With this command configured, CDP frames sent to IP phones from the interface carry the voice VLAN ID specified in this command. IP phones use the voice VLAN ID to send voice traffic.

Examples

# Set the voice VLAN ID carried in CDP frames to 100.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] cdp voice-vlan 100

dcbx version

Use dcbx version to set the DCBX version.

Use undo dcbx version to restore the default.

Syntax

dcbx version { rev100 | rev101 | standard }

undo dcbx version

Default

The DCBX version is not configured. It is autonegotiated by the local port and peer port.

Views

Layer 2 Ethernet interface view

Predefined user roles

network-admin

mdc-admin

Parameters

rev100: Specifies DCBX Rev 1.00.

rev101: Specifies DCBX Rev 1.01.

standard: Specifies the IEEE Std 802.1Qaz-2011.

Usage guidelines

For DCBX to work correctly, set the same DCBX version on the local port and peer port. As a best practice, set the highest version supported on both ends. IEEE Std 802.1Qaz-2011, DCBX Rev 1.01, and DCBX Rev 1.00 are in descending order.

After the configuration, LLDP frames sent by the local port carry information about the configured DCBX version. The local port and peer port do not negotiate the DCBX version.

When the DCBX version is autonegotiated, the version IEEE Std 802.1Qaz-2011 is preferentially negotiated.

Examples

# Set the DCBX version to Rev. 1.01 on interface Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] dcbx version rev101

Related commands

lldp tlv-enable

display lldp local-information

Use display lldp local-information to display local LLDP information.

Syntax

display lldp local-information [ global | interface interface-type interface-number ]

Views

Any view

Predefined user roles

network-admin

network-operator

mdc-admin

mdc-operator

Parameters

global: Displays the global local LLDP information.

interface interface-type interface-number: Specifies a port by its type and number.

Usage guidelines

If you do not specify any keywords or arguments, the command displays all local LLDP information, which includes the following:

· The global LLDP information.

· The LLDP information about the LLDP-enabled ports in up state.

Examples

# Display all local LLDP information. (In this example, the DCBX version is IEEE Std 802.1Qaz-2011.)

<Sysname> display lldp local-information

Global LLDP local-information:

Chassis ID : 00e0-fc00-5600

System name : Sysname

System description :

H3C Comware Platform Software, Software Version 7.1.070, Alpha 7170

H3C Simware32

System capabilities supported : Bridge, Router, Customer Bridge, Service Bridge

System capabilities enabled : Bridge, Router, Service Bridge

MED information:

Device class : Connectivity device

MED inventory information of master board:

HardwareRev : REV.A

FirmwareRev : 109

SoftwareRev : 5.20 Alpha 2101

SerialNum : NONE

Manufacturer name : H3C

Model name : H3C S10506

Asset tracking identifier : Unknown

LLDP local-information of port 52[Ten-GigabitEthernet1/0/3]:

Port ID type : Interface name

Port ID : Ten-GigabitEthernet1/0/3

Port description : Ten-GigabitEthernet1/0/3 Interface

LLDP agent nearest-bridge management address:

Management address type : IPv4

Management address : 192.168.80.60

Management address interface type : IfIndex

Management address interface ID : Unknown

Management address OID : 0

LLDP agent nearest-nontpmr management address:

Management address type : IPv4

Management address : 192.168.80.61

Management address interface type : IfIndex

Management address interface ID : Unknown

Management address OID : 0

LLDP agent nearest-customer management address:

Management address type : IPv4

Management address : 192.168.80.62

Management address interface type : IfIndex

Management address interface ID : Unknown

Management address OID : 0

DCBX Control info:

Oper version : Standard

DCBX ETS configuration info:

CBS : False

Max TCs : 8

CoS Local Priority Percentage TSA

0 0 15 ETS

1 1 0 SP

2 2 15 ETS

3 3 14 ETS

4 4 14 ETS

5 5 14 ETS

6 6 14 ETS

7 7 14 ETS

DCBX ETS recommendation info:

CoS Local Priority Percentage TSA

0 0 15 ETS

1 1 0 SP

2 2 15 ETS

3 3 14 ETS

4 4 14 ETS

5 5 14 ETS

6 6 14 ETS

7 7 14 ETS

DCBX PFC info:

P0-0 P1-1 P2-1 P3-1 P4-0 P5-0 P6-0 P7-0

Number of traffic classes supported: 8

Value of MBC: 0

DCBX APP info:

Selected Field Protocol ID Priority

UDP/DCCP 100 0x3

TCP/SCTP 200 0x3

Ethertype 0x1234 0x3

Ethertype 0x8906 0x3

Port VLAN ID(PVID): 1

Port and protocol VLAN ID(PPVID) : 12

Port and protocol VLAN supported : Yes

Port and protocol VLAN enabled : Yes

VLAN name of VLAN 12: VLAN 0012

Management VLAN ID : 5

Link aggregation supported : Yes

Link aggregation enabled : Yes

Aggregation port ID : 52

Auto-negotiation supported : Yes

Auto-negotiation enabled : Yes

OperMau : Speed(1000)/Duplex(Full)

Power port class : PSE

PSE power supported : NO

PSE power enabled : NO

PSE pairs control ability : NO

Power pairs : Signal

Port power classification : Class 0

Power type : Type 2 PSE

Power source : Primary

Power priority : Unknown

PD requested power value : 0.0 w

PSE allocated power value : 0.0 w

Maximum frame size : 10000

Transmit Tw : 0 us

Receive Tw : 0 us

Fallback Tw : 0 us

Echo Transmit Tw : 0 us

Echo Receive Tw : 0 us

PoE PSE power source : Primary

Port PSE priority : Critical

Port available power value : 0.0 w

Table 1 Command output

Field	Description
Chassis ID	Bridge MAC address of the device.
System capabilities supported	Supported capabilities: · Bridge—Switching is supported. · Router—Routing is supported. · Repeater—Signal repeating is supported. · Telephone—The local device can act as a telephone. · DocsisCableDevice—The local device can act as a DOCSIS-compliant cable device. · StationOnly—The local device can act as a station only. · Customer Bridge—The customer bridge feature is supported. · Service Bridge—The service bridge feature is supported. · TPMR—The TPMR feature is supported. · Other—Features other than those listed above are supported.
System capabilities enabled	Enabled capabilities: · Bridge—Switching is enabled. · Router—Routing is enabled. · Repeater—Signal repeating is enabled. · Telephone—The local device is acting as a telephone. · DocsisCableDevice—The local device is acting as a DOCSIS-compliant cable device. · StationOnly—The local device is acting as a station only. · Customer Bridge—The customer bridge feature is enabled. · Service Bridge—The service bridge feature is enabled. · TPMR—The TPMR feature is enabled. · Other—Features other than those listed above are enabled.
Device class	MED device class: · Connectivity device—Network device. · Class I—Normal terminal device. It requires the basic LLDP discovery services. · Class II—Media terminal device. It supports media streams, and can also act as a normal terminal device. · Class III—Communication terminal device. It supports the IP communication systems of end users, and can also act as a normal terminal device or media terminal device.
MED inventory information of master board	MED inventory information about the MPU.
HardwareRev	Hardware version.
FirmwareRev	Firmware version.
SoftwareRev	Software version.
SerialNum	Serial number.
Manufacturer name	Device manufacturer.
Model name	Device model.
Port ID type	Port ID type: · MAC address. · Interface name.
Port ID	Port ID, the value of which depends on the port ID type.
Management address interface type	Numbering type of the interface identified by the management address.
Management address interface ID	Index of the interface identified by the management address.
Management address OID	Management address object ID.
DCBX control info	Displayed as version information in IEEE Std 802.1Qaz-2011.
Oper version	DCBX version number.
Sequence number	Number of DCBX TLV content changes.
Acknowledge number	Times of synchronizing configurations by the peer device.
DCBX ETS info	CoS-to-local priority mapping and bandwidth allocation.
Percentage	Percentage of bandwidth allocated.
P0- P1- P2- P3- P4- P5- P6- P7-	Number of supported priorities configured by using the priority-flow-control no-drop dot1p dot1p-list command at the local end.
Number of traffic classes supported	Number of traffic classes supported by PFC (displayed only in Rev 1.01).
Protocol ID	Application protocol number.
CoS map	Application protocol-to-CoS mapping.
CBS	Indicates whether the token bucket mechanism is supported on the port: · False—The token bucket mechanism is not supported. · True—The token bucket mechanism is supported.
Max TCs	Maximum number of priorities supported.
TSA	Transmission selection algorithm.
Value of MBC	MBC indicates the ability of packets to bypass MACsec. It is 1-bit long. · 0—Packets can bypass MACsec when MACsec is disabled. · 1—Packets cannot bypass MACsec when MACsec is disabled.
Port VLAN ID(PVID)	Port VLAN ID.
Port and protocol VLAN ID(PPVID)	Port protocol VLAN ID.
Port and protocol VLAN supported	Indicates whether protocol VLAN is supported on the port.
Port and protocol VLAN enabled	Indicates whether protocol VLAN is enabled on the port.
Link aggregation supported	Indicates whether link aggregation is supported on the port.
Link aggregation enabled	Indicates whether link aggregation is enabled on the port.
Aggregation port ID	Member port ID, which is 0 when link aggregation is disabled.
Auto-negotiation supported	Indicates whether autonegotiation is supported on the port.
Auto-negotiation enabled	Indicates whether autonegotiation is enabled on the port.
OperMau	Speed and duplex state of the port.
Power port class	PoE port class: · PSE—Power sourcing equipment. · PD—Powered device.
PSE power supported	Indicates whether the device can operate as a PSE.
PSE power enabled	Indicates whether the device is operating as a PSE.
PSE pairs control ability	Indicates whether the pair selection ability is available.
Power pairs	Power supply mode: · Signal—Uses data pairs to supply power. · Spare—Uses spare pairs to supply power.
Port power classification	Power class of the PD: · Class 0. · Class 1. · Class 2. · Class 3. · Class 4.
Power type	Power supply type: · Type 1 PD. · Type 2 PD. · Type 1 PSE. · Type 2 PSE.
Power source	Power source: · When the power supply type is PSE, options are: ¡ Unknown—Unknown power supply. ¡ Primary—Primary power supply. ¡ Backup—Backup power supply. ¡ Reserved. · When the power supply type is PD, options are: ¡ Unknown—Unknown power supply. ¡ PSE—PSE power supply. ¡ Local—Local power supply. ¡ PSE and local—PSE and local power supplies.
Power priority	· Unknown. · Critical. · High. · Low.
PD requested power value	PD requested power in watts.
PSE allocated power value	PSE allocated power value.
PoE PSE power source	PSE power source type: · Unknown—Unknown power supply. · Primary—Primary power supply. · Backup—Backup power supply.
PoE PD power source	PD power source type: · Unknown—Unknown power supply. · PSE—PSE power supply. · Local—Local power supply. · PSE and local—PSE and local power supplies.
Port PSE priority	PoE power supply priority of PSE ports: · Unknown. · Critical. · High. · Low.
Port PD priority	PoE power receiving priority of PD ports: · Unknown. · Critical. · High. · Low.
Port available power value	Available PoE power on PSE ports, or power needed on PD ports, in watts.
Transmit Tw	Sleep time of the local client, in μs.
Receive Tw	Sleep time of the peer client expected by the local client, in μs.
Fallback Tw	Candidate sleep time of the peer client expected by the local client, in μs.
Echo Transmit Tw	Sleep time of the peer client, in μs. This field displays zero when one of the following cases occurs: · The local client has not received the sleep time of the peer client. · The sleep time of the peer client is 0 μs.
Echo Receive Tw	Sleep time of the local client expected by the peer client, in μs. This field displays zero when one of the following cases occurs: · The local client has not received the expected sleep time from the peer client. · The sleep time of the local client expected by the peer client is 0 μs.

