clear lldp table
To clear the neighbors table for all ports or for a specific port, use the clear lldp table command in Privileged EXEC mode.
Syntax
clear lldp table [interface-id]
Parameters
interface-id—(Optional) Specifies a port ID.
Default Configuration
If no interface is specified, the default is to clear the LLDP table for all ports.
Command Mode
Privileged EXEC mode
Example
switchxxxxxx# clear lldp table te1/0/1 |
lldp chassis-id
To configure the source of the chassis ID of the port, use the lldp chassis-id Global Configuration mode command. To restore the chassis ID source to default, use the no form of this command.
Syntax
lldp chassis-id {mac-address | host-name} no lldp chassis-id
Parameters
- mac-address—Specifies the chassis ID to use the device MAC address.
- host-name—Specifies the chassis ID to use the device configured host name.
Default Configuration MAC address.
Command Mode
Global Configuration mode
User Guidelines
The host name should be configured to be a unique value.
If the chassis ID configured to be used in LLDP packets is empty, LLDP uses the default chassis ID (specified above).
Example
The following example configures the chassis ID to be the MAC address.
switchxxxxxx(config)# lldp chassis-id mac-address |
lldp hold-multiplier
To specify how long the receiving device holds a LLDP packet before discarding it, use the lldp hold-multiplier Global Configuration mode command. To restore the default configuration, use the no form of this command.
Syntax
lldp hold-multiplier number no lldp hold-multiplier Parameters
hold-multiplier number—Specifies the LLDP packet hold time interval as a multiple of the LLDP timer value (range: 2-10).
Default Configuration
The default LLDP hold multiplier is 4.
Command Mode
Global Configuration mode
User Guidelines
The actual Time-To-Live (TTL) value of LLDP frames is calculated by the following formula:
TTL = min(65535, LLDP-Timer * LLDP-hold-multiplier)
For example, if the value of the LLDP timer is 30 seconds, and the value of the
LLDP hold multiplier is 4, then the value 120 is encoded in the TTL field of the LLDP header.
Example
The following example sets the LLDP packet hold time interval to 90 seconds.
switchxxxxxx(config)# lldp timer 30switchxxxxxx(config)# lldp hold-multiplier 3 |
lldp lldpdu
To define LLDP packet handling when LLDP is globally disabled, use the lldp lldpdu Global Configuration mode command. To restore the default configuration, use the no form of this command.
Syntax
lldp lldpdu {filtering | flooding} no lldp lldpdu
Parameters
- filtering—Specifies that when LLDP is globally disabled, LLDP packets are filtered (deleted).
- flooding—Specifies that when LLDP is globally disabled, LLDP packets are flooded (forwarded to all interfaces).
Default Configuration
LLDP packets are filtered when LLDP is globally disabled.
Command Mode
Global Configuration mode
User Guidelines
If the STP mode is MSTP, the LLDP packet handling mode cannot be set to flooding and vice versa.
If LLDP is globally disabled, and the LLDP packet handling mode is flooding, LLDP packets are treated as data packets with the following exceptions: • VLAN ingress rules are not applied to LLDP packets. The LLDP packets are trapped on all ports for which the STP state is Forwarding.
- Default deny-all rules are not applied to LLDP packets. VLAN egress rules are not applied to LLDP packets. The LLDP packets are flooded to all ports for which the STP state is Forwarding.
- LLDP packets are sent as untagged.
Example
The following example sets the LLDP packet handling mode to Flooding when LLDP is globally disabled.
switchxxxxxx(config)# lldp lldpdu flooding |
lldp management-address
Created by Sinan KizarLast updated 25 Mar , 2019
To specify the management address advertised by an interface, use the lldp management-address Interface (Ethernet) Configuration mode command. To stop advertising management address information, use the no form of this command.
Syntax
lldp management-address {ip-address | none | automatic [interface-id]} no lldp management-address
Parameters
- ip-address—Specifies the static management address to advertise.
- none—Specifies that no address is advertised.
- automatic—Specifies that the software automatically selects a management address to advertise from all the IP addresses of the product. In case of multiple IP addresses, the software selects the lowest IP address among the dynamic IP addresses. If there are no dynamic addresses, the software selects the lowest IP address among the static IP addresses.
- automatic interface-id—Specifies that the software automatically selects a management address to advertise from the IP addresses that are configured on the interface ID. In case of multiple IP addresses, the software selects the lowest IP address among the dynamic IP addresses of the interface. If there are no dynamic addresses, the software selects the lowest IP address among the static IP addresses of the interface. The interface ID can be one of the following types: Ethernet port, port-channel or VLAN. Note that if the port or port- channel are members in a VLAN that has an IP address, that address is not included because the address is associated with the VLAN.
Default Configuration
No IP address is advertised.
The default advertisement is automatic.
