04-Network Connectivity

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08-LLDP configuration
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Configuring LLDP

About LLDP

The Link Layer Discovery Protocol (LLDP) is a standard link layer protocol that allows network devices from different vendors to discover neighbors and exchange system and configuration information.

In an LLDP-enabled network, a device advertises local device information in LLDP Data Units (LLDPDUs) to the directly connected devices. The information distributed through LLDP is stored by its recipients in standard MIBs, making it possible for the information to be accessed by a Network Management System (NMS) through SNMP.

Information that can be distributed through LLDP includes (but is not limited to):

·     Major capabilities of the system.

·     Management IP address of the system.

·     Device ID.

·     Port ID.

LLDP agents and bridge modes

An LLDP agent is a mapping of a protocol entity that implements LLDP. Multiple LLDP agents can run on the same interface.

LLDP agents are classified into the following types:

·     Nearest bridge agent.

·     Nearest customer bridge agent.

·     Nearest non-TPMR bridge agent.

A Two-port MAC Relay (TPMR) is a type of bridge that has only two externally-accessible bridge ports. It supports a subset of the features of a MAC bridge. A TPMR is transparent to all frame-based media-independent protocols except for the following protocols:

¡     Protocols destined for the TPMR.

¡     Protocols destined for reserved MAC addresses that the relay feature of the TPMR is configured not to forward.

LLDP exchanges packets between neighbor agents and creates and maintains neighbor information for them. Figure 1 shows the neighbor relationships for these LLDP agents.

Figure 1 LLDP neighbor relationships

 

The types of supported LLDP agents vary with the bridge mode in which LLDP operates. LLDP supports the following bridge modes: customer bridge (CB) and service bridge (SB).

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

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

LLDP frame formats

LLDP sends device information in LLDP frames. LLDP frames are encapsulated in Ethernet II or Subnetwork Access Protocol (SNAP) format.

LLDP frame encapsulated in Ethernet II

Figure 2 Ethernet II-encapsulated LLDP frame

 

Table 1 Fields in an Ethernet II-encapsulated LLDP frame

Field

Description

Destination MAC address

MAC address to which the LLDP frame is advertised. LLDP specifies different multicast MAC addresses as destination MAC addresses for LLDP frames destined for agents of different types. This helps distinguish between LLDP frames sent and received by different agent types on the same interface. The destination MAC address is fixed to one of the following multicast MAC addresses:

·     0x0180-c200-000E for LLDP frames destined for nearest bridge agents.

·     0x0180-c200-0000 for LLDP frames destined for nearest customer bridge agents.

·     0x0180-c200-0003 for LLDP frames destined for nearest non-TPMR bridge agents.

Source MAC address

MAC address of the sending port.

Type

Ethernet type for the upper-layer protocol. This field is 0x88CC for LLDP.

Data

LLDPDU.

FCS

Frame check sequence, a 32-bit CRC value used to determine the validity of the received Ethernet frame.

 

LLDP frame encapsulated in SNAP

Figure 3 SNAP-encapsulated LLDP frame

 

Table 2 Fields in a SNAP-encapsulated LLDP frame

Field

Description

Destination MAC address

MAC address to which the LLDP frame is advertised. It is the same as that for Ethernet II-encapsulated LLDP frames.

Source MAC address

MAC address of the sending port.

Type

SNAP type for the upper-layer protocol. This field is 0xAAAA-0300-0000-88CC for LLDP.

Data

LLDPDU.

FCS

Frame check sequence, a 32-bit CRC value used to determine the validity of the received Ethernet frame.

 

LLDPDUs

Each LLDP frame contains one LLDPDU. Each LLDPDU is a sequence of type-length-value (TLV) structures.

Figure 4 LLDPDU encapsulation format

 

As shown in Figure 4, each LLDPDU starts with the following mandatory TLVs: Chassis ID TLV, Port ID TLV, and Time to Live TLV. The mandatory TLVs are followed by a maximum of 29 optional TLVs.