display lldp neighbor-information

Use display lldp neighbor-information to display the LLDP information received from the neighboring devices.

Syntax

display lldp neighbor-information [ [ [ interface interface-type interface-number ] [ agent { nearest-bridge | nearest-customer | nearest-nontpmr } ] [ verbose ] ] | list [ system-name system-name ] ]

Views

Any view

Predefined user roles

network-admin

network-operator

mdc-admin

mdc-operator

Parameters

interface interface-type interface-number: Specifies a port by its type and number. If you do not specify this option, the command displays the LLDP information that all ports receive from the neighboring devices.

agent: Specifies an agent type. If you do not specify an agent type, the command displays the LLDP information that all LLDP agents receive from the neighboring devices.

nearest-bridge: Specifies nearest bridge agents.

nearest-customer: Specifies nearest customer bridge agents.

nearest-nontpmr: Specifies nearest non-TPMR bridge agents.

verbose: Displays the detailed LLDP information that the local device receives from the neighboring devices. If you do not specify this keyword, the command displays the brief LLDP information that the local device receives from the neighboring devices.

list: Displays the LLDP information that the local device receives from the neighboring devices in the form of a list.

system-name system-name: Displays the LLDP information that the local device receives from a neighboring device specified by its system name. The system-name argument is a string of 1 to 255 characters. If you do not specify this option, the command displays the LLDP information that the local device receives from all neighboring devices in a list.

Examples

# Display detailed LLDP information that the nearest bridge agents on all ports received from the neighboring devices. (DCBX is IEEE Std 802.1Qaz-2011.)

<Sysname> display lldp neighbor-information agent nearest-bridge verbose

LLDP neighbor-information of port 1[Ten-GigabitEthernet1/0/1]:

LLDP agent nearest-bridge:

LLDP Neighbor index : 1

Update time : 0 days, 0 hours, 1 minutes, 1 seconds

Chassis type : MAC address

Chassis ID : 000f-0055-0002

Port ID type : Interface name

Port ID : Ten-GigabitEthernet1/0/1

Time to live : 121

Port description : Ten-GigabitEthernet1/0/1 Interface

System name : Sysname

System description :

H3C Comware Platform Software, Software Version 7.1.070, Alpha 7170

H3C Simware32

System capabilities supported : Bridge, Router, Customer Bridge, Service Bridge

System capabilities enabled : Bridge, Router, Customer Bridge

Management address type : IPv4

Management address : 192.168.1.55

Management address interface type : IfIndex

Management address interface ID : Unknown

Management address OID : 0

DCBX Control info:

Oper version : Standard

DCBX ETS configuration info:

CBS : False

Max TCs : 8

CoS Local priority Percentage TSA

0 0 15 ETS

1 1 0 SP

2 2 15 ETS

3 3 14 ETS

4 4 14 ETS

5 5 14 ETS

6 6 14 ETS

7 7 14 ETS

DCBX ETS recommendation info:

CoS Local priority Percentage TSA

0 0 15 ETS

1 1 0 SP

2 2 15 ETS

3 3 14 ETS

4 4 14 ETS

5 5 14 ETS

6 6 14 ETS

7 7 14 ETS

DCBX PFC info:

P0-0 P1-1 P2-1 P3-1 P4-0 P5-0 P6-0 P7-0

Number of traffic classes supported: 8

Value of MBC: 0

DCBX APP info:

Selected Field Protocol ID Priority

UDP/ DCCP 100 0x3

TCP/SCTP 200 0x3

Ethertype 0x1234 0x3

Ethertype 0x8906 0x3

Port VLAN ID(PVID): 1

Port and protocol VLAN ID(PPVID) : 12

Port and protocol VLAN supported : Yes

Port and protocol VLAN enabled : Yes

VLAN name of VLAN 12: VLAN 0012

Link aggregation supported : Yes

Link aggregation enabled : Yes

Aggregation port ID : 52

Management VLAN ID : 5

Auto-negotiation supported : Yes

Auto-negotiation enabled : Yes

OperMau : Speed(1000)/Duplex(Full)

Power port class : PD

PSE power supported : Yes

PSE power enabled : Yes

PSE pairs control ability : Yes

Power pairs : Signal

Port power classification : Class 0

Power type : Type 2 PD

Power source : PSE and local

Power priority : High

PD requested power value : 21.1 w

PSE allocated power value : 15.3 w

Maximum frame size : 10000

Transmit Tw : 100 us

Receive Tw : 90 us

Fallback Tw : 90 us

Echo Transmit Tw : 0 us

Echo Receive Tw : 0 us

MED information:

Device class : Connectivity device

Media policy type : Unknown

Unknown policy : No

VLAN tagged : No

Media policy VLAN ID : 1000

Media policy L2 priority : 6

Media policy DSCP : 10

Location format : Civic Address LCI

Location information :

What(1) Country(CN)

CA type CA value

0 Chinese

1 Zhejiang

2 Hangzhou

MED port information:

Media policy type : Unknown

Unknown policy : No

VLAN tagged : No

Media policy VLANID : 1000

Media policy L2 priority : 6

Media policy DSCP : 10

PoE PSE power source : Primary

Port PSE priority : Low

Port available power value : 2.2 w

Unknown basic TLV:

TLV type : 23

TLV information : 0x00140014

Unknown organizationally-defined TLV:

TLV OUI : 00-12-bb

TLV subtype : 21

Index : 1

TLV information : 0x556e6b6e 6f776e

CDP neighbor-information of port 1[Ten-GigabitEthernet1/0/1]:

LLDP agent nearest-bridge:

CDP neighbor index : 4

Chassis ID : SEP00260B5C0548

Port ID : Port 1

Software version : SCCP41.8-4-1S

Platform version : Cisco IP Phone 7941

Duplex : Full

Time to live : 180

# Display brief LLDP information that all LLDP agents received from all neighboring devices.

<Sysname> display lldp neighbor-information

LLDP neighbor-information of port 52[Ten-GigabitEthernet1/0/3]:

LLDP agent nearest-bridge:

LLDP neighbor index : 3

ChassisID/subtype : 0011-2233-4400/MAC address

PortID/subtype : 000c-29f5-c71f/MAC address

Capabilities : Bridge, Router, Customer Bridge

LLDP neighbor index : 6

ChassisID/subtype : 0011-2233-4400/MAC address

PortID/subtype : 000c-29f5-c715/MAC address

Capabilities : None

CDP neighbor-information of port 52[Ten-GigabitEthernet1/0/3]:

LLDP agent nearest-bridge:

CDP neighbor index : 4

Chassis ID : SEP00260B5C0548

Port ID : Port 1

CDP neighbor index : 5

Chassis ID : 0011-2233-4400

Port ID : Ten-GigabitEthernet1/0/4

LLDP neighbor-information of port 52[Ten-GigabitEthernet1/0/3]:

LLDP agent nearest-nontpmr:

LLDP neighbor index : 6

ChassisID/subtype : 0011-2233-4400/MAC address

PortID/subtype : 000c-29f5-c715/MAC address

Capabilities : None

# Display brief LLDP information that all LLDP agents received from the neighboring devices in a list.

<Sysname> display lldp neighbor-information list

Chassis ID : * -- --Nearest nontpmr bridge neighbor

# -- --Nearest customer bridge neighbor

Default -- -- Nearest bridge neighbor

Local Interface Chassis ID Port ID System Name

XGE1/0/1 000f-e25d-ee91 Ten-GigabitEthernet1/0/1 System1

Table 2 Command output

Field	Description
LLDP neighbor-information of port 1	LLDP information received through port 1.
Update time	Time when LLDP information about a neighboring device was last updated.
LLDP mac type	Type of the neighbor MAC address: · Nearest bridge. · Nearest customer bridge. · Nearest non-TPMR bridge.
Chassis type	Chassis ID type: · Chassis component. · Interface alias. · Port component. · MAC address. · Network address (ipv4). · Interface name. · Locally assigned—Locally-defined chassis type other than those listed above.
Chassis ID	ID that identifies the LLDP sending device, which can be a MAC address, a network address, an interface, or some other value, depending on the chassis ID type of the neighboring device.
Port ID type	Port ID type: · Interface alias. · Port component. · MAC address. · Network address (ipv4). · Interface name. · Agent circuit ID. · Locally assigned—Locally-defined port ID type other than those listed above.
Port ID	Value of the type of the port ID.
System name	System name of the neighboring device.
System description	System description of the neighboring device.
System capabilities supported	Capabilities supported on the neighboring device: · Repeater—Signal repeating is supported. · Bridge—Switching is supported. · Router—Routing is supported. · Telephone—The neighboring device can act as a telephone. · DocsisCableDevice—The neighboring device can act as a DOCSIS-compliant cable device. · StationOnly—The neighboring device can act as a station only. · Customer Bridge—The customer bridge feature is enabled. · Service Bridge—The service bridge feature is enabled. · TPMR—The TPMR feature is enabled. · Other—Features other than those listed above are supported.
System capabilities enabled	Capabilities enabled on the neighboring device: · Repeater—Signal repeating is enabled. · Bridge—Switching is enabled. · Router—Routing is enabled. · Telephone—The neighboring device is acting as a telephone. · DocsisCableDevice—The neighboring device is acting as a DOCSIS-compliant cable device. · StationOnly—The neighboring device is acting as a station only. · Customer Bridge—The customer bridge feature is enabled. · Service Bridge—The service bridge feature is enabled. · TPMR—The TPMR feature is enabled. · Other—Features other than those listed above are supported.
Management address OID	Management address object ID.
DCBX control info	Displayed as version information in IEEE Std 802.1Qaz-2011.
Oper version	DCBX version number.
Sequence number	Number of DCBX TLV content changes.
Acknowledge number	Times of synchronizing configurations by the peer device.
DCBX ETS info	CoS-to-local priority mapping and bandwidth allocation.
Percentage	Percentage of bandwidth allocated.
P0- P1- P2- P3- P4- P5- P6- P7-	Number of supported priorities configured by using the priority-flow-control no-drop dot1p dot1p-list command on the neighbor.
Number of traffic classes supported	Capability set supported by PFC (displayed only in Rev 1.01 and IEEE Std 802.1Qaz-2011).
CoS map	Application protocol-to-CoS mapping.
CBS	Indicates whether the token bucket mechanism is supported on the port: · False—The token bucket mechanism is not supported. · True—The token bucket mechanism is supported.
Max TCs	Maximum number of priorities supported.
TSA	Transmission selection algorithm.
Value of MBC	MBC indicates the ability of packets to bypass MACsec. It is 1-bit long. · 0—Packets can bypass MACsec when MACsec is disabled. · 1—Packets cannot bypass MACsec when MACsec is disabled.
Port and protocol VLAN ID(PPVID)	Port and protocol VLAN ID.
Port and protocol VLAN supported	Indicates whether protocol VLAN is supported on the port.
Port and protocol VLAN enabled	Indicates whether protocol VLAN is enabled on the port.
VLAN name of VLAN 12	Name of VLAN 12.
Link aggregation supported	Indicates whether link aggregation is supported.
Link aggregation enabled	Indicates whether link aggregation is enabled.
Aggregation port ID	Member port ID, which is 0 when link aggregation is disabled.
Auto-negotiation supported	Indicates whether autonegotiation is supported on the port.
Auto-negotiation enabled	Indicates whether autonegotiation is enabled on the port.
OperMau	Speed and duplex state on the port.
Power port class	PoE port class: · PSE—Power sourcing equipment. · PD—Powered device.
PSE power supported	Indicates whether the device can operate as a PSE.
PSE power enabled	Indicates whether the device is operating as a PSE.
PSE pairs control ability	Indicates whether the pair selection ability is available.
Power pairs	Power supply mode: · Signal—Uses data pairs to supply power. · Spare—Uses spare pairs to supply power.
Port power classification	Power class of the PD: · Class 0. · Class 1. · Class 2. · Class 3. · Class 4.
Power type	Power supply type: · Type 1 PD. · Type 2 PD. · Type 1 PSE. · Type 2 PSE.
Power source	Power source: · When the power supply type is PSE, options are: ¡ Unknown—Unknown power supply. ¡ Primary—Primary power supply. ¡ Backup—Backup power supply. ¡ Reserved. · When the power supply type is PD, options are:: ¡ Unknown—Unknown power supply. ¡ PSE—PSE power supply. ¡ Local—Local power supply. ¡ PSE and local—PSE and local power supplies.
Power priority	· Unknown. · Critical. · High. · Low.
PD requested power value	PD requested power in watts.
PSE allocated power value	PSE allocated power in watts.
Dot1p	802.1p priority.
Ready	Indicates whether the 802.1p priority value is mapped to an alternate priority value on the port: · Yes—The 802.1p priority value is not mapped to an alternate priority value. · No—The 802.1p priority value is mapped to an alternate priority value.
Device class	MED device class: · Connectivity device—Network device. · Class I—Normal terminal device. It requires the basic LLDP discovery services. · Class II—Media terminal device. It supports media streams, and can also act as a normal terminal device. · Class III—Communication terminal device. It supports the IP communication systems of end users, and can also act as a normal terminal device or media terminal device.
Media policy type	Media policy type: · unknown. · voice. · voiceSignaling. · guestVoice. · guestVoiceSignaling. · softPhoneVoice. · videoconferencing. · streamingVideo. · videoSignaling.
Unknown policy	Indicates whether the media policy is unknown.
VLAN tagged	Indicates whether packets of the media VLAN are tagged.
Media policy VLAN ID	ID of the media VLAN.
Media policy L2 priority	Layer 2 priority.
Media policy DSCP	DSCP value.
Location format	Location information format: · Invalid—The location information is invalid. · Coordinate-based LCI—The location information is coordinate-based. · Civic Address LCI—Typical address information. · ECS ELIN—Telephone for urgencies.
PoE PSE power source	PSE power source type: · Unknown—Unknown power supply. · Primary—Primary power supply. · Backup—Backup power supply.
PoE PD power source	PD power source type: · Unknown—Unknown power supply. · PSE—PSE power supply. · Local—Local power supply. · PSE and local—PSE and local power supplies.
Port PSE priority	PoE power supply priority of PSE ports: · Unknown. · Critical. · High. · Low.
Port PD priority	PoE power receiving priority of PD ports: · Unknown. · Critical. · High. · Low.
Port available power value	Available PoE power on PSE ports, or power needed on PD ports, in watts.
HardwareRev	Hardware version.
FirmwareRev	Firmware version.
SoftwareRev	Software version.
SerialNum	Serial number.
Manufacturer name	Device manufacturer.
Model name	Device model.
TLV type	Unknown basic TLV type.
TLV information	Information contained in the unknown basic TLV type.
Unknown organizationally-defined TLV	Unknown organizationally specific TLV.
TLV OUI	OUI of the unknown organizationally specific TLV.
TLV subtype	Unknown organizationally specific TLV subtype.
Index	Unknown organization index.
Capabilities	Capabilities enabled on the neighboring device: · Repeater—Signal repeating is enabled. · Bridge—Switching is enabled. · Router—Routing is enabled. · Telephone—The neighboring device is acting as a telephone. · DocsisCableDevice—The neighboring device is acting as a DOCSIS-compliant cable device. · StationOnly—The neighboring device is acting as a station only. · Other—Features other than those listed above are supported. · None—The neighboring device does not advertise this TLV.
Local Interface	Local port that receives the LLDP information.
Chassis ID : * -- -- Nearest nontpmr bridge neighbor #-- -- Nearest customer bridge neighbor	Chassis ID flag: · An asterisk (*) indicates the nearest non-TPMR bridge neighbor. · A pound sign (#) indicates the nearest customer bridge neighbor.
Transmit Tw	Sleep time of the local client, in μs.
Receive Tw	Expected sleep time for the peer client of the local client, in μs.
Fallback Tw	Candidate expected sleep time for the peer client of the local client, in μs.
Echo Transmit Tw	Sleep time of the peer client, in μs. This field displays zero when one of the following cases occurs: · The local client has not received the sleep time of the peer client. · The sleep time of the peer client is 0 μs.
Echo Receive Tw	Expected sleep time for the local client of the peer client, in μs. This field displays zero when one of the following cases occurs: · The local client has not received the expected sleep time of the peer client. · The expected sleep time of the peer client is 0 μs.

display lldp statistics

Use display lldp statistics to display the global LLDP statistics or the LLDP statistics of a port.

Syntax

display lldp statistics [ global | [ interface interface-type interface-number ] [ agent { nearest-bridge | nearest-customer | nearest-nontpmr } ] ]

Views

Any view

Predefined user roles

network-admin

network-operator

mdc-admin

mdc-operator

Parameters

global: Displays the global LLDP statistics.

interface interface-type interface-number: Specifies a port by its type and number.

agent: Specifies an LLDP agent type. If you do not specify an agent type, the command displays the statistics for all LLDP agents.

nearest-bridge: Specifies nearest bridge agents.

nearest-customer: Specifies nearest customer bridge agents.

nearest-nontpmr: Specifies nearest non-TPMR bridge agents.

Usage guidelines

If you do not specify any keywords or arguments, the command displays the global LLDP statistics and the LLDP statistics of all ports.

