H3C S9500 Series Operating instructions

H3C S9500 Series Routing Switches

Operation Manual

Hangzhou H3C Technologies Co., Ltd.

http://www.h3c.com

Manual Version: T2-081655-20080530-C-2.03

Product Version: S9500-CMW520-R2132

No part of this manual may be reproduced or transmitted in any form or by any means

without prior written consent of Hangzhou H3C Technologies Co., Ltd.

Trademarks

H3C, , Aolynk, , H

3

Care,

, TOP G, , IRF, NetPilot,

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Storware, NQA, VVG, V

2

G, V

n

G, PSPT, XGbus, N-Bus, TiGem, InnoVision and

HUASAN are trademarks of Hangzhou H3C Technologies Co., Ltd.

All other trademarks that may be mentioned in this manual are the property of their

respective owners.

Notice

The information in this document is subject to change without notice. Every effort has

been made in the preparation of this document to ensure accuracy of the contents, but

all statements, information, and recommendations in this document do not constitute

the warranty of any kind, express or implied.

To obtain the latest information, please access:

http://www.h3c.com

Technical Support

customer_service@h3c.com

http://www.h3c.com

About This Manual

Related Documentation

In addition to this manual, each H3C S9500 Series Routing Switches documentation

set includes the following:

Manual Description

H3C S9500 Series Routing Switches

Installation Manual

It introduces the installation procedure,

commissioning, maintenance and

monitoring of the S9500 series routing

switches.

H3C S9500 Series Routing Switches

Command Manual

It includes Feature List and Command

Index, Access Volume, IP Service

Volume, IP Routing Volume, IP Multicast

Volume, MPLS VPN Volume, QoS ACL

Volume, Security Volume, System

Volume, and unsupported commands.

Organization

H3C Configuration Manual is organized as follows:

Part Contents

00 Product Overview

includes Obtaining the Documentation, Product

Features, and Features.

01 Access Volume

includes Ethernet Interface Configuration, POS

Interface Configuration, GVRP Configuration, Link

Aggregation Configuration, Port Mirroring

Configuration, RPR Configuration, Ethernet OAM

Configuration MSTP Configuration, VLAN

Configuration, QinQ Configuration, BPDU Tunneling

Configuration, and Port Isolation Configuration.

02 IP Services Volume

includes ARP Configuration, DHCP Configuration,

DNS Configuration, IP Addressing Configuration, IP

Performance Configuration, UDP Helper Configuration

IPv6 Basics Configuration, Dual Stack Configuration,

Tunneling Configuration, and Adjacency Table

Configuration.

Part Contents

03 IP Routing Volume

includes IP Routing Overview, BGP Configuration,

IS-IS Configuration, OSPF Configuration, RIP

Configuration, Routing Policy Configuration, Static

Routing Configuration, IPv6 BGP Configuration, IPv6

IS-IS Configuration, IPv6 OSPFv3 Configuration, IPv6

RIPng Configuration, and IPv6 Static Routing

Configuration.

04 IP Multicast Volume

includes Multicast Overview, Multicast Routing and

Forwarding Configuration, IGMP Snooping

Configuration, IGMP Configuration, PIM Configuration,

MSDP Configuration, IPv6 Multicast Routing and

Forwarding Configuration, MLD Snooping

Configuration, MLD Configuration, IPv6 PIM

Configuration, and Multicast VLAN Configuration.

05 MPLS VPN Volume

includes MPLS Basics Configuration, MPLS TE

Configuration, VPLS Configuration, MPLS L2VPN

Configuration, MPLS L3VPN Configuration, MPLS

Hybrid Insertion Configuration, and GRE Configuration.

06 QoS ACL Volume includes QoS Configuration and ACL Configuration.

07 Security Volume

includes 802.1x Configuration, AAA RADIUS

HWTACACS Configuration, MAC Authentication

Configuration, L3+NAT Configuration, Password

Control Configuration, SSH2.0 Configuration, and

Portal Configuration.

08 System Volume

includes GR Configuration, VRRP Configuration, HA

Configuration, Device Management Configuration,

NQA Configuration, NetStream Configuration, NTP

Configuration, RMON Configuration, SNMP

Configuration, File System Management Configuration,

System Maintaining and Debugging Configuration,

Basic System Configuration, Information Center

Configuration, User Interface Configuration, MAC

Address Table Management Configuration, PoE

Configuration, and Clock Monitoring Configuration.

