clear ip ospf {instance-number} process Parameters instance-number — Enter an OSPF instance number (1 to 65535). Default Not configured Command Mode EXEC Usage Information This command clears all entries in the OSPF routing table. Example OS10# clear ip ospf 3 process Supported Releases 10.2.0E or later clear ip ospf statistics Clears OSPF traffic statistics.
Parameters number — Enter a default-metric value (1 to 16777214). Default Not configured Command Mode ROUTER-OSPF Usage Information The no version of this command disables the default-metric configuration. Example OS10(conf-router-ospf-10)# default-metric 2000 Supported Releases 10.2.0E or later fast-converge Sets the minimum LSA origination and arrival times to zero (0) allowing more rapid route computation so that convergence takes less time.
• area area-id — Enter the OSPF area ID in dotted decimal format (A.B.C.D.) or enter an area ID number (1 to 65535). Default Not configured Command Mode INTERFACE Usage Information The no version of this command removes an interface from an OSPF area. Example OS10(conf-if-vl-10)# ip ospf 10 area 5 Supported Releases 10.2.0E or later ip ospf authentication-key Configures a text authentication key to enable OSPF traffic on an interface.
Parameters seconds — Enter the dead interval value in seconds (1 to 65535). Default 40 seconds Command Mode INTERFACE Usage Information The dead interval is four times the default hello-interval by default. The no version of this command resets the value to the default. Example OS10(conf-if-vl-10)# ip ospf dead-interval 10 Supported Releases 10.2.0E or later ip ospf hello-interval Sets the time interval between the hello packets sent on the interface.
Default Not configured Command Mode INTERFACE Usage Information When neighbors exchange DBD packets, the OSPF process checks if the neighbors are using the same MTU on a common interface. If the receiving MTU in the DBD packet is higher than the IP MTU configured on the incoming interface, OSPF adjacency does not establish. The no version of this command disables the IP OSPF mtu-ignore configuration. Example OS10(conf-if-vl-10)# ip ospf mtu-ignore Supported Releases 10.2.
Command Mode INTERFACE Usage Information When two routers attached to a network attempt to become the designated router, the one with the higher router priority takes precedence. The no version of this command resets the value to the default. Example OS10(conf-if-eth1/1/6)# ip ospf priority 4 Supported Releases 10.2.0E or later ip ospf retransmit-interval Sets the retransmission time between lost LSAs for adjacencies belonging to the interface.
Example OS10(config)# router ospf 10 OS10(conf-router-ospf-10)# log-adjacency-changes Supported Releases 10.2.0E or later max-metric router-lsa Configures OSPF to advertise a maximum metric on a router so that it is not desired as an intermediate hop from other routers.
Usage Information When an OSPF redistributes, the process is not completely removed from the BGP configuration. The no version of this command disables the redistribute configuration. Example OS10(config)# router ospf 10 OS10(conf-router-ospf-10)# redistribute bgp 4 route-map dell1 Example (Connected) OS10(config)# router ospf 10 OS10(conf-router-ospf-10)# redistribute connected route-map dell2 Supported Releases 10.2.0E or later router-id Configures a fixed router ID for the OSPF process.
Command Mode EXEC Usage Information None Example OS10# show ip ospf 10 Routing Process ospf 10 with ID 111.2.1.1 Supports only single TOS (TOS0) routes It is an Autonomous System Boundary Router It is Flooding according to RFC 2328 Convergence Level 0 Min LSA origination 0 msec, Min LSA arrival 1000 msec Min LSA hold time 5000 msec, Max LSA wait time 5000 msec Number of area in this router is 1, normal 1 stub 0 nssa 0 Area (0.0.0.
Example • Seq# — Identifies the link state sequence number (identifies old or duplicate LSAs). • Checksum — Displays the Fletcher checksum of an LSA’s complete contents. • Link count — Displays the number of interfaces for that router. OS10# show ip ospf 10 database OSPF Router with ID (111.2.1.1) (Process ID 10) Router (Area 0.0.0.0) Link ID 111.2.1.1 111.111.111.1 111.111.111.2 112.2.1.1 112.112.112.1 112.112.112.2 ADV Router 111.2.1.1 111.111.111.1 111.111.111.2 112.2.1.1 112.112.112.1 112.112.
Summary Asbr (Area 0.0.0.1) LS age: 32 Options: (No TOS-Capability, No DC) LS type: Summary Asbr Link State ID: 8.1.1.1 Advertising Router: 2.2.2.2 LS Seq Number: 0x80000001 Checksum: 0xB595 Length: 28 Network Mask: /0 TOS: 0 Metric: 0 Supported Releases 10.2.0E or later show ip ospf database external Displays information about the AS external (Type 5) LSAs.
Forward Address: 110.1.1.1 External Route Tag: 0 Supported Releases 10.2.0E or later show ip ospf database network Displays information about network (Type 2) LSA information. Syntax show ip ospf [process-id] database network Parameters process-id — (Optional) Displays network (Type2) LSA information for a specified OSPF Process ID. If you do not enter a Process ID, this command applies only to the first OSPF process.
Parameters process-id — (Optional) Displays NSSA-External (Type7) LSA information for a specified OSPF Process ID. If you do not enter a Process ID, this command applies only to the first OSPF process. Default Not configured Command Mode EXEC Usage Information Example • LS Age — Displays the LS age. • Options — Displays the optional capabilities available on the router. • LS Type — Displays the Link State type. • Link State ID — Identifies the router ID.
Length: 36 Network Mask: /24 Metric Type: 2 TOS: 0 Metric: 20 Forward Address: 0.0.0.0 External Route Tag: 0 LS age: 65 Options: (No TOS-Capability, No DC, No Type 7/5 translation) LS type: NSSA External Link State ID: 13.1.1.0 Advertising Router: 2.2.2.2 LS Seq Number: 0x80000001 Checksum: 0xB0F6 Length: 36 Network Mask: /24 Metric Type: 2 TOS: 0 Metric: 20 Forward Address: 0.0.0.
• Example Opaque ID — Identifies the Opaque type-specific ID (the remaining 24 bits of the LS ID). OS10# show ip ospf database opague-area OSPF Router with ID (1.1.1.1) (Process ID 100) Type-10 Area Local Opaque (Area 0.0.0.1) LS age: 3600 Options: (No TOS-Capability, No DC) LS type: Type-10 Area Local Opaque Link State ID: 8.1.1.2 Advertising Router: 2.2.2.2 LS Seq Number: 0x80000008 Checksum: 0x83B8 Length: 28 Opaque Type: 8 Opaque ID: 65794 !! ! Supported Releases 10.2.
Opaque Type: 8 Opaque ID: 65795 Supported Releases 10.2.0E or later show ip ospf database opaque-link Displays information about the opaque-link (Type 9) LSA. Syntax show ip ospf [process-id] database opaque-link Parameters process-id — (Optional) Displays the opaque-link (Type 9) LSA information for an OSPF Process ID. If you do not enter a Process ID, this command applies only to the first OSPF process.
Command Mode EXEC Usage Information Output: Example • LS age—Displays the LS age. • Options—Displays optional capabilities. • LS Type—Displays the Link State type. • Link State ID—Identifies the router ID. • Advertising Router—Identifies the advertising router’s ID. • LS Seq Number—Identifies the LS sequence number (identifies old or duplicate LSAs). • Checksum—Displays the Fletcher checksum of an LSA’s complete contents. • Length—Displays the LSA length in bytes.
Default Not configured Command Mode EXEC Usage Information Example • LS Age—Displays the LS age. • Options—Displays the optional capabilities available on the router. • LS Type—Displays the Link State type. • Link State ID—Identifies the router ID. • Advertising Router—Identifies the advertising router’s ID. • LS Seq Number—Identifies the LS sequence number (identifies old or duplicate LSAs). • Checksum—Displays the Fletcher checksum of an LSA’s complete contents.
Process ID 200, Router ID 10.0.0.2, Network Type broadcast, Cost: 1 Transmit Delay is 1 sec, State DR, Priority 1 Designated Router (ID) 10.0.0.2, Interface address 10.0.0.2 (local) Backup Designated router (ID) , Interface address 0.0.0.0 Timer intervals configured, Hello 10, Dead 40, Wait 40, Retransmit 5 Simple password authentication enabled Neighbor Count is 0, Adjacent neighbor count is 0 Supported Releases 10.2.
Receive Statistics rx-invalid rx-hello rx-db-des rx-ls-req rx-ls-upd rx-ls-ack Transmit Statistics tx-failed tx-hello tx-db-des tx-ls-req tx-ls-upd tx-ls-ack Error packets (Receive bad-src mtu-mismatch resource-err lsa-bad-len netmask-mismatch options-mismatch self-orig version-mismatch Supported Releases 0 0 0 0 0 0 rx-invalid-bytes rx-hello-bytes rx-db-des-bytes rx-ls-req-bytes rx-ls-upd-bytes rx-ls-ack-bytes 0 tx-failed-bytes 0 tx-hello-bytes 0 tx-db-des-bytes 0 tx-ls-req-bytes 0 tx-ls-upd-bytes 0 tx-
• tag-value—(Optional) Enter a value to match the routes redistributed through a route map (1 to 65535). Default) Not configured Command Mode ROUTER-OSPF Usage Information The no version of this command disables the summary address. Example OS10(config)# router ospf 100 OS10(config-router-ospf-100)# summary-address 10.0.0.0/8 not-advertise Supported Releases 10.3.0E or later timers lsa arrival Configures the LSA acceptance intervals.
• Each time a topology change occurs, the SPF calculation is delayed for double the configured hold time up to maximum wait time. • If no topology change occurs, an SPF calculation is performed and the hold timer is reset to its configured value. If you do not specify a start-time, hold-time or max-wait value, the default values are used. The no version of this command removes the configured SPF timers and disables SPF throttling in an OSPF instance.
OSPFv3 OSPFv3 is an IPv6 link-state routing protocol that supports IPv6 unicast address families (AFs). OSPFv3 is disabled by default. You must configure at least one interface, either physical or loopback. The OSPF process automatically starts when OSPFv3 is enabled for one or more interfaces. Any area besides area 0 can have any number ID assigned to it. Enable OSPFv3 1 Enable OSPFv3 globally and configure an OSPFv3 instance in CONFIGURATION mode.
SPF algorithm executed 42 times Area (0.0.0.1) Number of interface in this area is 1 SPF algorithm executed 42 times Configure Stub Areas The Type 5 LSAs are not flooded into stub areas. The ABR advertises a default route into the stub area to which it is attached. Stub area routers use the default route to reach external destinations. 1 Enable OSPFv3 routing and enter ROUTER-OSPFv3 mode (1 to 65535). router ospfv3 instance number 2 Configure an area as a stub area in ROUTER-OSPFv3 mode.
199.205.134.103 42 202.254.156.15 54 0x80000001 0x80000001 12 12 ethernet1/1/3 ethernet1/1/3 Enable Passive Interfaces A passive interface is one that does not send or receive routing information. Configuring an interface as a passive interface suppresses routing updates (both receiving and sending). Although the passive interface does not send or receive routing updates, the network on that interface is still included in OSPF updates sent through other interfaces.
Change OSPFv3 Interface Parameters OS10(config)# interface OS10(conf-if-eth1/1/1)# OS10(conf-if-eth1/1/1)# OS10(conf-if-eth1/1/1)# ethernet 1/1/1 ipv6 ospf hello-interval 5 ipv6 ospf dead-interval 20 ipv6 ospf priority 4 View OSPFv3 Interface Parameters OS10# show ipv6 ospf interface ethernet1/1/1 is up, line protocol is up Link Local Address fe80::20c:29ff:fe0a:d59/64, Interface ID 5 Area 0.0.0.0, Process ID 200, Instance ID 0, Router ID 10.0.0.
• The configured authentication or encryption policy is applied to all OSPFv3 packets transmitted on the interface or in the area. The IPsec security associations are the same on inbound and outbound traffic on an OSPFv3 interface. • There is no maximum AH or ESP header length because the headers have fields with variable lengths.
– key — Enter the text string used in the encryption algorithm. All neighboring OSPFv3 routers must share the key to decrypt information. Only a non-encrypted key is supported. Required lengths of the non-encrypted key are: 3DES — 48 hex digits; DES — 16 hex digits; AES-CBC — 32 hex digits for AES-128 and 48 hex digits for AES-192. – authentication-type key — Enter the encryption authentication algorithm to use (MD5 or SHA1). – key — Enter the text string used in the authentication algorithm.
– ipsec spi number — Enter a unique security policy index (SPI) value (256 to 4294967295). – esp encryption-type — Enter the encryption algorithm used with ESP (3DES, DES, AES-CBC, or NULL). For AES-CBC, only the AES-128 and AES-192 ciphers are supported. – key — Enter the text string used in the encryption algorithm. All neighboring OSPFv3 routers must share the key to decrypt information. Only a non-encrypted key is supported.
OSPFv3 Commands area authentication Configures authentication for an OSPFv3 area. Syntax Parameters area area-id authentication ipsec spi number {MD5 | SHA1} key • area area-id — Enter an area ID as a number or IPv6 prefix. • ipsec spi number — Enter a unique security policy index (SPI) value (256 to 4294967295). • md5 — Enable MD5 authentication. • sha1 — Enable SHA-1 authentication. • key — Enter the text string used in the authentication type.
• When you configure encryption at the area level, both IPsec encryption and authentication are enabled. You cannot configure encryption if you have already configured an IPsec area authentication (area ospf authentication ipsec). To configure encryption, you must first delete the authentication policy. • All OSPFv3 routers in the area must share the same encryption key to decrypt information. Only a nonencrypted key is supported.
clear ipv6 ospf process Clears all OSPFv3 routing tables. Syntax clear ipv6 ospf {instance-number} process Parameters instance-number — Enter an OSPFv3 instance number (1 to 65535). Default Not configured Command Mode EXEC Usage Information None Example OS10# clear ipv6 ospf 3 process Supported Releases 10.3.0E or later clear ipv6 ospf statistics Clears OSPFv3 traffic statistics.
Parameters • process-id—Enter an OSPFv3 process ID for a specific OSPFv3 process (1 to 65535). • area-id—Enter the OSPFv3 area ID in dotted decimal format (A.B.C.D) or enter an area ID number (1 to 65535). Default Not configured Command Mode INTERFACE Usage Information The no version of this command removes an interface from an OSPFv3 area. Example OS10(config)# interface vlan 10 OS10(conf-if-vl-10)# ipv6 ospf 10 area 1 Supported Releases 10.3.
Parameters cost — Enter a value as the OSPFv3 cost for the interface (1 to 65335). Default Based on bandwidth reference Command Mode INTERFACE Usage Information If not configured, the interface cost is based on the auto-cost command. This command configures OSPFv3 over multiple vendors to ensure that all routers use the same cost value. The no version of this command removes the IPv6 OSPF cost configuration.
Example • When you configure encryption on an interface, both IPsec encryption and authentication are enabled. You cannot configure encryption if you have already configured an interface for IPsec authentication (ipv6 ospf authentication ipsec). To configure encryption, you must first delete the authentication policy. • All neighboring OSPFv3 routers must share the same encryption key to decrypt information. Only a nonencrypted key is supported.
ipv6 ospf passive Configures an interface as a passive interface and suppresses routing updates (both receiving and sending) to the passive interface. Syntax ipv6 ospf passive Parameters None Default Not configured Command Mode INTERFACE Usage Information You must configure the interface before setting the interface to passive mode. The no version of the this command disables the Passive interface configuration.
maximum-paths Enables forwarding of packets over multiple paths. Syntax maximum—paths number Parameters number —Enter the number of paths for OSPFv3 (1 to 128). Default Disabled Command Mode ROUTER-OSPFv3 Usage Information The no version of this command resets the value to the default. Example OS10(config)# router ospfv3 OS10(config-router-ospfv3-100)# maximum-paths 1 Supported Releases 10.3.
adjacency. The new router ID becomes effective immediatley. The no version of this command disables the router ID configuration. Example OS10(config)# router ospfv3 10 OS10(config-router-ospfv3-100)# router-id 10.10.1.5 Supported Releases 10.3.0E or later router ospfv3 Enters Router OSPFv3 mode and configures an OSPFv3 instance. Syntax router ospfv3 instance-number Parameters instance-number—Enter a router OSPFv3 instance number, from 1 to 65535.
show ipv6 ospf database Displays all LSA information. You must enable OSPFv3 to generate output. Syntax show ipv6 ospf process-id database Parameters process-id — Enter the OSPFv3 process ID to view a specific process. If you do not enter a process ID, the command applies to all the configured OSPFv3 processes. Default Not configured Command Mode EXEC Usage Information • Link ID—Identifies the router ID. • ADV Router—Identifies the advertising router’s ID. • Age—Displays the link state age.
show ipv6 ospf interface Displays the configured OSPFv3 interfaces. You must enable OSPFv3 to display the output. Syntax show ipv6 ospf interface interface Parameters interface — (Optional) Enter the interface information: • ethernet — Physical interface (1 to 48) • port-channel — Port-channel interface (1 to 128). • vlan — VLAN interface 1 to 4093).
show ipv6 ospf statistics Displays OSPFv3 traffic statistics. Syntax show ipv6 ospf [instance-number] statistics [interface interface] Parameters • instance-number — (Optional) Enter an OSPFv3 instance number (1 to 65535). • interface interface — (Optional) Enter the interface information: – ethernet node/slot/port[:subport] — Enter an Ethernet port interface. – port-channel number — Enter the port-channel interface number (1 to 128). – vlan vlan-id — Enter the VLAN ID number (1 to 4094).
Default • start-time — 1000 milliseconds • hold-time — 10000 milliseconds • max-wait — 10000 milliseconds Command Mode ROUTER-OSPFv3 Usage Information OSPFv2 and OSPFv3 support SPF throttling. By default, SPF timers are disabled in an OSPF instance. Use SPF throttling to delay SPF calculations during periods of network instability. In an OSPF network, a topology change event triggers an SPF calculation after a specified start time.