Examples

# Display the global LLDP statistics and the LLDP statistics of all ports.

<Sysname> display lldp statistics

LLDP statistics global information:

LLDP neighbor information last change time:0 days, 0 hours, 4 minutes, 40 seconds

The number of LLDP neighbor information inserted : 1

The number of LLDP neighbor information deleted : 1

The number of LLDP neighbor information dropped : 0

The number of LLDP neighbor information aged out : 1

LLDP statistics information of port 1 [Ten-GigabitEthernet1/0/1]:

LLDP agent nearest-bridge:

The number of LLDP frames transmitted : 0

The number of LLDP frames received : 0

The number of LLDP frames discarded : 0

The number of LLDP error frames : 0

The number of LLDP TLVs discarded : 0

The number of LLDP TLVs unrecognized : 0

The number of LLDP neighbor information aged out : 0

The number of CDP frames transmitted : 0

The number of CDP frames received : 0

The number of CDP frames discarded : 0

The number of CDP error frames : 0

LLDP agent nearest-nontpmr:

The number of LLDP frames transmitted : 0

The number of LLDP frames received : 0

The number of LLDP frames discarded : 0

The number of LLDP error frames : 0

The number of LLDP TLVs discarded : 0

The number of LLDP TLVs unrecognized : 0

The number of LLDP neighbor information aged out : 0

The number of CDP frames transmitted : 0

The number of CDP frames received : 0

The number of CDP frames discarded : 0

The number of CDP error frames : 0

LLDP agent nearest-customer:

The number of LLDP frames transmitted : 0

The number of LLDP frames received : 0

The number of LLDP frames discarded : 0

The number of LLDP error frames : 0

The number of LLDP TLVs discarded : 0

The number of LLDP TLVs unrecognized : 0

The number of LLDP neighbor information aged out : 0

The number of CDP frames transmitted : 0

The number of CDP frames received : 0

The number of CDP frames discarded : 0

The number of CDP error frames : 0

# Display the LLDP statistics for the nearest customer bridge agents on Ten-GigabitEthernet 1/0/1.

<Sysname> display lldp statistics interface Ten-GigabitEthernet1/0/1 agent nearest-customer

LLDP statistics information of port 1 [Ten-GigabitEthernet1/0/1]:

LLDP agent nearest-customer:

The number of LLDP frames transmitted : 0

The number of LLDP frames received : 0

The number of LLDP frames discarded : 0

The number of LLDP error frames : 0

The number of LLDP TLVs discarded : 0

The number of LLDP TLVs unrecognized : 0

The number of LLDP neighbor information aged out : 0

The number of CDP frames transmitted : 0

The number of CDP frames received : 0

The number of CDP frames discarded : 0

The number of CDP error frames : 0

Table 3 Command output

Field	Description
LLDP statistics global information	Global LLDP statistics.
LLDP neighbor information last change time	Time when the neighbor information was last updated.
The number of LLDP neighbor information inserted	Number of times neighbor information was added.
The number of LLDP neighbor information deleted	Number of times neighbor information was removed.
The number of LLDP neighbor information dropped	Number of times neighbor information was dropped due to lack of available memory space.

display lldp status

Use display lldp status to display LLDP status.

Syntax

display lldp status [ interface interface-type interface-number ] [ agent { nearest-bridge | nearest-customer | nearest-nontpmr } ]

Views

Any view

Predefined user roles

network-admin

network-operator

mdc-admin

mdc-operator

Parameters

interface interface-type interface-number: Specifies a port by its type and number. If you do not specify this option, the command displays the global LLDP status and the LLDP status of all ports.

agent: Specifies an LLDP agent type. If you do not specify an agent type, the command displays the status information for all LLDP agents.

nearest-bridge: Specifies nearest bridge agents.

nearest-customer: Specifies nearest customer bridge agents.

nearest-nontpmr: Specifies nearest non-TPMR bridge agents.

Examples

# Display the global LLDP status and the LLDP status of each port.

<Sysname> display lldp status

Global status of LLDP: Enable

Bridge mode of LLDP: customer-bridge

The current number of LLDP neighbors: 5

The current number of CDP neighbors: 0

LLDP neighbor information last changed time: 0 days, 0 hours, 4 minutes, 40 seconds

Transmit interval : 30s

Fast transmit interval : 1s

Transmit max credit : 5

Hold multiplier : 4

Reinit delay : 2s

Trap interval : 5s

Fast start times : 3

LLDP status information of port 1 [Ten-GigabitEthernet1/0/1]:

LLDP agent nearest-bridge:

Port status of LLDP : Enable

Admin status : TX_RX

Trap flag : No

MED trap flag : No

Polling interval : 0s

Number of LLDP neighbors : 5

Number of MED neighbors : 2

Number of CDP neighbors : 0

Number of sent optional TLV : 12

Number of received unknown TLV : 5

LLDP agent nearest-nontpmr:

Port status of LLDP : Enable

Admin status : TX_RX

Trap flag : No

MED trap flag : No

Polling interval : 0s

Number of LLDP neighbors : 5

Number of MED neighbors : 2

Number of CDP neighbors : 0

Number of sent optional TLV : 12

Number of received unknown TLV : 5

LLDP agent nearest-customer:

Port status of LLDP : Enable

Admin status : TX_RX

Trap flag : No

MED trap flag : No

Polling interval : 0s

Number of LLDP neighbors : 5

Number of MED neighbors : 2

Number of CDP neighbors : 0

Number of sent optional TLV : 12

Number of received unknown TLV : 5

Table 4 Command output

Field	Description
Bridge mode of LLDP	LLDP bridge mode: service-bridge or customer-bridge.
Global status of LLDP	Indicates whether LLDP is globally enabled.
LLDP neighbor information last changed time	Time when the neighbor information was last updated.
Transmit interval	LLDP frame transmission interval.
Hold multiplier	TTL multiplier.
Reinit delay	LLDP reinitialization delay.
Transmit max credit	Token bucket size for sending LLDP frames.
Trap interval	Trap transmission interval.
Fast start times	Number of LLDP frames sent each time fast LLDP frame transmission is triggered.
Port 1	LLDP status of port 1.
Port status of LLDP	Indicates whether LLDP is enabled on the port.
Admin status	LLDP operating mode of the port: · TX_RX—The port can send and receive LLDP frames. · Rx_Only—The port can only receive LLDP frames. · Tx_Only—The port can only send LLDP frames. · Disable—The port cannot send or receive LLDP frames.
Trap Flag	Indicates whether trapping is enabled.
Polling interval	LLDP polling interval, which is 0 when LLDP polling is disabled.
Number of neighbors	Number of LLDP neighbors connecting to the port.
Number of MED neighbors	Number of MED neighbors connecting to the port.
Number of CDP neighbors	Number of CDP neighbors connecting to the port.
Number of sent optional TLV	Number of optional TLVs contained in an LLDP frame sent through the port.
Number of received unknown TLV	Number of unknown TLVs contained in a received LLDP frame.

display lldp tlv-config

Use display lldp tlv-config to display the types of advertisable optional LLDP TLVs of a port.

Syntax

display lldp tlv-config [ interface interface-type interface-number ] [ agent { nearest-bridge | nearest-customer | nearest-nontpmr } ]

Views

Any view

Predefined user roles

network-admin

network-operator

mdc-admin

mdc-operator

Parameters

interface interface-type interface-number: Specifies a port by its type and number. If you do not specify this option, the command displays the types of advertisable optional TLVs of all ports.

agent: Specifies an LLDP agent type. If you do not specify an agent type, the command displays the types of advertisable optional LLDP TLVs for all LLDP agents.

nearest-bridge: Specifies nearest bridge agents.

nearest-customer: Specifies nearest customer bridge agents.

nearest-nontpmr: Specifies nearest non-TPMR bridge agents.

Examples

# Display the types of advertisable optional LLDP TLVs of Ten-GigabitEthernet 1/0/1.

<Sysname> display lldp tlv-config interface ten-gigabitethernet 1/0/1

LLDP tlv-config of port 1[Ten-GigabitEthernet1/0/1]:

LLDP agent nearest-bridge:

NAME STATUS DEFAULT

Basic optional TLV:

Port Description TLV YES YES

System Name TLV YES YES

System Description TLV YES YES

System Capabilities TLV YES YES

Management Address TLV YES YES

IEEE 802.1 extend TLV:

Port VLAN ID TLV YES YES

Port And Protocol VLAN ID TLV YES YES

VLAN Name TLV YES YES

DCBX TLV NO NO

EVB TLV NO NO

Link Aggregation TLV YES YES

Management VID TLV YES YES

Congestion notification TLV NO NO

IEEE 802.3 extend TLV:

MAC-Physic TLV YES YES

Power via MDI TLV YES YES

Maximum Frame Size TLV YES YES

Energy-Efficient Ethernet TLV NO NO

LLDP-MED extend TLV:

Capabilities TLV YES YES

Network Policy TLV YES YES

Location Identification TLV NO NO

Extended Power via MDI TLV YES YES

Inventory TLV YES YES

LLDP agent nearest-nontpmr:

NAME STATUS DEFAULT

Basic optional TLV:

Port Description TLV YES NO

System Name TLV YES NO

System Description TLV YES NO

System Capabilities TLV YES NO

Management Address TLV YES NO

IEEE 802.1 extend TLV:

Port VLAN ID TLV YES NO

Port And Protocol VLAN ID TLV YES NO

VLAN Name TLV YES NO

DCBX TLV NO NO

EVB TLV YES YES

Link Aggregation TLV YES NO

Management VID TLV NO NO

IEEE 802.3 extend TLV:

MAC-Physic TLV YES NO

Power via MDI TLV YES NO

Maximum Frame Size TLV YES NO

Energy-Efficient Ethernet TLV NO NO

LLDP-MED extend TLV:

Capabilities TLV YES NO

Network Policy TLV YES NO

Location Identification TLV NO NO

Extended Power via MDI TLV YES NO

Inventory TLV YES NO

LLDP agent nearest-customer:

NAME STATUS DEFAULT

Basic optional TLV:

Port Description TLV YES YES

System Name TLV YES YES

System Description TLV YES YES

System Capabilities TLV YES YES

Management Address TLV YES YES

IEEE 802.1 extend TLV:

Port VLAN ID TLV YES YES

Port And Protocol VLAN ID TLV YES YES

VLAN Name TLV YES YES

DCBX TLV NO NO

EVB TLV NO NO

Link Aggregation TLV YES NO

Management VID TLV YES YES

IEEE 802.3 extend TLV:

MAC-Physic TLV YES NO

Power via MDI TLV YES NO

Maximum Frame Size TLV YES NO

Energy-Efficient Ethernet TLV NO NO

LLDP-MED extend TLV:

Capabilities TLV YES YES

Network Policy TLV YES YES

Location Identification TLV NO NO

Extended Power via MDI TLV YES NO

Inventory TLV YES YES

Table 5 Command output

Field	Description
LLDP tlv-config of port 1	Advertisable optional TLVs of port 1.
NAME	TLV type.
STATUS	Indicates whether the type of TLV is sent through a port.
DEFAULT	Indicates whether the type of TLV is sent through a port by default.
Basic optional TLV	Basic optional TLVs: · Port Description TLV. · System Name TLV. · System Description TLV. · System Capabilities TLV. · Management Address TLV.
IEEE 802.1 extended TLV	IEEE 802.1 organizationally specific TLVs: · Port VLAN ID TLV. · Port and protocol VLAN ID TLV. · VLAN name TLV. · DCBX TLV. · EVB TLV. · Management VID TLV.
IEEE 802.3 extended TLV	IEEE 802.3 organizationally specific TLVs: · MAC-Physic TLV. · Power via MDI TLV. · Link aggregation TLV. · Maximum frame size TLV.
LLDP-MED extend TLV	LLDP-MED TLVs: · Capabilities TLV. · Network Policy TLV. · Extended Power-via-MDI TLV. · Location Identification TLV. · Inventory TLV.
Inventory TLV	Inventory TLVs: · Hardware Revision TLV. · Firmware Revision TLV. · Software Revision TLV. · Serial Number TLV. · Manufacturer Name TLV. · Model name TLV. · Asset ID TLV.

lldp admin-status

Use lldp admin-status to set the LLDP operating mode.