Command Mode
Interface (Ethernet) Configuration mode
User Guidelines
Each port can advertise one IP address.
Example
The following example sets the LLDP management address advertisement mode to automatic on te1/0/2.
switchxxxxxx(config)# interface te1/0/2switchxxxxxx(config-if)# lldp management-address automatic |
lldp med
To enable or disable LLDP Media Endpoint Discovery (MED) on a port, use the lldp med Interface (Ethernet) Configuration mode command. To return to the default state, use the no form of this command.
Syntax
lldp med {enable [tlv … tlv4] | disable}
no lldp med
Parameters
- enable—Enable LLDP MED
- tlv—Specifies the TLV that should be included. Available TLVs are: Network-Policy, Location, and POE-PSE, Inventory. The Capabilities TLV is always included if LLDP-MED is enabled.
- disable—Disable LLDP MED on the port
Default Configuration
Enabled with network-policy TLV
Command Mode
Interface (Ethernet) Configuration mode
Example
The following example enables LLDP MED with the location TLV on te1/0/3.
switchxxxxxx(config)# interface te1/0/3switchxxxxxx(config-if)# lldp med enable location |
lldp med notifications topology-change
To enable sending LLDP MED topology change notifications on a port, use the lldp med notifications topology-change Interface (Ethernet) Configuration mode command. To restore the default configuration, use the no form of this command.
Syntax
lldp med notifications topology-change {enable | disable} no lldp med notifications topology-change
Parameters
- enable—Enables sending LLDP MED topology change notifications.
- disable—Disables sending LLDP MED topology change notifications.
Default Configuration Disable is the default.
Command Mode
Interface (Ethernet) Configuration mode
Example
The following example enables sending LLDP MED topology change notifications on te1/0/2.
switchxxxxxx(config)# interface te1/0/2switchxxxxxx(config-if)# lldp med notifications topology-change enable |
lldp med fast-start repeat-count
When a port comes up, LLDP can send packets more quickly than usual using its fast-start mechanism.
To configure the number of packets that is sent during the activation of the fast start mechanism, use the lldp med fast-start repeat-count Global Configuration mode command. To return to default, use the no form of this command.
Syntax
lldp med fast-start repeat-count number no lldp med fast-start repeat-count
Parameters
repeat-count number—Specifies the number of times the fast start LLDPDU is being sent during the activation of the fast start mechanism. The range is 1-10.
Default Configuration
3
Command Mode
Global Configuration mode
Example
switchxxxxxx(config)# lldp med fast-start repeat-count 4 |
lldp med location
To configure the location information for the LLDP Media Endpoint Discovery (MED) for a port, use the lldp med location Interface (Ethernet) Configuration mode command. To delete location information for a port, use the no form of this command.
Syntax
lldp med location {{coordinate data} | {civic-address data} | {ecs-elin data}} no lldp med location {coordinate | civic-address | ecs-elin}
Parameters
- coordinate data—Specifies the location data as coordinates in hexadecimal format.
- civic-address data—Specifies the location data as a civic address in hexadecimal format.
- ecs-elin data—Specifies the location data as an Emergency Call Service Emergency Location Identification Number (ECS ELIN) in hexadecimal format.
- data—Specifies the location data in the format defined in ANSI/TIA 1057: dotted hexadecimal data: Each byte in a hexadecimal character string is two hexadecimal digits. Bytes are separated by a period or colon. (Length: coordinate: 16 bytes. Civic-address: 6-160 bytes. Ecs-elin: 10-25 bytes)
Default Configuration
The location is not configured.
Command Mode
Interface (Ethernet) Configuration mode
Example
The following example configures the LLDP MED location information on te1/0/2 as a civic address.
switchxxxxxx(config)# interface te1/0/2switchxxxxxx(config-if)# lldp med location civic-address 616263646566 |
lldp med network-policy (global)
To define a LLDP MED network policy, use the lldp med network-policy Global Configuration mode command.For voice applications, it is simpler to use lldp med network-policy voice auto.
The lldp med network-policy command creates the network policy, which is attached to a port by lldp med network-policy (interface).
The network policy defines how LLDP packets are constructed.
To remove LLDP MED network policy, use the no form of this command.
Syntax
lldp med network-policy number application [vlan vlan-id] [vlan-type {tagged |
untagged}] [up priority] [dscp value] no lldp med network-policy number
Parameters
- number—Network policy sequential number. The range is 1-32.
- application—The name or the number of the primary function of the application defined for this network policy. Available application names are:
- voice
- voice-signaling
- guest-voice
- guest-voice-signaling
- softphone-voice
- video-conferencing
- streaming-video – video-signaling.
- vlan vlan-id—(Optional) VLAN identifier for the application.
- vlan-type—(Optional) Specifies if the application is using a tagged or an untagged VLAN.
- up priority—(Optional) User Priority (Layer 2 priority) to be used for the specified application.