Figure 3. Object tracking Interface tracking You can create an object that tracks the line-protocol state of a Layer 2 interface, and monitors its operational status (Up or Down). You can configure up to 500 objects. Each object is assigned a unique ID. The no version of this command deletes the tracked object from an interface. When the link-level status goes down, the tracked resource status is also considered Down. If the link-level status goes up, the tracked resource status is also considered Up.
• Loopback — Loopback interface identifier • mgmt — Management interface 1 Configure object tracking in CONFIGURATION mode from 1 to 500. track object-id 2 (Optional) Enter the interface object tracking on the line-protocol state of a Layer 2 interface in OBJECT TRACKING mode. interface interface line-protocol 3 (Optional) Configure the time delay used before communicating a change to the status of a tracked interface in OBJECT TRACKING mode from 0 to 80 seconds; default 0.
Reachability is DOWN 1 changes, Last change 2017-04-26T06:45:31Z OS10 (conf-track-2)# Configure IPv6 host tracking OS10 (conf-track-2)# track 3 OS10 (conf-track-3)# ipv6 20::20 reachability OS10 (conf-track-3)# delay up 20 OS10 (conf-track-3)# do show track 3 IP Host 20::20 reachability Reachability is DOWN 1 changes, Last change 2017-04-26T06:47:04Z OS10 (conf-track-3)# Set tracking delays You can configure an optional Up and/or Down timer for each tracked object.
View interface object tracking information OS10# show track interface TrackID Resource Parameter Status LastChange --------------------------------------------------------------------------------1 line-protocol ethernet1/1/1 DOWN 2017-02-03T08:41:25Z1 OS10# show track ip TrackID Resource Parameter Status LastChange --------------------------------------------------------------------------------2 ipv4-reachablity 1.1.1.
• mgmt — Enter the Management interface. Defaults Not configured Command Mode CONFIGURATION Usage Information None Example OS10(conf-track-100)# interface ethernet line-protocol Supported Releases 10.3.0E or later ip reachability Configures an object to track a specific next-hop host's reachability. Syntax ip host-ip-address reachability Parameters host-ip-address — Enter the IPv4 host address.
Command Mode CONFIGURATION Usage Information Set the interval to 0 to disable the refresh. Example OS10(conf-track-100)# reachability-refresh 600 Supported Releases 10.3.0E or later show track Displays tracked object information. Syntax Parameters show track [brief] [object-id] [interface] [ip | ipv6] • brief — (Optional) Displays brief tracked object information. • object-id — (Optional) Displays the tracked object information for a specific object ID.
Policy-based routing Policy-based routing (PBR) provides a mechanism to redirect IPv4 and IPv6 data packets based on the policies defined to override the switch’s forwarding decisions based on the routing table. Policy-based route-maps A route-map is an ordered set of rules that control the redistribution of IP routes into a protocol domain. When you enable PBR on an interface, all IPv4 or IPv6 data packets received are processed based on the policies that you define in the route-maps.
Apply match parameters to IPv4 route-map OS10(conf-route-map)# route-map map1 OS10(conf-route-map)# match ip address acl5 Apply match and set parameters to IPv6 route-map OS10(conf-route-map)# route-map map1 OS10(conf-route-map)# match ipv6 address acl8 OS10(conf-route-map)# set ipv6 next-hop 20::20 Assign route-map to interface You can assign a route-map to an interface for IPv4 or IPv6 policy-based routing to an interface.
PBR commands clear route-map pbr-statistics Clears all PBR counters. Syntax clear route-map [map-name] pbr-statistics Parameters map-name—Enter the name of a configured route-map (up to 140 characters). Defaults None Command Mode EXEC Usage Information Use the clear route-map pbr-statistics command to clear all PBR counters. Example OS10# clear route-map map1 pbr-statistics Supported Releases 10.3.0E or later match address Matches the access-list to the route-map.
route-map pbr-statistics Enables counters for PBR statistics. Syntax route-map [map-name] pbr-statistics Parameters map-name—Enter the name of a configured route-map (up to 140 characters). Defaults Not configured Command Mode CONFIGURATION Usage Information None Example OS10(config)# route-map map1 pbr-statistics Supported Releases 10.3.0E or later set next-hop Sets an IPv4 or IPv6 next-hop address for policy-based routing.
show policy Displays policy information. Syntax show {ip | ipv6} policy [map-name] Parameters map-name — (Optional) Enter the name of a configured route map (up to 140 characters). Defaults None Command Mode EXEC Usage Information None Example OS10# show ip policy map-name Supported Releases 10.3.0E or later show route-map pbr-statistics Displays the current PBR statistics.
Configure management VRF OS10(config)# ip vrf management OS10(conf-vrf)# interface management You can enable various services in the either of the management or default VRF instances. Refer to the following table for the services supported in the management VRF instance and the default VRF instance. Table 3.
VRF commands interface management Adds management interface to the management VRF instance. Syntax interface management Parameters None Default Not configured Command Mode VRF CONFIGURATION Usage Information The no version of this command removes the management interface from the management VRF instance. Example OS10(config)# ip vrf management OS10(conf-vrf)# interface management Supported Releases 10.4.
ip ftp vrf Configures an FTP client for the management VRF instance. Syntax ip ftp vrf management Parameters None Default Not configured Command Mode CONFIGURATION Usage Information The no version of this command removes the management VRF instance configuration from the FTP client. Example OS10(config)# ip ftp vrf management Supported Releases 10.4.0E(R1) or later ip host vrf Configures a host name for the management VRF instance and maps the host name to an IP/IPv6 address.
ip name-server vrf Configures a name server for the management VRF instance. Syntax ip name-server vrf management Parameters None Default Not configured Command Mode CONFIGURATION Usage Information The no version of this command removes management VRF instance configuration from the name sever. Example OS10(config)# ip name-server vrf management Supported Releases 10.4.0E(R1) or later ip scp vrf Configures a SCP connection for the management VRF instance.
ip tftp vrf Configures a TFTP client for the management VRF instance. Syntax ip tftp vrf management Parameters None Default Not configured Command Mode CONFIGURATION Usage Information The no version of this command removes the management VRF instance configuration from the TFTP client. Example OS10(config)# ip tftp vrf management Supported Releases 10.4.0E(R1) or later ip vrf management Configures the management VRF instance.
172.217.160.142 yahoo.com 98.139.180.180 Supported Releases 10.4.0E(R1) or later show ip vrf Displays the VRF instance information. Syntax show ip vrf [management] Parameters None Default Not configured Command Mode EXEC Usage Information None Example OS10# show ip vrf VRF-Name default Interfaces Mgmt1/1/1 Eth1/1/1-1/1/2 Vlan1 management OS10# show ip vrf management VRF-Name Interfaces management Supported Releases 10.4.
Configuration VRRP specifies a master (active) router that owns the next hop IP and MAC address for end stations on a LAN. The master router is chosen from the virtual routers by an election process and forwards packets sent to the next hop IP address. If the master router fails, VRRP begins the election process to choose a new master router which continues routing traffic. VRRP packets are transmitted with the virtual router MAC address as the source MAC address.
Create virtual router VRRP uses the VRID to identify each virtual router configured. Before using VRRP, you must configure the interface with the primary IP address and enable it. • Create a virtual router for the interface with the VRRP identifier in INTERFACE mode (1 to 255). vrrp-group vrrp-id • Delete a VRRP group in INTERFACE mode.
Set backup switches to VRRPv3 OS10_backup_switch1(config)# vrrp version 3 OS10_backup_switch2(config)# vrrp version 3 Virtual IP addresses Virtual routers contain virtual IP addresses configured for that VRRP group (VRID). A VRRP group does not transmit VRRP packets until you assign the virtual IP address to the VRRP group. To activate a VRRP group on an interface, configure at least one virtual IP address for a VRRP group.
interface ethernet1/1/2 switchport access vlan 1 no shutdown ! interface ethernet1/1/3 switchport access vlan 1 no shutdown ! interface ethernet1/1/4 switchport access vlan 1 --more-View VRRP information When the VRRP process completes initialization, the State field contains either master or backup. OS10# show vrrp brief Interface Group Priority Preemption State Master-addr Virtual addr(s) ---------------------------------------------------------------------------ethernet1/1/1 IPv4 10 100 true master 10.1.
Virtual IP address : 10.1.1.1 master-transitions : 1 advertise-rcvd : 0 advertise-interval-errors : 0 ip-ttl-errors : 0 priority-zero-pkts-rcvd : 0 priority-zero-pkts-sent : 0 invalid-type-pkts-rcvd : 0 address-list-errors : 0 pkt-length-errors : 0 Authentication Simple authentication of VRRP packets ensures that only trusted routers participate in VRRP processes. When you enable authentication, OS10 includes the password in its VRRP transmission.
! Last configuration change at Sep 24 07:17:45 2016 ! debug radius false snmp-server contact http://www.dell.com/support/softwarecontacts snmp-server location "United States" username admin password $6$q9QBeYjZ$jfxzVqGhkxX3smxJSH9DDz7/3OJc6m5wjF8nnLD7/VKx8SloIhp4NoGZs0I/ UNwh8WVuxwfd9q4pWIgNs5BKH. aaa authentication system:local ! interface ethernet1/1/5 ip address 1.1.1.1/16 no switchport no shutdown ! vrrp-group 254 priority 125 virtual-address 1.1.1.
advertisment-interval centisecs 200 priority 200 virtual-address 10.1.1.1 ! interface ethernet1/1/2 switchport access vlan 1 no shutdown Interface/object tracking You can monitor the state of any interface according to the virtual group. OS10 supports a maximum of 10 track groups and each track group can track a maximum of five interfaces. If the tracked interface goes down, the VRRP group’s priority decreases by a default value of 10 — also known as cost.
ip address 10.1.1.1/16 no switchport no shutdown ! vrrp-group 1 priority 200 virtual-address 10.1.1.1 ! interface ethernet1/1/2 switchport access vlan 1 no shutdown ! interface ethernet1/1/3 switchport access vlan 1 no shutdown ! interface ethernet1/1/4 switchport access vlan 1 no shutdown ! interface ethernet1/1/5 switchport access vlan 1 no shutdown ! interface ethernet1/1/6 switchport access vlan 1 no shutdown ! ..... .....
Example OS10(conf-eth1/1/6-vrid-250)# advertise-interval 120 centisecs 100 Supported Releases 10.2.0E or later authentication-type Enables authentication of VRRP data exchanges. Syntax Parameters authentication-type simple-text password [auth-text] • simple-text password — Enter a simple text password. • auth-text — (Optional) Enter a character string up to eight characters long as a password.
Usage Information To guarantee that a VRRP group becomes master, configure the VRRP group’s virtual address with same IP address as the interface’s primary IP address, and change the priority of the VRRP group to 255. If you set this command to 255 and the virtual-address is not equal to the interface’s primary IP address, the system displays an error message. The no version of this command resets the value to the default (100). Example OS10(conf-eth1/1/5-vrid-254)# priority 200 Supported Releases 10.
• priority cost value — (Optional) Enter a cost value to subtract from the priority value (1 to 254) Default 10 Command Mode INTERFACE-VRRP Usage Information If the interface is disabled, the cost value subtracts from the priority value and forces a new Master election. This election process is applicable when the priority value is lower than the priority value in the Backup virtual router. The no version of this command resets the value to the default.
enter or delete the virtual-address command. To guarantee that a VRRP group becomes Master, configure the VRRP group’s virtual address with the same IP address as the interface’s primary IP address and change the priority of the VRRP group to 255. You can ping the virtual addresses configured in all VRRP groups. The no version of this command deletes one or more virtual-addresses configured in the system. Example OS10(conf-eth1/1/5-vrid-254)# virtual address 10.1.1.15 Supported Releases 10.2.
Default Not configured Command Mode INTERFACE-VRRP Usage Information The VRRP group only becomes active and sends VRRP packets when you configure a virtual IP address. When you delete the virtual address, the VRRP group stops sending VRRP packets. The no version of this command removes the vrrp-ipv6–group configuration. Example OS10(conf-if-eth1/1/7)# vrrp-ipv6-group 250 Supported Releases 10.2.0E or later vrrp version Sets the VRRP protocol version for the IPv4 group.
6 UFT modes Unified Forwarding Table (UFT) gives the flexibility to configure the sizes of internal L2/L3 forwarding tables of a switch to match the needs of particular network environment. A switch in a Layer 2 network may require a larger MAC address table size, while a switch in a Layer 3 network may require a larger routing table size. OS10 supports several UFT modes for the forwarding tables. By default, OS10 selects a UFT mode which provides a reasonable size for all tables.
• Disable UFT mode in CONFIGURATION mode.
Parameters None Defaults None Command Mode EXEC Usage Information Use this command to view the current hardware forwarding table mode and the mode after the next boot. Example OS10# show hardware forwarding-table mode Current Settings Mode default-mode L2 MAC Entries : 163840 L3 Host Entries : 147456 L3 Route Entries : 16384 Supported Releases Next-boot Settings scaled-l3-hosts 98304 212992 98304 10.3.
7 System management Dynamic host configuration protocol Provides information to dynamically assign IP addresses and other configuration parameters to network hosts based on policies (see DHCP commands). Network time protocol Provides information about how to synchronize timekeeping between time servers and clients (see NTP commands). Security Provides information about role-based access control, RADIUS server, user roles, and user names (see Security eommands).
The table shows common options using DHCP packet formats.
DHCP automates network-parameter assignment to network devices. Even in small networks, DHCP is useful because it makes it easier to add new devices to the network. The DHCP access service minimizes the overhead required to add clients to the network by providing a centralized, server-based setup. This setup means you do not have to manually create and maintain IP address assignments for clients.
Address lease time Use the lease {days [hours] [minutes] | infinite} command to configure an address lease time (default 24 hours). OS10(config)# ip dhcp server OS10(conf-dhcp)# pool Dell OS10(conf-dhcp-Dell)# lease 36 Default gateway Ensure the IP address of the default router is on the same subnet as the client. 1 Enable DHCP server-assigned dynamic addresses on an interface in CONFIGURATION mode. ip dhcp server 2 Create an IP address pool and provide a name in DHCP mode.
NetBIOS WINS address resolution DHCP clients can be one of four types of NetBIOS nodes — broadcast, peer-to-peer, mixed, or hybrid. Dell EMC recommends using hybrid as the NetBIOS node type. 1 Enable DHCP server-assigned dynamic addresses on an interface in DHCP mode. ip dhcp server 2 Create an IP address pool and enter the pool name in DHCP mode. pool name 3 Enter the NetBIOS WINS name servers in order of preference that are available to DHCP clients in DHCP mode.
View DHCP Information Use the show ip dhcp binding command to view the DHCP binding table entries. View DHCP Binding Table OS10# show ip dhcp binding IP Address Hardware address Lease expiration Hostname +-------------------------------------------------------------------------11.1.1.
DHCP commands default-router address Assigns a default gateway to clients based on the IP address pool. Syntax Parameters default-router address [address2...address8] • address — Enter an IPv4 or IPv6 address to use as the default gateway for clients on the subnet in A.B.C.D or A::B format. • address2...address8 — (Optional) Enter up to eight IP addresses, in order of preference.
Command Mode DHCP-POOL Usage Information None Example OS10(conf-dhcp-Dell)# dns-server 192.168.1.1 Supported Releases 10.2.0E or later domain-name Configures the name of the domain where the device is located. Syntax domain-name domain-name Parameters domain-name — Enter the name of the domain (up to 32 characters). Default Not configured Command Mode DHCP-POOL Usage Information This is the default domain name that appends to hostnames that are not fully qualified.
Example OS10(conf-dhcp-Dell)# host 20.1.1.100 Supported Releases 10.2.0E or later ip dhcp server Enters DHCP mode. Syntax ip dhcp server Parameters None Default Not configured Command Mode CONFIGURATION Usage Information This command is used to enter DHCP mode. Example OS10(config)# ip dhcp server OS10(conf-dhcp)# Supported Releases 10.2.0E or later ip helper-address Forwards UDP broadcasts received on an interface to the DHCP server.
Default 24 hours Command Mode DHCP-POOL Usage Information The no version of this command removes the lease configuration. Example OS10(conf-dhcp-Dell)# lease 2 5 10 Example (Infinite) OS10(conf-dhcp-Dell)# lease infinite Supported Releases 10.2.0E or later netbios-name-server address Configures a NetBIOS WINS server which is available to DHCP clients. Syntax netbios-name-server ip-address [address2...address8] Parameters ip-address — Enter the address of the NetBIOS WINS server. address2...
network Configures a range of IPv4 or IPv6 addresses in the address pool. Syntax network address/mask Parameters address/mask — Enter a range of IP addresses and subnet mask in A.B.C.D/x or A::B/x format. Default Not configured Command Mode DHCP-POOL Usage Information Use this command to configure a range of IPv4 or IPv6 addresses. Example OS10(config-dhcp-Dell)# network 20.1.1.1/24 Supported Releases 10.2.0E or later pool Creates an IP address pool name.
DNS commands OS10 supports the configuration of a DNS host and domain parameters. ip domain-list Adds a domain name to the DNS list. This domain name appends to incomplete hostnames in DNS requests. Syntax ip domain-list [server-name] name Parameters • server-name — (Optional) Enter the server name to add a domain name to the DNS list. • name — Enter the name of the domain to append to the DNS list.
Default Not configured Command Mode CONFIGURATION Usage Information The name-to-IP address table uses this mapping information to resolve host names. The no version of this command disables the mapping. Example OS10(config)# ip host dell 1.1.1.1 Supported Releases 10.2.0E or later ip name-server Configures up to a three IPv4 or IPv6 addresses used for network name servers.
--------------------------------------------dell-pc1 20.1.1.1 Supported Releases 10.2.0E or later Network time protocol NTP synchronizes timekeeping among a set of distributed time servers and clients. The protocol coordinates time distribution in a large, diverse network. NTP clients synchronize with NTP servers that provide accurate time measurement. NTP clients choose from several NTP servers to determine which offers the best available source of time and the most reliable transmission of information.