09 OAA Volume

includes OAP Module Configuration and ACSEI

Configuration.

10 Acronyms Offers the acronyms used in this manual.

Conventions

The manual uses the following conventions:

I. Command conventions

Convention Description

Boldface

The keywords of a command line are in Boldface.

italic

Command arguments are in italic.

[ ]

Items (keywords or arguments) in square brackets [ ] are

optional.

{ x | y | ... }

Alternative items are grouped in braces and separated by

vertical bars. One is selected.

[ x | y | ... ]

Optional alternative items are grouped in square brackets

and separated by vertical bars. One or none is selected.

{ x | y | ... } *

Alternative items are grouped in braces and separated by

vertical bars. A minimum of one or a maximum of all can be

selected.

[ x | y | ... ] *

Optional alternative items are grouped in square brackets

and separated by vertical bars. Many or none can be

selected.

&<1-n>

The argument(s) before the ampersand (&) sign can be

entered 1 to n times.

# A line starting with the # sign is comments.

II. GUI conventions

Convention Description

< >

Button names are inside angle brackets. For example, click

<OK>.

[ ]

Window names, menu items, data table and field names

are inside square brackets. For example, pop up the [New

User] window.

/

Multi-level menus are separated by forward slashes. For

example, [File/Create/Folder].

III. Symbols

Convention Description

Warning

Means reader be extremely careful. Improper operation

may cause bodily injury.

Caution

Means reader be careful. Improper operation may cause

data loss or damage to equipment.

 Note Means a complementary description.

Operation Manual

H3C S9500 Series Routing Switches Access Volume Organization

Manual Version

T2-081655-20080530-C-2.03

Product Version

S9500-CMW520-R2132

Organization

The Access Volume is organized as follows:

Features

(operation

manual)

Description

Ethernet Interface

The volume describes:

z Ethernet port overview

z Ethernet port configuration

POS Interface

Packet over SONET/SDH (POS) is a technology used in MAN

(metropolitan area network) and WAN (wide area network) for

data packet transmission. The volume describes:

z POS port overview

z POS port configuration

GVRP

GVRP is a GARP application. The volume describes:

z GARP overview

z GVRP configuration

Link Aggregation

Link aggregation means aggregating several ports together

into an aggregation group. The volume describes:

z Link aggregation overview

z Link aggregation configuration

Port Mirroring

Port mirroring is to copy the packets passing through a port to

another port connected with a monitoring device for packet

analysis. The volume describes:

z Port Mirroring overview

z Port Mirroring configuration

RPR

RPR is a new MAC layer protocol designed for transferring

mass data services over MANs. The volume describes:

z RPR overview

z RPR configuration

Operation Manual

H3C S9500 Series Routing Switches Access Volume Organization

Features

(operation

manual)

Description

Ethernet OAM

Ethernet OAM is a tool monitoring Layer-2 link status. It helps

network administrators manage their networks effectively. The

volume describes:

z Ethernet OAM overview

z Ethernet OAM configuration

MSTP

MSTP is compatible with STP and RSTP. The volume

describes:

z Introduction to MSTP

z MSTP configuration

VLAN

A Virtual Local Area Network (VLAN) groups the devices in a

LAN logically into segments to form virtual workgroups. The

volume describes:

z VLAN overview and configuration

z VLAN types

z Super VLAN overview and configuration

z Isolate-user-VLAN overview and configuration

QinQ

QinQ is a technique that enables packets to be transmitted

across the operators’ backbone networks with VLAN tags of

private networks nested in those of public networks. The

volume describes:

z QinQ overview

z Basic QinQ configuration

BPDU Tunneling

The BPDU tunneling feature enables geographically

segmented customer network to transmit BPDU packets

transparently over the specified VLAN on the service provider

network. The volume describes:

z BPDU tunnel overview

z BPDU tunnel configuration

Port Isolation

Using the port isolation feature, you can place different user

ports into the same VLAN. The volume describes:

z Port isolation overview

z Port isolation configuration

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Table of Contents

i

Table of Contents

Chapter 1 Ethernet Interface Configuration ...............................................................................1-1

1.1 Ethernet Interface Configuration........................................................................................1-1

1.1.1 Configuration Task List ...........................................................................................1-1