- dscp value—(Optional) DSCP value to be used for the specified application.
Default Configuration
No network policy is defined.
Command Mode
Global Configuration mode
User Guidelines
Use the lldp med network-policy Interface Configuration command to attach a network policy to a port.
Up to 32 network policies can be defined.
Example
This example creates a network policy for the voice-signal application and attaches it to port 1. LLDP packets sent on port 1 will contain the information defined in the network policy.
switchxxxxxx(config)# lldp med network-policy 1 voice-signaling vlan 1 vlan-type untagged up 1 dscp 2switchxxxxxx(config)# interface te1/0/1switchxxxxxx(config-if)# lldp med network-policy add 1 |
lldp med network-policy (interface)
To attach or remove an LLDP MED network policy on a port, use the lldp med network-policy Interface (Ethernet) Configuration mode command. Network policies are created in lldp med network-policy (global).
To remove all the LLDP MED network policies from the port, use the no form of this command.
Syntax
lldp med network-policy {add | remove} number no lldp med network-policy number
Parameters
- add/remove number—Attaches/removes the specified network policy to the interface.
- number—Specifies the network policy sequential number. The range is 1-32
Default Configuration
No network policy is attached to the interface.
Command Mode
Interface (Ethernet) Configuration mode
User Guidelines
For each port, only one network policy per application (voice, voice-signaling, etc.) can be defined.
Example
This example creates a network policy for the voice-signally application and attaches it to port 1. LLDP packets sent on port 1 will contain the information defined in the network policy.
switchxxxxxx(config)# lldp med network-policy 1 voice-signaling vlan 1 vlan-type untagged up 1 dscp 2switchxxxxxx(config)# interface te1/0/1switchxxxxxx(config-if)# lldp med network-policy add 1 |
lldp med network-policy voice auto
A network policy for voice LLDP packets can be created by using the lldp med network-policy (global). The lldp med network-policy voice auto Global Configuration mode is simpler in that it uses the configuration of the Voice application to create the network policy instead of the user having to manually configure it.
This command generates an LLDP MED network policy for voice, if the voice VLAN operation mode is auto voice VLAN. The voice VLAN, 802.1p priority, and the DSCP of the voice VLAN are used in the policy.
To disable this mode, use the no form of this command.
The network policy is attached automatically to the voice VLAN.
Syntax
lldp med network-policy voice auto no lldp med network-policy voice auto Parameters
This command has no arguments or keywords.
Default Configuration
None
Command Mode
Global Configuration mode
User Guidelines
In Auto mode, the Voice VLAN feature determines on which interfaces to advertise the network policy TLV with application type voice, and controls the parameters of that TLV.
To enable the auto generation of a network policy based on the auto voice VLAN, there must be no manually pre-configured network policies for the voice application
In Auto mode, you cannot manually define a network policy for the voice application using the lldp med network-policy (global) command.
Example
switchxxxxxx(config)# lldp med network-policy voice auto |
lldp notifications
To enable/disable sending LLDP notifications on an interface, use the lldp notifications Interface (Ethernet) Configuration mode command. To restore the default configuration, use the no form of this command.
Syntax
lldp notifications {enable | disable} no lldp notifications
Parameters
- enable—Enables sending LLDP notifications.
- disable—Disables sending LLDP notifications.
Default Configuration Disabled.
Command Mode
Interface (Ethernet) Configuration mode
Example
The following example enables sending LLDP notifications on te1/0/1.
switchxxxxxx(config)# interface te1/0/1switchxxxxxx(config-if)# lldp notifications enable |
lldp notifications interval
To configure the maximum transmission rate of LLDP notifications, use the lldp notifications interval Global Configuration mode command. To return to the default, use the no form of this command.
Syntax
lldp notifications interval seconds no lldp notifications interval
Parameters
interval seconds—The device does not send more than a single notification in the indicated period (range: 5–3600).
Default Configuration
5 seconds
Command Mode
Global Configuration mode
Example
switchxxxxxx(config)# lldp notifications interval 10 |
lldp optional-tlv
To specify which optional TLVs are transmitted, use the lldp optional-tlv Interface (Ethernet) Configuration mode command. To restore the default configuration, use the no form of this command.
Syntax
lldp optional-tlv tlv [tlv2 … tlv5 | none]
Parameters
- tlv—Specifies the TLVs to be included. Available optional TLVs are: port-desc, sys-name, sys-desc, sys-cap, 802.3-mac-phy, 802.3-lag, 802.3-max-frame-size, Power-via-MDI , 4-wirePower-via-MDI.
- none—(Optional) Clear all optional TLVs from the interface.
If the 802.1 protocol is selected, see the command below.