Use undo lldp admin-status to restore the default.

Syntax

In Layer 2/Layer 3 Ethernet interface view or management Ethernet interface view:

lldp [ agent { nearest-customer | nearest-nontpmr } ] admin-status { disable | rx | tx | txrx }

undo lldp [ agent { nearest-customer | nearest-nontpmr } ] admin-status

In Layer 2/Layer 3 aggregate interface view:

lldp agent { nearest-customer | nearest-nontpmr } admin-status { disable | rx | tx | txrx }

undo lldp agent { nearest-customer | nearest-nontpmr } admin-status

In IRF physical interface view:

lldp admin-status { disable | rx | tx | txrx }

undo lldp admin-status

Default

The nearest bridge agent operates in TxRx mode, and the nearest customer bridge agent and nearest non-TPMR bridge agent operate in Disable mode.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Management Ethernet interface view

Layer 2 aggregate interface view

Layer 3 aggregate interface view

IRF physical interface view

Predefined user roles

network-admin

mdc-admin

Parameters

agent: Specifies an LLDP agent type. If you do not specify an agent type in Ethernet or management Ethernet interface view, the command sets the operating mode for nearest bridge agents.

nearest-customer: Specifies nearest customer bridge agents.

nearest-nontpmr: Specifies nearest non-TPMR bridge agents.

disable: Specifies the Disable mode. A port in this mode cannot send or receive LLDP frames.

rx: Specifies the Rx mode. A port in this mode can only receive LLDP frames.

tx: Specifies the Tx mode. A port in this mode can only send LLDP frames.

txrx: Specifies the TxRx mode. A port in this mode can send and receive LLDP frames.

Usage guidelines

In IRF physical interface view, only nearest bridge agents are supported.

Examples

# Set the LLDP operating mode to Rx for the nearest customer bridge agents on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] lldp agent nearest-customer admin-status rx

lldp check-change-interval

Use lldp check-change-interval to enable LLDP polling and set the polling interval.

Use undo lldp check-change-interval to disable LLDP polling.

Syntax

In Layer 2/Layer 3 Ethernet interface view or management Ethernet interface view:

lldp [ agent { nearest-customer | nearest-nontpmr } ] check-change-interval interval

undo lldp [ agent { nearest-customer | nearest-nontpmr } ] check-change-interval

In Layer 2/Layer 3 aggregate interface view:

lldp agent { nearest-customer | nearest-nontpmr } check-change-interval interval

undo lldp agent { nearest-customer | nearest-nontpmr } check-change-interval

In IRF physical interface view:

lldp check-change-interval interval

undo lldp check-change-interval

Default

LLDP polling is disabled.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Management Ethernet interface view

Layer 2 aggregate interface view

Layer 3 aggregate interface view

IRF physical interface view

Predefined user roles

network-admin

mdc-admin

Parameters

agent: Specifies an LLDP agent type. If you do not specify an agent type in Ethernet or management Ethernet interface view, the command enables LLDP polling and sets the polling interval for nearest bridge agents.

nearest-customer: Specifies nearest customer bridge agents.

nearest-nontpmr: Specifies nearest non-TPMR bridge agents.

interval: Sets the LLDP polling interval in the range of 1 to 30 seconds.

Examples

# Enable LLDP polling and set the polling interval to 30 seconds for the nearest customer bridge agents on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] lldp agent nearest-customer check-change-interval 30

lldp compliance admin-status cdp

Use lldp compliance admin-status cdp to set the operating mode of CDP-compatible LLDP.

Use undo lldp compliance admin-status cdp to restore the default.

Syntax

lldp compliance admin-status cdp { disable | rx | txrx }

undo lldp compliance admin-status cdp

Default

CDP-compatible LLDP operates in Disable mode.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Management Ethernet interface view

Predefined user roles

network-admin

mdc-admin

Parameters

disable: Specifies the Disable mode. CDP-compatible LLDP in this mode cannot receive or transmit CDP packets.

txrx: Specifies the TxRx mode. CDP-compatible LLDP in this mode can send and receive CDP packets.

rx: Specifies the Rx mode. CDP-compatible LLDP in this mode can receive but cannot send CDP packets.

Usage guidelines

For your device to work with Cisco IP phones, you must perform the following tasks:

· Enable CDP-compatible LLDP globally.

· Configure CDP-compatible LLDP to operate in TxRx mode on the specified ports.

Examples

# Enable CDP-compatible LLDP globally and configure CDP-compatible LLDP to operate in TxRx mode on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

[Sysname] lldp compliance cdp

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] lldp compliance admin-status cdp txrx

Related commands

lldp compliance cdp

Use lldp compliance cdp to enable CDP compatibility.

Use undo lldp compliance cdp to disable CDP compatibility.

Syntax

lldp compliance cdp

undo lldp compliance cdp

Default

CDP compatibility is disabled.

Views

System view

Predefined user roles

network-admin

mdc-admin

Usage guidelines

The maximum TTL that CDP allows is 255 seconds. To make CDP-compatible LLDP work correctly with Cisco IP phones, set the LLDP frame transmission interval to be no more than 1/3 of the TTL value.

Examples

# Enable CDP compatibility.

<Sysname> system-view

[Sysname] lldp compliance cdp

Related commands

lldp hold-multiplier

lldp timer tx-interval

lldp enable

Use lldp enable to enable LLDP on a port.

Use undo lldp enable to disable LLDP on a port.

Syntax

lldp enable

undo lldp enable

Default

LLDP is enabled on a port.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Management Ethernet interface view

Layer 2 aggregate interface view

Layer 3 aggregate interface view

IRF physical interface view

Predefined user roles

network-admin

mdc-admin

Usage guidelines

LLDP takes effect on a port only when LLDP is enabled both globally and on the port.

Examples

# Disable LLDP on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] undo lldp enable

Related commands

lldp global enable

lldp encapsulation snap

Use lldp encapsulation snap to set the encapsulation format for LLDP frames to SNAP.

Use undo lldp encapsulation to restore the default.

Syntax

In Layer 2/Layer 3 Ethernet interface view or management Ethernet interface view:

lldp [ agent { nearest-customer | nearest-nontpmr } ] encapsulation snap

undo lldp [ agent { nearest-customer | nearest-nontpmr } ] encapsulation

In Layer 2/Layer 3 aggregate interface view:

lldp agent { nearest-customer | nearest-nontpmr } encapsulation snap

undo lldp agent { nearest-customer | nearest-nontpmr } encapsulation

In IRF physical interface view:

lldp encapsulation snap

undo lldp encapsulation

Default

The encapsulation format for LLDP frames is Ethernet II.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Management Ethernet interface view

Layer 2 aggregate interface view

Layer 3 aggregate interface view

IRF physical interface view

Predefined user roles

network-admin

mdc-admin

Parameters

agent: Specifies an LLDP agent type. If you do not specify an agent type in Ethernet or management Ethernet interface view, the command sets the LLDP frame encapsulation format for nearest bridge agents.

nearest-customer: Specifies nearest customer bridge agents.

nearest-nontpmr: Specifies nearest non-TPMR bridge agents.

Usage guidelines

LLDP-CDP packets use only SNAP encapsulation.

LLDP frames carrying the EVB module TLVs cannot be encapsulated in SNAP format.

Examples

# Set the encapsulation format for LLDP frames to SNAP on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] lldp encapsulation snap

lldp fast-count

Use lldp fast-count to set the number of LLDP frames sent each time fast LLDP frame transmission is triggered.

Use undo lldp fast-count to restore the default.

Syntax

lldp fast-count count

undo lldp fast-count

Default

Four LLDP frames are sent each time fast LLDP frame transmission is triggered.

Views

System view

Predefined user roles

network-admin

mdc-admin

Parameters

count: Sets the number of LLDP frames sent each time fast LLDP frame transmission is triggered. The value range is 1 to 8.

Examples

# Configure the device to send five LLDP frames each time fast LLDP frame transmission is triggered.

<Sysname> system-view

[Sysname] lldp fast-count 5

lldp global enable

Use lldp global enable to enable LLDP globally.

Use undo lldp global enable to disable LLDP globally.

Syntax

lldp global enable

undo lldp global enable

Default

LLDP is disasbled globally.

Views

System view

Predefined user roles

network-admin

mdc-admin

Usage guidelines

LLDP takes effect on a port only when LLDP is enabled both globally and on the port.

Examples

# Disable LLDP globally.

<Sysname> system-view

[Sysname] undo lldp global enable

Related commands

lldp enable

lldp global tlv-enable basic-tlv management-address-tlv

Use lldp global tlv-enable basic-tlv management-address-tlv to enable advertisement of the management address TLV globally and set the management address to be advertised.

Use undo lldp global tlv-enable basic-tlv management-address-tlv to restore the default.

Syntax

lldp [ agent { nearest-customer | nearest-nontpmr } ] global tlv-enable basic-tlv management-address-tlv [ ipv6 ] { ip-address | interface loopback interface-number | interface vlan-interface interface-number }

undo lldp [ agent { nearest-customer | nearest-nontpmr } ] global tlv-enable basic-tlv management-address-tlv

Default

Advertisement of the management address TLV is disabled globally.

Views

System view

Predefined user roles

network-admin

mdc-admin

Parameters

agent: Specifies an LLDP agent type. If you do not specify an agent type, this command applies to the nearest bridge agent.

· nearest-customer: Specifies the nearest customer bridge agent.