TLVs

A TLV is an information element that contains the type, length, and value fields.

LLDPDU TLVs include the following categories:

·     Basic management TLVs.

·     Organizationally (IEEE 802.1 and IEEE 802.3) specific TLVs.

·     LLDP-MED (media endpoint discovery) TLVs.

Basic management TLVs are essential to device management.

Organizationally specific TLVs and LLDP-MED TLVs are used for enhanced device management. They are defined by standardization or other organizations and are optional for LLDPDUs.

Basic management TLVs

Table 3 lists the basic management TLV types. Some of them are mandatory for LLDPDUs.

Table 3 Basic management TLVs

Type

Description

Remarks

Chassis ID

Specifies the bridge MAC address of the sending device.

Mandatory.

Port ID

Specifies the ID of the sending port:

·     If the LLDPDU carries LLDP-MED TLVs, the port ID TLV carries the MAC address of the sending port.

·     Otherwise, the port ID TLV carries the port name.

Time to Live

Specifies the life of the transmitted information on the receiving device.

End of LLDPDU

Marks the end of the TLV sequence in the LLDPDU.

Port Description

Specifies the description for the sending port.

Optional.

System Name

Specifies the assigned name of the sending device.

System Description

Specifies the description for the sending device.

System Capabilities

Identifies the primary features of the sending device and the enabled primary features.

Management Address

Specifies the following elements:

·     The management address of the local device.

·     The interface number and object identifier (OID) associated with the address.

IEEE 802.1 organizationally specific TLVs

Table 4 lists the IEEE 802.1 organizationally specific TLVs.

The device can receive protocol identity TLVs and VID usage digest TLVs, but it cannot send these TLVs.

Table 4 IEEE 802.1 organizationally specific TLVs

Type

Description

Port VLAN ID (PVID)

Specifies the port VLAN identifier.

Port And Protocol VLAN ID (PPVID)

Indicates whether the device supports protocol VLANs and, if so, what VLAN IDs these protocols will be associated with.

VLAN Name

Specifies the textual name of any VLAN to which the port belongs.

Protocol Identity

Indicates protocols supported on the port.

DCBX

Data center bridging exchange protocol. DCBX TLVs are not supported in the current software version.

EVB module

Edge Virtual Bridging module, including EVB TLV and CDCP TLV. EVB module TLVs are not supported in the current software version.

Link Aggregation

Indicates whether the port supports link aggregation, and if yes, whether link aggregation is enabled.

Management VID

Management VLAN ID.

VID Usage Digest

VLAN ID usage digest.

ETS Configuration

Enhanced Transmission Selection configuration.

ETS Recommendation

ETS recommendation.

PFC

Priority-based Flow Control.

APP

Application protocol.

QCN

Quantized Congestion Notification.

IEEE 802.3 organizationally specific TLVs

Table 5 shows the IEEE 802.3 organizationally specific TLVs.

The Power Stateful Control TLV is defined in IEEE P802.3at D1.0 and is not supported in later versions. The device sends this type of TLVs only after receiving them.

Table 5 IEEE 802.3 organizationally specific TLVs

Type

Description

MAC/PHY Configuration/Status

Contains the bit-rate and duplex capabilities of the port, support for autonegotiation, enabling status of autonegotiation, and the current rate and duplex mode.

Power Via MDI

Contains the power supply capabilities of the port:

·     Port class (PSE or PD).

·     Power supply mode.

·     Whether PSE power supply is supported.

·     Whether PSE power supply is enabled.

·     Whether pair selection can be controlled.

·     Power supply type.

·     Power source.

·     Power priority.

·     PD requested power.

·     PSE allocated power.

Maximum Frame Size

Indicates the supported maximum frame size.

Power Stateful Control

Indicates the power state control configured on the sending port, including the following:

·     Power supply mode of the PSE/PD.

·     PSE/PD priority.

·     PSE/PD power.

Energy-Efficient Ethernet

Indicates Energy Efficient Ethernet (EEE).

