[ no ] bind interface interface_name context_name
Specifies the name of the context to be bound to the virtual port. context_name must refer to a previously configured context.
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lacp: Active – sends out LACP packets periodically.
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redundancy: Standard – treats all cards in the group as one group.
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high-activity: High port activity threshold settings. Default: 50 percent
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monitoring: Threshold monitoring configuration settings. Default: Disabled
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rx-utilization: Receive port utilization threshold settings. Default: 80 percent
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tx-utilization: Transmit port utilization threshold settings. Default: 80 percent
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description text
clause-46: On local fault reception, continuous remote faults are sent. On remote fault reception, continuous idles are sent. [IEEE 802.3, Clause 46, Reconciliation Sublayer (RS) and 10 Gigabit Media Independent Interface (XGMII)]
clause-66: On local fault reception, frame transmit is continued, remote fault indication is sent during Inter-Frame Gap (IFG). On remote fault reception, frame transmit is continued. [IEEE 802.3, Clause 66, Extensions of the 10 Gb/s Reconciliation Sublayer (RS), 100BASE-X PHY, and 1000BASE-X PHY for unidirectional transport]
Flow control is enabled by default on the QGLC and can be disabled using the no command on a per-port basis. This command does not work on the Fast Ethernet Line Card (FELC), Gigabit Ethernet Line Card (GELC/GLC2) or 10 GigE Line Card (XGLC) which do not support flow control.
link-aggregation { distribution { block | random | rotate | simple } | lacp { active | passive } [ rate { auto | fast | slow } ] [ timeout { long | short } ] | master { global group group_number | group group_number | local group group_number } | member { global group group_number | group group_number | local group group_number } | redundancy { standard | switched } [ hold-time sec ] [ preferred slot { card_number | none } ] | toggle-link }
block: Blocks of the same port index (Example: 0000111122223333)
random: Based on pseudo random number
rotate: Repetition of rotated port index (Example: 0123123023013012…)
simple: Repetition of all selected port indexes (Example: 0123012301230123…)
active mode sends out LACP packets periodically. (Default)
passive mode only responds to LACP packets received.
auto: rate is controlled by the peer
fast: 1 seconds
slow: 30 seconds (Default)
long: Set LACP to long timeout
short: Set LACP to short timeout
global: Set group global across slots.
group group_number: Set link aggregation group number. group_number must be an integer between 1 and 1023.
local: Set group local within same slot.
global: Set group global across slots.
group group_number: Set link aggregation group number. group_number must be an integer from 1 through 1023.
local: Set group local within same slot.
standard: Treats all cards in the group as one group. (Default)
switched: Assumes cards are connected to different switches.
hold-time sec: Sets the amount of time to hold (in seconds) before switching between cards. Applies to standard and switched modes. sec must be an integer from 0 through 3600. Default: 10
preferred slotcard_number: Specifies revertive/non-revertive preference including preferred slot for standard LAG for two switches. Applies to standard and switched modes. card_number is an integer between 1 and 48
none: Specifies no preferred slot.
rj45: Sets the physical interface to copper RJ-45 connectors.
sfp: Sets the physical interface connection to optical Small Form Factor (SFP) gigabit via an SFP transceiver.
Default: auto
auto: configures the interface to auto negotiate the interface speed.
speed { 10 | 100 | 1000 | 10000 }: specifies the speed to use at all times.
Important: Ethernet networking rules dictate that if a device whose interface is configured to auto-negotiate is communicating with a device that is manually configured to support full duplex, the first device will negotiate to the manually configured speed of the second device but will only communicate in half duplex mode.preferred slot slot#
Disabled, which is the default setting, causes non-revertive operation; requiring an administrative user to manually issue a port switch to command to return service to the original port.
Important: This command is not supported on all platforms.srp virtual-mac-address MAC_Address
The SRP virtual MAC address is applied to the port when the chassis is in SRP ACTIVE state. The default is no srp virtual-mac-address.
Important: This command is not supported on all platforms.srp virtual-mac-address MAC_Address
Important: This value is ignored for the Alert model. In addition, if this value is not configured for the Alarm model, the system assumes it is identical to the high threshold.|
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Enter condition: Actual percent utilization of a port is greater than High Threshold.
