Configuration Command Reference

Syntax

description description-string

no description

Context

config>external-alarms>alarm

config>external-alarms>input

config>external-alarms>output

config>lcr

config>port

config>port>tdm>ds1>channel-group

config>port>tdm>ds3

config>port>tdm>e1>channel-group

config>port>tdm>e3

config>port>tdm>codir>channel-group

config>port>tdm>tpif>channel-group

config>port>voice>fxo>channel-group

config>port>voice>fxs>channel-group

config>port>sonet-sdh>path

config>port>serial>rs232>channel-group

config>port>serial>rs232>socket

config>port>serial>rs530>channel-group

config>port>serial>v35>channel-group

config>port>serial>x21>channel-group

config>port>voice>em>channel-group

config>lag

config>scada

config>scada>branch

Description

This command creates a text description for a configuration context to help identify the content in the configuration file.

The no form of this command removes any description string from the context. For the serial context, the no form of this command restores the default value.

Default

‟DS0GRP” (for the serial context and the voice context)

‟Discrete Digital Input” for digital input (for Auxiliary Alarm card or chassis alarm inputs), ‟Analog Input” for analog input, and ‟Digital Output Relay” for output (for Auxiliary Alarm card)

n/a for others

Parameters

description-string

description character string. Allowed values are any string up to 80 or 160 characters long (depending on the command) composed of printable, 7-bit ASCII characters. If the string contains special characters (such as #, $, or spaces), the entire string must be enclosed within double quotes.

Syntax

[no] shutdown

Context

config>card

config>card>mda

config>external-alarms>alarm

config>external-alarms>input

config>external-alarms>output

config>port

config>port>ethernet>down-when-looped

config>port>ethernet>efm-oam

config>port>ethernet>ssm

config>port>mw-link

config>port>serial>rs232

config>port>serial>v35

config>port>serial>x21

config>port>serial>rs232>channel-group

config>port>serial>rs232>socket

config>port>serial>rs530>channel-group

config>port>serial>v35>channel-group

config>port>serial>x21>channel-group

config>port>sonet-sdh>path

config>port>tdm>ds1

config>port>tdm>ds1>ssm

config>port>tdm>ds1>channel-group

config>port>tdm>ds3

config>port>tdm>e1

config>port>tdm>e1>ssm

config>port>tdm>e1>channel-group

config>port>tdm>e3

config>port>tdm>codir

config>port>tdm>codir>channel-group

config>port>tdm>tpif

config>port>tdm>tpif>channel-group

config>port>voice>fxo

config>port>voice>fxs

config>port>voice>fxo>channel-group

config>port>voice>fxs>channel-group

config>port>voice>em

config>port>voice>em>channel-group

config>lag

config>scada

config>scada>branch

Description

This command administratively disables an entity. When disabled, an entity does not change, reset, or remove any configuration settings or statistics.

The operational state of the entity is disabled as well as the operational state of any entities contained within. Many objects must be shut down before they can be deleted.

When used with the ethernet>efm-oam command, shutdown enables tunneling on the port (see tunneling), and no shutdown enables Ethernet EFM OAM 802.3ah.

The no form of this command administratively enables an entity.

Default

card – no shutdown

mda – no shutdown

port – shutdown

scada – shutdown

scada>branch – no shutdown

input – no shutdown (for Auxiliary Alarm card and chassis alarm inputs)

alarm – shutdown (for Auxiliary Alarm card)

output – shutdown (for Auxiliary Alarm card)

lag – shutdown

Syntax

[no] card slot-number

Context

config

Description

This mandatory command is the first step in activating the IOM software: designating it a slot position in the chassis. On the 7705 SAR, the slot number is always 1. The IOM software must be activated before the adapter cards and ports can be configured. The no form of this command removes the card from the configuration. All associated ports, services, and adapter cards must be shut down.

Default

n/a

Parameters

slot-number

the slot number of the card in the chassis

Values

1

Syntax

card-type card-type

no card-type

Context

config>card

Description

This mandatory command is the second step in activating the IOM software: designating the card type. The card type can be preprovisioned, meaning that the card does not need to be installed in the chassis. On the 7705 SAR, the card type is always iom-sar.

A card must be provisioned (configured) before an adapter card or port can be configured.

A card can only be provisioned in a slot that is vacant, which means that no other card can be provisioned for that particular slot. To reconfigure a slot position, use the no form of this command to remove the current information. Port and adapter card information must be shut down.

A card can only be provisioned in a slot if the card type is allowed in the slot. An error message is generated if an attempt is made to provision a card type that is not allowed.

The no form of this command removes the card from the configuration. This operation requires that the card be administratively shut down. All dependencies to ports on this card must be shut down and removed from the configuration before issuing the no card-type command.

Default

n/a

Parameters

card-type

the type of card to be configured and installed in the slot

Values

iom-sar

Syntax

[no] mda mda-slot

Context

config>card

Description

This mandatory command enables access to a card’s MDA CLI context to configure adapter cards.

Default

n/a

Parameters

mda-slot

the adapter card or module slot number to be configured

Syntax

ais-propagation {enable | disable}

Context

config>card>mda

Description

This command enables the 7705 SAR to interoperate with SDH networks that use subnetwork connection protection (SNCP). When ais-propagation is enabled, the 7705 SAR can use SDH signaling to make pseudowire switching decisions on Cpipes configured for redundancy.