LLDP-MED TLVs

LLDP-MED TLVs provide multiple advanced applications for voice over IP (VoIP), such as basic configuration, network policy configuration, and address and directory management. LLDP-MED TLVs provide a cost-effective and easy-to-use solution for deploying voice devices in Ethernet. LLDP-MED TLVs are shown in Table 6.

If the MAC/PHY configuration/status TLV is not advertisable, none of the LLDP-MED TLVs will be advertised even if they are advertisable.

If the LLDP-MED capabilities TLV is not advertisable, the other LLDP-MED TLVs will not be advertised even if they are advertisable.

Table 6 LLDP-MED TLVs

Type

Description

LLDP-MED Capabilities

Allows a network device to advertise the LLDP-MED TLVs that it supports.

Network Policy

Allows a network device or terminal device to advertise the VLAN ID of a port, the VLAN type, and the Layer 2 priorities for specific applications.

Extended Power-via-MDI

Allows a network device or terminal device to advertise power supply capability. This TLV is an extension of the Power Via MDI TLV.

Hardware Revision

Allows a terminal device to advertise its hardware version.

Firmware Revision

Allows a terminal device to advertise its firmware version.

Software Revision

Allows a terminal device to advertise its software version.

Serial Number

Allows a terminal device to advertise its serial number.

Manufacturer Name

Allows a terminal device to advertise its vendor name.

Model Name

Allows a terminal device to advertise its model name.

Asset ID

Allows a terminal device to advertise its asset ID. The typical case is that the user specifies the asset ID for the endpoint to facilitate directory management and asset tracking.

Location Identification

Allows a network device to advertise the appropriate location identifier information for a terminal device to use in the context of location-based applications.

Management address

The network management system uses the management address of a device to identify and manage the device for topology maintenance and network management. The management address is encapsulated in the management address TLV.

LLDP operating modes

An LLDP agent can operate in one of the following modes:

·     TxRx mode—An LLDP agent in this mode can send and receive LLDP frames.

·     Tx mode—An LLDP agent in this mode can only send LLDP frames.

·     Rx mode—An LLDP agent in this mode can only receive LLDP frames.

·     Disable mode—An LLDP agent in this mode cannot send or receive LLDP frames.

Each time the operating mode of an LLDP agent changes, its LLDP protocol state machine reinitializes. A configurable reinitialization delay prevents frequent initializations caused by frequent changes to the operating mode. If you configure the reinitialization delay, an LLDP agent must wait the specified amount of time to initialize LLDP after the LLDP operating mode changes.

Transmitting and receiving LLDP frames

Transmitting LLDP frames

An LLDP agent operating in TxRx mode or Tx mode sends LLDP frames to its directly connected devices both periodically and when the local configuration changes. To prevent LLDP frames from overwhelming the network during times of frequent changes to local device information, LLDP uses the token bucket mechanism to rate limit LLDP frames. For more information about the token bucket mechanism, see traffic policing configuration in QoS Configuration Guide.

LLDP automatically enables the fast LLDP frame transmission mechanism in either of the following cases:

·     A new LLDP frame is received and carries device information new to the local device.

·     The LLDP operating mode of the LLDP agent changes from Disable or Rx to TxRx or Tx.

The fast LLDP frame transmission mechanism successively sends the specified number of LLDP frames at a configurable fast LLDP frame transmission interval. The mechanism helps LLDP neighbors discover the local device as soon as possible. Then, the normal LLDP frame transmission interval resumes.

Receiving LLDP frames

An LLDP agent operating in TxRx mode or Rx mode confirms the validity of TLVs carried in every received LLDP frame. If the TLVs are valid, the LLDP agent saves the information and starts an aging timer. The initial value of the aging timer is equal to the TTL value in the Time To Live TLV carried in the LLDP frame. When the LLDP agent receives a new LLDP frame, the aging timer restarts. When the aging timer decreases to zero, all saved information ages out.