Default Configuration
The following TLV are transmitted:
- sys-name
- sys-cap
Command Mode
Interface (Ethernet) Configuration mode
Example
The following example specifies that the port description TLV is transmitted on te1/0/2.
switchxxxxxx(config)# interface te1/0/2switchxxxxxx(config-if)# lldp optional-tlv port-desc |
lldp optional-tlv 802.1
To specify whether to transmit the 802.1 TLV, use the lldp optional-tlv 802.1 Interface (Ethernet) Configuration mode command. To revert to the default setting, use the no form of this command.
Syntax
lldp optional-tlv 802.1 pvid {enable | disable} – The PVID is advertised or not advertised.
no lldp optional-tlv 802.1 pvid – The PVID advertise state is returned to default.
lldp optional-tlv 802.1 ppvid add ppvid – The Protocol Port VLAN ID (PPVID) is advertised. The PPVID is the PVID that is used depending on the packet’s protocol. lldp optional-tlv 802.1 ppvid remove ppvid – The PPVID is not advertised.
lldp optional-tlv 802.1 vlan add vlan-id – This vlan-id is advertised. lldp optional-tlv 802.1 vlan remove vlan-id – This vlan-id is not advertised.
lldp optional-tlv 802.1 protocol add {stp | rstp | mstp | pause | 802.1x | lacp | gvrp} – The protocols selected are advertised.
lldp optional-tlv 802.1 protocol remove {stp | rstp | mstp | pause | 802.1x | lacp | gvrp} – The protocols selected are not advertised.
Parameters
- lldp optional-tlv 802.1 pvid {enable | disable}—Advertises or stop advertize the PVID of the port.
- lldp optional-tlv 802.1 ppvid add/remove ppvid—Adds/removes PPVID for advertising. (range: 0–4094). PPVID = 0 indicates that the port is not capable of supporting port and protocol VLANs and/or the port is not enabled with any protocol VLANs.
- add/remove vlan-id—Adds/removes VLAN for advertising (range: 0–4094).
- add/remove {stp | rstp | mstp | pause | 802.1x | lacp | gvrp}—Add specifies to advertise the specified protocols; remove specifies not to advertise the specified protocol.
Default Configuration
The following 802.1 TLV is transmitted:
Command Mode
Interface (Ethernet) Configuration mode
Example
switchxxxxxx(config)# lldp optional-tlv 802.1 protocol add stp |
lldp run
To enable LLDP, use the lldp run Global Configuration mode command. To disable LLDP, use the no form of this command.
Syntax
lldp run no lldp run
Parameters
This command has no arguments or keywords.
Default Configuration
Enabled
Command Mode
Global Configuration mode
Example
switchxxxxxx(config)# lldp run |
lldp receive
To enable receiving LLDP on an interface, use the lldp receive Interface (Ethernet) Configuration mode command. To stop receiving LLDP on an Interface (Ethernet) Configuration mode interface, use the no form of this command.
Syntax
lldp receive no lldp receive
Parameters
This command has no arguments or keywords.
Default Configuration
Enabled
Command Mode
Interface (Ethernet) Configuration mode
User Guidelines
LLDP manages LAG ports individually. LLDP data received through LAG ports is stored individually per port.
LLDP operation on a port is not dependent on the STP state of a port. I.e. LLDP frames are received on blocked ports.
If a port is controlled by 802.1x, LLDP operates only if the port is authorized.
Example
switchxxxxxx(config)# interface te1/0/1switchxxxxxx(config-if)# lldp receive |
lldp reinit
To specify the minimum time an LLDP port waits before reinitializing LLDP transmission, use the lldp reinit Global Configuration mode command. To revert to the default setting, use the no form of this command.
Syntax
lldp reinit seconds
no lldp reinit
Parameters
reinit seconds—Specifies the minimum time in seconds an LLDP port waits before reinitializing LLDP transmission.(Range: 1–10)
Default Configuration
2 seconds
Command Mode
Global Configuration mode
Example
switchxxxxxx(config)# lldp reinit 4 |
lldp timer
To specify how often the software sends LLDP updates, use the lldp timer Global Configuration mode command. To restore the default configuration, use the no form of this command.
Syntax
lldp timer seconds no lldp timer
Parameters
timer seconds—Specifies, in seconds, how often the software sends LLDP updates (range: 5-32768 seconds).
Default Configuration 30 seconds.
Command Mode
Global Configuration mode
Example
The following example sets the interval for sending LLDP updates to 60 seconds.
switchxxxxxx(config)# lldp timer 60 |
lldp transmit
To enable transmitting LLDP on an interface. use the no form of this command to stop transmitting LLDP on an interface, use the lldp transmit Interface (Ethernet) Configuration mode command.
Syntax
lldp transmit no lldp transmit
Parameters
This command has no arguments or keywords.
Default Configuration
Enabled
Command Mode
Interface (Ethernet) Configuration mode switchxxxxxx(config-if)#
User Guidelines
LLDP manages LAG ports individually. LLDP sends separate advertisements on each port in a LAG.