For more information about 7705 SAR interoperation with SDH SNCP, see the 7705 SAR Services Guide, ‟AIS Fault Propagation”.

Default

n/a

Syntax

clock-mode adaptive

clock-mode {dcr-acr | differential}[timestamp-freq {19440 | 25000 | 77760 | 103680}]

Context

config>card>mda

Description

This command defines the clocking mode and the associated timestamp frequency (if differential or dcr-acr clocking mode is configured).

All clock modes are supported on the following:

• 16-port T1/E1 ASAP Adapter card

• 32-port T1/E1 ASAP Adapter card

• 7705 SAR-A (variant with T1/E1 ports)

• 7705 SAR-M (variants with T1/E1 ports)

• 7705 SAR-X

• T1/E1 ports on the 4-port T1/E1 and RS-232 Combination module (the clock frequency value configured for dcr-acr clock mode or differential clock mode on one module takes effect on both modules installed in the 7705 SAR-H)

Only differential mode is supported on the following cards:

• 4-port OC3/STM1 / 1-port OC12/STM4 Adapter card (DS1/E1 channels)

• 4-port DS3/E3 Adapter card (clear channel DS3/E3 ports and DS1/E1 channels on channelized DS3 ports (E3 ports cannot be channelized)); differential mode on DS1/E1 channels is supported only on the first three ports of the card

Default

adaptive (if no clocking mode is configured)

differential (for 4-port OC3/STM1 / 1-port OC12/STM4 Adapter card and 4-port DS3/E3 Adapter card)

If differential or dcr-acr clocking mode is configured on the 7705 SAR-M, 7705 SAR-A, 7705 SAR-X, or 4-port T1/E1 and RS-232 Combination module, the default timestamp frequency is 103680.

If differential or dcr-acr clocking mode is configured on the 16-port T1/E1 ASAP Adapter card or the 32-port T1/E1 ASAP Adapter card, the default timestamp frequency is 77760.

For the 4-port OC3/STM1 / 1-port OC12/STM4 Adapter card and the 4-port DS3/E3 Adapter card, the default timestamp frequency is 77760.

Parameters

adaptive

enables adaptive clock recovery

dcr-acr

enables DCR and ACR on different ports of the same card

differential

enables differential clock recovery

timestamp-freq

sets the optional timestamp frequency

19440

sets the timestamp frequency to 19440 Hz (19.44 MHz) for Y.1413 compliance

25000

sets the timestamp frequency to 25000 Hz (25 MHz) for Ethernet-based systems

77760

sets the timestamp frequency to 77760 Hz (77.76 MHz) for interoperation with SONET/SDN-based systems such as TSS-5

103680

sets the timestamp frequency to 103680 Hz (103.68 MHz), recommended for any operation over 100 MHz

Note: The 25000 and 103680 options are not supported on the 16-port T1/E1 ASAP Adapter card or the 32-port T1/E1 ASAP Adapter card. The 19440, 25000, and 103680 options are not supported on the 4-port OC3/STM1 / 1-port OC12/STM4 Adapter card or the 4-port DS3/E3 Adapter card.

Syntax

[no] fabric-stats-enabled

Context

config>card>mda

Description

This command enables the fabric port statistics counter to count egress traffic toward a specified adapter card. The CSM allows the collection of fabric statistics from only one fabric port at any specific time. To change the port statistics counter to a different adapter card, turn off statistics collection on the assigned adapter card by using no fabric-stats-enabled and then enabling statistics collection on another adapter card.

Syntax

mda-mode mda-mode

no mda-mode

Context

config>card>mda

Description

This command configures the set of software services that are enabled for a specific adapter card.

The cem-atm-ppp and cem-fr-hdlc-ppp parameter values are used to configure the appropriate encapsulation methods that are required to support pseudowire services. These values apply to the following adapter cards:

• 16-port T1/E1 ASAP Adapter card

• 32-port T1/E1 ASAP Adapter card

• 4-port DS3/E3 Adapter card

The card-level encapsulation capabilities must be configured before the encap-type parameter is configured at the port level.

Thex10-1gb-sfp and x1-10gb-sf+ parameter values are used for the 10-port 1GigE/1-port 10GigE X-Adapter card to define whether the card operates in 10-port 1GigE mode or 1-port 10GigE mode.

The p4-oc3 and p1-oc12 parameter values are used for the 4-port OC3/STM1 / 1-port OC12/STM4 Adapter card to define whether the card operates in 4-port OC3/STM1 mode or 1-port OC12/STM4 mode.

The mddb, pcm, and vcb parameter values are used for the Integrated Services card to define which SCADA application is active on the card.

The no form of this command sets the mda-mode back to the card’s default mode. All service and port/channel configurations associated with the adapter card must be removed before the mda-mode can be changed. On the 4-port OC3/STM1 / 1-port OC12/STM4 Adapter card, changing the mode causes the adapter card to reset.