Protocols and standards

·     IEEE 802.1AB-2005, Station and Media Access Control Connectivity Discovery

·     IEEE 802.1AB-2009, Station and Media Access Control Connectivity Discovery

·     ANSI/TIA-1057, Link Layer Discovery Protocol for Media Endpoint Devices

·     IEEE Std 802.1Qaz-2011, Media Access Control (MAC) Bridges and Virtual Bridged Local Area Networks-Amendment 18: Enhanced Transmission Selection for Bandwidth Sharing Between Traffic Classes

Restrictions and guidelines: LLDP configuration

When you configure LLDP, follow these restrictions and guidelines:

·     Some of the LLDP configuration tasks are available in different interface views (see Table 7).

Table 7 Support of LLDP configuration tasks in different views

Tasks

Supported views

Enabling LLDP

Layer 2 Ethernet interface view

Layer 2 aggregate interface view

Setting the LLDP operating mode

Configuring the advertisable TLVs

Configuring advertisement of the management address TLV

Setting the encapsulation format for LLDP frames

Enabling LLDP polling

Configuring LLDP trapping and LLDP-MED trapping

LLDP tasks at a glance

To configure LLDP, perform the following tasks:

1.     Enabling LLDP

2.     Setting the LLDP bridge mode

3.     Setting the LLDP operating mode

4.     (Optional.) Setting the LLDP reinitialization delay

5.     (Optional.) Configuring LLDP packet-related settings

¡     Configuring the advertisable TLVs

¡     Configuring advertisement of the management address TLV

¡     Setting the encapsulation format for LLDP frames

¡     Setting LLDP frame transmission parameters

¡     Setting the timeout for receiving LLDP frames

6.     (Optional.) Enabling LLDP polling

7.     (Optional.) Disabling LLDP PVID inconsistency check

8.     (Optional.) Configuring LLDP trapping and LLDP-MED trapping

Enabling LLDP

Restrictions and guidelines

For LLDP to take effect on specific ports, you must enable LLDP both globally and on these ports.

Procedure

1.     Enter system view.

system-view

2.     Enable LLDP globally.

lldp global enable

By default, LLDP is disabled globally.

3.     Enter interface view.

interface interface-type interface-number

4.     Enable LLDP.

lldp enable

By default, LLDP is enabled on a port.

Setting the LLDP bridge mode

1.     Enter system view.

system-view

2.     Set the LLDP bridge mode.

¡     Set the LLDP bridge mode to service bridge.

lldp mode service-bridge

By default, LLDP operates in customer bridge mode.

¡     Set the LLDP bridge mode to customer bridge.

undo lldp mode

By default, LLDP operates in customer bridge mode.

Setting the LLDP operating mode

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Set the LLDP operating mode.

¡     In Layer 2 Ethernet interface view:

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

In Ethernet interface view, if you do not specify an agent type, the command sets the operating mode for the nearest bridge agent.

¡     In Layer 2 aggregate interface view:

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

In aggregate interface view, you can set the operating mode only for the nearest customer bridge agent and nearest non-TPMR bridge agent.

By default:

¡     The nearest bridge agent operates in TxRx mode.

¡     The nearest customer bridge agent and nearest non-TPMR bridge agent operate in Disable mode.

Setting the LLDP reinitialization delay

About this task

When the LLDP operating mode changes on a port, the port initializes the protocol state machines after an LLDP reinitialization delay. By adjusting the delay, you can avoid frequent initializations caused by frequent changes to the LLDP operating mode on a port.

Procedure

1.     Enter system view.

system-view

2.     Set the LLDP reinitialization delay.

lldp timer reinit-delay delay

The default LLDP reinitialization delay is 2 seconds.

Configuring the advertisable TLVs

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Configure the advertisable TLVs.

¡     In Layer 2 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 | congestion-notification | port-vlan-id | link-aggregation | 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 } } }

By default, the nearest bridge agent advertises all supported TLVs except the following TLVs:

-     Location identification TLVs.