LLDP operation on a port is not dependent on the STP state of a port. I.e. LLDP frames are sent on blocked ports.
If a port is controlled by 802.1x, LLDP operates only if the port is authorized.
Example
switchxxxxxx(config)# interface te1/0/1 switchxxxxxx(config-if)# lldp transmit |
lldp tx-delay
To set the delay between successive LLDP frame transmissions initiated by value/status changes in the LLDP local systems MIB, use the lldp tx-delay Global Configuration mode command. To restore the default configuration, use the no form of this command.
Syntax
lldp tx-delay seconds no lldp tx-delay
Parameters
tx-delay seconds—Specifies the delay in seconds between successive LLDP frame transmissions initiated by value/status changes in the LLDP local systems MIB (range: 1-8192 seconds).
Default Configuration
The default LLDP frame transmission delay is 2 seconds.
Command Mode
Global Configuration mode
User Guidelines
It is recommended that the tx-delay be less than 25% of the LLDP timer interval.
Example
The following example sets the LLDP transmission delay to 10 seconds.
switchxxxxxx(config)# lldp tx-delay 10 |
show lldp configuration
To display the LLDP configuration for all ports or for a specific port, use the show lldp configuration Privileged EXEC mode command.
Syntax
show lldp configuration [interface-id | detailed]
Parameters
- interface-id—(Optional) Specifies the port ID.
- detailed—(Optional) Displays information for non-present ports in addition to present ports.
Default Configuration
Display for all ports. If detailed is not used, only present ports are displayed.
Command Mode
Privileged EXEC mode
Examples
Example 1 – Display LLDP configuration for all ports.
switchxxxxxx# show lldp configurationState: EnabledTimer: 30 SecondsHold multiplier: 4Reinit delay: 2 SecondsTx delay: 2 SecondsNotifications interval: 5 secondsLLDP packets handling: FilteringPort State Optional TLVs Address Notifications -------- ----- -------------- ----------- ------------ te1/0/1 RX,TX PD, SN, SD, SC , 4W 172.16.1.1 Disabled te1/0/2 TX PD, SN 172.16.1.1 Disabled te1/0/3 RX,TX PD, SN, SD, SC None Disabled te1/0/4 RX,TX D, SN, SD, SC automatic DisabledExample 2 - Display LLDP configuration for port 1.switchxxxxxx# show lldp configuration te1/0/1State: EnabledTimer: 30 SecondsHold multiplier: 4Reinit delay: 2 SecondsTx delay: 2 SecondsNotifications interval: 5 secondsLLDP packets handling: FilteringChassis ID: mac-addressPort State Optional TLVs Address Notifications ---- ---------- -------------- ----------- ----------te1/0/1 RX, TX PD, SN, SD, SC, 4W 72.16.1.1 Disabled802.3 optional TLVs: 802.3-mac-phy, 802.3-lag, 802.3-max-frame-size802.1 optional TLVsPVID: EnabledPPVIDs: 0, 1, 92VLANs: 1, 92Protocols: 802.1x |
The following table describes the significant fields shown in the display:
| Field | Description |
| Timer | The time interval between LLDP updates. |
| Hold multiplier | The amount of time (as a multiple of the timer interval) that the receiving device holds a LLDP packet before discarding it. |
| Reinit timer | The minimum time interval an LLDP port waits before re-initializing an LLDP transmission. |
| Field | Description |
| Tx delay | The delay between successive LLDP frame transmissions initiated by value/status changes in the LLDP local systems MIB. |
| Port | The port number. |
| State | The port’s LLDP state. |
| Optional TLVs | Optional TLVs that are advertised. Possible values are:PD – Port descriptionSN – System nameSD – System descriptionSC – System capabilities4W – 4 wire spare pair capability |
| Address | The management address that is advertised. |
| Notifications | Indicates whether LLDP notifications are enabled or disabled. |
| PVID | Port VLAN ID advertised. |
| PPVID | Protocol Port VLAN ID advertised. |
| Protocols |
show lldp local
Created by Sinan KizarLast updated 25 Mar , 2019
To display the LLDP information that is advertised from a specific port, use the show lldp local Privileged EXEC mode command.
Syntax
show lldp local interface-id
Parameters
Interface-id—(Optional) Specifies a port ID.
Default Configuration
If no port ID is entered, the command displays information for all ports.