· nearest-nontpmr: Specifies the nearest non-TPMR bridge agent.

ipv6: Specifies an IPv6 management address. If you do not specify this keyword, an IPv4 management address will be advertised.

ip-address: Specifies the management address to be advertised.

interface loopback interface-number: Specifies a loopback interface by its number in the range of 0 to 127. The IP address of the loopback interface will be advertised as the management address. The value range for the interface-number argument is 0 to 1023.

interface vlan-interface interface-number: Specifies a VLAN interface by is number in the range of 1 to 4094. The IP address of the VLAN interface will be advertised as the management address.

Usage guidelines

If you execute this command multiple times, the most recent configuration takes effect.

You can configure advertisement of the management address TLV globally or on a per-interface basis. The device selects the management address TLV advertisement setting for an interface in the following order:

1. Interface-based setting, configured by using the lldp tlv-enable command with the management-address-tlv keyword.

2. Global setting, configured by using the lldp global tlv-enable basic-tlv management-address-tlv command.

3. Default setting for the interface.

By default:

¡ The nearest bridge agent and nearest customer bridge agent advertise the management address TLV.

¡ The nearest non-TPMR bridge agent does not advertise the management address TLV.

The IPv4 or IPv6 address of the LLDP frame sending port will be advertised as the management address when the following conditions exist:

· The ip-address argument is not configured.

· The specified loopback or VLAN interface does not have an IPv4 or IPv6 address, or the specified interface does not exist.

If the LLDP frame sending port does not have an IPv4 or IPv6 address, MAC address 000f-e207-f2e0 will be advertised.

If you specify the ipv6 keyword, the management address is the IPv6 address. If you do not specify the ipv6 keyword, the management address is the IPv4 address.

Examples

# Enable advertisement of the management address TLV globally and set the advertised management address to 192.168.1.1.

<Sysname> system-view

[Sysname] lldp agent nearest-customer global tlv-enable basic-tlv management-address-tlv 192.168.1.1

Related commands

lldp tlv-enable

lldp hold-multiplier

Use lldp hold-multiplier to set the TTL multiplier.

Use undo lldp hold-multiplier to restore the default.

Syntax

lldp hold-multiplier value

undo lldp hold-multiplier

Default

The TTL multiplier is 4.

Views

System view

Predefined user roles

network-admin

mdc-admin

Parameters

value: Sets the TTL multiplier in the range of 2 to 10.

Usage guidelines

The TTL TLV carried in an LLDPDU determines how long the device information carried in the LLDPDU can be saved on a recipient device.

By setting the TTL multiplier, you can set the TTL of locally sent LLDP frames. The TTL is expressed by using the following formula:

TTL = Min (65535, (TTL multiplier × LLDP frame transmission interval + 1))

As the expression shows, the TTL can be up to 65535 seconds.

Examples

# Set the TTL multiplier to 6.

<Sysname> system-view

[Sysname] lldp hold-multiplier 6

Related commands

lldp timer tx-interval

lldp ignore-pvid-inconsistency

Use lldp ignore-pvid-inconsistency to disable LLDP PVID inconsistency check.

Use undo lldp ignore-pvid-inconsistency to enable LLDP PVID inconsistency check.

Syntax

lldp ignore-pvid-inconsistency

undo lldp ignore-pvid-inconsistency

Default

LLDP PVID inconsistency check is enabled.

Views

System view

Default command level

network-admin

mdc-admin

Usage guidelines

By default, when the system receives an LLDP packet, it compares the PVID value contained in packet with the PVID configured on the receiving interface. If the two PVIDs do not match, a log message will be printed to notify the user.

You can disable PVID inconsistency check if different PVIDs are required on a link.

Examples

# Disable LLDP PVID inconsistency check.

<Sysname> system-view

[Sysname] lldp ignore-pvid-inconsistency

lldp management-address

Use lldp management-address to enable the device to generate an ARP or ND entry after receiving an LLDP frame that carries a management address TLV.

Use undo lldp management-address to restore the default.

Syntax

In Layer 2 Ethernet interface view:

lldp management-address { arp-learning | nd-learning } vlan vlan-id

undo lldp management-address { arp-learning | nd-learning }

In Layer 3 Ethernet interface view:

lldp management-address { arp-learning | nd-learning } [ vlan vlan-id ]

undo lldp management-address { arp-learning | nd-learning }

Default

The device does not generate an ARP or ND entry after receiving an LLDP frame that carries a management address TLV.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Default command level

network-admin

mdc-admin

Parameters

arp-learning: Generates an ARP entry if the received management address TLV contains an IPv4 address.

nd-learning: Generates an ND entry if the received management address TLV contains an IPv6 address.

vlan vlan-id: Specifies a VLAN ID. The value range for the vlan-id argument is 1 to 4094.

· In Layer 2 Ethernet interface view, specify the ID of the VLAN to which the generated ARP or ND entry belongs. The VLAN ID must belong to a VLAN that meets the following requirements:

¡ The Layer 2 Ethernet interface is assigned the VLAN.

¡ A VLAN interface is configured for the VLAN.

This option is required in Layer 2 Ethernet interface view.

· In Layer 3 Ethernet interface view, specify the ID of a Layer 3 Ethernet subinterface. The subinterface will be recorded as the output interface in the ARP or ND entry. If the Layer 3 Ethernet subinterface does not exist or if this option is not specified, the Layer 3 Ethernet interface is recorded as the output interface.

Usage guidelines

You can enable the device to generate both ARP entries and ND entries.

In Layer 2 Ethernet interface view, this command must be configured together with the lldp source-mac vlan command. The lldp source-mac vlan command enables the Layer 2 Ethernet interface to use the MAC address of a VLAN interface instead of its own MAC address as the source MAC address of LLDP frames. This ensures that the LLDP neighbor can learn correct ARP or ND entries.

In Layer 3 Ethernet interface view, if you use the vlan vlan-id option to specify an existing Layer 3 Ethernet subinterface, make sure the subinterface has an IP address. The IP address will be used for communications with the neighbor device.

Examples

# Configure Ten-GigabitEthernet 1/0/1 to generate an ARP entry after receiving an LLDP frame carrying an IPv4 management address TLV.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] lldp management-address arp-learning

Related commands

lldp source-mac vlan

lldp management-address-format string

Use lldp management-address-format string to set the encoding format of the management address to string.

Use undo lldp management-address-format to restore the default.

Syntax

In Layer 2/Layer 3 Ethernet interface view/management Ethernet interface view:

lldp [ agent { nearest-customer | nearest-nontpmr } ] management-address-format string

undo lldp [ agent { nearest-customer | nearest-nontpmr } ] management-address-format

In Layer 2/Layer 3 aggregate interface view:

lldp agent { nearest-customer | nearest-nontpmr } management-address-format string

undo lldp agent { nearest-customer | nearest-nontpmr } management-address-format

Default

The encoding format of the management address is numeric.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Management Ethernet interface view

Layer 2 aggregate interface view

Layer 3 aggregate interface view

Predefined user roles

network-admin

mdc-admin

Parameters

agent: Specifies an LLDP agent type. If you do not specify an agent type in Ethernet or management Ethernet interface view, the command sets the encoding format of the management address for nearest bridge agents.

nearest-customer: Specifies nearest customer bridge agents.

nearest-nontpmr: Specifies nearest non-TPMR bridge agents.

Usage guidelines

LLDP neighbors must use the same encoding format for the management address.

The device supports only the numeric encoding format for IPv6 management addresses.

Examples

# Set the encoding format of the management address to string for the nearest customer bridge agents on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] lldp agent nearest-customer management-address-format string

lldp max-credit

Use lldp max-credit to set the token bucket size for sending LLDP frames.

Use undo lldp max-credit to restore the default.

Syntax

lldp max-credit credit-value

undo lldp max-credit

Default

The token bucket size for sending LLDP frames is 5.

Views

System view

Predefined user roles

network-admin

mdc-admin

Parameters

credit-value: Specifies the token bucket size for sending LLDP frames, in the range of 1 to 100.

Examples

# Set the token bucket size for sending LLDP frames to 10.

<Sysname> system-view

[Sysname] lldp max-credit 10

lldp mode

Use lldp mode to configure LLDP to operate in service bridge mode.

Use undo lldp mode to restore the default.

Syntax

lldp mode service-bridge

undo lldp mode

Default

LLDP operates in customer bridge mode.

Views

System view

Predefined user roles

network-admin

mdc-admin

Parameters

service-bridge: Specifies the service bridge mode.

Usage guidelines

The LLDP agent types supported by LLDP depend on the LLDP bridge mode:

· Service bridge mode—LLDP supports nearest bridge agents and nearest non-TPMR bridge agents. LLDP processes the LLDP frames with destination MAC addresses for these agents and transparently transmits the LLDP frames with other destination MAC addresses in a VLAN.

· Customer bridge mode—LLDP supports nearest bridge agents, nearest non-TPMR bridge agents, and nearest customer bridge agents. LLDP processes the LLDP frames with destination MAC addresses for these agents and transparently transmits the LLDP frames with other destination MAC addresses in a VLAN.

The bridge mode configuration takes effect only when LLDP is enabled globally. If LLDP is disabled globally, LLDP can only operate in customer bridge mode.

Examples

# Configure LLDP to operate in service bridge mode.

<Sysname> system-view

[Sysname] lldp mode service-bridge

Related commands

lldp global enable

lldp notification med-topology-change enable

Use lldp notification med-topology-change enable to enable LLDP-MED trapping.

Use undo lldp notification med-topology-change enable to disable LLDP-MED trapping.

Syntax

lldp notification med-topology-change enable

undo lldp notification med-topology-change enable

Default

LLDP-MED trapping is disabled.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Management Ethernet interface view

Predefined user roles

network-admin

mdc-admin

Examples

# Enable LLDP-MED trapping on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] lldp notification med-topology-change enable

lldp notification remote-change enable

Use lldp notification remote-change enable to enable LLDP trapping.

Use undo lldp notification remote-change enable to disable LLDP trapping.