-     Port and protocol VLAN ID TLVs.

-     VLAN name TLVs.

-     Management VLAN ID TLV.

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 | congestion-notification | port-vlan-id | link-aggregation } }

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

By default, the nearest non-TPMR bridge agent do not advertise any TLVs.

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 | congestion-notification | port-vlan-id | link-aggregation } }

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

By default, the nearest customer bridge agent advertises all the supported basic management TLVs and IEEE 802.1 organizationally specific TLVs.

¡     In Layer 2 aggregate interface view:

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

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 | port-vlan-id } }

By default, the nearest non-TPMR bridge agent does not advertise any TLVs.

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 } }

By default, the nearest customer bridge agent advertises all supported basic management TLVs and the following IEEE 802.1 organizationally specific TLVs:

-     Port and protocol VLAN ID TLVs.

-     VLAN name TLVs.

-     Management VLAN ID TLVs.

The nearest bridge agent is not supported.

Configuring advertisement of the management address TLV

About this task

LLDP encodes management addresses in numeric or string format in management address TLVs.

If a neighbor encodes its management address in string format, set the encoding format of the management address to string on the connecting port. This guarantees normal communication with the neighbor.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Enable advertisement of the management address TLV on the interface and set the management address to be advertised.

¡     In Layer 2 Ethernet interface view:

lldp [ agent { nearest-customer | nearest-nontpmr } ] tlv-enable basic-tlv management-address-tlv [ ipv6 ] [ ip-address ]

¡     In Layer 2 aggregate interface view:

lldp agent { nearest-customer | nearest-nontpmr } tlv-enable basic-tlv management-address-tlv [ ipv6 ] [ ip-address ]

4.     Set the encoding format of the management address to string.

¡     In Layer 2 Ethernet interface view:

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

¡     In Layer 2 aggregate interface view:

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

The default management address encoding format is numeric.

Setting the encapsulation format for LLDP frames

About this task

Earlier versions of LLDP require the same encapsulation format on both ends to process LLDP frames. To successfully communicate with a neighboring device running an earlier version of LLDP, the local device must be set with the same encapsulation format.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Set the encapsulation format for LLDP frames to SNAP.

¡     In Layer 2 Ethernet interface view:

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

¡     In Layer 2 aggregate interface view:

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

By default, the Ethernet II encapsulation format is used.

Setting LLDP frame transmission parameters

About this task

The Time to Live 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 configure the TTL of locally sent LLDPDUs. 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. TTLs greater than 65535 will be rounded down to 65535 seconds.

Procedure

1.     Enter system view.

system-view

2.     Set the TTL multiplier.

lldp hold-multiplier value

The default setting is 4.

3.     Set the LLDP frame transmission interval.

lldp timer tx-interval interval

The default setting is 30 seconds.

4.     Set the token bucket size for sending LLDP frames.

lldp max-credit credit-value

The default setting is 5.

5.     Set the number of LLDP frames sent each time fast LLDP frame transmission is triggered.

lldp fast-count count

The default setting is 4.

6.     Set the fast LLDP frame transmission interval.

lldp timer fast-interval interval

The default setting is 1 second.

Setting the timeout for receiving LLDP frames

About this task

This feature allows the device to detect the presence of directly connected neighbors by setting the timeout timer for receiving LLDP frames. If an interface has not received any frames when the timeout timer expires, the device reports a no LLDP neighbor event to the NETCONF module.

Restrictions and guidelines

To avoid misdetection, make sure the timeout for receiving LLDP frames is greater than the LLDP frame transmission interval.

Procedure

1.     Enter system view.

system-view

2.     Set the timeout for receiving LLDP frames.

lldp timer rx-timeout timeout

By default, no timeout is set for receiving LLDP frames, and the device does not report no LLDP neighbor events.

Enabling LLDP polling

About this task

With LLDP polling enabled, a device periodically searches for local configuration changes. When the device detects a configuration change, it sends LLDP frames to inform neighboring devices of the change.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Enable LLDP polling and set the polling interval.