Command Mode
Privileged EXEC mode
Example
The following examples display LLDP information that is advertised from te1/0/1 and 2.
switchxxxxxx# show lldp local te1/0/1Device ID: 0060.704C.73FFPort ID: te1/0/1Capabilities: BridgeSystem Name: ts-7800-1 System description:Port description:Management address: 172.16.1.8802.3 MAC/PHY Configuration/StatusAuto-negotiation support: SupportedAuto-negotiation status: EnabledAuto-negotiation Advertised Capabilities: 100BASE-TX full duplex, 1000BASE-T full duplexOperational MAU type: 1000BaseTFD802.3 Link AggregationAggregation capability: Capable of being aggregatedAggregation status: Not currently in aggregationAggregation port ID: 1802.3 Maximum Frame Size: 1522Power Type: Type 1 PSEPower Source: Primary Power SourcePower Priority: UnknownPSE Allocated Power Value: 304-Pair POE supported: YesSpare Pair Detection/Classification required: YesPD Spare Pair Desired State: Enabled802.3 EEELocal Tx: 30 usecLocal Rx: 25 usecRemote Tx Echo: 30 usecRemote Rx Echo: 25 usec802.1 PVID: 1802.1 PPVID: 2 supported, enabled802.1 VLAN: 2 (VLAN2)802.1 Protocol: 88 08 00 01 (PAUSE)LLDP-MED capabilities: Network Policy, Location IdentificationLLDP-MED Device type: Network ConnectivityLLDP-MED Network policyApplication type: VoiceFlags: Tagged VLANVLAN ID: 2Layer 2 priority: 0DSCP: 0LLDP-MED Power over EthernetDevice Type: Power Sourcing EntityPower source: Primary Power SourcePower priority: HighPower value: 9.6 WattsLLDP-MED LocationCoordinates: 54:53:c1:f7:51:57:50:ba:5b:97:27:80:00:00:67:01Hardware Revision: B1Firmware Revision: A1Software Revision: 3.8Serial number: 7978399Manufacturer name: ManufacturerModel name: Model 1 Asset ID: Asset 123 switchxxxxxx# show lldp local te1/0/2 LLDP is disabled. |
show lldp local tlvs-overloading
When an LLDP packet contains too much information for one packet, this is called overloading. To display the status of TLVs overloading of the LLDP on all ports or on a specific port, use the show lldp local tlvs-overloading EXEC mode command.
Syntax
show lldp local tlvs-overloading [interface-id]
Parameters
interface-id—(Optional) Specifies a port ID.
Default Configuration
If no port ID is entered, the command displays information for all ports.
Command Mode
User EXEC mode
User Guidelines
The command calculates the overloading status of the current LLDP configuration, and not for the last LLDP packet that was sent.
Example
switchxxxxxx# show lldp local tlvs-overloading te1/0/1TLVs Group Bytes Status------------ ------ --------------Mandatory 31 TransmittedLLDP-MED Capabilities 9 TransmittedLLDP-MED Location 200 Transmitted 802.1 1360 OverloadingTotal: 1600 bytesLeft: 100 bytes |
show lldp med configuration
To display the LLDP Media Endpoint Discovery (MED) configuration for all ports or for a specific port, use the show lldp med configuration Privileged EXEC mode command.
Syntax
show lldp med configuration [interface-id | detailed]
Parameters
- interface-id—(Optional) Specifies the port ID.
- detailed—(Optional) Displays information for non-present ports in addition to present ports.
Default Configuration
If no port ID is entered, the command displays information for all ports. If detailed is not used, only present ports are displayed.
Command Mode
Privileged EXEC mode
Examples
Example 1 – The following example displays the LLDP MED configuration for all interfaces.
switchxxxxxx# show lldp med configurationFast Start Repeat Count: 4.lldp med network-policy voice: manualNetwork policy 1-------------------Application type: voiceSignalingVLAN ID: 1 untaggedLayer 2 priority: 0DSCP: 0Port Capabilities Network Policy Location Notifications Inventory ------ -------------- -------------- ---------- ------------- -------- te1/0/1 Yes Yes Yes Enabled Yes te1/0/2 Yes Yes No Enabled No te1/0/3 No No No Enabled No |
Example 2 – The following example displays the LLDP MED configuration for te1/0/1.
switchxxxxxx# show lldp med configuration te1/0/1Port Capabilities Network Policy Location Notifications Inventory ------- -------------- ---------------- --------- ---------- -------- te1/0/1 Yes Yes Yes Enabled YesNetwork policies:Location:Civic-address: 61:62:63:64:65:66 |
show lldp neighbors
Created by Sinan KizarLast updated 25 Mar , 2019
To display information about neighboring devices discovered using LLDP, use the show lldp neighbors Privileged EXEC mode command. The information can be displayed for all ports or for a specific port.
Syntax
show lldp neighbors [interface-id]
Parameters
interface-id—(Optional) Specifies a port ID.
Default Configuration
If no port ID is entered, the command displays information for all ports.
Command Mode
Privileged EXEC mode
User Guidelines
- TLV value that cannot be displayed as an ASCII string is displayed as an hexadecimal string.