1.1.2 Configuring LAN/WAN Mode for a 10GE Interface.................................................1-1

1.1.3 Basic Ethernet Interface Configuration...................................................................1-3

1.1.4 Configuring Flow Control on an Ethernet Interface.................................................1-4

1.1.5 Configuring Physical State Change Suppression on an Ethernet Interface...........1-5

1.1.6 Configuring Loopback Testing on an Ethernet Interface.........................................1-5

1.1.7 Configuring a Manual Port Group ...........................................................................1-6

1.1.8 Configuring Traffic Suppression for an Ethernet Interface......................................1-7

1.1.9 Setting the Interval for Collecting Ethernet Interface Statistics...............................1-8

1.1.10 Setting the Maximum Jumbo Frame Size for Ethernet Interfaces........................1-8

1.1.11 Configuring the MDI Mode of an Ethernet Interface .............................................1-9

1.1.12 Configuring the Source MAC Address for an Interface.......................................1-10

1.2 Displaying and Maintaining Ethernet Interfaces..............................................................1-11

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-1

Chapter 1 Ethernet Interface Configuration

When configuring Ethernet interfaces, go to these sections for information you are

interested in:

z Ethernet Interface Configuration

z Displaying and Maintaining Ethernet Interfaces

1.1 Ethernet Interface Configuration

1.1.1 Configuration Task List

Complete the following tasks to configure an Ethernet interface:

Task Remarks

Configuring LAN/WAN Mode for a 10GE Interface Optional

Basic Ethernet Interface Configuration Optional

Configuring Flow Control on an Ethernet Interface Optional

Configuring Physical State Change Suppression on an

Ethernet Interface

Optional

Configuring Loopback Testing on an Ethernet Interface Optional

Configuring a Manual Port Group Optional

Configuring Traffic Suppression for an Ethernet Interface Optional

Setting the Interval for Collecting Ethernet Interface Statistics Optional

Setting the Maximum Jumbo Frame Size for Ethernet

Interfaces

Optional

Configuring the MDI Mode of an Ethernet Interface Optional

Configuring the Source MAC Address for an Interface Optional

1.1.2 Configuring LAN/WAN Mode for a 10GE Interface

I. Introduction to LAN/WAN mode

According to the physical characteristics, a ten-GigabitEthernet (10GE) interface can

work in LAN or WAN mode.

z LAN mode. 10GE interfaces operating in this mode are used to provide network

access for Ethernets. They receive and forward Ethernet packets.

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-2

z WAN mode. 10GE interfaces operating in this mode are used to provide network

access for SDH networks. They receive and forward synchronous digital hierarchy

(SDH) packets across point-to-point connections only.

 Note:

Although 10GE interfaces operating in WAN mode encapsulate Ethernet packets as

SDH frames, and 10G packets over SDH (POS) interfaces encapsulate PPP packets

as SDH frames, the two types of SDH frames differ in frame format. Therefore, a 10GE

interface operating in WAN mode cannot communicate a 10G POS interface.

II. Introduction to J0/J1 overhead byte

SDH frames have diversified overhead bytes, which accomplish the operation and

maintenance functions such as hierarchical management of the transport network. J0

and J1 are used to provide internetworking support between different countries, regions,

or devices of different manufacturers.

The regenerator section trace byte J0 is usually set to a section access point identifier.

The sending end keeps connected with the receiving end by sending this byte

repeatedly.

The path trace byte J1, usually set to a high-order path access point identifier, functions

in a similar to keep the connection with the receiving end of the path.

To ensure smooth communication, the J0 and J1 bytes should be matched respectively

at the sending and receiving ends. For details about SDH and SDH overhead bytes,

refer to related documents.

III. Configure a 10GE interface to operate in LAN/WAN mode

Follow these steps to configure a 10GE interface to operate in LAN/WAN mode:

To do… Use the command… Remarks

Enter system view

system-view

—

Enter ten-GigabitEthernet

interface view

interface

ten-gigabitEthernet

interface-number

—

Configure the 10GE

interface to operate in

LAN/WAN mode

port-mode { lan | wan }

Optional

By default, a 10GE

interface operates in LAN

mode.

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-3

To do… Use the command… Remarks

Configure a value for

J0/J1 bytes when the

10GE interface operates

in WAN mode.

flag { j0 | j1 } sdh

flag-value

Optional

By default, the value of

the J0/J1 bytes is 0.