¡     In Layer 2 Ethernet interface view:

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

¡     In Layer 2 aggregate interface view:

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

By default, LLDP polling is disabled.

Disabling LLDP PVID inconsistency check

About this task

By default, when the system receives an LLDP packet, it compares the PVID value contained in the 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.

Procedure

1.     Enter system view.

system-view

2.     Disable LLDP PVID inconsistency check.

lldp ignore-pvid-inconsistency

By default, LLDP PVID inconsistency check is enabled.

Configuring LLDP trapping and LLDP-MED trapping

About this task

LLDP trapping or LLDP-MED trapping notifies the network management system of events such as newly detected neighboring devices and link failures.

To prevent excessive LLDP traps from being sent when the topology is unstable, set a trap transmission interval for LLDP.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Enable LLDP trapping.

¡     In Layer 2 Ethernet interface view:

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

¡     In Layer 2 aggregate interface view:

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

By default, LLDP trapping is disabled.

4.     (In Layer 2 Ethernet interface view.) Enable LLDP-MED trapping.

lldp notification med-topology-change enable

By default, LLDP-MED trapping is disabled.

5.     Return to system view.

quit

6.     (Optional.) Set the LLDP trap transmission interval.

lldp timer notification-interval interval

The default setting is 30 seconds.

Display and maintenance commands for LLDP

Execute display commands in any view.

Task

Command

Display local LLDP information.

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

Display the information contained in the LLDP TLVs sent from neighboring devices.

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

Display LLDP statistics.

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

Display LLDP status of a port.

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

Display types of advertisable optional LLDP TLVs.

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

LLDP configuration examples

Example: Configuring basic LLDP functions

Network configuration

As shown in Figure 5, enable LLDP globally on the switch and the AP to perform the following tasks:

·     Monitor the link between the switch and the MED on the NMS.

·     Monitor the link between the switch and the AP on the NMS.

Figure 5 Network diagram

Procedure

 

1.     Configure the switch:

# Enable LLDP globally.

<Switch> system-view

[Switch] lldp global enable

# Enable LLDP on GigabitEthernet 1/0/1. By default, LLDP is enabled on all ports.

[Switch] interface gigabitethernet 1/0/1

[Switch-GigabitEthernet1/0/1] lldp enable

# Set the LLDP operating mode to Rx on GigabitEthernet 1/0/1.

[Switch-GigabitEthernet1/0/1] lldp admin-status rx

[Switch-GigabitEthernet1/0/1] quit

# Enable LLDP on GigabitEthernet 1/0/2. By default, LLDP is enabled on all ports.

[Switch] interface gigabitethernet 1/0/2

[Switch-GigabitEthernet1/0/2] lldp enable

# Set the LLDP operating mode to Rx on GigabitEthernet 1/0/2.

[Switch-GigabitEthernet1/0/2] lldp admin-status rx

[Switch-GigabitEthernet1/0/2] quit

2.     Configure the AP:

# Enable LLDP globally.

<AP> system-view

[AP] lldp global enable

# Enable LLDP on GigabitEthernet 1/0/1. By default, LLDP is enabled on all ports.

[AP] interface gigabitethernet 1/0/1

[AP-GigabitEthernet1/0/1] lldp enable

# Set the LLDP operating mode to Tx on GigabitEthernet 1/0/1.

[AP-GigabitEthernet1/0/1] lldp admin-status tx

[AP-GigabitEthernet1/0/1] quit

Verifying the configuration

# Verify the following items on the switch:

·     GigabitEthernet 1/0/1 connects to a MED device.

·     GigabitEthernet 1/0/2 connects to a non-MED device.

·     Both ports operate in Rx mode, and they can receive LLDP frames but cannot send LLDP frames.