Default

x1-10gb-sf+ (for the 10-port 1GigE/1-port 10GigE X-Adapter card)

cem-atm-ppp (for the T1/E1 ASAP adapter cards and 4-port DS3/E3 Adapter card)

p4-oc3 (for the 4-port OC3/STM1 / 1-port OC12/STM4 Adapter card)

mddb (for the Integrated Services card)

Parameters

mda-mode

the encapsulation mode for the adapter card to be provisioned

Values

cem-atm-ppp, cem-fr-hdlc-ppp, x10-1gb-sfp, x1-10gb-sf+, p4-oc3, p1-oc12, mddb, pcm, vcb

Syntax

mda-type mda-type

no mda-type

Context

config>card>mda

Description

This mandatory command provisions a specific adapter card or module type to the device configuration for the slot. The adapter card or module can be preprovisioned, but it must be provisioned before ports can be configured. Ports can be configured after the adapter card or module is properly provisioned.

A maximum of 6 adapter cards can be installed in a 7705 SAR-8 Shelf V2 chassis, and a maximum of 12 adapter cards and 4 XMDA adapter cards can be installed in a 7705 SAR-18 chassis. One module can be installed in a 7705 SAR-M chassis. A maximum of two modules can be installed in a 7705 SAR-H chassis. Only one adapter card or module can be provisioned per MDA or module slot. To modify an MDA or module slot, shut down all port associations.

A medium severity alarm is generated if an adapter card or module is inserted that does not match the adapter card or module type configured for the slot. This alarm is cleared when the correct adapter card or module is inserted or the configuration is modified. A high severity alarm is raised if an administratively enabled adapter card or module is removed from the chassis. This alarm is cleared if either the correct adapter card or module type is inserted or the configuration is modified. A low severity trap is issued if an administratively disabled adapter card or module is removed.

An alarm is raised if partial or complete adapter card or module failure is detected. The alarm is cleared when the error condition ceases.

The no form of this command deletes the adapter card or module from the configuration. The adapter card or module must be administratively shut down before it can be deleted from the configuration. Before an adapter card or module can be shut down, all port associations with this adapter card or module, for example SAPs and IP interfaces, must be shut down first.

Default

n/a

Parameters

mda-type

the type of adapter card to be provisioned

Values

For the 7705 SAR-8 Shelf V2
a16-chds1v2	16-port T1/E1 ASAP Adapter card
a32-chds1v2	32-port T1/E1 ASAP Adapter card
a12-sdiv2	12-port Serial Data Interface card, version 2
a12-sdiv3	12-port Serial Data Interface card, version 3
a6-eth-10G	6-port Ethernet 10Gbps Adapter card
a6-eth-10G-e	6-port Ethernet 10Gbps Adapter card-E
a8-1gb-sfp	8-port Gigabit Ethernet Adapter card, version 1
a8-1gb-v2-sfp	8-port Gigabit Ethernet Adapter card, version 2
a8-1gb-v3-sfp	8-port Gigabit Ethernet Adapter card, version 3
a6-em	6-port E&M Adapter card
a4-oc3	4-port OC3/STM1 Clear Channel Adapter card
a4-chds3	4-port DS3/E3 Adapter card, version 1
a4-chds3v2	4-port DS3/E3 Adapter card, version 2
a2-choc3	2-port OC3/STM1 Channelized Adapter card
a4-choc3/12	4-port OC3/STM1 / 1-port OC12/STM4 Adapter card
a2-10gb-xfp	2-port 10GigE (Ethernet) Adapter card
aux-alarm	Auxiliary Alarm card
mw-pic-2	Power Injector card
a8-pmc	Packet Microwave Adapter card
a8-vt	8-port Voice & Teleprotection card
a8-c3794	8-port C37.94 Teleprotection card
a8-fxo	8-port FXO Adapter card
a6-fxs	6-port FXS Adapter card
oadm-cwdm-1ch	CWDM OADM Adapter card (1-channel)
oadm-cwdm-2ch	CWDM OADM Adapter card (2-channel)
oadm-cwdm-4ch	CWDM OADM Adapter card (4-channel)
oadm-cwdm-8ch	CWDM OADM Adapter card (8-channel)
isc	Integrated Services card
a1-gnss	GNSS Receiver card
For the 7705 SAR-18
a16-chds1v2	16-port T1/E1 ASAP Adapter card
a32-chds1v2	32-port T1/E1 ASAP Adapter card
a12-sdiv2	12-port Serial Data Interface card, version 2
a12-sdiv3	12-port Serial Data Interface card, version 3
a6-eth-10G	6-port Ethernet 10Gbps Adapter card
a6-eth-10G-e	6-port Ethernet 10Gbps Adapter card-E
a8-1gb-sfp	8-port Gigabit Ethernet Adapter card, version 1
a8-1gb-v2-sfp	8-port Gigabit Ethernet Adapter card, version 2
a8-1gb-v3-sfp	8-port Gigabit Ethernet Adapter card, version 3
x-10GigE	10-port 1GigE/1-port 10GigE X-Adapter card, version 1
x-10GigE-v2	10-port 1GigE/1-port 10GigE X-Adapter card, version 2
a6-em	6-port E&M Adapter card
a4-chds3	4-port DS3/E3 Adapter card, version 1
a4-chds3v2	4-port DS3/E3 Adapter card, version 2
a4-oc3	4-port OC3/STM1 Clear Channel Adapter card
a2-choc3	2-port OC3/STM1 Channelized Adapter card
a4-choc3/12	4-port OC3/STM1 / 1-port OC12/STM4 Adapter card
a2-10gb-xfp	2-port 10GigE (Ethernet) Adapter card
aux-alarm	Auxiliary Alarm card
mw-pic-2	Power Injector card
a8-pmc	Packet Microwave Adapter card
a8-vt	8-port Voice & Teleprotection card
a8-c3794	8-port C37.94 Teleprotection card
a8-fxo	8-port FXO Adapter card
a6-fxs	6-port FXS Adapter card
oadm-cwdm-1ch	CWDM OADM Adapter card (1-channel)
oadm-cwdm-2ch	CWDM OADM Adapter card (2-channel)
oadm-cwdm-4ch	CWDM OADM Adapter card (4-channel)
oadm-cwdm-8ch	CWDM OADM Adapter card (8-channel)
isc	Integrated Services card
a1-gnss	GNSS Receiver card
For the 7705 SAR-M
oadm-cwdm-1ch	CWDM OADM module (1-channel)
p2-10gb-xfp	2-port 10GigE (Ethernet) module
p6-eth	6-port SAR-M Ethernet module
For the 7705 SAR-H
p4-combo	4-port T1/E1 and RS-232 Combination module
p1-gps	GPS Receiver module
p4-eth	4-port SAR-H Fast Ethernet module