Syntax

In Layer 2/Layer 3 Ethernet interface view/management Ethernet interface view:

lldp [ agent { nearest-customer | nearest-nontpmr } ] notification remote-change enable

undo lldp [ agent { nearest-customer | nearest-nontpmr } ] notification remote-change enable

In Layer 2/Layer 3 aggregate interface view:

lldp agent { nearest-customer | nearest-nontpmr } notification remote-change enable

undo lldp agent { nearest-customer | nearest-nontpmr } notification remote-change enable

In IRF physical interface view:

lldp notification remote-change enable

undo lldp notification remote-change enable

Default

LLDP trapping is disabled.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Management Ethernet interface view

Layer 2 aggregate interface view

Layer 3 aggregate interface view

IRF physical interface view

Predefined user roles

network-admin

mdc-admin

Parameters

agent: Specifies an LLDP agent type. If you do not specify an agent type in Ethernet or management Ethernet interface view, the command enables LLDP trapping for nearest bridge agents.

nearest-customer: Specifies nearest customer bridge agents.

nearest-nontpmr: Specifies nearest non-TPMR bridge agents.

Examples

# Enable LLDP trapping for the nearest customer bridge agent on Ten-GigabitEthernet 1/0/1.

<Sysname> system-view

[Sysname] interface Ten-GigabitEthernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] lldp agent nearest-customer notification remote-change enable

lldp source-mac vlan

Use lldp source-mac vlan to set the source MAC address of outgoingLLDP frames to the MAC address of a VLAN interface or a Layer 3 Ethernet subinterface.

Use undo lldp source-mac vlan to restore the default.

Syntax

lldp source-mac vlan vlan-id

undo lldp source-mac vlan

Default

The source MAC address of LLDP frames is the MAC address of the Layer 3 Ethernet interface.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Default command level

network-admin

mdc-admin

Parameters

vlan vlan-id: Specifies a VLAN ID. The value range for the vlan-id argument is 1 to 4094.

· In Layer 2 Ethernet interface view, specify the ID of a VLAN to which the interface belongs. The specified VLAN must have a VLAN interface configured.

· In Layer 3 Ethernet interface view, specify the ID of a Layer 3 Ethernet subinterface. If the Layer 3 Ethernet subinterface does not exist, the MAC address of the Layer 3 Ethernet interface is used as the source MAC address of LLDP frames.

Usage guidelines

In Layer 2 Ethernet interface view, this command must be configured together with the lldp management-address arp-learning command to ensure that the LLDP neighbor can learn correct ARP or ND entries.

Examples

# Set the source MAC address of LLDP frames to the MAC address of the Layer 3 Ethernet subinterface.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] lldp source-mac vlan 4094

Related commands

lldp management-address arp-learning

lldp timer fast-interval

Use lldp timer fast-interval to set an interval for fast LLDP frame transmission.

Use undo lldp timer fast-interval to restore the default.

Syntax

lldp timer fast-interval interval

undo lldp timer fast-interval

Default

The interval for fast LLDP frame transmission is 1 second.

Views

System view

Predefined user roles

network-admin

mdc-admin

Parameters

interval: Sets an interval for fast LLDP frame transmission, in the range of 1 to 3600 seconds.

Examples

# Set the interval for fast LLDP frame transmission to 2 seconds.

<Sysname> system-view

[Sysname] lldp timer fast-interval 2

lldp timer notification-interval

Use lldp timer notification-interval to set the LLDP trap and LLDP-MED trap transmission interval.

Use undo lldp timer notification-interval to restore the default.

Syntax

lldp timer notification-interval interval

undo lldp timer notification-interval

Default

The LLDP trap and LLDP-MED trap transmission interval is 30 seconds.

Views

System view

Predefined user roles

network-admin

mdc-admin

Parameters

interval: Sets the LLDP trap and LLDP-MED trap transmission interval in the range of 5 to 3600 seconds.

Examples

# Set both the LLDP trap and LLDP-MED trap transmission interval to 8 seconds.

<Sysname> system-view

[Sysname] lldp timer notification-interval 8

lldp timer reinit-delay

Use lldp timer reinit-delay to set the LLDP reinitialization delay.

Use undo lldp timer reinit-delay to restore the default.

Syntax

lldp timer reinit-delay delay

undo lldp timer reinit-delay

Default

The LLDP reinitialization delay is 2 seconds.

Views

System view

Predefined user roles

network-admin

mdc-admin

Parameters

delay: Sets the LLDP reinitialization delay in the range of 1 to 10 seconds.

Examples

# Set the LLDP reinitialization delay to 4 seconds.

<Sysname> system-view

[Sysname] lldp timer reinit-delay 4

lldp timer tx-interval

Use lldp timer tx-interval to set the LLDP frame transmission interval.

Use undo lldp timer tx-interval to restore the default.

Syntax

lldp timer tx-interval interval

undo lldp timer tx-interval

Default

The LLDP frame transmission interval is 30 seconds.

Views

System view

Predefined user roles

network-admin

mdc-admin

Parameters

interval: Sets the LLDP frame transmission interval in the range of 1 to 32768 seconds.

Examples

# Set the LLDP frame transmission interval to 20 seconds.

<Sysname> system-view

[Sysname] lldp timer tx-interval 20

lldp tlv-enable

Use lldp tlv-enable to configure the types of advertisable TLVs on a port.

Use undo lldp tlv-enable to disable the advertising of the specified types of TLVs on a port.

Syntax

In Layer 2 Ethernet interface view:

· For nearest bridge agents:

lldp tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address | interface loopback interface-number ] } | dot1-tlv { all | port-vlan-id | link-aggregation | dcbx | protocol-vlan-id [ vlan-id ] | vlan-name [ vlan-id ] | management-vid [ mvlan-id ] } | dot3-tlv { all | mac-physic | max-frame-size | power } | med-tlv { all | capability | inventory | network-policy [ vlan-id ] | power-over-ethernet | location-id { civic-address device-type country-code { ca-type ca-value }&<1-10> | elin-address tel-number } } }

undo lldp tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address | interface loopback interface-number ] } | dot1-tlv { all | port-vlan-id | link-aggregation | dcbx | protocol-vlan-id | vlan-name | management-vid } | dot3-tlv { all | mac-physic | max-frame-size | power } | med-tlv { all | capability | inventory | network-policy [ vlan-id ] | power-over-ethernet | location-id } }

· For nearest non-TPMR bridge agents:

lldp agent nearest-nontpmr tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address ] } | dot1-tlv { all | evb | port-vlan-id | link-aggregation } }

lldp tlv-enable dot1-tlv { protocol-vlan-id [ vlan-id ] | vlan-name [ vlan-id ] | management-vid [ mvlan-id ] }

undo lldp agent nearest-nontpmr tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address ] } | dot1-tlv { all | evb | port-vlan-id | link-aggregation } }

undo lldp tlv-enable dot1-tlv { protocol-vlan-id | vlan-name | management-vid }

· For nearest customer bridge agents:

lldp agent nearest-customer tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address ] } | dot1-tlv { all | port-vlan-id | link-aggregation } }

lldp tlv-enable dot1-tlv { protocol-vlan-id [ vlan-id ] | vlan-name [ vlan-id ] | management-vid [ mvlan-id ] }

undo lldp agent nearest-customer tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address ] } | dot1-tlv { all | port-vlan-id | link-aggregation } }

undo lldp tlv-enable dot1-tlv { protocol-vlan-id | vlan-name | management-vid }

In Layer 3 Ethernet interface view:

lldp tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address | interface loopback interface-number ] } | dot1-tlv { all | link-aggregation } | dot3-tlv { all | mac-physic | max-frame-size | power } | med-tlv { all | capability | inventory | power-over-ethernet | location-id { civic-address device-type country-code { ca-type ca-value }&<1-10> | elin-address tel-number } } }

lldp agent { nearest-nontpmr | nearest-customer } tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address ] } | dot1-tlv { all | link-aggregation } }

undo lldp tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address | interface loopback interface-number ] } | dot1-tlv { all | link-aggregation } | dot3-tlv { all | mac-physic | max-frame-size | power } | med-tlv { all | capability | inventory | power-over-ethernet | location-id } }

undo lldp agent { nearest-nontpmr | nearest-customer } tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address ] } | dot1-tlv { all | link-aggregation } }

In management Ethernet interface view:

lldp tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address ] } | dot1-tlv { all | link-aggregation } | dot3-tlv { all | mac-physic | max-frame-size | power } | med-tlv { all | capability | inventory | power-over-ethernet | location-id { civic-address device-type country-code { ca-type ca-value }&<1-10> | elin-address tel-number } } }

undo lldp tlv-enable { basic-tlv { all | port-description | system-capability | system-description | system-name | management-address-tlv [ ipv6 ] [ ip-address ] } | dot1-tlv { all | link-aggregation } | dot3-tlv { all | mac-physic | max-frame-size | power } | med-tlv { all | capability | inventory | power-over-ethernet | location-id } }

In Layer 2 aggregate interface view:

lldp agent nearest-nontpmr tlv-enable { basic-tlv { all | management-address-tlv [ ipv6 ] [ ip-address ] | port-description | system-capability | system-description | system-name } | dot1-tlv { all | evb | port-vlan-id } }

lldp agent nearest-customer tlv-enable { basic-tlv { all | management-address-tlv [ ipv6 ] [ ip-address ] | port-description | system-capability | system-description | system-name } | dot1-tlv { all | port-vlan-id } }

lldp tlv-enable dot1-tlv { protocol-vlan-id [ vlan-id ] | vlan-name [ vlan-id ] | management-vid [ mvlan-id ] }

undo lldp agent nearest-nontpmr tlv-enable { basic-tlv { all | management-address-tlv [ ipv6 ] [ ip-address ] | port-description | system-capability | system-description | system-name } | dot1-tlv { all | evb | port-vlan-id } }

undo lldp agent nearest-customer tlv-enable { basic-tlv { all | management-address-tlv [ ipv6 ] [ ip-address ] | port-description | system-capability | system-description | system-name } | dot1-tlv { all | port-vlan-id } }

undo lldp tlv-enable dot1-tlv { protocol-vlan-id | vlan-name | management-vid }

In Layer 3 aggregate interface view:

lldp agent { nearest-customer | nearest-nontpmr } tlv-enable basic-tlv { all | management-address-tlv [ ipv6 ] [ ip-address ] | port-description | system-capability | system-description | system-name }

undo lldp agent { nearest-customer | nearest-nontpmr } tlv-enable basic-tlv { all | management-address-tlv [ ipv6 ] [ ip-address ] | port-description | system-capability | system-description | system-name }

In IRF physical interface view:

lldp tlv-enable basic-tlv { port-description | system-capability | system-description | system-name }

undo lldp tlv-enable basic-tlv { port-description | system-capability | system-description | system-name }

Default

On Layer 2 Ethernet interfaces:

· Nearest bridge agents can advertise all types of LLDP TLVs except the following types:

¡ DCBX TLVs.