[Switch] display lldp status

Global status of LLDP: Enable

Bridge mode of LLDP: customer-bridge

The current number of LLDP neighbors: 2

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 credit max            : 5

Hold multiplier                : 4

Reinit delay                   : 2s

Trap interval                  : 30s

Fast start times               : 4

 

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

LLDP agent nearest-bridge:

Port status of LLDP            : Enable

Admin status                   : Rx_Only

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 1

Number of MED neighbors        : 1

Number of CDP neighbors        : 0

Number of sent optional TLV    : 21

Number of received unknown TLV : 0

 

LLDP agent nearest-nontpmr:

Port status of LLDP            : Enable

Admin status                   : Disable

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 0

Number of MED neighbors        : 0

Number of CDP neighbors        : 0

Number of sent optional TLV    : 1

Number of received unknown TLV : 0

 

LLDP agent nearest-customer:

Port status of LLDP            : Enable

Admin status                   : Disable

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 0

Number of MED neighbors        : 0

Number of CDP neighbors        : 0

Number of sent optional TLV    : 16

Number of received unknown TLV : 0

 

LLDP status information of port 2 [GigabitEthernet1/0/2]:

LLDP agent nearest-bridge:

Port status of LLDP            : Enable

Admin status                   : Rx_Only

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 1

Number of MED neighbors        : 0

Number of CDP neighbors        : 0

Number of sent optional TLV    : 21

Number of received unknown TLV : 3

 

LLDP agent nearest-nontpmr:

Port status of LLDP            : Enable

Admin status                   : Disable

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 0

Number of MED neighbors        : 0

Number of CDP neighbors        : 0

Number of sent optional TLV    : 1

Number of received unknown TLV : 0

 

LLDP agent nearest-customer:

Port status of LLDP            : Enable

Admin status                   : Disable

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 0

Number of MED neighbors        : 0

Number of CDP neighbors        : 0

Number of sent optional TLV    : 16

Number of received unknown TLV : 0

# Remove the link between the switch and the AP.

# Verify that GigabitEthernet 1/0/2 of the switch does not connect to any neighboring devices.

[Switch] display lldp status

Global status of LLDP: Enable

The current number of LLDP neighbors: 1

The current number of CDP neighbors: 0

LLDP neighbor information last changed time: 0 days, 0 hours, 5 minutes, 20 seconds

Transmit interval              : 30s

Fast transmit interval         : 1s

Transmit credit max            : 5

Hold multiplier                : 4

Reinit delay                   : 2s

Trap interval                  : 30s

Fast start times               : 4

 

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

LLDP agent nearest-bridge:

Port status of LLDP            : Enable

Admin status                   : Rx_Only

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 1

Number of MED neighbors        : 1

Number of CDP neighbors        : 0

Number of sent optional TLV    : 0

Number of received unknown TLV : 5

 

LLDP agent nearest-nontpmr:

Port status of LLDP            : Enable

Admin status                   : Disable

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 0

Number of MED neighbors        : 0

Number of CDP neighbors        : 0

Number of sent optional TLV    : 1

Number of received unknown TLV : 0

 

LLDP status information of port 2 [GigabitEthernet1/0/2]:

LLDP agent nearest-bridge:

Port status of LLDP            : Enable

Admin status                   : Rx_Only

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 0

Number of MED neighbors        : 0

Number of CDP neighbors        : 0

Number of sent optional TLV    : 0

Number of received unknown TLV : 0

 

LLDP agent nearest-nontpmr:

Port status of LLDP            : Enable

Admin status                   : Disable

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 0

Number of MED neighbors        : 0

Number of CDP neighbors        : 0

Number of sent optional TLV    : 1

Number of received unknown TLV : 0

 

LLDP agent nearest-customer:

Port status of LLDP            : Enable

Admin status                   : Disable

Trap flag                      : No

MED trap flag                  : No

Polling interval               : 0s

Number of LLDP neighbors       : 0

Number of MED neighbors        : 0

Number of CDP neighbors        : 0

Number of sent optional TLV    : 16

Number of received unknown TLV : 0