Syntax

poe-power-source {internal | external | none}

no poe-power-source

Context

config>card>mda

Description

This command specifies whether the internal system-level PoE power supply or an external PoE power supply is used to power the PoE-capable ports on a 7705 SAR chassis.

When the 7705 SAR-H is configured for the internal power supply, standard 15 W PoE can be enabled only on ports 5 and 6. Port 5 can also support 34 W PoE+, but in that case, port 6 cannot support PoE. When configured for the external PoE power supply, all four PoE-capable ports support a combination of standard 15 W PoE and 34 W PoE+, with a maximum power delivery of 83 W among all PoE-enabled ports. See the 7705 SAR-H Chassis Installation Guide, ‟Ethernet Ports”, for information about supported combinations and restrictions.

The following chassis types only support the internal system-level PoE power supply:

• 7705 SAR-Hc

• 7705 SAR-Wx

The no form of this command disables the PoE power supply on the node.

Default

internal

Parameters

internal

specifies that the internal PoE power source be used for the PoE-capable ports

external

specifies that an external PoE power source be used for the PoE-capable ports

none

specifies that no internal or external PoE power source is used

Syntax

vcb

Context

config>card>mda

Description

This command enables the context to configure voice conference bridge (VCB) parameters on the Integrated Services card.

Default

n/a

Syntax

application {broadcast | teleprotection | vcb | vcb-branch-initiate}

Context

config>card>mda>vcb

Description

This command specifies the operating mode for the VCB application. The mode is set at the card level and applies to all bridges configured on the card.

Default

vcb

Parameters

broadcast

only one branch on the bridge (fixed as branch 1) has control of the bridge to transmit, and all other branches are in listen-only mode

teleprotection

each teleprotection relay transmits state information on discrete frequencies so that each relay can both hear what the other relays are transmitting as well as transmit its own information to the other relays

vcb

one branch talks and all other branches on the bridge can hear

vcb-branch-initiate

branches on the bridge are only enabled (unmuted) when the attached base station signals its presence by grounding the M-lead on the interface connected to the bridge. Upon receiving the grounded M-lead via T1/E1 ABCD bits or TDM PW signaling, the bridge unmutes the associated branch. When the ground is removed, the branch is muted again.

Syntax

voice

Context

config>card>mda

Description

This command enables the context to configure voice parameters on the 6-port E&M Adapter card, 8-port Voice & Teleprotection card, 8-port FXO Adapter card, 6-port FXS Adapter card, and Integrated Services card (when it is configured for VCB with the mda-mode command).

Default

n/a

Syntax

companding-law {a-law | mu-law}

Context

config>card>mda>voice

Description

This command specifies the companding law to be used on the 6-port E&M Adapter card, 8-port Voice & Teleprotection card, 8-port FXO Adapter card, 6-port FXS Adapter card, and Integrated Services card (for VCB).

To change this parameter, all ports associated with the card must be in shutdown mode and no channels can be defined on the card. A change in the companding law results in a corresponding change to the signaling-type default. The signaling-type applies only to the 6-port E&M Adapter card.

Default

mu-law

Parameters

a-law

A-Law companding

mu-law

Mu-Law companding

Syntax

signaling-type {type-i | type-ii | type-v}

Context

config>card>mda>voice

Description

This command specifies the signaling type to be used on the 6-port E&M Adapter card.

To change the signaling type, all ports associated with the 6-port E&M Adapter card must be in shutdown mode and no channels can be defined on the card.

The signaling type is selectable on a per-card basis. When either A-Law or Mu-Law companding is configured, Type I, Type II, or Type V signaling can be selected. However, the only supported configurations are both ends of the connection operating in the same mode (for example, Type I to Type I) or one end operating in Type I mode and the other in Type V mode.

Default

type-i (for Mu-Law companding)

type-v (for A-Law companding)

Parameters

type-i

Type I signaling

type-ii

Type II signaling

type-v

Type V signaling

Syntax

access

Context

config>card>mda

Description

This command enables the access context to configure QoS policy parameters for the specified adapter card.

Syntax

network

Context

config>card>mda

Description

This command enables the network context to configure QoS policy parameters for the specified adapter card.