View system clock state OS10(config)# do show system peer: system peer mode: leap indicator: stratum: precision: root distance: root dispersion: reference ID: reference time: system flags: jitter: stability: broadcastdelay: authdelay: ntp status 0.0.0.0 unspec 11 16 -22 0.00000 s 1.28647 s [73.78.73.84] 00000000.00000000 Mon, Jan monitor ntp kernel stats 0.000000 s 0.000 ppm 0.000000 s 0.000000 s 1 1900 0:00:00.
– vlan — Enter the keyword and VLAN number (1 to 4093). – loopback — Enter the keyword and number (0 to 16383). – mgmt — Enter the keyword and node/slot/port information (default 1/1/1). Configure source IP address OS10(config)# ntp source ethernet 1/1/10 View source IP configuration OS10(config)# do show running-configuration | grep source ntp source ethernet1/1/1 Authentication NTP authentication and the corresponding trusted key provide a reliable exchange of NTP packets with trusted time sources.
NTP commands ntp authenticate Enables authentication of NTP traffic between the device and the NTP time serving hosts. Syntax ntp authenticate Parameters None Default Not configured Command Mode CONFIGURATION Usage Information You must also configure an authentication key for NTP traffic using the ntp authentication-key command. The no version of this command disables NTP authentication. Example OS10(config)# ntp authenticate Supported Releases 10.2.
Default Not configured Command Mode INTERFACE Usage Information The no version of this command disables broadcast. Example OS10(conf-if-eth1/1/1)# ntp broadcast client Supported Releases 10.2.0E or later ntp disable By default, NTP is enabled on all interfaces. Prevents an interface from receiving NTP packets.
Usage Information The no version of this command resets the value to the default. Example OS10(config)# ntp master 6 Supported Releases 10.2.0E or later ntp server Configures an NTP time-serving host. Syntax Parameters ntp server {hostname | ipv4-address | ipv6-address} [key keyid] [prefer] • hostname — Enter the host name of the server. • ipv4–address | ipv6–address — Enter the IPv4 address (A.B.C.D) or IPv6 address (A::B) of the NTP server.
ntp trusted-key Sets a key to authenticate the system to which NTP synchronizes with. Syntax ntp trusted-key number Parameters number — Enter the trusted key ID (1 to 4294967295). Default Not configured Command Mode CONFIGURATION Usage Information The number parameter must be the same number as the number parameter in the ntp authenticationkey command. If you change the ntp authentication-key command, you must also change this command. The no version of this command removes the key.
*172.16.1.33 127.127.1.0 11 6 16 172.31.1.33 0.0.0.0 16 - 256 192.200.0.2 0.0.0.0 16 - 256 377 -0.08 -1499.9 104.16 0 0.00 0.000 16000.0 0 0.00 0.000 16000.0 OS10# show ntp associations vrf management remote local st poll reach delay offset disp ======================================================================= *1.1.1.2 1.1.1.1 3 64 1 0.00027 0.000056 0.43309 Supported Releases 10.2.0E or later show ntp status Displays NTP configuration information.
System clock OS10 uses the network time protocol (NTP) to synchronize the system clock with a time-serving host. If you do not use NTP, set the system time and the timezone. The hardware-based real-clock time (RTC) is reset to the new system time. You can set the current time and date after you disable NTP. When you enable NTP, it overwrites the system time. • Enter the time and date in EXEC mode.
year-month-day Enter year-month-day in the format YYYY-MM-DD, where YYYY is a four-digit year, such as 2016; MM is a month from 1 to 12; DD is a day from 1 to 31. Default Not configured Command Mode EXEC Usage Information Use this command to reset the system time if the system clock is out of synch with the NTP time. The hardwarebased real-clock time (RTC) resets to the new time. The new system clock setting is applied immediately.
User session management You can manage the active user sessions using the following commands: • Configure the timeout for all the active user sessions using exec-timeout timeout-value in the CONFIGURATION mode. • Clear any user session using kill-session session-ID in the EXEC mode. • View the active user sessions using show sessions in the EXEC mode.
Parameters session-ID — Enter the user session ID. Default Not configured Command Mode EXEC Usage Information None Example OS10# kill-session 3 Supported Releases 10.3.1E or later show sessions Displays the active management sessions. Syntax show sessions Parameters None Default Not configured Command Mode EXEC Usage Information Use this command to view information about the active user management sessions.
Configure Telnet server on management VRF OS10(config)# ip telnet server vrf management Telnet commands ip telnet server enable Enables Telnet TCP/IP connections to an OS10 switch. Syntax ip telnet server enable Parameters None Default Disabled Command Mode CONFIGURATION Usage Information By default, the Telnet server is disabled. When you enable the Telnet server, use the IP address configured on the management or any front-panel port to connect to an OS10 switch.
(TACACS+) client/server authentication systems. For RADIUS and TACACS+, an OS10 switch acts as a client and sends authentication requests to a server that contains all user authentication and network service access information. A RADIUS or TACACS+ server provides accounting, authentication (user credentials verification), and authorization (user privilege-level) services. You can configure the security protocol used for different login methods and users.
– min-length number — Enter the minimum number of required alphanumeric characters (6 to 32; default 9). – character-restriction — Enter a requirement for the alphanumeric characters in a password: ◦ upper number — Minimum number of uppercase characters required (0 to 31; default 0). ◦ lower number — Minimum number of lowercase characters required (0 to 31; default 0). ◦ numeric number — Minimum number of numeric characters required (0 to 31; default 0).
Create user role OS10(config)# username smith password silver403! newuser role sysadmin View users OS10(config)# do show users Index Line User Role Application Idle Location Login-Time Lock ----- ----- ------- -------- ----------- ----- ---------------------- ---1 ttyS0 admin sysadmin login/clish . 2016-04-14 02:06:00 RADIUS authentication To configure a RADIUS server for authentication, enter the server's IP address or host name.
TACACS+ provides greater data security by encrypting the entire protocol portion in a packet sent from the switch to an authentication server. RADIUS encrypts only passwords. • Configure a TACACS+ authentication server in CONFIGURATION mode. By default, a TACACS+ server uses TCP port 49 for authentication. tacacs-server host {hostname | ip-address} key authentication-key [auth-port port-number] Re-enter the tacacs-server host command multiple times to configure more than one TACACS+ server.
number of max-auth-tries is reduced by one. In this case, if you configured ip ssh server max-auth-tries 1, the password prompt does not display. Virtual terminal line Virtual terminal line (VTY) is used to control Telnet or SSH connections to the switch. You can enter the VTY mode by using the line vty command in the CONFIGURATION mode. OS10(config)# line vty OS10(config-line-vty)# Control access to VTY You can control the Telnet or SSH connections to the switch by applying access lists on VTY lines.
To display information about user logins, enter the show login-statistics command. Enable login statistics OS10(config)# login-statistics enable To disable login statistics, enter the no login-statistics enable command. Security commands aaa authentication Configures the AAA authentication method for user access. Syntax aaa authentication {local | radius | tacacs} Parameters • local — Use local (RBAC) access control. • radius — Use the RADIUS servers configured with the radius-server host command.
ip access-class Filters connections based on an IPv4 access list in virtual terminal line. Syntax ip access-class access-list-name Parameters access-list-name—Enter the access list name. Default Not configured Command Mode LINE VTY CONFIGURATION Usage Information The no version of this command removes the filter. Example OS10(config)# line vty OS10(config-line-vty)# ip access-class deny10 Supported Releases 10.4.
ip ssh server cipher Configure the list of cipher algorithms in the SSH server. Syntax ip ssh server cipher cipher-list Parameters cipher-list — Enter the list of cipher algorithms separated by space. The following is the list of cipher algorithms supported by the SSH server: Default • 3des-cbc • aes128-cbc • aes192-cbc • aes256-cbc • aes128-ctr • aes192-ctr • aes256-ctr • aes128-gcm@openssh.com • aes256-gcm@openssh.
Supported Releases 10.3.0E or later ip ssh server hostbased-authentication Enable host-based authentication in an SSH server. Syntax ip ssh server hostbased-authentication Parameters None Default Disabled Command Mode CONFIGURATION Usage Information The no version of this command disables the host-based authentication. Example OS10(config)# ip ssh server hostbased-authentication Supported Releases 10.3.
ip ssh server mac Configure the list of hash message authentication code (HMAC) algorithms in the SSH server. Syntax ip ssh server mac hmac-algorithm Parameters hmac-algorithm — Enter the list of HMAC algorithms separated by space. The following is the list of HMAC algorithms supported by the SSH server: Default • hmac-md5 • hmac-md5-96 • hmac-ripemd160 • hmac-sha1 • hmac-sha1-96 • hmac-sha2-256 • hmac-sha2-512 • umac-64@openssh.com • umac-128@openssh.com • hmac-md5-etm@openssh.
ip ssh server password-authentication Enable password authentication in an SSH server. Syntax ip ssh server password-authentication Parameters None Default Enabled Command Mode CONFIGURATION Usage Information The no version of this command disables the password authentication. Example OS10(config)# ip ssh server password-authentication Supported Releases 10.3.0E or later ip ssh server port Configure the SSH server listening port.
ip ssh server vrf Configures the SSH server for the management VRF instance. Syntax ip ssh server vrf management Parameters • management — Configures the management VRF instance to be used to reach the SSH server. Default Not configured Command Mode CONFIGURATION Usage Information By default, the SSH server is enabled. To configure the SSH server to be reachable on the management VRF instance, use the ip ssh server vrf command.
password-attributes Configures rules for password entries. Syntax Parameters password-attributes {[min-length number] [character-restriction {[upper number] [lower number] [numeric number] [special-char number]}} • min-length number — (Optional) Sets the minimum number of required alphanumeric characters (6 to 32; default 9). • character-restriction: – upper number — (Optional) Sets the minimum number of uppercase characters required (0 to 31; default 0).
• key authentication-key — (Optional) Enter the authentication key used to authenticate the switch on the server (up to 42 characters; default radius_secure). Default Not configured Command Mode CONFIGURATION Usage Information The authentication key must match the key configured on the RADIUS server. Configure global settings for the timeout and retransmit attempts allowed on RADIUS servers by using the radius-server retransmit and radius-server timeout commands.
radius-server vrf Configures RADIUS server for the management VRF instance. Syntax radius-server vrf management Parameters None Defaults Not configured Command Mode CONFIGURATION Usage Information The no version of this command removes the RADIUS server from the management VRF instance. Example OS10(config)# radius-server vrf management Supported Releases 10.4.0E(R1) or later show ip ssh Displays the SSH server information.
show login-statistics Displays statistics on user logins to the system. Syntax show login-statistics {user user-id | all} Parameters • user user-id — Enter an OS10 username. • all — Displays login statistics for all system users. Default Not configured Command Mode EXEC Usage Information Only the sysadmin and secadmin roles can access this command.
Example OS10# show users Index Line User Role Application Idle Location Login-Time Lock ------------------------------------------------------------------1 ttyS0 admin sysadmin login/clish . 2016-04-29 01:02:00 Supported Releases 10.2.0E or later tacacs-server host Configures a TACACS+ server for user authentication. Syntax Parameters tacacs-server host {hostname | ip-address} key authentication-key [auth-port port-number] • hostname — Enter the host name of the TACACS+ server.
username password role Creates an authentication entry based on a user name and password, and assigns a role to the user. Syntax username username password password role role Parameters • username username — Enter a text string (up to 32 alphanumeric characters; 1 character minimum). • password password — Enter a text string (up to 32 alphanumeric characters; 9 characters minimum).
snmp-server community Configures a new community string access. The management station is a member of the same community as the SNMP agent. Syntax Parameters snmp-server community community-name {ro | rw} • community-name — Enter a text string to act as an SNMP password (up to 20 characters). • ro — Enter to set read-only permission. • rw — Enter to set read and write permission.
snmp-server location Configures the location of the SNMP server. Syntax snmp-server location text Parameters text — Enter an alphanumeric string (up to 55 characters). Default United States Command Mode CONFIGURATION Usage Information The no version of this command removes the SNMP location. Example OS10(config)# snmp-server location datacenter10 Supported Releases 10.2.
OS Version: 10.4.0E(R2) Build Version: 10.4.0E(R2.27) Build Time: 2018-01-23T15:14:48-0800 System Type: S4248FBL-ON Architecture: x86_64 Up Time: 00:55:09 Boot system partition Set the boot partition to active or standby for subsequent boot cycles. Boot OS10 from standby to load the image on the standby partition, or boot from active to load the currently running image. 1 Display current boot information in EXEC mode. show boot detail 2 Configure the boot system in EXEC mode.
• standby — Set the standby partition as the next boot partition. Default Active Command Mode EXEC Usage Information Use this command to configure the location of the OS10 image used to reload the software at boot time. Use the show boot command to view the configured next boot image. This command is applied immediately and does not require the commit command. Example OS10# boot system standby Supported Releases 10.2.0E or later image cancel Cancels an active image download.
• ftp://userid:passwd@hostip:/filepath — Enter the path to copy from the remote FTP server. • http[s]://hostip:/filepath — Enter the path to copy from the remote HTTP or HTTPS server. • scp://userid:passwd@hostip:/filepath — Enter the path to copy from the remote SCP file system. • sftp://userid:passwd@hostip:/filepath — Enter the path to copy from the remote SFTP file system. • tftp://hostip:/filepath — Enter the path to copy from the remote TFTP file system.
Parameters detail — (Optional) Enter to display detailed information. Default Not configured Command Mode EXEC Usage Information Use the boot system command to set the boot partition for the next reboot. Example OS10# show boot Current system image information: =================================== Type Boot Type Active Standby Next-Boot --------------------------------------------------------Node-id 1 Flash Boot [B] 10.2.0E [A] 10.2.
Supported Releases 10.2.0E or later show version Displays software version information. Syntax show version Parameters None Default Not configured Command Mode EXEC Usage Information None Example Supported Releases 10.2.
8 Access Control Lists OS10 uses two types of access policies — hardware-based ACLs and software-based route-maps. Use an ACL to filter traffic and drop or forward matching packets. To redistribute routes that match configured criteria, use a route-map. ACLs ACLs are a filter containing criterion to match; for example, examine IP, TCP, or UDP packets, and an action to take such as forwarding or dropping packets at the NPU. ACLs permit or deny traffic based on MAC and/or IP addresses.
NOTE: Hot-lock ACLs support ingress ACLs only. MAC ACLs MAC ACLs filter traffic on the Layer 2 (L2) header of a packet. This traffic filtering is based on: Source MAC packet address MAC address range—address mask in 3x4 dotted hexadecimal notation, and any to denote that the rule matches all source addresses. Destination MAC packet address MAC address range—address-mask in 3x4 dotted hexadecimal notation, and any to denote that the rule matches all destination addresses.
L3 ACL rules Use ACL commands for L3 packet filtering. TCP packets from host 10.1.1.1 with the TCP destination port equal to 24 are permitted, and all others are denied. TCP packets that are first fragments or non-fragmented from host 10.1.1.1 with the TCP destination port equal to 24 are permitted, and all TCP non-first fragments from host 10.1.1.1 are permitted. All other IP packets that are non-first fragments are denied.
User-provided sequence number • Enter IP ACCESS LIST mode by creating an IP ACL in CONFIGURATION mode. ip access-list access-list-name • Configure a drop or forward filter in IPV4-ACL mode.
Table 7. L2 and L3 targeted traffic L2 ACL / L3 ACL Targeted traffic Deny / Deny L3 ACL denies Deny / Permit L3 ACL permits Permit / Deny L3 ACL denies Permit / Permit L3 ACL permits Assign and apply ACL filters To filter an Ethernet interface, a port-channel interface, or a VLAN, assign an IP ACL filter to a physical interface. The IP ACL applies to all traffic entering a physical or port-channel interface.
• Apply the ACL as an inbound or outbound ACL on an interface in CONFIGURATION mode, and view the number of packets matching the ACL. show ip access-list {in | out} Ingress ACL filters To create an ingress ACL filter, use the ip access-group command in EXEC mode. To configure ingress, use the in keyword. Apply rules to the ACL with the ip access-list acl-name command. To view the access-list, use the show access-lists command.
ethernet1/1/29 seq 10 deny ip any any fragment count (100 packets) Clear access-list counters Clear IPv4, IPv6, or MAC access-list counters for a specific access-list or all lists. The counter counts the number of packets that match each permit or deny statement in an access-list. To get a more recent count of packets matching an access-list, clear the counters to start at zero. If you do not configure an access-list name, all IP access-list counters clear.
Route-maps Route-maps a series of commands that contain a matching criterion and action. They change the packets meeting the matching criterion. ACLs and prefix-lists can only drop or forward the packet or traffic while route-maps process routes for route redistribution. For example, use a route-map to filter only specific routes and to add a metric. • Route-maps also have an implicit deny.
View route-map configuration OS10(conf-router-bgp-neighbor-af)# do show route-map route-map test1, deny, sequence 10 Match clauses: ip address prefix-list p1 Set clauses: route-map test2, permit, sequence 10 Match clauses: ip address prefix-list p1 Set clauses: route-map test3, deny, sequence 10 Match clauses: ip address prefix-list p2 Set clauses: route-map test4, permit, sequence 10 Match clauses: ip address prefix-list p2 Set clauses: Match routes Configure match criterion for a route-map.
• Enter an ORIGIN attribute in ROUTE-MAP mode. set origin {egp | igp | incomplete} • Enter a tag value for the redistributed routes in ROUTE-MAP mode, from 0 to 4294967295. set tag tag-value • Enter a value as the route’s weight in ROUTE-MAP mode, from 0 to 65535. set weight value Check set conditions OS10(config)# route-map ip permit 1 OS10(conf-route-map)# match metric 2567 continue Clause Only BGP route-maps support the continue clause.
If you configure the flow-based enable command and do not apply an ACL on the source port or the monitored port, both flow-based monitoring and port mirroring do not function. Flow-based monitoring is supported only for ingress traffic. The show monitor session session-id command displays output which indicates if a particular session is enabled for flowmonitoring. View flow-based monitoring OS10# show monitor session 1 S.