¡ Location identification TLVs.

¡ Port and protocol VLAN ID TLVs.

¡ VLAN name TLVs.

¡ Management VLAN ID TLVs.

¡ EVB TLVs.

· Nearest non-TPMR bridge agents can advertise only EVB TLVs.

· Nearest customer bridge agents can advertise basic TLVs and IEEE 802.1 organizationally specific TLVs (only port VLAN ID TLV and link aggregation TLV are supported).

On Layer 3 Ethernet interfaces or management Ethernet interfaces:

· Nearest bridge agents can advertise all types of LLDP TLVs except network policy TLVs and location identification TLVs. Among all the 802.1 organizationally specific TLVs, only the link aggregation TLV is supported.

· Nearest non-TPMR bridge agents do not advertise TLVs.

· Nearest customer bridge agents can advertise basic TLVs and IEEE 802.1 organizationally specific TLVs (only link aggregation TLV is supported).

On Layer 2 aggregate interfaces:

· Nearest non-TPMR bridge agents can advertise only EVB TLVs.

· Nearest customer bridge agents can advertise basic TLVs and IEEE 802.1 organizationally specific TLVs. Among the IEEE 802.1 organizationally specific TLVs, only port VLAN ID TLVs are supported.

On Layer 3 aggregate interfaces:

· Nearest non-TPMR bridge agents do not advertise TLVs.

· Nearest customer bridge agents can advertise only basic TLVs.

IRF physical interfaces support all available types of TLVs.

Views

Layer 2 Ethernet interface view

Layer 3 Ethernet interface view

Management Ethernet interface view

Layer 2 aggregate interface view

Layer 3 aggregate interface view

IRF physical interface view

Predefined user roles

network-admin

mdc-admin

Parameters

agent: Specifies an LLDP agent type. If you do not specify an agent type in Ethernet or management Ethernet interface view, the command configures the types of advertisable TLVs for nearest bridge agents.

nearest-customer: Specifies nearest customer bridge agents.

nearest-nontpmr: Specifies nearest non-TPMR bridge agents.

all: Advertises all TLVs of the specified type. This keyword enables the interface to advertise following TLVs:

· All basic LLDP TLVs if the all keyword is specified for basic-tlv.

· All IEEE 802.1 organizationally specific LLDP TLVs if the all keyword is specified for dot1-tlv.

· All IEEE 802.3 organizationally specific LLDP TLVs if the all keyword is specified for dot3-tlv.

· All LLDP-MED TLVs except location identification TLVs if the all keyword is specified for med-tlv.

basic-tlv: Advertises basic LLDP TLVs.

management-address-tlv [ ipv6 ] [ ip-address | interface loopback interface-number ]: Advertises management address TLVs. The ipv6 keyword indicates that the management address to be advertised is in IPv6 format. The ip-address argument specifies the management address to be advertised. The interface loopback interface-number option specifies the management address as the IP address of a loopback interface specified by its number. By default, the following rules apply:

· When you execute the lldp tlv-enable command:

¡ For a Layer 2 Ethernet interface, the IPv4 or IPv6 address of a VLAN interface will be advertised as the management address when one of the following conditions exists:

- Both the ip-address argument and the interface loopback interface-number option are not configured.

- The specified loopback interface does not have an IPv4 or IPv6 address, or the specified loopback interface does not exist.

The VLAN interface belongs to a VLAN that meets the following requirements:

- In up state.

- The corresponding VLAN ID is the lowest among the VLANs permitted on the interface.

If you specify the ipv6 keyword, the IPv6 address of the VLAN interface will be advertised. If you do not specify the ipv6 keyword, both the IPv4 and IPv6 addresses of the VLAN interface will be advertised.

If none of the VLAN interfaces of the permitted VLANs is assigned an IPv4 or IPv6 address or all VLAN interfaces are down, MAC address 000f-e207-f2e0 will be advertised.

¡ For a Layer 2 aggregate interface, the IPv4 or IPv6 address of a VLAN interface will be advertised as the management address if the ip-address argument is not configured.

The VLAN interface belongs to a VLAN that meets the following requirements:

- In up state.

- The corresponding VLAN ID is the lowest among the VLANs permitted on the interface.

If none of the VLAN interfaces of the permitted VLANs is assigned an IPv4 or IPv6 address or all VLAN interfaces are down, MAC address 000f-e207-f2e0 is advertised.

¡ For a Layer 3 Ethernet interface, the IPv4 or IPv6 address of the interface will be advertised when the following conditions exist:

- The ip-address argument is not configured.

- The specified loopback interface does not have an IPv4 or IPv6 address, or the specified loopback interface does not exist.

If you specify the ipv6 keyword, the IPv6 address of the interface will be advertised. If you do not specify the ipv6 keyword, both the IPv4 and IPv6 addresses of the interface will be advertised.

If the interface does not have an IPv4 or IPv6 address, MAC address 000f-e207-f2e0 will be advertised.

¡ For a Layer 3 aggregate interface or management Ethernet interface, the IPv4 or IPv6 address of the interface will be advertised when the ip-address argument is not configured.

If you specify the ipv6 keyword, the IPv6 address of the interface will be advertised. If you do not specify the ipv6 keyword, both the IPv4 and IPv6 addresses of the interface will be advertised.

If the interface does not have an IPv4 or IPv6 address, MAC address 000f-e207-f2e0 will be advertised.

· When you execute the undo lldp tlv-enable command for a Layer 2/Layer 3 Ethernet interface, management Ethernet interface, or Layer 2/Layer 3 aggregate interface:

¡ If you do not specify ip-address, ipv6, or interface loopback interface-number, the interface does not advertise any management address TLVs.

¡ If you specify ip-address, ipv6, or interface loopback interface-number, the interface advertises the default management address TLVs.

port-description: Advertises port description TLVs.

system-capability: Advertises system capabilities TLVs.

system-description: Advertises system description TLVs.

system-name: Advertises system name TLVs.

dot1-tlv: Advertises IEEE 802.1 organizationally specific LLDP TLVs.

dcbx: Advertises the DCBX TLVs.

evb: Advertises the EVB module TLVs.

port-vlan-id: Advertises port VLAN ID TLVs.

protocol-vlan-id [ vlan-id ]: Advertises port and protocol VLAN ID TLVs. The vlan-id argument specifies a VLAN ID in the TLVs to be advertised. The VLAN ID is in the range of 1 to 4094, and the default is the lowest VLAN ID on the port.

vlan-name [ vlan-id ]: Advertises VLAN name TLVs. The vlan-id argument specifies a VLAN ID in the TLVs to be advertised. The VLAN ID is in the range of 1 to 4094, and the default is the lowest VLAN ID on the port. If you do not specify a VLAN ID and the port is not assigned to any VLAN, the PVID of the port is advertised.

management-vid [ mvlan-id ]: Advertises management VLAN ID TLVs. The mvlan-id argument specifies a management VLAN ID in the TLVs to be advertised. The management VLAN ID is in the range of 1 to 4094. If you do not specify this option, the value 0 is advertised, which means that the LLDP agent is not configured with a management VLAN ID.

link-aggregation: Advertises link aggregation TLVs.

dot3-tlv: Advertises IEEE 802.3 organizationally specific LLDP TLVs.

mac-physic: Advertises MAC/PHY configuration/status TLVs.

max-frame-size: Advertises maximum frame size TLVs.

power: Advertises power in MDI TLVs and power stateful control TLVs.

med-tlv: Advertises LLDP-MED TLVs.

capability: Advertises LLDP-MED capabilities TLVs.

inventory: Advertises the following TLVs: hardware revision, firmware revision, software revision, serial number, manufacturer name, model name, and asset ID.

location-id: Advertises location identification TLVs.

civic-address: Inserts the typical address information about the network device in location identification TLVs .

device-type: Sets a device type value in the range of 0 to 2:

· Value 0 specifies a DHCP server.

· Value 1 specifies a network device.

· Value 2 specifies an LLDP-MED endpoint.

country-code: Sets a country code defined in ISO 3166.

{ ca-type ca-value }&<1-10>: Configures address information. ca-type represents the address information type in the range of 0 to 255. ca-value represents address information, a string of 1 to 250 characters. &<1-10> indicates that you can specify up to 10 ca-type ca-value pairs.

elin-address: Inserts telephone numbers for emergencies in location identification TLVs.

tel-number: Sets the telephone number for emergencies, a string of 10 to 25 characters.

network-policy [ vlan-id ]: Advertises network policy TLVs. The vlan-id argument specifies the voice VLAN ID to be advertised, in the range of 1 to 4094.

power-over-ethernet: Advertises extended power-via-MDI TLVs.

Usage guidelines

Nearest bridge agents are not supported on aggregate interfaces.

You can enable the device to advertise multiple types of TLVs by using this command without the all keyword specified.

If the MAC/PHY configuration/status TLV is not advertisable, none of the LLDP-MED TLVs will be advertised whether or not they are advertisable. If the LLDP-MED capabilities TLV is not advertisable, the other LLDP-MED TLVs will not be advertised regardless of whether or not they are advertisable.

The port and protocol VLAN ID, VLAN name, and management VLAN ID TLVs in IEEE 802.1 organizationally specific LLDP TLVs can be configured only for nearest bridge agents. The configuration can be inherited by nearest customer bridge agents and nearest non-TPMR bridge agents.

Examples

# Enable the nearest customer bridge agents on Ten-GigabitEthernet 1/0/1 to advertise link aggregation TLVs of the IEEE 802.1 organizationally specific TLVs.

<Sysname> system-view

[Sysname] interface ten-gigabitethernet 1/0/1

[Sysname-Ten-GigabitEthernet1/0/1] lldp agent nearest-customer tlv-enable dot1-tlv link-aggregation

04 Layer 2 - LAN Switching Command Reference

LLDP commands

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