Syntax

ingress

Context

config>card>mda>access

config>card>mda>network

Description

This command enables the context to configure the QoS policy parameters for ingress traffic, in either an access or network context, for the specified adapter card.

Syntax

fabric-policy fabric-policy-id

no fabric-policy

Context

config>card>mda>access>ingress

config>card>mda>network>ingress

Description

This command configures (applies) the ingress fabric policy, in either an access or network context, for the specified adapter card.

Fabric profiles do not apply to the Auxiliary Alarm card.

The no form of this command resets the fabric-policy-id to the default value.

Default

1

Parameters

fabric-policy-id

an existing fabric policy ID

Values

1 to 256

Syntax

queue-policy name

no queue-policy

Context

config>card>mda>network>ingress

Description

This command specifies the network ingress queue policy that defines queue parameters such as CBS, high-priority-only burst size, MBS, CIR, and PIR rates, as well as forwarding class-to-queue mappings. The network queue policy is defined in the config>qos>network-queue context. Refer to the 7705 SAR Quality of Service Guide, ‟Network Queue QoS Policies”, for more information.

The no form of this command reverts to the default.

Default

‟default”

Parameters

name

specifies an existing network queue policy name

Syntax

security-queue-policy policy-id

no security-queue-policy

Context

config>card>mda>access>ingress

config>card>mda>network>ingress

Description

This command applies an existing security queue policy, in either an access or network context, to the specified adapter card.

The no form of this command sets the policy-id back to the default.

Default

1

Parameters

policy-id

specifies an existing security queue policy ID

Values

1 to 65535

Syntax

shaper-policy policy-name

no shaper-policy policy-name

Context

config>card>mda>access>ingress

Description

This command enables the context to assign a shaper policy to an Ethernet MDA.

For access ingress per-customer aggregate shaping, the shaper policy is assigned to an Ethernet MDA and SAPs on that Ethernet MDA must be bound to a shaper group within the shaper policy bound to that Ethernet MDA.

The default shaper policy cannot be deleted. Shaper Policy Defaults displays the default shaper policy parameters.

The no form of this command removes the configured shaper-policy.

Default

shaper-policy ‟default”

Parameters

policy-name

the name of the shaper policy. To access the default shaper policy, enter ‟default”.

Values

Valid names consist of any string up to 32 characters long composed of printable, 7-bit ASCII characters.

If the string contains special characters (such as #, $, or spaces), the entire string must be enclosed within double quotes.

create

keyword used to create a shaper policy

Syntax

ring

Context

config>card>mda>network

Description

This command specifies the QoS policy parameters for ring traffic in a network, for the 2-port 10GigE (Ethernet) Adapter card or 2-port 10GigE (Ethernet) module.

Syntax

add-drop-port-queue-policy name

no add-drop-port-queue-policy

Context

config>card>mda>network>ring

Description

This command specifies the network queue policy to be applied to the add/drop port on the bridging domain side of a ring adapter card. The network queue policy is defined in the config>qos>network-queue context. Refer to the 7705 SAR Quality of Service Guide, ‟Network Queue QoS Policies”, for more information.

The ring ports and the add/drop port cannot use the same non-default network queue policy that is being used by the v-port and any other port on other cards.

Default

no add-drop-port-queue-policy

Parameters

name

specifies an existing network queue policy

Syntax

qos-policy network-policy-id

no qos-policy

Context

config>card>mda>network>ring

Description

This command specifies the network QoS policy for the ring. Only a ring type network QoS policy can be assigned to a port on the bridging domain side of a ring adapter card.

Default

no qos-policy

Parameters

network-policy-id

specifies the network QoS policy for the ring ports and the add/drop port on a ring adapter card

Syntax

spt

Context

config>card>mda

config>system

Description

This command enables the context for configuring SPT (self-processed traffic) parameters. The config>card>mda context is used for the 7705 SAR-8 Shelf V2, 7705 SAR-18, and 7705 SAR-X. The config>system context is used for the 7705 SAR-Hc, 7705 SAR-H, and 7705 SAR-Wx.

Default

n/a

Syntax

security-aggregate-rate agg-rate

no security-aggregate-rate

Context

config>card>mda>spt

config>system>spt

Description

This command configures the fabric aggregate rate for security queues on the datapath. The command is configured in the config>card>mda>spt context for the 7705 SAR-8 Shelf V2, 7705 SAR-18, and 7705 SAR-X, and in the config>system>spt context for the 7705 SAR-Hc, 7705 SAR-H, and 7705 SAR-Wx.

Parameters

agg-rate

specifies the aggregate rate for security queues, in kilobits per second

Values

1 to 10000000 | maximum

Default

50000

Syntax

external-alarms

Context

config

Description

This command enables access to the context to configure external alarm attributes on 7705 SAR Ethernet ports (supported on all platforms with Ethernet ports), on the Auxiliary Alarm card, and on the four alarm inputs on the fan module (for the 7705 SAR-8 Shelf V2), alarm connector (for the 7705 SAR-M, 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-Wx, and 7705 SAR-X), and alarm module (for the 7705 SAR-18).

When configuring custom alarms for an Ethernet port, the port must be configured for 100Base-Tx operation with autonegotiation disabled.

Syntax

[no] alarm alarm-id

Context

config>external-alarms

Description

This command creates or removes alarms.