View monitor sessions OS10(conf-if-eth1/1/1)# show monitor session all S.Id Source Destination Dir SrcIP DstIP DSCP TTL State Reason ---------------------------------------------------------------------------1 ethernet1/1/1 ethernet1/1/4 both N/A N/A N/A N/A true Is UP ACL commands clear ip access-list counters Clears ACL counters for a specific access-list.
clear mac access-list counters Clears counters for a specific or all MAC access lists. Syntax clear mac access-list counters [access-list-name] Parameters access-list-name — (Optional) Enter the name of the MAC access list to clear counters. A maximum of 140 characters. Default Not configured Command Mode EXEC Usage Information If you do not enter an access-list name, all MAC access-list counters clear.
Example OS10(config)# ip access-list testflow OS10(conf-ipv4-acl)# deny udp any any Supported Releases 10.2.0E or later deny (IPv6) Configures a filter to drop packets with a specific IPv6 address. Syntax Parameters deny [protocol-number | icmp | ipv6 | tcp | udp] [A::B | A::B/x | any | host ipv6-address] [A::B | A::B/x | any | host ipv6-address] [capture | count [byte] | dscp value | fragment] • protocol-number — (Optional) Enter the protocol number identified in the IP header, from 0 to 255.
• any — (Optional) Set routes which are subject to the filter. – protocol-number — (Optional) MAC protocol number identified in the header, from 600 to ffff. – capture — (Optional) Capture packets the filter processes. – cos — (Optional) CoS value, from 0 to 7. – count — (Optional) Count packets the filter processes. – vlan — (Optional) VLAN number, from 1 to 4093.
deny icmp (IPv6) Configures a filter to drop all or specific ICMP messages. Syntax Parameters deny icmp [A::B | A::B/x | any | host ipv6-address] [A::B | A::B/x | any | host ipv6-address] [capture | count [byte] | dscp value | fragment] • A::B — Enter the IPv6 address in hexadecimal format separated by colons. • A::B/x — Enter the number of bits to match to the IPv6 address. • any — (Optional) Set all routes which are subject to the filter: – capture — (Optional) Capture packets the filter processes.
Usage Information OS10 cannot count both packets and bytes; when you use the count byte options, only bytes increment. The no version of this command removes the filter. Example OS10(config)# ip access-list testflow OS10(conf-ipv4-acl)# deny ip any any capture session 1 count Supported Releases 10.2.0E or later deny ipv6 Configures a filter to drop all or specific packets from an IPv6 address.
– byte — (Optional) Count bytes the filter processes. – dscp value — (Optional) Deny a packet based on the DSCP values, from 0 to 63. – fragment — (Optional) Use ACLs to control packet fragments. – ack — (Optional) Set the bit as acknowledgement. – fin — (Optional) Set the bit as finish—no more data from sender. – psh — (Optional) Set the bit as push. – rst — (Optional) Set the bit as reset. – syn — (Optional) Set the bit as synchronize. – urg — (Optional) Set the bit set as urgent.
– lt — Lesser than – neq — Not equal to – range — Range of ports, including the specified port numbers. • host ipv6-address — (Optional) Enter the IPv6 address to use a host address only. Default Not configured Command Mode IPV6-ACL Usage Information OS10 cannot count both packets and bytes; when you use the count byte options, only bytes increment. The no version of this command removes the filter.
Command Mode IPV4-ACL Usage Information OS10 cannot count both packets and bytes; when you use the count byte options, only bytes increment. The no version of this command removes the filter. Example OS10(config)# ip access-list testflow OS10(conf-ipv4-acl)# deny udp any any capture session 1 Supported Releases 10.2.0E or later deny udp (IPv6) Configures a filter to drop UDP IPv6 packets that match filter criteria.
Supported Releases 10.2.0E or later description Configures an ACL description. Syntax description text Parameters text — Enter the description text string. A maximum of 80 characters. Default Disabled Command Modes IPV4-ACL, IPV6-ACL, MAC-ACL Usage Information The no version of this command deletes the ACL description. Example OS10(conf-ipv4-acl)# description ipacltest Supported Releases 10.2.0E or later ip access-group Assigns an IP access group to an interface.
Supported Releases 10.2.0E or later ip as-path access-list Create an AS-path ACL filter for BGP routes using a regular expression. Syntax Parameters ip as-path access-list name {deny | permit} regexp-string • name — Enter an access list name. • deny | permit — Reject or accept a matching route. • regexp-string — Enter a regular expression string to match an AS-path route attribute.
ip community-list standard deny Creates a standard community list for BGP to deny access. Syntax ip community-list standard name deny {aa:nn | no-advertise | local-AS | noexport | internet} Parameters • name — Enter the name of the standard community list used to identify one more deny groups of communities. • aa:nn — Enter the community number in the format aa:nn, where aa is the number that identifies the autonomous system and nn is a number the identifies the community within the autonomous system.
ip extcommunity-list standard deny Creates an extended community list for BGP to deny access. Syntax Parameters ip extcommunity-list standard name deny {4byteas-generic | rt | soo} • name — Enter the name of the community list used to identify one or more deny groups of extended communities. • 4byteas-generic—Enter the generic extended community then the keyword transitive or nontransitive. • rt — Enter the route target. • soo — Enter the route origin or site-of-origin.
Parameters • name — Enter the name of the prefix list. • description — Enter the description for the named prefix list. Defaults Not configured Command Mode CONFIGURATION Usage Information The no version of this command removes the specified prefix list. Example OS10(config)# ip prefix-list TEST description TEST_LIST Supported Release 10.3.0E or later ip prefix-list deny Creates a prefix list to deny route filtering from a specified network address. Syntax ip prefix-list name deny [A.B.C.
Example OS10(config)# ip prefix-list allowprefix permit 10.10.10.1/16 ge 10 Supported Release 10.3.0E or later ip prefix-list seq deny Configures a filter to deny route filtering from a specified prefix list. Syntax Parameters ip prefix-list name seq num deny {A.B.C.D/x [ge | le] prefix-len} • name — Enter the name of the prefix list. • num — Enter the sequence list number. • A.B.C.D/x — Enter the source network address and mask in /prefix format (/x).
ipv6 access-group Assigns an IPv6 access list to an interface. Syntax ipv6 access-group access-list-name {in | out} Parameters • access-list-name — Enter the name of an IPv6 ACL. A maximum of 140 characters. • in — Apply the ACL to incoming traffic. • out — Apply the ACL to outgoing traffic. Default Not configured Command Mode INTERFACE Usage Information The no version of this command deletes an IPv6 ACL configuration.
Command Mode CONFIGURATION Usage Information The no version of this command removes the specified prefix list. Example OS10(config)# ipv6 prefix-list TEST deny AB10::1/128 ge 10 le 30 Supported Release 10.3.0E or later ipv6 prefix-list description Configures a description of an IPv6 prefix-list. Syntax Parameters ipv6 prefix-list name description • name — Enter the name of the IPv6 prefix-list. • description — Enter the description for the named prefix-list.
ipv6 prefix-list seq deny Configures a filter to deny route filtering from a specified prefix-list. Syntax ipv6 prefix-list [name] seq num deny {A::B/x [ge | le] prefix-len} Parameters • name — (Optional) Enter the name of the IPv6 prefix-list. • num — Enter the sequence number of the specified IPv6 prefix-list. • A::B/x — Enter the IPv6 address and mask in /prefix format (/x). • ge — Enter to indicate the network address is greater than or equal to the range specified.
mac access-group Assigns a MAC access list to an interface. Syntax Parameters mac access-group access-list-name {in | out} • access-list-name — Enter the name of a MAC access list. A maximum of 140 characters. • in — Apply the ACL to incoming traffic. • out — Apply the ACL to outgoing traffic. Default Not configured Command Mode CONFIGURATION Usage Information The no version of this command resets the value to the default.
• A.B.C.D — Enter the IP address in dotted decimal format. • A.B.C.D/x — Enter the number of bits that must match the dotted decimal address. • any — (Optional) Set all routes which are subject to the filter: – capture — (Optional) Capture packets the filter processes. – count — (Optional) Count packets the filter processes. – byte — (Optional) Count bytes the filter processes. – dscp value — (Optional) Permit a packet based on the DSCP values, from 0 to 63.
Usage Information OS10 cannot count both packets and bytes; when you enter the count byte options, only bytes increment. The no version of this command removes the filter. Example OS10(config)# ipv6 access-list ipv6test OS10(conf-ipv6-acl)# permit udp any any capture session 1 Supported Releases 10.2.0E or later permit (MAC) Configures a filter to allow packets with a specific MAC address.
– count — (Optional) Count packets the filter processes. – byte — (Optional) Count bytes the filter processes. – dscp value — (Optional) Permit a packet based on the DSCP values, from 0 to 63. – fragment — (Optional) Use ACLs to control packet fragments. • host ip-address — (Optional) Enter the IP address to use a host address only. Default Not configured Command Mode IPV4-ACL Usage Information OS10 cannot count both packets and bytes; when you enter the count byte options, only bytes increment.
permit ip Configures a filter to permit all or specific packets from an IP address. Syntax Parameters permit ip [A.B.C.D | A.B.C.D/x | any | host ip-address] [[A.B.C.D | A.B.C.D/x | any | host ip-address] [capture |count bytes | dscp | fragments] • A.B.C.D — Enter the IP address in dotted decimal format. • A.B.C.D/x — Enter the number of bits to match to the dotted decimal address.
Usage Information OS10 cannot count both packets and bytes; when you enter the count byte options, only bytes increment. The no version of this command removes the filter. Example OS10(conf-ipv6-acl)# permit ipv6 any any count capture session 1 Supported Releases 10.2.0E or later permit tcp Configures a filter to permit TCP packets meeting the filter criteria. Syntax permit tcp [A.B.C.D | A.B.C.D/x | any | host ip-address [operator]] [[A.B.C.D | A.B.C.
permit tcp (IPv6) Configures a filter to permit TCP packets meeting the filter criteria. Syntax Parameters permit tcp [A::B | A::B/x | any | host ipv6-address [eq | lt | gt | neq | range]] [A::B | A:B/x | any | host ipv6-address [eq | lt | gt | neq | range]] [ack | fin | psh | rst | syn | urg] [capture | count [byte] | dscp value | fragment] • A::B — Enter the IPv6 address in hexadecimal format separated by colons. • A::B/x — Enter the number of bits that must match the IPv6 address.
– lt — (Optional) Permit packets which are less than. – gt — (Optional) Permit packets which are greater than. – neq — (Optional) Permit packets which are not equal to. – range — (Optional) Permit packets with a specific source and destination address. – ack — (Optional) Set the bit as acknowledgement. – fin — (Optional) Set the bit as finish—no more data from sender. – psh — (Optional) Set the bit as push. – rst — (Optional) Set the bit as reset. – syn — (Optional) Set the bit as synchronize.
– gt — Greater than – lt — Lesser than – neq — Not equal to – range — Range of ports, including the specified port numbers. • host ipv6-address — (Optional) Enter the keyword and the IPv6 address to use a host address only. Default Not configured Command Mode IPV6-ACL Usage Information OS10 cannot count both packets and bytes; when you enter the count byte options, only bytes increment. The no version of this command removes the filter.
• udp — (Optional) Enter the UDP address to deny. • A.B.C.D — Enter the IP address in dotted decimal format. • A.B.C.D/x — Enter the number of bits that must match the dotted decimal address. • any — (Optional) Set all routes which are subject to the filter: – capture — (Optional) Capture packets the filter processes. – count — (Optional) Count packets the filter processes. – byte — (Optional) Count bytes the filter processes.
Default Not configured Command Mode IPV6-ACL Usage Information OS10 cannot count both packets and bytes; when you enter the count byte options, only bytes increment. The no version of this command removes the filter, or use the no seq sequence-number command if you know the filter’s sequence number. Example OS10(config)# ipv6 access-list ipv6test OS10(conf-ipv6-acl)# seq 5 deny ipv6 any any capture session 1 count Supported Releases 10.2.
seq deny icmp Assigns a filter to deny internet control message protocol (ICMP) messages while creating the filter. Syntax seq sequence-number deny icmp [A.B.C.D | A.B.C.D/x | any | host ip-address] [A.B.C.D | A.B.C.D/x | any | host ip-address] [capture | count [byte] | dscp value| fragment] Parameters • sequence-number — Enter the sequence number to identify the route-map for editing and sequencing number, from 1 to 16777214. • A.B.C.D — Enter the IP address in dotted decimal format. • A.B.C.
– dscp value — (Optional) Deny a packet based on the DSCP values, from 0 to 63. – fragment — (Optional) Use ACLs to control packet fragments. • host ipv6-address — (Optional) Enter the IPv6 address to use a host address only. Default Not configured Command Mode IPV6-ACL Usage Information OS10 cannot count both packets and bytes; when you enter the count byte options, only bytes increment.
seq deny ipv6 Assigns a filter to deny IPv6 addresses while creating the filter. Syntax seq sequence-number deny ip [A::B | A::B/x | any | host ipv6-address] [A::B | A:B/x | any | host ipv6-address] [capture | count [byte] | dscp value | fragment] Parameters • sequence-number — Enter the sequence number to identify the route-map for editing and sequencing number, from 1 to 16777214. • A::B — Enter the IPv6 address in hexadecimal format separated by colons.
– dscp value — (Optional) Deny a packet based on the DSCP values, from 0 to 63. – fragment — (Optional) Use ACLs to control packet fragments. – ack — (Optional) Set the bit as acknowledgement. – fin — (Optional) Set the bit as finish—no more data from sender. – psh — (Optional) Set the bit as push. – rst — (Optional) Set the bit as reset. – syn — (Optional) Set the bit as synchronize. – urg — (Optional) Set the bit set as urgent.
– psh — (Optional) Set the bit as push. – rst — (Optional) Set the bit as reset. – syn — (Optional) Set the bit as synchronize. – urg — (Optional) Set the bit set as urgent. • operator — (Optional) Enter a logical operator to match the packets on the specified port number. The following options are available: – eq — Equal to – gt — Greater than – lt — Lesser than – neq — Not equal to – range — Range of ports, including the specified port numbers.
– urg — (Optional) Set the bit set as urgent. • operator — (Optional) Enter a logical operator to match the packets on the specified port number. The following options are available: – eq — Equal to – gt — Greater than – lt — Lesser than – neq — Not equal to – range — Range of ports, including the specified port numbers. • host ip-address — (Optional) Enter the IP address to use a host address only.
– gt — Greater than – lt — Lesser than – neq — Not equal to – range — Range of ports, including the specified port numbers. • host ipv6-address — (Optional) Enter the IPv6 address to use a host address only. Default Not configured Command Mode IPV6-ACL Usage Information OS10 cannot count both packets and bytes; when you enter the count byte options, only bytes increment.
seq permit (IPv6) Assigns a sequence number to permit IPv6 packets, while creating a filter. Syntax Parameters seq sequence-number permit protocol-number [A::B | A::B/x | any | host ipv6address] [A::B | A:B/x | any | host ipv6-address] [capture | count [byte] | dscp value | fragment] • sequence-number — Enter the sequence number to identify the route-map for editing and sequencing number, from 1 to 16777214. • protocol-number — (Optional) Enter the protocol number, from 0 to 255.
– capture — (Optional) Enter the capture packets the filter processes. – cos — (Optional) Enter the CoS value, from 0 to 7. – count — (Optional) Enter the count packets the filter processes. – byte — (Optional) Enter the count bytes the filter processes. – vlan — (Optional) Enter the VLAN number, from 1 to 4093. Default Not configured Command Mode MAC-ACL Usage Information OS10 cannot count both packets and bytes; when you enter the count byte options, only bytes increment.
seq permit icmp (IPv6) Assigns a sequence number to allow ICMP messages while creating the filter. Syntax Parameters seq sequence-number permit icmp [A::B | A::B/x | any | host ipv6-address] [A::B | A:B/x | any | host ipv6-address] [capture | count [byte] | dscp value | fragment] • sequence-number — Enter the sequence number to identify the route-map for editing and sequencing number, from 1 to 16777214. • A::B — Enter the IPv6 address in hexadecimal format separated by colons.
– dscp value — (Optional) Permit a packet based on the DSCP values, from 0 to 63. – fragment — (Optional) Use ACLs to control packet fragments. • host ip-address — (Optional) Enter the IP address to use a host address only. Default Not configured Command Mode IPV4-ACL Usage Information OS10 cannot count both packets and bytes; when you enter the count byte options, only bytes increment.
seq permit tcp Assigns a sequence number to allow TCP packets while creating the filter. Syntax Parameters seq sequence-number permit tcp [A.B.C.D | A.B.C.D/x | any | host ip-address [operator]] [[A.B.C.D | A.B.C.D/x | any | host ip-address [operator] ] [ack | fin | psh | rst | syn | urg] [capture | count [byte] | dscp value | fragment] • sequence-number — Enter the sequence number to identify the route-map for editing and sequencing number, from 1 to 16777214. • A.B.C.
seq permit tcp (IPv6) Assigns a sequence number to allow TCP IPv6 packets while creating the filter. Syntax seq sequence-number permit tcp [A::B | A::B/x | any | host ipv6-address [operator]] [A::B | A:B/x | any | host ipv6-address [operator]] [ack | fin | psh | rst | syn | urg] [capture | count [byte] | dscp value| fragment] Parameters • sequence-number — Enter the sequence number to identify the route-map for editing and sequencing number, from 1 to 16777214.
seq permit udp Assigns a sequence number to allow UDP packets while creating the filter. Syntax Parameters seq sequence-number permit udp [A.B.C.D | A.B.C.D/x | any | host ip-address [operator]] [[A.B.C.D | A.B.C.D/x | any | host ip-address [operator] ] [ack | fin | psh | rst | syn | urg] [capture | count [byte] | dscp value | fragment] • sequence-number — Enter the sequence number to identify the route-map for editing and sequencing number, from 1 to 16777214. • A.B.C.
seq permit udp (IPv6) Assigns a sequence number to allow UDP IPv6 packets while creating a filter. Syntax seq sequence-number permit udp [A::B | A::B/x | any | host ipv6-address [operator]] [A::B | A:B/x | any | host ipv6-address [operator]] [ack | fin | psh | rst | syn | urg] [capture | count [byte] | dscp value | fragment] Parameters • sequence-number — Enter the sequence number to identify the route-map for editing and sequencing number, from 1 to 16777214.
show access-group Displays IP, MAC, or IPv6 access-group information. Syntax Parameters show {ip | mac | ipv6} access-group name • ip — View IP access list information. • mac — View MAC access group information. • ipv6 — View IPv6 access group information. • access-group name — Enter the name of the access group.