 Note:

z The flag command is available only when the 10GE interface is operating in WAN

mode.

z WAN mode is not supported on LSB1XP4CA, LSB1XK1DB, and LSB1XP4B

boards.

1.1.3 Basic Ethernet Interface Configuration

Three types of duplex modes are available for Ethernet interfaces:

z Full-duplex mode (full). Interfaces operating in this mode can send and receive

packets simultaneously.

z Half-duplex mode (half). Interfaces operating in this mode can either send or

receive packets at a given time.

z Auto-negotiation mode (auto). Interfaces operating in this mode determine their

duplex mode through auto-negotiation.

If you configure the transmission rate for an Ethernet interface with the speed auto

command, the transmission rate is determined through auto-negotiation.

Follow these steps to perform basic Ethernet interface configurations:

To do... Use the command... Remarks

Enter system view

system-view

—

Enter Ethernet interface

view

interface interface-type

interface-number

—

Set the descriptive

information for the

Ethernet interface

description text

Optional

By default, the descriptive

information is “interface

index + Interface”.

Set the duplex mode duplex { auto | full | half }

Optional

auto by default.

Set the transmission rate

speed { 10 | 100 | 1000 |

auto }

Optional

auto by default.

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-4

To do... Use the command... Remarks

Shut down the Ethernet

interface

Shutdown

Optional

By default, an Ethernet

interface is in up state.

Use the undo shutdown

command to bring up the

interface.

 Note:

z The speed 1000 command is only available for GigabitEthernet interfaces.

z GigabitEthernet electric interfaces cannot operate in half-duplex mode when the

transmission rate is set to 1000 Mbps.

z Ethernet optical interfaces cannot operate in half-duplex mode.

z You cannot set the transmission rate of a ten-GigabitEthernet or 100-Mbps Ethernet

optical interface. For a 1000-Mbps Ethernet optical interface, you can only set the

transmission rate to 1000 Mbps or auto negotiation.

z When an O/E converter is used for an interface, set the duplex mode of the interface

to auto for the interface to operate normally.

1.1.4 Configuring Flow Control on an Ethernet Interface

When flow control is enabled on both sides, if traffic congestion occurs at the ingress

interface, it will send a Pause frame notifying the egress interface to temporarily

suspend the sending of packets. The egress interface is expected to stop sending any

new packets when it receives the Pause frame. In this way, flow controls helps to avoid

the dropping of packets. Note that only after both the ingress and the egress interfaces

have turned on their flow control will this be possible.

Follow these steps to enable flow control on an Ethernet interface:

To do... Use the command... Remarks

Enter system view

system-view

—

Enter Ethernet interface

view

interface interface-type

interface-number

—

Enable flow control

flow-control

Required

Turned off by default

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-5

1.1.5 Configuring Physical State Change Suppression on an Ethernet

Interface

An Ethernet interface operates in one of the two physical link states: up or down. During

the suppression time, physical-link-state changes will not be propagated to the system.

Only after the suppression time has elapsed will the system be notified of the

physical-link-state changes by the physical layer. This functionality reduces the extra

overhead occurred due to frequent physical-link-state changes within a short period of

time.

Follow these steps to configure the up/down suppression time on an Ethernet Interface:

To do... Use the command... Remarks

Enter system view

system-view

—

Enter Ethernet interface

view

interface interface-type

interface-number

—

Configure the up/down

suppression time of

physical-link-state

changes

link-delay delay-time

Required

Defaults to 1 second.

1.1.6 Configuring Loopback Testing on an Ethernet Interface

You can enable loopback testing to check whether the Ethernet interface functions

properly. Note that no data packets can be forwarded during the testing. Loopback

testing falls into the following two categories:

z Internal loopback testing: a loopback testing carried out within the device, if data

packets sent from an Ethernet interface can be received by the same interface, the

internal loopback testing is successful indicating that the interface is functioning

properly.

z External loopback testing: a loopback plug needs to be plugged into an Ethernet

interface, if data packets sent from the interface is received by the same interface

through the loopback plug, the external loopback testing is successful indicating

that the interface is functioning properly.

Follow these steps to enable Ethernet interface loopback testing:

To do... Use the command... Remarks

Enter system view

system-view

—

Enter Ethernet interface

view

interface interface-type

interface-number

—

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-6

To do... Use the command... Remarks

Enable loopback testing

loopback { external |

internal }

Optional

Disabled by default.