The no form of this command disables the alarm attributes for the specified alarm. The alarm must be in the shutdown state before the no form of the command can be performed.

Default

n/a

Parameters

alarm-id

specifies the alarm identifier

Values

1 to 2147483647

Syntax

[no] chassis-alarming

Context

config>external-alarms>alarm

Description

This command generates output to chassis alarm relays and LEDs for the specified alarm.

The no form of this command disables the generation of output to chassis alarm relays and LEDs.

Default

chassis-alarming

Syntax

[no] log

Context

config>external-alarms>alarm

Description

This command generates raise/clear log events for the specified alarm and controls SNMP trap generation for the raise/clear log events.

The no form of this command disables the generation of raise/clear log events.

Default

log

Syntax

severity {critical | major | minor | warning}

Context

config>external-alarms>alarm

Description

This command configures the severity level for the specified alarm.

The alarm must be disabled before the severity level can be modified.

If the alarm generates raise/clear log events and SNMP traps (enabled by the log command), the severity of the raise log events and SNMP traps is controlled by this configuration. The severity level of the clear log events and SNMP traps is warning.

If the alarm generates output to chassis alarm relays and LEDs (enabled by the chassis-alarming command), the severity level of the alarm output is controlled by this configuration. For chassis relay alarms, only the critical, major and minor levels of severity apply. (There are three LEDs that represent each of them.)

Default

major

Parameters

critical

specifies a critical alarm

major

specifies a major alarm

minor

specifies a minor alarm

warning

specifies a warning (not applicable for chassis relay alarms)

Syntax

thresholds

Context

config>external-alarms>alarm

Description

This command enables the context to configure the thresholds for the specified alarm.

Default

n/a

Syntax

analog

Context

config>external-alarms>alarm>thresholds

Description

This command enables the context to configure analog trigger thresholds for the specified alarm.

Default

n/a

Syntax

[no] level {lt | gt} millivolts

Context

config>external-alarms>alarm>thresholds>analog

Description

This command configures the analog voltage level thresholds for the specified alarm.

The analog input level threshold cannot be changed from no level when there are no analog inputs configured as triggers. When all analog inputs are removed from the trigger list, the level is automatically changed to no level. The analog input level threshold cannot be changed to no level when there is analog input in the trigger list. When the first analog input is added to the alarm trigger, the level is automatically changed to gt 0.

The no form of this command removes the analog voltage level threshold.

Default

no level

Parameters

lt

specifies a less-than value

gt

specifies a greater-than value

millivolts

specifies the voltage level in millivolts

Values

0 to 75000

Syntax

trigger [any | all] {alarm-input1 | alarm-input2... | alarm-input8}

no trigger

Context

config>external-alarms>alarm

Description

This command configures the inputs that will trigger the alarm. An alarm can be configured to trigger on any configured input or only when all enabled configured inputs are active. Administratively disabled inputs are ignored for alarm triggering.

Digital inputs are considered normally open. This means that a digital input becomes active only if it closes. Analog inputs have a customizable voltage threshold. This threshold can be configured using the thresholds command. Analog inputs become active when this threshold is crossed.

The no form of this command removes the trigger.

Default

no trigger

Parameters

any

specifies that any configured input trigger will raise an alarm

all

specifies that all configured input triggers that are enabled are required to raise an alarm

alarm-input

identifies the input trigger, up to a maximum of eight

for Ethernet ports, the format is:

     port-slot/mda/port [name]

for the Auxiliary Alarm card, the format is:

     alarm-slot/mda.{d | a}-alarm-num [name]

for the four alarm inputs on the fan module (for the 7705 SAR-8 Shelf V2), alarm connector (for the 7705 SAR-M, 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-Wx, and 7705 SAR-X), and alarm module (for the 7705 SAR-18), the format is:

     alarm.d-alarm-num [name]

where:

     slot = card slot number for IOM (always 1 on the 7705 SAR)

     mda = Ethernet adapter card or Auxiliary Alarm card slot number (for Ethernet modules or ports on platforms with no card slots, the mda slot number is preconfigured)

     port = port number for Ethernet ports

     d = digital input

     a = analog input

     alarm-num = alarm port number (1 to 24 for digital on the Auxiliary Alarm card, 1 to 4 for digital on the four chassis alarm inputs, 1 or 2 for analog)

     name = optional name assigned to the input

for example: alarm-1/3.d-3

windowOpen3

alarm.d-1

The name option lets users assign a more meaningful name (must be unique) to the alarm input; for example, windowOpen3 might be more meaningful to a user than the identifier alarm-1/3.d-3. Once the name has been configured, it can be used interchangeably with the alarm input identifier; for example, windowOpen3 can be used instead of alarm-1/3.d-3 as an alarm input trigger.

Syntax

input alarm-input

Context

config>external-alarms

Description

This command enables the context to configure the external alarm inputs on 7705 SAR Ethernet ports, on the Auxiliary Alarm card, and on the four alarm inputs on the fan module (for the 7705 SAR-8 Shelf V2), alarm connector (for the 7705 SAR-M, 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-Wx, and 7705 SAR-X), and alarm module (for the 7705 SAR-18).

An alarm input must be associated with an alarm in order for the input to be triggered. See the trigger command. An input can be associated with up to four alarms.