Active on interfaces : ethernet 3/0 ethernet 3/1 seq 10 permit any any seq 20 permit 11:11:11:11:11:11 22:22:22:22:22:22 any monitor count bytes (0 bytes) Example (MAC Out) OS10# show mac access-lists out Egress MAC access list aaa Active on interfaces : ethernet 3/0 ethernet 3/1 seq 10 permit any any seq 20 permit 11:11:11:11:11:11 22:22:22:22:22:22 any monitor count bytes (0 bytes) Example (IP In) OS10# show ip access-lists in Ingress IP access list aaaa Active on interfaces : ethernet 3/0 ethernet 3/1 s
show ip as-path-access-list Displays the configured AS path access lists. Syntax show ip as-path-access-list [name] Parameters name — (Optional) Specify the name of the AS path access list. Defaults None Command Mode EXEC Usage Information None Example OS10# show ip as-path-access-list ip as-path access-list hello permit 123 deny 35 Supported Releases 10.3.0E or later show ip community-list Displays the configured IP community lists in alphabetic order.
permit RT:1:1 deny SOO:1:4 Supported Releases 10.3.0E or later show ip prefix-list Displays configured IPv4 or IPv6 prefix list information. Syntax show {ip | ipv6} prefix-list [prefix-name] Parameters • ip | ipv6—(Optional) Displays information related to IPv4 or IPv6. • prefix-name — Enter a text string for the prefix list name. A maximum of 140 characters. Defaults None Command Mode EXEC Usage Information None Example OS10# show ip prefix-list ip prefix-list hello: seq 10 deny 1.2.3.
match as-path Configures a filter to match routes that have a certain AS path in their BGP paths. Syntax match as-path as-path-name Parameters as-path-name — Enter the name of an established AS-PATH ACL. A maximum of 140 characters. Default Not configured Command Mode ROUTE-MAP Usage Information The no version of this command deletes a match AS path filter. Example OS10(config)# route-map bgp OS10(conf-route-map)# match as-path pathtest1 Supported Releases 10.3.
Example OS10(config)# route-map bgp OS10(conf-route-map)# match extcommunity extcommlist1 exact-match Supported Releases 10.3.0E or later match interface Configures a filter to match routes whose next-hop is the configured interface. Syntax match interface interface Parameters interface — Interface type: • ethernet node/slot/port[:subport] — Enter the Ethernet interface information as the next-hop interface.
match ip next-hop Configures a filter to match based on the next-hop IP addresses specified in IP prefix lists. Syntax match ip next-hop prefix-list prefix-list Parameters prefix-list — Enter the name of the configured prefix list. A maximum of 140 characters. Default Not configured Command Mode ROUTE-MAP Usage Information The no version of this command deletes the match. Example OS10(config)# route-map bgp OS10(conf-route-map)# match ip next-hop Supported Releases prefix-list test100 10.3.
Supported Releases 10.3.0E or later match metric Configures a filter to match on a specific value. Syntax match metric metric-value Parameters metric-value — Enter a value to match the route metric against, from 0 to 4294967295. Default Not configured Command Mode ROUTE-MAP Usage Information The no version of this command deletes the match. Example OS10(conf-route-map)# match metric 429132 Supported Releases 10.2.
• local — Match only on routes generated locally. Default Not configured Command Mode ROUTE-MAP Usage Information The no version of this command deletes the match. Example OS10(config)# route-map bgp OS10(conf-route-map)# match route-type external type-1 Supported Releases 10.3.0E or later match tag Configures a filter to redistribute only routes that match a specific tag value.
set comm-list add Add communities in the specified list to the COMMUNITY attribute in a matching inbound or outbound BGP route. Syntax set comm-list {community-list-name} add Parameters community-list-name — Enter the name of an established community list (up to 140 characters).
• community-number — Enter the community number in aa:nn format, where aa is the AS number (2 bytes) and nn is a value specific to that AS. Default Not configured Command Mode ROUTE-MAP Usage Information The no version of this command deletes a BGP COMMUNITY attribute assignment. Example OS10(config)# route-map bgp OS10(conf-route-map)# set community none Supported Releases 10.3.
set extcommunity Sets the extended community attributes in a route map for BGP updates. Syntax set extcommunity rt {asn2:nn | asn4:nnnn | ip-addr:nn} Parameters • asn2:nn — Enter an AS number in 2-byte format; for example, 1–65535:1–4294967295. • asn4:nnnn — Enter an AS number in 4-byte format; for example, 1–4294967295:1–65535 or 1–65535.1– 65535:1–65535. • ip-addr:nn — Enter an AS number in dotted format, from 1 to 65535.
Default Not configured Command Mode ROUTE-MAP Usage Information To establish an absolute metric, do not enter a plus or minus sign before the metric value. To establish a relative metric, enter a plus or minus sign immediately preceding the metric value. The value is added to or subtracted from the metric of any routes matching the route map. You cannot use both an absolute metric and a relative metric within the same route map sequence. Setting either metric overrides any previously configured value.
set next-hop Sets an IPv4 or IPv6 address as the next-hop. Syntax set {ip | ipv6} next-hop ip-address Parameters ip-address — Enter the IPv4 or IPv6 address for the next-hop. Default Not configured Command Mode ROUTE-MAP Usage Information If you apply a route-map with the set next-hop command in ROUTER-BGP mode, it takes precedence over the next-hop-self command entered in ROUTER-NEIGHBOR mode.
Default Not configured Command Mode CONFIGURATION Usage Information The no version of this command deletes the set clause from a route map. Example OS10(conf-route-map)# set tag 23 Supported Releases 10.2.0E or later set weight Set the BGP weight for the routing table. Syntax set weight weight Parameters weight — Enter a number as the weight the route uses to meet the route map specification, from 0 to 65535. Default Default router-originated is 32768 — all other routes are 0.
9 Quality of service Quality of service (QoS) reserves network resources for highly critical application traffic with precedence over less critical application traffic. QoS enables to prioritize different types of traffic and ensures the required level of quality of service. You can control the following parameters of selected traffic flows: Delay, Bandwidth, Jitter, and Drop.
Configuring QoS is a three-step process: 1 2 Create class-maps to classify the traffic flows. The following are the different types of class-maps: • qos (default)—Classifies the ingress data traffic. • queuing —Classifies the egress queues. • control-plane—Classifies the control-plane traffic. • network-qos—Classifies the set of traffic-class IDs for ingress buffer configurations. • application —Classifies the application type traffic.
• Queuing policies must be applied in the output direction on physical interfaces or on system-qos mode. • Application type policy-map must be applied on system-qos mode. When a policy is applied on system, the policy is effective on all the ports in the system. However, interface level policy gets precedence over system level policy. Ingress traffic classification Ingress traffic can be either data traffic or control traffic.
2 Define the set of dot1p values mapped to traffic-class (qos-group) ID. OS10(config-tmap-dot1p-map)# qos-group 3 dot1p 0-4 OS10(config-tmap-dot1p-map)# qos-group 5 dot1p 5-7 3 Verify the map entries. OS10# show qos maps type trust-map-dot1p dot1p-trust-map DOT1P Priority to Traffic-Class Map : dot1p-trust-map Traffic-Class DOT1P Priority ------------------------------- 4 3 0-4 5 5-7 Apply the map on a specific interface or on system-qos (global) level.
DSCP values TC id Color 52-55 6 Y 56-59 7 G 60-62 7 Y 63 7 R User–defined DCSP trust map You can override the default mapping by creating a user defined DSCP trust map. All the unspecified DSCP entries are mapped to the default traffic class ID 0. Configure user–defined DSCP trust map 1 Create a DSCP trust map.
3 Define trust type to be enabled. OS10(config-pmap-c-qos)# trust dot1p 4 Attach the policy-map to interface or system-qos level to make the trusting effective. • Interface level OS10(conf-if-eth1/1/1)# service-policy input type qos trust • System-qos level OS10(config-sys-qos)# service-policy input type qos trust ACL based classification Classify the ingress traffic by matching the packet fields using ACL entries.
• Pre-defined IP access-list OS10(config-cmap-qos)# match ip access-group name ip-acl-1 • Pre-defined MAC access-list OS10(config-cmap-qos)# match mac access-group name mac-acl-1 3 Create a qos type policy-map to refer the classes. OS10(config)# policy-map cos-policy 4 Refer the class-maps in the policy-map and define the required action for the flows.
CoPP applies policy actions on all control-plane traffic. The control-plane class map does not use any match criteria. To enforce rate-limiting or rate policing on control-plane traffic, create policy maps. You can use the control-plane command to attach the CoPP service policies directly to the control-plane. The default rate limits apply to 12 CPU queues and the protocols mapped to each CPU queue. The control packet type to CPU ports control queue assignment is fixed.
3 Create an input policy-map to assign the QoS policy to the desired service queues in CONFIGURATION mode. policy-map type control-plane policy-map-name 4 Associate a policy-map with a class-map in POLICY-MAP mode. class class-name 5 Configure marking for a specific queue number in POLICY-MAP-CLASS-MAP mode (0 to 11). set qos-group queue-number 6 Configure rate policing on incoming traffic in POLICY-MAP-CLASS-MAP mode.
View CMAP1 configuration OS10# show class-map type control-plane cmap1 Class-map (control-plane): cmap1 (match-any) View CoPP service-policy OS10# show policy-map type control-plane Service-policy(control-plane) input: pmap1 Class-map (control-plane): cmap1 set qos-group 6 police cir 200 bc 100 pir 200 be 100 View CoPP information OS10# show control-plane info Queue Rate Limit(in pps) Protocols 0 600 1 1000 2 300 3 1300 4 2000 VLT NDS 5 400 ARP_REQ IPV6_ICMP_REQ 6 400 ARP_RESP IPV6_ICMP IPV6_ICMP_RESP IPV4_
Traffic class ID Queue ID 2 2 3 3 4 4 5 5 6 6 7 7 User–defined QoS map You can override the default mapping by creating QoS map. Configure user–defined QoS map 1 Create a QoS map OS10(config)# qos-map traffic-class tc-q-map 2 Define the set of traffic class values mapped to a queue OS10(config-qos-map)# queue 3 qos-group 0-3 3 Verify the map entries.
Peak rate is the maximum rate for traffic arriving or leaving an interface under normal traffic conditions. Peak burst size indicates the maximum size of unused peak bandwidth that is aggregated. This aggregated bandwidth enables brief durations of burst traffic that exceeds the peak rate.
OS10(config-pmap-c-qos)# set qos-group 3 OS10(config-pmap-c-qos)# set color yellow Modify packet fields You can modify the value of CoS or DSCP fields. 1 Create a QoS type class-map to match a traffic flow OS10(config)# class-map cmap-dscp-3 OS10(config-cmap-qos)# match ip dscp 3 2 Modify the policy-map to update the DSCP field.
5 Configure a queuing class in POLICY-MAP mode. class class-name 6 Assign a bandwidth percent (1 to 100) to nonpriority queues in POLICY-MAP-CLASS-MAP mode.
2 Enter the output service-policy in SYSTEM-QOS mode or INTERFACE mode.
The buffer usage accounting happens for ingress packets on ingress pools and egress packets on egress pool. You can configure ingress packets buffer accounting per priority-group and egress packet buffer accounting per queue level. Configure ingress buffer Default settings In the default settings for ingress buffers, all traffic classes are mapped to the default priority group and the buffers are reserved per default priority group ID 7.
You can override the default priority group settings when LLFC or PFC is enabled. 1 Create network-qos type class-map to match the traffic classes. For LLFC match all the traffic classes(0-7) and for PFC, match the required traffic class. OS10(config)# class-map type network-qos tc OS10 (config-cmap-nqos)# match qos-group 0-7 2 Create network-qos type policy-map to define the actions for traffic classes, like buffer configuration and thresholds.
3 Configure the exponential weight value for the WRED profile in the WRED CONFIGURATION mode. OS10(config-wred)# random-detect weight 4 4 Enable ECN. OS10(config-wred)# random-detect ecn 5 Enable WRED/ECN on a queue. OS10(config)# class-map type queuing c1 OS10(config-cmap-queuing)# match queue 2 OS10(config-cmap-queuing)# exit OS10(config)# policy-map type queuing p1 OS10(config-pmap-queuing)# class c1 OS10(config-pmap-c-que)# random-detect wred_prof_1 6 Enable WRED/ECN on a port.
class Creates a QoS class for a type of policy-map. Syntax class class—name Parameters class-name — Enter a name for the class-map (up to 32 characters). Default Not configured Command Mode POLICY-MAP-QUEUEING Usage Information If you define a class-map under a policy-map, the type (qos, queuing, or control-plane) is the same as the policy-map. You must create this map in advance. The only exception to this rule is when the policy-map type is trust, where the class type must be qos.
clear interface priority-flow-control Clears the priority flow control statistics per-port or for all ports. Syntax Parameters clear interface [interface node/slot/port[:subport]] priority-flow-control • interface — (Optional) Enter the interface type. • node/slot/port[:subport] — (Optional) Enter the port information. Default Not configured Command Mode EXEC Usage Information None Example OS10# clear interface ethernet 1/1/1 priority-flow-control Supported Releases 10.3.
Command Mode EXEC Usage Information None Example OS10# clear qos statistics type qos interface ethernet 1/1/5 Example (controlplane) OS10# clear qos statistics type control-plane interface ethernet 1/1/7 Example (queuing) OS10# clear qos statistics type queuing interface ethernet 1/1/2 Supported Releases 10.2.0E or later control-plane Enters Control-Plane mode.
Example OS10(conf-if-eth1/1/2)# flowcontrol transmit on Supported Releases 10.3.0E or later match Configures match criteria for the QoS policy. Syntax Parameters match {cos cos-number | ip [access-group name name | dscp dscp-value | precedence value] | mac access-group acl-name | not [ip | cos] vlan vlan-id} [set dscp dscp-value] • cos cos—number — Enter a queue number for the CoS match criteria (0 to 7). • ip — Enter the IPv4 match criteria.
Example OS10(conf-cmap-qos)# match cos 3 Supported Releases 10.2.0E or later match dscp Configures a DSCP value as a match criteria for a class-map. Syntax match [not] {ip | ipv6 | ip-any } dscp [dscp-list | dscp-list] Parameters • not — (Optional) Enter to cancel a previously applied match criteria. • ip — Enter to use IPv4 protocol as the match protocol. • ipv6 — Enter to use IPv6 protocol as the match protocol. • ip-any — Enter to use both IPv4 and IPv6 as the match protocol.
match queue Configures a match criteria for a queue. Syntax match queue queue-number Parameters queue-number — Enter a queue number (0 to 7). Default Not configured Command Mode CLASS-MAP Usage Information You can configure this command only when the class-map type is queuing. You cannot enter two match statements with the same filter-type. If you enter two match statements with the same filter-type, the second statement overwrites the first statement.
pause Enables a pause based on buffer limits for the port to start or stop communication to the peer. Syntax pause [buffer-size size pause-threshold xoff-size resume-threshold xon-size] Parameters • buffer-size size — (Optional) Enter the ingress buffer size which is used as a guaranteed buffer in KB (default values: 10G – 45KB, 40G—93KB). • pause-threshold xoff-size — (Optional) Enter the buffer limit for the port to start or initiate a pause to the peer in KB (default values: 10G 9, 40G 18).
port, based on the port's priority flow-control enable mode. If you configure 40G to 10G mode on interfaces and pause (no drop) is enabled on system-qos, all queues may or may not drop traffic based on the availability of buffers. The no version of this command returns the value to the default.
pfc-shared-headroom-buffer-size Configures the shared headroom size for absorbing the packets after pause frames are generated. NOTE: This command is available only on Z9100-ON and HE-IOM. Syntax pfc-shared-headroom-buffer-size headroom-buffer-size Parameters headroom-buffer-size — Enter the size of the priority flow-control headroom buffer in KB (1 to 3399). Default 1024 KB Command Mode SYSTEM-QOS Usage Information This command is used to configure the shared headroom size.
policy-map Enters QoS POLICY-MAP mode and creates or modifies a QoS policy-map. Syntax Parameters policy-map policy-map-name [type {qos | queuing | control-plane | application | network-qos }] • policy-map-name — Enter a class name for the policy-map (up to 32 characters). • type — Enter the policy-map type. – qos — Create a qos policy-map type. – queuing — Create a queueing policy-map type. – control-plane — Create a control-plane policy-map type. – application — Create an application policy-map type.
Parameters • on — (Optional) Enables priority flow-control mode. Default Disabled Command Mode INTERFACE Usage Information Before enabling priority flow-control on a interface, verify a matching network-qos type policy is configured with the pfc-cos value for an interface. Use this command to disable priority flow-control if you are not using a network-qos type policy for an interface. The no version of this command returns the value to the default.
Usage Information If the trust map does not define dscp values to any traffic class, those flows are mapped to the default traffic class (0). If some of the dscp values are already mapped to an existing traffic class, you will receive an error. The no version of this command returns the value to the default. Example OS10(conf-tmap-dscp-qos)# qos-group 5 dscp 42 Supported Releases 10.3.0E or later queue-limit Configures static or dynamic shared buffer thresholds.