 Note:

z Currently, the S9500 series routing switches do not support the external loopback

testing.

z Internal loopback testing can only be enabled on interfaces in down state. That is, it

is unavailable to interfaces that are shut down manually.

z The speed, duplex, mdi, and shutdown commands are not applicable during a

loopback testing.

z With the loopback testing enabled, the Ethernet interface works in the full duplex

mode at highest speed. With the loopback testing enabled, the original

configurations will be restored.

1.1.7 Configuring a Manual Port Group

To make the configuration task easier for users, certain devices allow users to configure

on a single port as well as on multiple ports in a port group. In manual port group view,

the user only needs to input the configuration command once and that configuration will

apply to all ports in the port group. This effectively reduces redundant configurations.

Follow these steps to enter manual port group view:

To do... Use the command... Remarks

Enter system view

system-view

—

Enter manual port group

view

port-group manual

port-group-name

—

Follow these steps to configure a manual port group:

To do... Use the command... Remarks

Enter system view

system-view

—

Create a manual port

group and enter manual

port group view

port-group manual

port-group-name

Required

Add Ethernet interfaces to

the manual port group

group-member

interface-list

Required

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-7

 Note:

For information about aggregation port groups, refer to the Link Aggregation

Configuration in the Access Volume.

1.1.8 Configuring Traffic Suppression for an Ethernet Interface

You can suppress the broadcast and multicast traffic passing through an Ethernet

interface.

When the traffic over the interface exceeds the pre-set threshold, the system will

discard the extra packets to ensure that the network functions properly.

Follow these steps to configure the traffic suppression function for an Ethernet

interface:

To do... Use the command... Remarks

Enter system view

system-view

—

Enter

Ethernet

interface

view

interface interface-type

interface-number

Enter

Ethernet

interface

view or

port

group

view

Enter port

group view

port-group { manual

port-group-name |

aggregation agg-id }

Use either command.

If configured in Ethernet

interface view, this feature

takes effect on the current

interface only; if configured in

port group view, this feature

takes effect on all the

interfaces in the port group.

Configure broadcast

suppression

broadcast-suppressio

n { ratio | pps max-pps }

Optional

By default, all broadcast traffic

is allowed to pass through an

interface, that is, broadcast

traffic is not suppressed.

Configure multicast

suppression

multicast-suppression

{ ratio | pps max-pps }

Optional

Multicast suppression does not

differentiate unknown

multicasts from known

multicasts.

By default, all multicast traffic

is allowed to pass through an

Ethernet interface, that is,

multicast traffic is not

suppressed.

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-8

 Note:

z You cannot enable broadcast suppression and multicast suppression on a board at

the same time. If you have enabled broadcast suppression on some ports of a board,

you cannot enable multicast suppression on the other ports, and vice versa.

z Before enabling multicast suppression on a port, you must disable broadcast

suppression on all the other ports on the same board. Similarly, before enabling

broadcast suppression on a port, you must disable multicast suppression on all the

other ports on the same board.

z The multicast suppression function suppresses broadcast traffic in addition to

multicast traffic but the broadcast suppression does not suppress multicast traffic.

1.1.9 Setting the Interval for Collecting Ethernet Interface Statistics

Complete the following configuration tasks to configure the time interval for collecting

interface statistics. Use the display interface command to display the interface

statistics within the current interval.

Follow these steps to configure the interval for collecting Ethernet interface statistics:

To do… Use the command… Remarks

Enter system view

system-view

—

Enter Ethernet interface

view

interface interface-type

interface-number

—

Configure the time interval

for collecting interface

statistics

flow-interval interval

Required

Defaults to 300 seconds.

1.1.10 Setting the Maximum Jumbo Frame Size for Ethernet Interfaces

Usually, an Ethernet interface discards received jumbo frames (frames larger than the

standard Ethernet frame size) directly without processing them. To handle jumbo

frames under a certain size, which may be received during large-throughput data

switching like file transfer, you can set a jumbo Ethernet frame size limit on the switch.

Follow these steps to set the maximum jumbo frame size for the Ethernet interfaces on

a board:

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-9

To do... Use the command... Remarks

Enter system view

system-view

—

Set the maximum size of the

jumbo frames allowed to pass

through an Ethernet interface

on a board

jumboframe enable

[ jumboframe-value ] slot

slot-number

Optional

1552 bytes by

default.