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Clear condition: Actual percent utilization of a port is less than Low Threshold.
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Refer to the threshold poll command in the Global Configuration Mode Commands chapter to configure the polling interval and the threshold monitoring command in this chapter to enable thresholding for this value.
The following command configures a high port utilization threshold percent of 70 and a low threshold percent of 50 for a system using the Alarm thresholding model:
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SNMP traps: SNMP traps have been created that indicate the condition (high threshold crossing and/or clear) of each of the monitored values. Complete descriptions and other information pertaining to these traps is located in the starentMIB(8164).starentTraps(2) section of the SNMP MIB Reference. The generation of specific SNMP traps can be enabled or disabled on the system allowing you to view only those traps that are most important to you.
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Logs: The system provides a facility called threshold for which active and event logs can be generated. As with other system facilities, logs are generated Log messages pertaining to the condition of a monitored value are generated with a severity level of WARNING.
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Alarm System: High threshold alarms generated within the specified polling interval are considered “outstanding” until a the condition no longer exists and/or a condition clear alarm is generated.
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This command enables thresholding for port-level values. Refer to the threshold high-activity, threshold rx-utilization, and threshold tx-utilization commands in this chapter for information on configuring these values. In addition, refer to the threshold poll command in the Global Configuration Mode Commands chapter for information on configuring the polling interval over which these values are monitored.
Important: This value is ignored for the Alert model. In addition, if this value is not configured for the Alarm model, the system assumes it is identical to the high threshold.
Important: Ports configured for half-duplex do not differentiate between data received and data transmitted. Therefore, to avoid redundant alarms, it is recommended that only the receive or transmit utilization threshold be configured.|
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Enter condition: Actual percent utilization of a port for received data is greater than High Threshold
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Clear condition: Actual percent utilization of a port for received data is less than Low Threshold
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Refer to the threshold poll command in the Global Configuration Mode Commands chapter to configure the polling interval and the threshold monitoring command in this chapter to enable thresholding for this value.
The following command configures a receive port high utilization threshold percent of 70 and a low threshold percent of 50 for an system using the Alarm thresholding model:
Important: This value is ignored for the Alert model. In addition, if this value is not configured for the Alarm model, the system assumes it is identical to the high threshold.
Important: Ports configured for half-duplex do not differentiate between data received and data transmitted. Therefore, to avoid redundant alarms, it is recommended that only the receive or transmit utilization threshold be configured.|
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Enter condition: Actual percent utilization of a port for transmit data is greater than High Threshold
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Clear condition: Actual percent utilization of a port for transmit data is less than Low Threshold
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Refer to the threshold poll command in the Global Configuration Mode Commands chapter to configure the polling interval and the threshold monitoring command in this chapter to enable thresholding for this value.
The following command configures a transmit port high utilization threshold percent of 70 and a low threshold of 50 for an system using the Alarm thresholding model:
no vlan tag
Do not use this restricted keyword. It sets this VLAN for special processing for packets received from an external inline server.
Designates the VLAN type as a subscriber VLAN. This keyword must be specified if the VLAN is to be associated with specific subscribers. Refer to the ip vlan command in the Subscriber Configuration Mode chapter of this reference for additional information on Subscriber-VLAN associations.
Important: To maintain optimal performance, this keyword should not be specified for VLANs that are not to be associated with subscribers.
Important: VLANs are supported in conjunction with ports on the Ethernet 10/100 and Ethernet 1000 line cards, as well as on the four-port Quad Gig-E Line Card (QGLC) and the single port 10 GigE Line Card (XGLC). (VLAN tagging is not supported for SPIO ports.) The system supports the configuration of VLANs as follows:
Important: Ethernet 1000 Line Card/QGLC: 1024 VLANs per card. QGLC supports 511 VLANs per port.
Important: Ethernet 10/100 Line Card: Maximum of 256 VLANs per port and a maximum of 1016 VLANs per Line Card. (VLANs on all the ports of a single 10/100 Line Card can not add up to more than 1016.)
Important: In order to change the type (using/removing the subscriber-vlan keyword) for VLANs that are already configured, the VLAN must first be deleted and then reconfigured as desired.