Examples
Example 1 – The following example displays information about neighboring devices discovered using LLDP on all ports on which LLDP is enabled and who are up.
Location information, if it exists, is also displayed.
switchxxxxxx# show lldp neighborsSystem capability legend:- Bridge; R - Router; W - Wlan Access Point; T - telephone;D - DOCSIS Cable Device; H - Host; r - Repeater;TP - Two Ports MAC Relay; S - S-VLAN; C - C-VLAN; O - OtherPort Device ID Port ID System Name Capabilities TTL ----- --------------- -------- ---------- ----------- ---te1/0/1 00:00:00:11:11:11 te1/0/1 ts-7800-2 B 90 te1/0/1 00:00:00:11:11:11 te1/0/1 ts-7800-2 B 90 te1/0/2 00:00:26:08:13:24 te1/0/3 ts-7900-1 B,R 90 te1/0/3 00:00:26:08:13:24 te1/0/2 ts-7900-2 W 90 |
Example 2 – The following example displays information about neighboring devices discovered using LLDP on port 1.
switchxxxxxx# show lldp neighbors te1/0/1 Device ID: 00:00:00:11:11:11 Port ID: te1/0/1 System Name: ts-7800-2 Capabilities: B System description: Port description: Management address: 172.16.1.1 Time To Live: 90 seconds 802.3 MAC/PHY Configuration/Status Auto-negotiation support: Supported. Auto-negotiation status: Enabled. Auto-negotiation Advertised Capabilities: 100BASE-TX full duplex, 1000BASE-T full duplex. Operational MAU type: 1000BaseTFD 802.3 Power via MDI MDI Power support Port Class: PD PSE MDI Power Support: Not Supported PSE MDI Power State: Not Enabled PSE power pair control ability: Not supported. PSE Power Pair: Signal PSE Power class: 1 Power Type: Type 1 PSE Power Source: Primary Power Source Power Priority: Unknown PD Requested Power Value: 30 4-Pair POE supported: Yes Spare Pair Detection/Classification required: Yes PD Spare Pair Desired State: Enabled PD Spare Pair Operational State: Enabled 802.3 Link Aggregation Aggregation capability: Capable of being aggregated Aggregation status: Not currently in aggregation Aggregation port ID: 1 802.3 Maximum Frame Size: 1522 802.3 EEE Remote Tx: 25 usec Remote Rx: 30 usec Local Tx Echo: 30 usec Local Rx Echo: 25 usec 802.1 PVID: 1 802.1 PPVID: 2 supported, enabled 802.1 VLAN: 2(VLAN2) 802.1 Protocol: 88 8E 01 LLDP-MED capabilities: Network Policy. LLDP-MED Device type: Endpoint class 2. LLDP-MED Network policy Application type: Voice Flags: Unknown policy VLAN ID: 0 Layer 2 priority: 0 DSCP: 0 LLDP-MED Power over Ethernet Device Type: Power Device Power source: Primary power Power priority: High Power value: 9.6 Watts Hardware revision: 2.1 Firmware revision: 2.3 Software revision: 2.7.1 Serial number: LM759846587 Manufacturer name: VP Model name: TR12 Asset ID: 9 LLDP-MED Location Coordinates: 54:53:c1:f7:51:57:50:ba:5b:97:27:80:00:00:67:01 |
The following table describes significant LLDP fields shown in the display:
| Field | Description |
| Port | The port number. |
| Device ID | The neighbor device’s configured ID (name) or MAC address. |
| Port ID | The neighbor device’s port ID. |
| System name | The neighbor device’s administratively assigned name. |
| Capabilities | The capabilities discovered on the neighbor device. Possible values are:B – BridgeR – RouterW – WLAN Access PointT – TelephoneD – DOCSIS cable device H – Host r – Repeater O – Other |
| System description | The neighbor device’s system description. |
| Port description | The neighbor device’s port description. |
| Management address | The neighbor device’s management address. |
| Auto-negotiation support | The auto-negotiation support status on the port. (supported or not supported) |
| Auto-negotiation status | The active status of auto-negotiation on the port. (enabled or disabled) |
| Auto-negotiationAdvertisedCapabilities | The port speed/duplex/flow-control capabilities advertised by the auto-negotiation. |
| Operational MAU type | The port MAU type. |
| Field Description |
| Power Source The power source utilized by a PSE or PD device. A PSE device advertises its power capability. The possible values are: Primary power source, Backup power source. Unknown Power source, PSE and local power source, Local Only power source and PSE only power source. |
| LLDP MED |
| Capabilities The sender’s LLDP-MED capabilities. |
| Device type The device type. Indicates whether the sender is a Network Connectivity Device or Endpoint Device, and if an Endpoint, to which Endpoint Class it belongs. |
| LLDP MED – Network Policy |
| Application type The primary function of the application defined for this network policy. |
| Flags Flags. The possible values are:Unknown policy: Policy is required by the device, but is currently unknown.Tagged VLAN: The specified application type is using a tagged VLAN.Untagged VLAN: The specified application type is using an Untagged VLAN. |
| VLAN ID The VLAN identifier for the application. |
| Layer 2 priority The Layer 2 priority used for the specified application. |
| DSCP The DSCP value used for the specified application. |
| LLDP MED – Power Over Ethernet |
| Power type The device power type. The possible values are: Power Sourcing Entity (PSE) or Power Device (PD). |
| Power Source The power source utilized by a PSE or PD device. A PSE device advertises its power capability. The possible values are: Primary power source and Backup power source. A PD device advertises its power source. The possible values are: Primary power, Local power, Primary and Local power. |
| Field Description |
| Power priority The PD device priority. A PSE device advertises the power priority configured for the port. A PD device advertises the power priority configured for the device. The possible values are: Critical, High and Low. |
| Power value The total power in watts required by a PD device from a PSE device, or the total power a PSE device is capable of sourcing over a maximum length cable based on its current configuration. |
| LLDP MED – Location |
| Coordinates, Civic The location information raw data.address, ECS ELIN. |
show lldp statistics
To display LLDP statistics on all ports or a specific port, use the show lldp statistics EXEC mode command.