OS10(config-pmap-c-que)# queue-limit queue-len 100 OS10(config-pmap-c-que)# queue-limit thresh-mode static 50 Supported Releases 10.3.0E or later queue bandwidth Configures a bandwidth for a given queue on interface. Syntax queue queue-number bandwidth bandwidth-percentage Parameters • queue-number — Enter the queue number. • bandwidth-percentage — Enter the percentage of bandwidth.
Default Not configured Command Mode INTERFACE Usage Information The no version of this command removes the WRED profile from the interface. Example OS10(config)# interface ethernet 1/1/1 OS10(conf-if-eth1/1/1)# random-detect test_wred Supported Releases 10.4.0E(R1) or later random-detect (queue) Assigns a WRED profile to the specified queue. Syntax random-detect wred-profile-name Parameters wred-profile-name — Enter the name of an existing WRED profile.
random-detect ecn Enables Explicit Congestion Notification (ECN) for the WRED profile. Syntax random-detect ecn Parameters None Default Not configured Command Mode WRED CONFIGURATION Usage Information The no version of this command disables ECN. Example OS10(config)# wred test_wred OS10(config-wred)# random-detect ecn Supported Releases 10.4.0E(R1) or later random-detect pool Assigns a WRED profile to the specified global buffer pool.
Supported Releases 10.4.0E(R1) or later service-policy Configures the input and output service policies. Syntax Parameters service-policy {input | output} [type {qos | queuing | network-qos}] policymap-name • input — Enter to assign a QoS policy to the interface input. • output — Enter to assign a QoS policy to the interface output. • qos — Enter to assign a qos type policy-map. • queuing — Enter to assign the queuing type policy-map.
set dscp Sets the drop precedence for incoming packets based on their DSCP value and color map profile. Syntax set dscp dscp-value [color {red | yellow}] Parameters • dscp-value — Enter a DSCP value (0 to 63). • color — (Optional) — Enter to apply a color map profile. • red — (Optional) Enter to mark the packets to drop. • yellow — (Optional) Enter to mark the packets to deliver to the egress queue.
• kbps — Enter the committed rate unit in kilobits per second (0 to 40000000). • mbps — Enter the committed rate unit in megabits per second (0 to 40000). • pps — Enter the committed rate unit in packets per second (1 to 268000000). • burst-size — Enter the burst size in kilobytes per packet (0 to 10000 or 1 to 1073000). • max — Enter the maximum peak rate in kbps, mbps, or pps. • max-burst-size — Enter the burst size in kilobytes per packets (0 to 10000 or 1 to 1073000).
Default Not configured Command Mode EXEC Usage Information Monitors statistics for the control-plane and to troubleshoot CoPP.
Parameters details — (Optional) Displays all priority flow control information for an interface. Default Not configured Command Mode EXEC Usage Information None Example (Details) OS10# show interface priority-flow-control details TenGig 1/1: Admin Mode: On OperStatus: On PFC Priorites: 0,4,7 Total Rx PFC Frames: 300 Total Tx PFC Frames: 200 Cos Rx Tx ----------------------0 0 0 1 0 0 2 0 0 3 300 200 4 0 0 5 0 0 6 0 0 7 0 0 Supported Releases 10.3.
Parameters • type — Enter the policy-map type (qos, queuing, or control-plane). • qos — Displays all policy-maps of qos type. • queuing — Displays all policy-maps configured of queuing type. • network-qos — Displays all policy-maps configured of network-qos type. • control-plane — Displays all policy-maps of control-plane type. • policy-map-name — Displays the QoS policy-map name details.
Usage Information None Example OS10# show qos egress buffers interface ethernet 1/1/1 Interface : ethernet1/1/1 Speed : 0 queue-number pool-type rsvd-buf-size threshold-mode threshold-value -----------------------------------------------------------------------0 lossy 1664 dynamic 8 1 lossy 1664 dynamic 8 2 lossy 1664 dynamic 8 3 lossless 0 static 12479488 4 lossy 1664 dynamic 8 5 lossy 1664 dynamic 8 6 lossy 1664 dynamic 8 7 lossy 1664 dynamic 8 Supported Releases 10.3.
• node/slot/port[:subport] — (Optional) Enter the port information.
5 6 7 Supported Releases 0 0 0 0 0 0 0 0 0 10.3.0E or later show queuing statistics Displays QoS queuing statistics information. Syntax Parameters show queuing statistics interface ethernet node/slot/port[:subport] [queue number] • node/slot/port[:subport] — Enter the Ethernet interface information. • queue number — Enter the QoS queue number (0 to 7). Default Not configured Command Mode EXEC Usage Information Use this command to view all queuing counters.
show qos system buffers Displays the system buffer configurations and utilization.
3 7 OS10# show qos maps type trust-map-dot1p dot1p-trustmap1 DOT1P Priority to Traffic-Class Map : dot1p-trustmap1 Traffic-Class DOT1P Priority ------------------------------0 2 1 3 2 4 3 5 4 6 5 7 6 1 OS10# show qos maps type trust-map-dscp dscp-trustmap1 DSCP Priority to Traffic-Class Map : dscp-trustmap1 Traffic-Class DSCP Priority ------------------------------0 8-15 2 16-23 1 0-7 OS10# show qos maps Traffic-Class to Queue Map: queue-map1 Queue Traffic-Class -------------------------1 5 2 6 3 7 DOT1P Pr
------------------------------0 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7 OS10# Example (dscp) OS10# show qos trust-map dscp new-dscp-map new-dscp-map qos-group Dscp Id ------------------0 0-7 1 8-15 2 16-23 3 24-31 4 32-39 5 40-47 6 48-55 7 56-63 Supported Releases 10.3.0E or later show qos wred-profile Displays the details of WRED profile configuration. Syntax show qos wred—profile [wred-profile-name] Parameters wred-profile-name — (Optional) Enter the Ethernet interface information.
Usage Information None Example OS10(config)# system qos OS10(config-sys-qos)# Supported Releases 10.2.0E or later trust Sets the dynamic classification to trust. Syntax Parameters trust {dot1p | diffserv} [fallback] • diffserv — Set the dynamic classification to trust DSCP. • dot1p — Set the dynamic classification to trust Dot1p. • fallback — (Optional) Honor trusting dot1p or DSCP only if other match criteria in this policy map does not qualifies for a packet.
Parameters map-name — Enter the name of the dscp trust map (up to 32 characters). Default Not configured Command Mode CONFIGURATION Usage Information default-dscp-trust is a reserved trust-map name. If trust is enabled, traffic obeys this trust map. The no version of this command returns the value to the default. Example OS10(config)# trust dscp-map dscp-trust1 Supported Releases 10.3.0E or later qos-map traffic-class Creates user-defined trust map for queue mapping.
Example OS10(config)# interface ethernet 1/1/1 OS10(conf-if-eth1/1/1)# trust-map dscp dscp-trustmap1 Supported Releases 10.3.0E or later wred Configures a weighted random early detection (WRED) profile. Syntax wred wred-profile-name Parameters wred-profile-name — Enter a name for the WRED profile. Default Not configured Command Mode CONFIGURATION Usage Information The no version of this command removes the WRED profile.
10 Virtual link trunking Virtual link trunking (VLT) is a Layer 2 (L2) aggregate protocol between end devices (servers) connected to different network devices. VLT reduces the role of spanning tree protocols (STPs) by allowing link aggregation group (LAG) terminations on two separate distribution or core switches and supporting a loop-free topology.
VLT physical ports 802.1p, 802.1q, LLDP, flow control, port monitoring, and jumbo frames are supported on VLT physical ports. System management protocols All system management protocols are supported on VLT ports — SNMP, RMON, AAA, ACL, DNS, FTP, SSH, syslog, NTP, RADIUS, SCP, and LLDP. L3 VLAN connectivity Enable L3 VLAN connectivity (VLANs assigned with an IP address) on VLT peers by configuring a VLAN interface for the same VLAN on both devices.
• Configure the same VLT domain ID on peer devices. If a VLT domain ID mismatch occurs on VLT peers, the VLTi does not activate. • In a VLT domain, VLT peers support connections to network devices that connect to only one peer. VLT interconnect A VLTi is the link that synchronizes states between VLT peers. OS10 automatically adds VLTi ports to VLANs spanned across VLT peers. VLTi ports are not supported as members of VLANs configured on only one peer.
RSTP configuration RSTP mode is supported on VLT ports. Before you configure VLT on peer switches, configure RSTP in the network. RSTP prevents loops during the VLT startup phase. • Enable RSTP on each peer node in CONFIGURATION mode.
RPVST+ configuration RPVST+ mode is supported on VLT ports. Before you configure VLT on peer switches, configure RPVST+ in the network. You can use RPVST+ for initial loop prevention during the VLT startup phase. Configure RPVST+ on both the VLT peers. This creates an RPVST+ instance for every VLAN configured in the system. The RPVST+ instances in the primary VLT peer control the VLT LAGs on both the primary and secondary peers. • Enable RPVST+ on each peer node in CONFIGURATION mode.
1 Configure a VLT domain and enter VLT-DOMAIN mode. Configure the same VLT domain ID on each peer, from 1 to 255. vlt-domain domain-id 2 Repeat the steps on the VLT peer to create the VLT domain. Peer 1 OS10(config)# vlt-domain 1 OS10(conf-vlt-1)# Peer 2 OS10(config)# vlt-domain 1 OS10(conf-vlt-1)# VLTi configuration Before you configure VLTi on peer interfaces, remove each interface from L2 mode with the no switchport command, see VLT interconnect.
Configure VLT LAG — peer 1 OS10(config)# interface port-channel 10 OS10(conf-if-po-10)# vlt-port-channel 1 Configure VLT LAG — peer 2 OS10(config)# interface port-channel 20 OS10(conf-if-po-20)# vlt-port-channel 1 VLT unicast routing VLT unicast routing enables optimized routing where packets destined for the L3 endpoint of the VLT peer are locally routed. VLT unicast routing is supported for IPv4 and IPv6. To enable VLT unicast routing, both VLT peers must be in L3 mode.
Configure VRRP active-active mode — peer 1 OS10(conf-if-vl-10)# vrrp mode active-active Configure VRRP active-active mode — peer 2 OS10(conf-if-vl-10)# vrrp mode active-active View VRRP configuration OS10# show running-configuration interface vlan 10 ! interface vlan10 no shutdown no vrrp mode active-active OS10# Migrate VMs across data centers OS10 does not support proxy gateway. Instead of proxy gateway, use VRRP in VLANs to migrate virtual machines across data centers.
• Server racks, Rack 1 and Rack 2, are part of data centers DC1 and DC2, respectively. • Rack 1 is connected to devices A1 and B1 in L2 network segment. • Rack 2 is connected to devices A2 and B2 in L2 network segment. • A VLT LAG is present between A1 and B1 as well as A2 and B2. • A1 and B1 connect to core routers, C1 and D1 with VLT routing enabled. • A2 and B2 connect to core routers, C2 and D2, with VLT routing enabled.
• Configure VLT port channel for VLAN 100: D1(config)# interface port-channel 10 D1(conf-if-po-10)# vlt-port-channel 10 D1(conf-if-po-10)# switchport mode trunk D1(conf-if-po-10)# switchport trunk allowed vlan 100 D1(conf-if-po-10)# exit • Add members to port channel 10: D1(config)# interface ethernet 1/1/3 D1(conf-if-eth1/1/3)# channel-group 10 D1(conf-if-eth1/1/3)# exit D1(config)# interface ethernet 1/1/4 D1(conf-if-eth1/1/4)# channel-group 10 D1(conf-if-eth1/1/4)# exit • Configure OSPF on L3 side o
C2(conf-if-po-20)# switchport trunk allowed vlan 200 C2(conf-if-po-20)# exit • Add members to port channel 20: C2(config)# interface ethernet 1/1/5 C2(conf-if-eth1/1/5)# channel-group 20 C2(conf-if-eth1/1/5)# exit C2(config)# interface ethernet 1/1/6 C2(conf-if-eth1/1/6)# channel-group 20 C2(conf-if-eth1/1/6)# exit Sample configuration of D2: • Configure VRRP on L2 links between core routers: D2(config)# interface vlan 100 D2(conf-if-vl-100)# ip address 10.10.100.
• • View detailed information about VLT ports in EXEC mode. show vlt domain-id vlt-port-detail View the current configuration of all VLT domains in EXEC mode. show running-configuration vlt View peer-routing information OS10# show vlt 1 Domain ID Unit ID Role Version Local System MAC address VLT MAC address IP address Delay-Restore timer Peer-Routing Peer-Routing-Timeout timer VLTi Link Status port-channel1000 : : : : : : : : : : 1 1 primary 1.
* 1 2 4 VLT VLAN mismatch: VLT ID : 1 VLT Unit ID Mismatch VLAN List -------------------------------* 1 1 2 2 VLT ID : 2 VLT Unit ID Mismatch VLAN List ---------------------------------* 1 1 2 2 View VLT port details * indicates the local peer OS10# show vlt 1 vlt-port-detail VLT port channel ID : 1 VLT Unit ID Port-Channel Status Configured ports Active ports ---------------------------------------------------------------------* 1 port-channel1 down 2 0 2 port-channel1 down 2 0 VLT port channel ID : 2 VL
• vrf management — (Optional) Configures the management VRF instance for the backup IPv4 or IPv6 address. Default Not configured Command Mode VLT-DOMAIN Usage Information The no version of this command removes the IP address from the backup link. Example OS10(config)# vlt-domain 1 OS10(conf-vlt-1)# backup destination 10.16.151.110 vrf management OS10(config)# vlt-domain 1 OS10(conf-vlt-1)# backup destination ipv6 1::1 vrf management Supported Releases 10.3.
Example (range) OS10(config)# vlt-domain 2 OS10(conf-vlt-2)# discovery-interface ethernet 1/1/1-1/1/12 Supported Releases 10.2.0E or later peer-routing Enables or disables L3 routing to peers. Syntax peer-routing Parameters None Default Disabled Command Mode VLT-DOMAIN Usage Information The no version of this command disables L3 routing. Example OS10(conf-vlt-1)# peer-routing Supported Releases 10.2.
Usage Information None Example OS10# show spanning-tree virtual-interface VFP(VirtualFabricPort) of RSTP 1 is Designated Forwarding Edge port: No (default) Link type: point-to-point (auto) Boundary: No, Bpdu-filter: Disable, Bpdu-Guard: Disable, Shutdown-on-Bpdu-Guard-violation: No Root-Guard: Disable, Loop-Guard: Disable Bpdus (MRecords) Sent: 11, Received: 7 Interface Designated Name PortID Prio Cost Sts Cost Bridge ID PortID -----------------------------------------------------------------------------
Command Mode EXEC Usage Information None Example OS10# show vlt 1 Domain ID Unit ID Role Version Local System MAC address VLT MAC address IP address Delay-Restore timer Peer-Routing Peer-Routing-Timeout timer VLTi Link Status port-channel1000 : : : : : : : : : : 1 1 primary 1.
Example OS10# show vlt-mac-inconsistency Checking Vlan 228 .. Found 7 inconsistencies ..
No mismatch VLT VLAN mismatch: VLT ID : 1 VLT Unit ID Mismatch VLAN List ---------------------------------* 1 1 2 2 VLT ID : 2 VLT Unit ID Mismatch VLAN List ----------------------------------* 1 1 2 2 Example (mismatch peer routing) OS10# show vlt 1 mismatch peer-routing Peer-routing mismatch: VLT Unit ID Peer-routing ----------------------------------* 1 Enabled 2 Disabled Example (mismatch VLAN) OS10# show vlt 1 mismatch vlan VLT Unit ID Mismatch VLAN List ----------------------------------* 1 2 4 Ex
Supported Releases 10.2.0E or later show vlt vlt-port-detail Displays detailed status information about VLT ports. Syntax show vlt id vlt-port-detail Parameters id — Enter a VLT domain ID, from 1 to 255. Default Not configured Command Mode EXEC Usage Information The * in the mismatch output indicates a local node entry.
Parameters vlt-lag-id — Enter a VLT port-channel ID, from 1 to 1024. Default Not configured Command Mode PORT-CHANNEL INTERFACE Usage Information Assign the same VLT port-channel ID to interfaces on VLT peers to create a VLT port-channel. The no version of this command removes the VLT port-channel ID configuration. Example (peer 1) OS10(conf-if-po-10)# vlt-port-channel 1 Example (peer 2) OS10(conf-if-po-20)# vlt-port-channel 1 Supported Releases 10.2.
11 Converged data center services OS10 supports converged data center services, including IEEE 802.1 data center bridging (DCB) extensions to classic Ethernet. DCB provides I/O consolidation in a data center network. Each network device carries multiple traffic classes while ensuring lossless delivery of storage traffic with best-effort for LAN traffic and latency-sensitive scheduling of service traffic. • 802.1Qbb — Priority flow control • 802.1Qaz — Enhanced transmission selection • 802.
PFC configuration notes • PFC is supported for 802.1p priority traffic (dot1p 0 to 7). FCoE traffic traditionally uses dot1p priority 3 — iSCSI storage traffic uses dot1p priority 4. • Configure PFC for ingress traffic by using network-qos class and policy maps (see Quality of Service). The queues used for PFCenabled traffic are treated as lossless queues. Configure the same network-qos policy map on all PFC-enabled ports.
trust dot1p exit 2 Apply the qos trust policy to ingress traffic in SYSTEM-QOS or INTERFACE mode. service-policy input type qos trust-policy—map-name Configure a non-default dot1p-priority-to-traffic class mapping 1 Configure a trust map of dot1p traffic classes in CONFIGURATION mode. A trust map does not modify ingress dot1p values in output flows. Assign a qos-group to trusted dot1p values in TRUST mode using 1-to-1 mappings. Dot1p priorities are 0-7.
Configure PFC Priority flow control (PFC) provides a pause mechanism based on the 802.1p priorities in ingress traffic. PFC prevents frame loss due to network congestion. Configure PFC lossless buffers, and enable pause frames for dot1p traffic on a per-interface basis. Repeat the PFC configuration on each PFC-enabled interface. PFC is disabled by default. Decide if you want to use the default dot1p-priority-to-traffic class mapping and the default traffic-class-to-queue mapping.