Default

n/a

Parameters

alarm-input

identifies the alarm input

for Ethernet ports, the format is:

     port-slot/mda/port [name]

for the Auxiliary Alarm card, the format is:

     alarm-slot/mda.{d | a}-alarm-num [name]

for the four alarm inputs on the fan module (for the 7705 SAR-8 Shelf V2), alarm connector (for the 7705 SAR-M, 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-Wx, and 7705 SAR-X), and alarm module (for the 7705 SAR-18), the format is:

     alarm.d-alarm-num [name]

where:

     slot = card slot number for IOM (always 1 on the 7705 SAR)

     mda = Ethernet adapter card or Auxiliary Alarm card slot number (for Ethernet modules or ports on platforms with no card slots, the mda slot number is preconfigured)

     port = port number for Ethernet ports

     d = digital input

     a = analog input

     alarm-num = alarm port number (1 to 24 for digital on the Auxiliary Alarm card, 1 to 4 for digital on the four chassis alarm inputs, 1 or 2 for analog)

     name = optional name assigned to the input

for example:

alarm-1/3.d-3

windowOpen3

alarm.d-1

The name option lets users assign a more meaningful name (must be unique) to the alarm input; for example, windowOpen3 might be more meaningful to a user than the identifier alarm-1/3.d-3. Once the name has been configured, it can be used interchangeably with the alarm input identifier; for example, windowOpen3 can be used instead of alarm-1/3.d-3 as an alarm input trigger for the trigger command, or when performing a show>external-alarms>input or show>external-alarms> output command.

Syntax

debounce seconds

debounce detect detect-seconds clear clear-seconds

no debounce

Context

config>external-alarms>input

Description

This command configures the debounce time associated with detecting and clearing an alarm input. Debounce time is not supported on alarm inputs on Ethernet ports.

The no debounce form of the command sets both the detect time and clear time to 0.

Default

2 (for both detect time and clear time)

Parameters

seconds

specifies the amount of time that the input must be on or off before it is accepted as changed from on to off (or from off to on)

Values

1 to 60

detect-seconds

specifies the amount of time that the input must be on before it is accepted as on by the system

Values

0 to 60

clear-seconds

specifies the amount of time that the input must be off before it is accepted as off by the system

Values

0 to 60

Syntax

output alarm-output

Context

config>external-alarms

Description

This command enables the context to configure the external alarm output relays.

Default

n/a

Parameters

alarm-output

identifies the output relay, in the following format:

    relay-slot/mda.d-relay-num [name]

where:

     slot = slot number of the card in the chassis (always 1 on the 7705 SAR)

     mda = Auxiliary Alarm card slot number

     d = digital output

     relay-num = output relay number (1to 8)

     name = name assigned to the output relay

for example:

relay-1/3.d-5

doorHolder5

The name option lets users assign a more meaningful name (must be unique) to the output relay; for example, doorHolder5 might be more meaningful to a user than the output relay identifier relay-1/3.d-5. Once the name has been configured, it can be used interchangeably with the alarm identifier; for example, doorHolder5 can be used instead of relay-1/3.d-5 when performing a show>external-alarms>output command.

Syntax

name name-string

no name

Context

config>external-alarms>input

config>external-alarms>output

Description

This command configures a name for the alarm input or output relay. The configured name must be unique within the external alarms context; therefore, it must not be the same as an alarm-input name configured for the trigger or input command, or an alarm-output name configured for the output command. For example, alarm-1/3.d-1 or doorOpen1 cannot be used as a name for any alarm input, and relay-1/3.d-5 or doorHolder5 cannot be used as a name for any output relay.

The no form of this command does not associate a name with the alarm input or output relay.

Default

no name

Parameters

name-string

specifies a unique name for the alarm input or output relay (maximum of 15 characters)

Syntax

normally {open | closed}

Context

config>external-alarms>input

Description

This command configures the normal condition of the digital input – either normally open or normally closed. You cannot configure the normal condition on alarm inputs on Ethernet ports.

Default

normally open

Syntax

[no] port {aps-id}

Context

config

Description

This command enables access to the context to configure APS on SONET/SDH ports and assigns an APS group ID. Both working and protection circuits must be configured with the same APS group ID on either the same 7705 SAR node (SC-APS) or on two 7705 SAR nodes (MC-APS).

Parameters

aps

keyword

id

1 to 8

Syntax

aps

Context

config>port

Description

This command configures APS on SONET/SDH ports. An APS group contains a working and protection circuit with the same APS group ID on either a single 7705 SAR node (SC-APS) or on two 7705 SAR nodes (MC-APS).

The working circuit must be connected to the peer working circuit, and the protection circuit must be connected to the peer protection circuit.

The aps command is only available for APS groups, not for physical ports.

Syntax

advertise-interval advertise-interval

no advertise-interval

Context

config>port>aps

Description

This command specifies the time interval, in 100s of milliseconds, between ‟I am operational” messages sent by the protection and working circuits to their neighbor in an MC-APS group. The advertise-interval value is valid only for an MC-APS.

Default

10

Parameters

advertise-interval

the time interval, in 100s of milliseconds, between transmitted operational messages

Values

10 to 650

Syntax

hold-time hold-time

no hold-time

Context

config>port>aps

Description

This command specifies how much time can pass without the node receiving an advertise packet from its neighbor before the MC-APS signaling link is considered operationally down. The hold time is in 100s of milliseconds and is usually the advertise-interval value multiplied by 3.