Syntax
show lldp statistics [interface-id | detailed]
Parameters
- interface-id—(Optional) Specifies the port ID.
- detailed—(Optional) Displays information for non-present ports in addition to present ports.
Default Configuration
If no port ID is entered, the command displays information for all ports. If detailed is not used, only present ports are displayed.
Command Mode User EXEC mode
Example
switchxxxxxx# show lldp statisticsTables Last Change Time: 14-Oct-2010 32:08:18Tables Inserts: 26Tables Deletes: 2Tables Dropped: 0Tables Ageouts: 1TX Frames RX Frame RX TLVs RX AgeoutsPort Total Total Discarded Errors Discarded Unrecognized Total ----- ---- ----- --------- --------- --------- --------- ------------ |
| te1/0/1 730 850 0 0 0 | 0 0 |
| te1/0/2 0 0 0 0 0 | 0 0 |
| te1/0/3 730 0 0 0 0 | 0 0 |
| te1/0/4 0 0 0 0 0 | 0 0 |
The following table describes significant LLDP fields shown in the display:
| Field | Description |
| Port | The port number. |
| Device ID | The neighbor device’s configured ID (name) or MAC address. |
| Port ID | The neighbor device’s port ID. |
| System name | The neighbor device’s administratively assigned name. |
| Field Description |
| Capabilities The capabilities discovered on the neighbor device. Possible values are:B – BridgeR – RouterW – WLAN Access PointT – TelephoneD – DOCSIS cable device H – Host r – Repeater O – Other |
| System description The neighbor device’s system description. |
| Port description The neighbor device’s port description. |
| Management The neighbor device’s management address.address |
| Auto-negotiation The auto-negotiation support status on the port.support (Supported or Not Supported) |
| Auto-negotiation The active status of auto-negotiation on the port.status (Enabled or Disabled) |
| Auto-negotiation The port speed/duplex/flow-control capabilities Advertised advertised by the auto-negotiation.Capabilities |
| Operational MAU The port MAU type.type |
| LLDP MED |
| Capabilities The sender’s LLDP-MED capabilities. |
| Device type The device type. Indicates whether the sender is a Network Connectivity Device or Endpoint Device, and if an Endpoint, to which Endpoint Class it belongs. |
| LLDP MED – Network Policy |
| Application type The primary function of the application defined for this network policy. |
| Field Description |
| Flags Flags. The possible values are:Unknown policy: Policy is required by the device, but is currently unknown.Tagged VLAN: The specified application type is using a Tagged VLAN.Untagged VLAN: The specified application type is using an Untagged VLAN. |
| VLAN ID The VLAN identifier for the application. |
| Layer 2 priority The Layer 2 priority used for the specified application. |
| DSCP The DSCP value used for the specified application. |
| LLDP MED – Power Over Ethernet |
| Power type The device power type. The possible values are:Power Sourcing Entity (PSE) or Power Device (PD). |
| Power Source The power source utilized by a PSE or PD device. A PSE device advertises its power capability. The possible values are: Primary power source and Backup power source. A PD device advertises its power source. The possible values are: Primary power, Local power, Primary and Local power. |
| Power priority The PD device priority. A PSE device advertises thepower priority configured for the port. A PD device advertises the power priority configured for the device. The possible values are: Critical, High and Low. |
| Power value The total power in watts required by a PD device from a PSE device, or the total power a PSE device is capable of sourcing over a maximum length cable based on its current configuration. |
| LLDP MED – Location |
| Coordinates, Civic The location information raw data.address, ECS ELIN. |
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