1 Apply the PFC service policy on an ingress interface or interface range in INTERFACE mode. interface ethernet node/slot/port:[subport] service-policy input type network-qos policy—map-name interface range ethernet node/slot/port:[subport]-node/slot/port[:subport] service-policy input type network-qos policy—map-name 2 Enable PFC (without DCBX) for FCoE and iSCSI traffic in INTERFACE mode. priority-flow-control mode on Configure PFC PFC is enabled on traffic classes with dot1p 3 and 4 traffic.
View PFC ingress buffer configuration OS10(config)# show qos ingress buffer interface Interface ethernet 1/1/1 Speed 40G -----------------------------------------------------------------------------PG# PRIORITIES qos ALLOTED (Kb) group Reserved Shared buffer XOFF XON shared buffer id buffers MODE threshold threshold threshold -----------------------------------------------------------------------------0 4 4 35 DYNAMIC 9 9 8 1 3 3 35 DYNAMIC 9 9 8 2 0 STATIC 0 0 0 3 0 STATIC 0 0 0 4 0 STATIC 0 0 0 5 0 STATIC
pause Configures the ingress buffer and pause frame settings used for PFC traffic classes. Syntax Parameters Defaults pause [buffer-size kilobytes pause-threshold kilobytes resume-threshold kilobytes] • buffer-size kilobytes — Enter the reserved (guaranteed) ingress-buffer size in kilobytes for PFC dot1p traffic (0 to 7787). • pause-threshold kilobytes — Enter the threshold used to send pause frames in kilobytes to a transmitting device (0 to 7787).
Default Not configured Command Mode POLICY-CLASS NETWORK-QOS Usage Information When you enter PFC-enabled dot1p priorities with pfc-cos, the dot1p values must be the same as the match qos-group (traffic class) numbers in the network-qos class map used to define the PFC traffic class (see Configure PFC Example). A qos-group number is used only internally to classify ingress traffic classes.
and link-layer flow control (LLFC) at the same time on an interface. The no version of this command disables PFC on an interface. When you disable PFC, remove the PFC network-qos policy-class map applied to the interface. Example OS10(conf-if-eth1/1/1)# priority-flow-control mode on Supported Releases 10.3.0E or later queue-limit Sets the static and dynamic thresholds used to limit the shared-buffer size of PFC traffic-class queues.
Cos Rx Tx ----------------------0 0 0 1 0 0 2 0 0 3 0 587236 4 0 0 5 0 0 6 0 0 7 0 0 Supported Releases 10.3.0E or later Enhanced transmission selection Enhanced transmission selection (ETS) provides customized bandwidth allocation to 802.1p classes of traffic. Assign different amounts of bandwidth to traffic classes (Ethernet, FCoE, or iSCSI) that require different bandwidth, latency, and best-effort treatment during network congestion. ETS divides traffic into different priority groups using their 802.
• • • An ETS-enabled interface operates with dynamic weighted round robin (DWRR) or strict priority scheduling. OS10 control traffic is sent to control queues, which have a strict priority that is higher than data traffic queues. ETS-allocated bandwidth is not supported on a strict priority queue. A strict priority queue receives bandwidth only from DCBX TLVs. The CEE/IEEE2.5 versions of ETS TLVs are supported. ETS configurations are received in a TLV from a peer.
trust-map dscp dscp-map-name qos-map traffic-class queue-map-name Or interface {ethernet node/slot/port[:subport] | range ethernet node/slot/port[:subport]-node/ slot/port[:subport]} trust-map dot1p dot1p-map-name trust-map dscp dscp-map-name qos-map traffic-class queue-map-name 7 Apply the qos trust policy to ingress traffic in SYSTEM-QOS or INTERFACE mode. service-policy input type qos trust-policy—map-name 8 Apply the queuing policy to egress traffic in SYSTEM-QOS or INTERFACE mode.
unknown-unicast-storm-control : Disabled multicast-storm-control : Disabled broadcast-storm-control : Disabled flow-control-rx : Disabled flow-control-tx : Disabled ets mode : Disabled Dot1p-tc-mapping : dot1p_map1 Dscp-tc-mapping : dscp_map1 tc-queue-mapping : tc-q-map1 View QoS maps: traffic-class to queue mapping OS10# show qos maps Traffic-Class to Queue Map: tc-q-map1 queue 0 qos-group 0 queue 1 qos-group 1 Traffic-Class to Queue Map: dot1p_map1 qos-group 0 dot1p 0-3 qos-group 1 dot1p 4-7 DSCP Priority
DCBX configuration notes • • • • • • • • • To exchange link-level configurations in a converged network, DCBX is a prerequisite for using DCB features, such as PFC and ETS. DCBX is also deployed in topologies that support lossless operation for FCoE or iSCSI traffic. In these scenarios, all network devices must be DCBX-enabled so that DCBX is enabled end-to-end. DCBX uses LLDP to advertise and automatically negotiate the administrative state and PFC/ETS configuration with directly connected DCB peers.
2 • auto — Automatically selects the DCBX version based on the peer response (default). • cee — Sets the DCBX version to CEE. • ieee — Sets the DCBX version to IEEE 802.1Qaz. (Optional) A DCBX-enabled port advertises all TLVs by default. If PFC or ETS TLVs are disabled, enter the command in INTERFACE mode to re-enable PFC or ETS TLV advertisements. dcbx tlv-select {ets-conf | ets-reco | pfc} • ets-conf — Enables ETS configuration TLVs. • ets-reco — Enables ETS recommendation TLVs.
View DCBX PFC TLV status OS10# show lldp dcbx interface ethernet 1/1/15 pfc detail Interface ethernet1/1/15 Admin mode is on Admin is enabled, Priority list is 4,5,6,7 Remote is enabled, Priority list is 4,5,6,7 Remote Willing Status is disabled Local is enabled, Priority list is 4,5,6,7 Oper status is init PFC DCBX Oper status is Up State Machine Type is Feature PFC TLV Tx Status is enabled Application Priority TLV Parameters : -------------------------------------ISCSI TLV Tx Status is enabled Local ISCSI
PG-grp Priority# Bandwidth TSA -----------------------------------------------0 0,1,2,3 70% ETS 1 4,5,6,7 30% ETS 2 0% SP 3 0% SP 4 0% SP 5 0% SP 6 0% SP 7 0% SP 15 0% SP Oper status is init ETS DCBX Oper status is Up State Machine Type is Feature Conf TLV Tx Status is enabled Reco TLV Tx Status is disabled 220 Input Conf TLV Pkts, 396 Output Conf TLV Pkts, 0 Error Conf TLV Pkts DCBX commands dcbx enable Enables DCBX globally on all port interfaces.
Default DCBX advertises PFC, ETS Recommendation, and ETS Configuration TLVs. Command Mode INTERFACE Usage Information A DCBX-enabled port advertises all TLVs to DCBX peers by default. If PFC or ETS TLVs are disabled, enter the command to re-enable PFC or ETS TLV advertisements. You can enable multiple TLV options (ets-conf, ets-reco, and pfc) with the same command. Example OS10(conf-if-eth1/1/2)# dcbx tlv-select ets-conf pfc Supported Releases 10.3.
show lldp dcbx interface Displays DCBX configuration and PFC or ETS TLV status on an interface. Syntax Parameters show lldp dcbx interface ethernet node/slot/port[:subport] [ets detail | pfc detail] • interface ethernet node/slot/port[:subport] — Enter interface information. • ets detail — Display ETS TLV status and operation with DCBX peers. • pfc detail — Display PFC TLV status and operation with DCBX peers.
2 3 4 5 6 7 0% 0% 0% 0% 0% 0% SP SP SP SP SP SP Remote Parameters : ------------------Remote is enabled PG-grp Priority# Bandwidth TSA -----------------------------------------------0 0,1,2,3 70% ETS 1 4,5,6,7 30% ETS 2 0% SP 3 0% SP 4 0% SP 5 0% SP 6 0% SP 7 0% SP Remote Willing Status is disabled Local Parameters : ------------------Local is enabled PG-grp Priority# Bandwidth TSA -----------------------------------------------0 0,1,2,3 70% ETS 1 4,5,6,7 30% ETS 2 0% SP 3 0% SP 4 0% SP 5 0% SP 6 0% SP 7
Supported Releases 10.3.0E or later Internet small computer system interface iSCSI is a TCP/IP-based protocol for establishing and managing connections between servers and storage devices in a data center network. After you enable iSCSI, iSCSI optimization automatically detects Dell EqualLogic storage arrays directly attached to switch ports. To support storage arrays where auto-detection is not supported, manually configure iSCSI optimization using the iscsi profilestorage name command.
In an iSCSI session, a switch connects CNA servers (iSCSI initiators) to a storage array (iSCSI targets) in a storage area network (SAN) or TCP/IP network. iSCSI optimization running on the switch uses dot1p priority-queue assignments to ensure that iSCSI traffic receives priority treatment. iSCSI configuration notes • • • • When you enable iSCSI optimization, the switch auto-detects and auto-configures for Dell EqualLogic storage arrays directly connected to an interface.
If you do not configure an iscsi priority-bits dot1p value and you configure a set cos value in Step 6, the set cos value is sent in iSCSI application TLVs. If you configure neither the iscsi priority-bits nor the set cos value, the default dot1p 4 is advertised. iscsi priority-bits dot1p-bitmap 10 Enable iSCSI auto-detection and auto-configuration on the switch in CONFIGURATION mode.
---------------------------------------------------------10.10.10.210 54835 10.10.10.40 3260 1 OS10# show iscsi storage-devices Interface Name Storage Device Name Auto Detected Status ----------------------------------------------------------ethernet1/1/23 EQL-MEM true iSCSI synchronization on VLT An iSCSI session is considered to be learnt on VLT LAG during the following scenarios: • If the iSCSI session receives control packets, as login-request or login-response, on the VLT LAG.
Default Enabled on S4048T-ON/S4048-ON; disabled on others Command Mode CONFIGURATION Usage Information iSCSI optimization automatically detects storage arrays and auto-configures switch ports with the iSCSI parameters received from a connected device. The no version of this command disables iSCSI auto-detection. Example OS10(config)# iscsi enable Supported Releases 10.3.0E or later iscsi priority-bits Resets the priority bitmap advertised in iSCSI application TLVs.
iscsi session-monitoring enable Enables iSCSI session monitoring. Syntax iscsi session-monitoring enable Parameter None Default Disabled Command Mode CONFIGURATION Usage Information Use the iscsi aging time command to configure the aging timeout in iSCSI monitoring sessions, and use the iscsi target port command to configure the TCP ports that listen for connected storage devices in iSCSI monitoring sessions. The no version of this command disables iSCSI session monitoring.
priority-bits command to DCBX peers. If you do not configure an iSCSI dot1p-bitmap value, iSCSI application TLVs advertise dot1p 4 by default only if you configure dot1p 4 as a PFC priority with the pfc-cos command. The no version of this command disables iSCSI TLV transmission. Example OS10(conf-if-eth1/1/1)# lldp tlv-select dcbxp-appln iscsi Supported Releases 10.3.0E or later show iscsi Displays currently configured iSCSI settings.
Session 2 -----------------------------------------------Target:iqn.2001-05.com.equallogic:0-8a0906-01251a00c-8ab26939fbd510a1-518 Initiator:iqn.1991-05.com.microsoft:win-rlkpjo4jun2 Up Time:00:00:16:02(DD:HH:MM:SS) Time for aging out:29:23:59:35(DD:HH:MM:SS) ISID:400001370000 Initiator Initiator Target Target Connection IP Address TCP Port IP Address TCP Port ID ---------------------------------------------------------10.10.10.210 54835 10.10.10.40 3260 1 Supported Releases 10.3.
• The default class-trust class map honors dot1p priorities in ingress flows and applies a 1-to-1 dot1p-to-qos-group and a 1-to-1 qosgroup-to-queue mapping. In OS10, qos-group represents a traffic class used only for internal processing. 1. DCBX configuration (global) Configure DCBX globally on a switch to enable the exchange of DCBX TLV messages with PFC, ETS, and iSCSI configurations. OS10# configure terminal OS10(config)# dcbx enable 2.
A trust dot1p-map assigns dot1p 0, 1, 2, and 3 traffic to qos-group 0, and dot1p 4, 5, 6, and 7 traffic to qos-group 1. A qos-map traffic-class map assigns the traffic class in qos-group 0 to queue 0, and qos-group 1 traffic to queue 1. A queuing policy map assigns 30% of interface bandwidth to queue 0, and 70% of bandwidth to queue 1. The pclass policy map applies trust to all dot1p ingress traffic. Trust does not modify ingress dot1p values in output flows.
ets mode on qos-map traffic-class tmap2 trust-map dot1p tmap1 priority-flow-control mode on 7.
PG-grp Priority# Bandwidth TSA -----------------------------------------------0 0,1,2,3, 30% ETS 1 4,5,6,7 70% ETS 2 0% ETS 3 0% ETS 4 0% ETS 5 0% ETS 6 0% ETS 7 0% ETS Remote Parameters : ------------------Remote is enabled PG-grp Priority# Bandwidth TSA -----------------------------------------------0 0,1,2,3, 30% ETS 1 4,5,6,7 70% ETS 2 0% SP 3 0% SP 4 0% SP 5 0% SP 6 0% SP 7 0% SP Remote Willing Status is disabled Local Parameters : ------------------Local is enabled PG-grp Priority# Bandwidth TSA -----
OS10(config)# system qos OS10(config-sys-qos)# service-policy type application policy-iscsi OS10(config-sys-qos)# exit OS10(config)# iscsi session-monitoring enable OS10(config)# iscsi priority-bits 0x40 OS10(config)# iscsi enable 11. Verify iSCSI optimization (global) After you enable iSCSI optimization, the iSCSI application priority TLV parameters are added in the show command output to verify a PFC configuration.
Local DCBX Configured mode is CEE Peer Operating version is CEE Local DCBX TLVs Transmitted: ErPfi Local DCBX Status ----------------DCBX Operational Version is 0 DCBX Max Version Supported is 0 Sequence Number: 2 Acknowledgment Number: 1 Protocol State: In-Sync Peer DCBX Status ----------------DCBX Operational Version is 0 DCBX Max Version Supported is 0 Sequence Number: 1 Acknowledgment Number: 2 3 Input PFC TLV pkts, 3 Output PFC TLV pkts, 0 Error PFC pkts 3 Input PG TLV Pkts, 3 Output PG TLV Pkts, 0 Err
12 sFlow sFlow is a standard-based sampling technology embedded within switches and routers that monitors network traffic. It provides traffic monitoring for high-speed networks with many switches and routers.
• Disable sFlow in CONFIGURATION mode.
Collector configuration Configure the IPv4 or IPv6 address for the sFlow collector. You can configure a maximum of two sFlow collectors. If you specify two collectors, the samples are sent to both. The agent IP address must be the same for both the collectors. • Enter an IPv4 or IPv6 address for the sFlow collector, IPv4 or IPv6 address for the agent, UDP collector port number (default 6343), maximum datagram size (up to 1400), and the VRF instance number in CONFIGURATION mode.
sflow enable ! Sample-rate configuration Sampling rate is the number of packets skipped before the sample is taken. If the sampling rate is 4096, one sample generates for every 4096 packets observed. • • • Set the sampling rate in CONFIGURATION mode, from 4096 to 65535. The default is 32768. sflow sample-rate sampling-size Disable packet sampling in CONFIGURATION mode. no sflow sample-rate View the sampling rate in EXEC mode.
• View sFlow configuration details on a specific interface in EXEC mode. OS10# show sflow interface port-channel 1 port-channel1 sFlow is enabled on port-channel1 Samples rcvd from h/w: 0 • View the sFlow running configuration in EXEC mode. OS10# show running-configuration sflow sflow enable sflow max-header-size 80 sflow polling-interval 30 sflow sample-rate 4096 sflow collector 10.16.150.1 agent-addr 10.16.132.67 6767 max-datagram-size 800 sflow collector 10.16.153.176 agent-addr 3.3.3.
sflow enable Enables sFlow on a specific interface or globally on all interfaces. Syntax sflow enable [all-interfaces] Parameters all-interfaces — (Optional) Enter to enable sFlow globally. Default Disabled Command Mode CONFIGURATION Usage Information The no version of this command to disables sFlow.
Defaults 30 Command Mode CONFIGURATION Usage Information The polling interval for an interface is the number of seconds between successive samples of counters sent to the collector. You can configure the duration for polled interface statistics. The no version of the command resets the interval time to the default value. Example OS10(conf)# sflow polling-interval 200 Supported Releases 10.3.0E or later sflow sample-rate Configures the sampling rate.
0 UDP packets dropped 34026 sFlow samples collected Example (portchannel) OS10# show sflow interface port-channel 1 port-channel1 sFlow is enabled on port-channel1 Samples rcvd from h/w: 0 Supported Releases 10.3.
13 Troubleshoot OS10 Critical workloads and applications require constant availability. Dell EMC Networking offers tools to help you monitor and troubleshoot problems before they happen.
1 1 1 1 S4048T-ON-FANTRAY-1 S4048T-ON-FANTRAY-2 S4048T-ON-FANTRAY-3 S4048T-ON-FANTRAY-4 061DJT 061DJT 061DJT 061DJT X01 X01 X01 X01 TW-061DJT-28298-615-0089 TW-061DJT-28298-615-0090 TW-061DJT-28298-615-0091 TW-061DJT-28298-615-0092 Boot partition and image Display system boot partition–related and image-related information. • View all boot information in EXEC mode. show boot • View boot details in EXEC mode.
3 root 5 root 7 root 8 root 10 root 11 root 12 root 13 root 14 root 15 root 16 root 17 root 19 root 20 root 21 root 22 root 23 root 24 root 25 root --more-- 20 0 20 20 20 20 20 rt rt rt rt 20 0 0 20 0 20 0 25 0 -20 0 0 0 0 0 0 0 0 0 0 -20 -20 0 -20 0 -20 5 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 S S R S S S S S S S S S S S S S S S S 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.