 Note:

z The allowed maximum frame size is 10236 bytes on non-line-speed XP4 boards

and LSB1GV48 boards and 10240 bytes on other GE and 10GE boards.

z You can configure the jumbo frame size in the range 1552 to 10240 in bytes.

However, if the size is set in the range 1553 to 9022, the value 9022 takes effect; if

the size is set in the range 9023 to 9192, the value 9192 takes effect; if the size is set

in the range 9193 to 10240, 10240 takes effect.

1.1.11 Configuring the MDI Mode of an Ethernet Interface

You can connect an Ethernet interface with a crossover or straight-through cable,

depending on its medium dependent interface (MDI) mode. The MDI mode can be one

of the following:

z Across mode, where the Ethernet interface can be connected only to a crossover

cable.

z Normal mode, where the Ethernet interface can be connected only to a

straight-through cable.

z Auto mode, where the Ethernet interface can be connected to either a

straight-through cable or a crossover cable.

Use the auto mode in normal cases. In case the interface in auto mode cannot

recognize the type of the connected cable, set its MDI mode to across or normal.

Follow these steps to configure the MDI mode of an Ethernet Interface:

To do... Use the command... Remarks

Enter system view

system-view

—

Enter Ethernet interface

view

interface interface-type

interface-number

—

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-10

To do... Use the command... Remarks

Configure the MDI mode

of the Ethernet interface

mdi { across | auto |

normal }

Optional

The default is auto, that is,

the system decides the

role of the pins (to send

packets or receive

packets) through auto

negotiation.

Caution:

You can configure the cable type of 10/100 Mbps and 10/100/1000 Mbps electrical

interfaces only. The cable type of optical Ethernet interfaces is not configurable.

1.1.12 Configuring the Source MAC Address for an Interface

Normally, when a packet is forwarded by an S9500 switch on Layer 3, its source MAC

address is that of the VLAN interface which the outbound interface corresponds to.

However, It is required in some cases that the source MAC addresses of packets

forwarded through different interfaces be different for forwarding policies to take effect

on the peer devices.

By configuring the source MAC address for an interface, you can set the least octet of

the source MAC addresses of the packets forwarded through the interface for

forwarding policies to take effect on the peer devices.

Follow these steps to configure the source MAC address for an interface:

To do... Use the command... Remarks

Enter system view

system-view

—

Enter Ethernet interface

view

interface interface-type

interface-number

—

Configure the source

MAC address

source-mac-tail last-byte

Required

By default, the source

MAC address of an

interface is that of the

corresponding VLAN

interface.

Operation Manual – Ethernet Interface

H3C S9500 Series Routing Switches Chapter 1 Ethernet Interface Configuration

1-11

Caution:

After you configure the source MAC address for an interface, packets forwarded on

Layer 3 through the interface use the MAC address of the corresponding VLAN

interface as their source MAC addresses, with the least octet being replaced with value

specified by the source-mac-tail command.

 Note:

Currently, this command is not supported on the following boards: LSB1GV48DA,

LSB1GV48DB, LSB2GV48DA, LSB1GP48DB, LSB1XP4B, LSB1XP4CA, and

LSB1XP4DB.

1.2 Displaying and Maintaining Ethernet Interfaces

To do... Use the command... Remarks

Display the information of

Ethernet interfaces

display interface

[ interface-type

[ interface-number ] ]

Available in any view

Display the brief

information of Ethernet

interfaces

display brief interface

[ interface-type

[ interface-number ] ] [ |

{ begin | include |

exclude} text ]

Available in any view

Display the ports that are

of a specified type

display port { hybrid |

trunk }

Available in any view

Display the information

about a manual port group

or all the port groups

display port-group

manual [ all | name

port-group-name ]

Available in any view

Display the statistics on

the packets passing

through interfaces of

specific type

display counters

{ inbound | outbound }

interface [ interface-type ]

Available in any view

Display the rate statistics

on the packets passing

through the interfaces

within the last sample time

interval

display counters rate

{ inbound | outbound }

interface [ interface-type ]

Available in any view

Display the alarm

information of pluggable

optical modules

display transceiver

alarm interface

[ interface-type

interface-number ]

Available in any view

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