Capture packets from Ethernet interface $ tcpdump -i e101-003-0 tcpdump: verbose output suppressed, use -v or -vv for full protocol decode listening on e101-003-0, link-type EN10MB (Ethernet), capture size 262144 bytes 01:39:22.457185 IP 3.3.3.1 > 3.3.3.4: ICMP echo request, id 5320, seq 26, length 64 01:39:22.457281 IP 3.3.3.1 > 3.3.3.
When you execute traceroute, the output shows the path a packet takes from your device to the destination IP address. It also lists all intermediate hops (routers) that the packet traverses to reach its destination, including the total number of hops traversed. Check IPv4 connectivity OS10# ping 172.31.1.255 Type Ctrl-C to abort. Sending 5, 100-byte ICMP Echos to 172.31.1.255, timeout is 2 seconds: Reply to request 1 from 172.31.1.208 0 ms Reply to request 1 from 172.31.1.
1 3ffe:501:ffff:100:201:e8ff:fe00:4c8b 000.000 ms 000.000 ms 000.000 ms View diagnostics View system diagnostic information using show commands. The show hash-algorithm command is used to view the current hash algorithms configured for LAG and ECMP.
Software Version Physical Ports BIOS System CPLD Master CPLD Slave CPLD : : : : : : 10.3.9999E(X) 48x10GbE, 6x40GbE 3.21.0.
Default Not configured Command Mode EXEC Usage Information Use the location-led system command to change the location LED for the specified system ID. Example OS10# location-led system 1 on OS10# location-led system 1 off Supported Releases 10.3.0E or later ping Tests network connectivity to an IPv4 device.
• -p pattern — (Optional) Enter up to 16 pad bytes to fill out the packet you send to diagnose data-related problems in the network (for example, -p ff fills the sent packet with all 1’s. • -Q tos — (Optional) Enter the number of datagrams (up to 1500 bytes in decimal or hex) to set quality of service (QoS)-related bits. • -s packetsize — (Optional) Enter the number of data bytes to send (1 to 65468, default 56). • -S sndbuf — (Optional) Set the sndbuf socket.
• -a — (Optional) Audible ping. • -A — (Optional) Adaptive ping. An inter-packet interval adapts to the round-trip time so that not more than one (or more, if preload option is set) unanswered probe is present in the network. The minimum interval is 200 msec for a non-super-user, which corresponds to flood mode on a network with a low round-trip time. • -b — (Optional) Pings a broadcast address. • -B — (Optional) Does not allow ping to change the source address of probes.
Default Not configured Command Mode EXEC Usage Information This command uses an ICMP ECHO_REQUEST datagram to receive an ICMP ECHO_RESPONSE from a network host or gateway. Each ping packet has an IPv6 and ICMP header, followed by a time value and a number of ''pad'' bytes used to fill out the packet. A pingv6 operation sends a packet to a specified IPv6 address and then measures the time it takes to get a response from the address or device.
show diag Displays diagnostic information for port adapters and modules. Syntax show diag Parameters None Default Not configured Command Mode EXEC Usage Information None Example OS10# show diag 00:00.0 Host bridge: Intel Corporation Atom processor C2000 SoC Transaction Router (rev 02) 00:01.0 PCI bridge: Intel Corporation Atom processor C2000 PCIe Root Port 1 (rev 02) 00:02.0 PCI bridge: Intel Corporation Atom processor C2000 PCIe Root Port 2 (rev 02) 00:03.
------------------------------------1 up 43 Thermal sensors Unit Sensor-Id Sensor-name Temperature -----------------------------------------------------------------------------1 1 CPU On-Board temp sensor 32 1 2 Switch board temp sensor 28 1 3 System Inlet Ambient-1 temp sensor 27 1 4 System Inlet Ambient-2 temp sensor 25 1 5 System Inlet Ambient-3 temp sensor 26 1 6 Switch board 2 temp sensor 31 1 7 Switch board 3 temp sensor 41 1 8 NPU temp sensor 43 Supported Releases 10.2.
Supported Releases 10.2.0E or later show processes View process CPU utilization information. Syntax show processes node-id node-id-number [pid process-id] Parameters • node-id-number — Enter the Node ID number <1–1>. • process-id — (Optional) Enter the process ID number <1-2147483647>. Default Not configured Command Mode EXEC Usage Information None Example OS10# show processes node-id 1 top - 09:19:32 up 5 days, 6 min, 2 users, load average: 0.45, 0.39, 0.
show system Displays system information. Syntax Parameters show system [brief | node-id] • brief — View abbreviated list of system information. • node-id — Node ID number.
Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Eth Example (brief) 1/1/2 1/1/3 1/1/4 1/1/5 1/1/6 1/1/7 1/1/8 1/1/9 1/1/10 1/1/11 1/1/12 1/1/13 1/1/14 1/1/15 1/1/16 1/1/17 1/1/18 1/1/19 1/1/20 1/1/21 1/1/22 1/1/23 1/1/24 1/1/25 1/1/26 1/1/27 1/1/28 1/1/29 1/1/30 1/1/31 1/1/32 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes No No No No Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes No No No No BREAKOUT_1x1 BREAKOUT_1x1 BREAKOUT_1x1 BREAK
traceroute Displays the routes that packets take to travel to an IP address. Syntax Parameters traceroute [vrf management] host [-46dFITnreAUDV] [-f first_ttl] [-g gate,...] [-i device] [-m max_ttl] [-N squeries] [-p port] [-t tos] [-l flow_label] [-w waittime] [-q nqueries] [-s src_addr] [-z sendwait] [--fwmark=num] host [packetlen] • vrf management— (Optional) Traces the route to an IP address in the management VRF instance. • host — Enter the host to trace packets from.
4 Host65.hbms.com (63.80.56.65) 3.583 ms 3.776 ms 3.757 ms 5 host33.30.198.65 (65.198.30.33) 3.758 ms 4.286 ms 4.221 ms 6 3.GigabitEthernet3-3.GW3.SCL2.ALTER.NET (152.179.99.173) 4.428 ms 2.593 ms 3.243 ms 7 0.xe-7-0-1.XL3.SJC7.ALTER.NET (152.63.48.254) 3.915 ms 3.603 ms 3.790 ms 8 TenGigE0-4-0-5.GW6.SJC7.ALTER.NET (152.63.49.254) 11.781 ms 10.600 ms 9.402 ms 9 23.73.112.54 (23.73.112.54) 3.606 ms 3.542 ms 3.
Restore factory defaults Reboots the system to ONIE Rescue mode to restore the ONIE-enabled device to factory defaults. CAUTION: Restoring factory defaults erases any installed operating system and requires a long time to erase storage. ONIE Rescue bypasses the installed operating system and boots the system into ONIE until you reboot the system. After ONIE Rescue completes, the system resets and boots to the ONIE console. 1 Use the up and down arrows to select the ONIE: Rescue, then press Enter.
Configure SupportAssist SupportAssist is started by default. If you do not accept end user license agreement (EULA), SupportAssist is disabled. 1 Enter SupportAssist mode from CONFIGURATION mode. support-assist 2 (Optional) Configure the SupportAssist server URL or IP address in SUPPORT-ASSIST mode. server url server-url 3 (Optional) Configure the interface used to connect to the SupportAssist server in SUPPORT-ASSIST mode.
(END) Set company name You can optionally configure name, address and territory information. Although this information is optional, it is used by Dell Technical Support to identify which company owns the device. 1 (Optional) Configure contact information in SUPPORT-ASSIST mode. contact-company name name 2 (Optional) Configure address information in SUPPORT-ASSIST mode. Use the no address command to remove the configuration.
Schedule activity Configure the schedule for a full transfer of data. The default schedule is a full data transfer weekly — every Sunday at midnight (hour 0 minute 0). • Configure full-transfer or log-transfer activities in EXEC mode. support-assist-activity {full—transfer} schedule {hourly | daily | weekly | monthly | yearly} – hourly min number — Enter the time to schedule an hourly task (0 to 59). – daily hour number min number — Enter the time to schedule a daily task (0 to 23 and 0 to 59).
Proxy username : Activity Enable State : Activity State -------------------------------coredump-transfer enabled event-notification enabled full-transfer enabled Scheduled Activity List : Activity Schedule Schedule created on -----------------------------------------------------------full-transfer weekly: on sun at 00:00 Sep 12,2016 18:57:40 Activity Status : Activity Status last start last success ------------------------------------------------------------------------coredump-transfer success Sep 12,2016
• full-transfer — Enables transfer of logs and technical support information. Default Enabled Command Mode SUPPORT-ASSIST Usage Information Use the no version of this command to remove the configuration. Example (Event) OS10(conf-support-assist)# activity event-notification enable Example (Full) OS10(conf-support-assist)# activity full-transfer enable Example (Turn Off) OS10(conf-support-assist)# no activity coredump-transfer enable Supported Releases 10.2.
email-address Configures the email address for the contact name. Syntax email—address address Parameters address — Enter the email address for the contact name. Default Not configured Command Mode SUPPORT-ASSIST Usage Information The no version of this command removes the configuration. Example OS10(conf-support-assist-Eureka-JohnJamesSmith)# email-address jjsmith@eureka.com Supported Releases 10.2.0E or later eula-consent Accepts or rejects the SupportAssist end-user license agreement (EULA).
• no-contact — Enter to select no-contact as the preferred contact method. Default No-contact Command Mode SUPPORT-ASSIST Usage Information The no version of this command removes the configuration. Example OS10(conf-support-assist-Eureka-JohnJamesSmith)# preferred-method email Supported Releases 10.2.0E or later proxy-server Configures a proxy IP address for reaching the SupportAssist server.
show support-assist eula Displays the EULA for SupportAssist. Syntax show support-assist eula Parameters None Default None Command Mode EXEC Usage Information Use the eula-consent support-assist accept command to accept the license agreement. Example OS10# show support-assist eula I accept the terms of the license agreement. You can reject the license agreement by configuring this command 'eula-consent support-assist reject.' By installing SupportAssist, you allow Dell, Inc.
Example OS10# show support-assist status EULA : Accepted Service : Enabled Contact-Company : DellCMLCAEOS10 Street Address : 7625 Smetana Lane Dr Bldg 7615 Cube F577 City : Minneapolis State : Minnesota Country : USA Zipcode : 55418 Territory : USA Contact-person : Michael Dale Email : abc@dell.com Primary phone : 555-123-4567 Alternate phone : Contact method : email Server(configured) : https://web.dell.
Example OS10(conf-support-assist)# source-interface ethernet 1/1/4 Supported Releases 10.4.0E(R1) or later street-address Configures the street address information for the company. Syntax street-address {address} Parameters address — Enter one or more addresses in double quotes (up to 140 characters). Default Not configured Command Mode SUPPORT-ASSIST Usage Information Add spaces to the company street address by enclosing the address in quotes.
Usage Information The no version of this command removes the schedule activity. Example OS10# support-assist-activity full-transfer schedule daily hour 22 min 50 Supported Releases 10.2.0E or later territory Configures the territory for the company. Syntax territory territory Parameters territory — Enter the territory for the company. Default Not configured Command Mode CONFIG-SUPPORT-ASSIST Usage Information The no version of this command removes the company territory configuration.
sosreport generation start event May 11 22:9:43: collection task May 11 22:9:43: collection task %Node.1-Unit.1:PRI:OS10 %log-notice:SOSREPORT_GEN_STARTED: CLI completed; sosreport execution task started:All Plugin options %Node.1-Unit.1:PRI:OS10 %log-notice:SOSREPORT_GEN_STARTED: CLI completed; sosreport execution task started:All Plugin options output disabled output enabled Support bundle generation successful event Apr 19 bundle Apr 19 bundle 17:0:9: %Node.1-Unit.
Triggered alarms are in one of these states: • • Active — Alarms that are current and not cleared. Cleared — Alarms that are resolved and the device has returned to normal operation. System logging You can change system logging default settings using the severity level to control the type of system messages that are logged. Range of logging severities: • log-emerg — System is unstable. • log-alert — Immediate action needed. • log-crit — Critical conditions. • log-err — Error conditions.
Use the show trace command to view the current syslog file. All event and alarm information is sent to the syslog server, if one is configured. The show logging command accepts the following parameters: • log-file — Provides a detailed log including both software and hardware saved to a file. • process-names — Provides a list of all processes currently running which can be filtered based on the process-name. View logging log-file OS10# show logging log-file Jun 1 05:01:46 %Node.1-Unit.
View environment OS10# show environment Unit State Temperature Voltage -------------------------------------------1 up 42 -------------------------------------------Thermal sensors Unit Sensor-Id Sensor-name Temperature --------------------------------------------------------1 1 T2 temp sensor 28 1 2 system-NIC temp sensor 25 1 3 Ambient temp sensor 24 1 4 NPU temp sensor 40 --------------------------------------------------------- Link-bundle monitoring Monitoring link aggregation group (LAG) bundles allo
Usage Information Use the show alarm index command to view a list of alarm IDs. Example OS10# alarm clear 200 Supported Releases 10.2.0E or later show alarms Displays all current active system alarms.
Severity: Type: Source: Name: Description: Raise-time: Clear-time: New: State: Supported Releases warning 1081364 Node.1-Unit.1 EQM_THERMAL_WARN_CROSSED Sep 20 0:16:52 true raised 10.2.0E or later show alarms history Displays the history of cleared alarms. Syntax show alarms history [summary] Parameters summary — Enter to view a summary of the alarm history.
Active-alarm details - 1 ------------------------------------------Index: 1 Sequence Number: 5 Severity: warning Type: 1081364 Source: Node.1-Unit.1 Name: EQM_THERMAL_WARN_CROSSED Description: Raise-time: Sep 20 0:16:52 Clear-time: New: true State: raised Supported Releases 10.2.0E or later show alarms severity Displays all active alarms using the severity level. Syntax show alarms severity severity Parameters severity — Set the alarm severity: • critical — Critical alarm severity.
Clear-time: New: State: Supported Releases true raised 10.2.0E or later show alarms summary Displays the summary of alarm information. Syntax show alarms summary Parameters None Default Not configured Command Mode EXEC Usage Information None Example OS10# show alarms summary Active-alarm Summary ----------------------Total-count: 6 Critical-count: 0 Major-count: 2 Minor-count: 2 Warning-count: 2 ----------------------- Supported Releases 10.2.
logging console Disables, enables, or configures the minimum severity level for logging to the console. Syntax logging console {disable | enable | severity} To set the severity to the default level, use the no logging console severity command. The default severity level is log-notice. Parameters severity — Set the minimum logging severity level: • log-emerg — Set to unusable. • log-alert — Set to immediate action is needed. • log-crit — Set to critical conditions.
logging log-file Disables, enables, or sets the minimum severity level for logging to the logfile. Syntax logging log-file {disable | enable | severity} To reset the log-file severity to the default level, use the no logging log-file severity command. The default severity level is log-notice. Parameters severity — Set the minimum logging severity level: • log-emerg — Set the system as unusable. • log-alert — Set to immediate action is needed. • log-crit — Set to critical conditions.
• log-info — Set to informational messages. • log-debug — Set to debug messages. Default Log-notice Command Mode CONFIGURATION Usage Information None Example OS10(config)# logging monitor severity log-info Supported Releases 10.2.0E or later logging server Configures the remote syslog server.
Parameters • process-name — (Optional) Enter the process-name to use as a filter in syslog messages. • line-numbers — (Optional) Enter the number of lines to include in the logging messages (1 to 65535). Default None Command Mode EXEC Usage Information The output from this command is the /var/log/eventlog file.
erted to SAI types (func:2359304) May 23 17:10:04 OS10 base_nas: [NDI:NDI-SAI], converted May 23 17:10:04 OS10 base_nas: [NDI:NDI-SAI], conv erted to SAI types (func:2359305) May 23 17:10:04 OS10 base_nas: [NDI:NDI-SAI], conv erted to SAI types (func:2359311) May 23 17:10:04 OS10 base_nas: [NDI:NDI-SAI], converted May 23 17:10:04 OS10 base_nas: [NDI:NDI-SAI], conv erted to SAI types (func:2359312) May 23 17:10:04 OS10 base_nas: [NDI:NDI-SAI], (23 59344) May 23 17:10:04 OS10 base_nas: [NDI:NDI-SAI], (23 5934
This product is protected by U.S. and international copyright and intellectual property laws. Dell EMC and the Dell EMC logo are trademarks of Dell Inc. in the United States and/or other jurisdictions. All other marks and names mentioned herein may be trademarks of their respective companies. linuxadmin@OS10:~$ To log in to OS10 and access the command-line interface, enter su — admin at the Linux shell prompt, then admin as the password.
• Set flow control to none How do I view the hardware inventory? Use the show inventory command to view complete system inventory. How do I view the process-related information? Use the show processes node-id node-id-number [pid process-id] command to view the process CPU utilization information. Configuration How do I enter CONFIGURATION mode? Use the configure terminal command to change from EXEC mode to CONFIGURATION mode.
How do I view summary information for all IP routes? Use the show running-configuration command. How do I view summary information for the OSPF database? Use the show ip ospf database command. How do I view configuration of OSPF neighbors connected to the local router? Use the show ip ospf neighbor command. System management How can I view the current interface configuration? Use the show running-configuration command to view all currently configured interfaces.
• % Warning: Make sure all qos-groups are matched in a single class in attached policy-map Priority flow control mode error message: % Error: LLFC flowcontrol is on, disable LLFC to enable PFC PFC shared-buffer size error message: % Error: Hardware update failed. Pause error message: % Error: Buffer-size should be greater than Pause threshold and Pause threshold should be greater than equal to Resume threshold.
14 Support resources The Dell EMC Support site provides a range of documents and tools to assist you with effectively using Dell EMC devices. Through the support site you can obtain technical information regarding Dell EMC products, access software upgrades and patches, download available management software, and manage your open cases. The Dell EMC support site provides integrated, secure access to these services. To access the Dell EMC Support site, go to www.dell.com/support/.