Parameters

hold-time

specifies, in 100s of milliseconds, how long to wait for an APS advertise packet before the neighbor in an MC-APS group is considered operationally down.

Values

10 to 650

Syntax

hold-time-aps {[lsignal-fail sf-time] [lsignal-degrade sd-time]}

no hold-time-aps

Context

config>port>aps

Description

This command configures hold-down timers to debounce signal failure conditions (lais, b2err-sf) and signal degrade conditions (b2err-sd) for 1+1 unidirectional SC-APS switching mode. If the signal fail or signal degrade conditions exceed the configured hold-down time, APS is activated.

Default

no hold-time-aps (values are 0)

Parameters

sf-time

the signal failure hold-down time in milliseconds, from 1 to 100

sd-time

the signal degrade hold-down time in milliseconds, from 1 to 100

Syntax

neighbor ip-address

no neighbor

Context

config>port>aps

Description

This command specifies the neighbor's IP address in an MC-APS group. When the value of the neighbor IP address is set to 0.0.0.0, or not set, this implies that the APS group is configured as an SC-APS group.

The route to the neighbor must not traverse the MC-APS member (working or protection) circuits. It is recommended that the neighbor IP address configured be on a shared network between the routers that own the working and protection circuits. The node should be connected with a direct interface to ensure optimum failover time.

By default, no neighbor address is configured and both the working and protection circuits should be configured on the same router as an SC-APS group.

Default

0.0.0.0

Parameters

ip-address

specifies the neighbor's IP address for MC-APS.

Values

ipv4-address:       a.b.c.d

ipv6-address:       x:x:x:x:x:x:x:x (eight 16-bit pieces)

                              x:x:x:x:x:x:d.d.d.d

                              x:   [0 to FFFF]H

                              d:   [0 to 255]D

Syntax

protect-circuit port-id

no protect-circuit

Context

config>port>aps

Description

This command configures a physical port that will act as the protection circuit for this APS group.

The protection circuit port must contain only the default configuration and cannot belong to another APS group. The protection circuit port must be of the same type as the working circuit (SONET/SDH) for the APS group; if it is not, the command will return an error.

A protection circuit can only be added if the working circuit already exists. The protection circuit must be removed from the configuration before the working circuit can be removed.

When a port is a protection circuit of an APS group, the configuration options available in the config>port port-id>sonet-sdh context are not allowed for that port unless they are in the following exception list:

• clock-source

• [no] loopback

• [no] report-alarm

• section-trace

• [no] threshold

When a port is configured as a protection circuit of an APS group, the configurations listed above and all service configurations related to the APS port are operationally inherited by the protection circuit. If the protection circuit cannot inherit the configurations (due to resource limitations), the configuration attempt fails and an error is returned to the user.

The protection circuit must be shut down before it can be removed from the APS group port. The inherited configuration for the circuit and APS operational commands for that circuit are not preserved when the circuit is removed from the APS group.

The no form of this command removes the protection circuit.

Default

n/a

Parameters

port-id

the physical port that will act as the protection circuit for this APS group in the format slot/mda/port

Syntax

[no] rdi-alarms {suppress | circuit}

Context

config>port>aps

Description

This command configures how RDI alarms (line, path, section) are generated on physical circuits of an APS port. The command is only supported in 1+1 unidirectional SC-APS mode. When you configure RDI alarms on a port on the 2-port OC3/STM1 Channelized Adapter card, the second port is automatically configured with a matching RDI alarms setting. As a consequence, both ports will then support only 1+1 unidirectional SC-APS mode.

Default

circuit

Parameters

suppress

RDI hardware generation on working and protection circuits is suppressed. No alarms are generated upon an Rx failure of that circuit.

circuit

RDI alarms are hardware-generated independently on each working and protection circuit based on an Rx failure of that circuit, regardless of APS line status

Syntax

revert-time minutes

no revert-time

Context

config>port>aps

Description

This command configures how long the 7705 SAR waits before switching back to the working circuit after it has been restored to service.

If the minutes value is changed, it takes effect at the next initiation of the wait-to-restore (WTR) timer.

This command does not modify the length of a WTR timer that has already been started. The WTR timer of a non-revertive switch can be assumed to be infinite.

The no form of this command restores the default (non-revertive) mode – the switch back does not occur unless the protection circuit fails or it is manually switched by the operator.

Parameters

minutes

the time to wait, in minutes, before reverting to the working circuit after it has been restored to service

Values

0 to 60

Default

5

Syntax

switching mode {bi-directional | uni-1plus1}

Context

config>port>aps

Description

This command configures the switching mode for the APS port. SC-APS supports both bi-directional and uni-1plus1; MC-APS supports only bi-directional switching mode.

Default

bi-directional

Parameters

bi-directional

provides protection in both directions

uni-1plus1

provides protection in one direction

Syntax

working-circuit port-id

no working-circuit

Context

config>port>aps

Description

This command configures a physical port that will act as the working circuit for this APS group.

The working circuit port must contain only the default configuration and cannot be part of another APS group. The working circuit must be created before the protection circuit.

When a port is a working circuit of an APS group, the configuration options available in the config>port port-id>sonet-sdh context are not allowed for that port unless they are in the following exception list:

• clock-source

• [no] loopback

• [no] report-alarm

• section-trace

• [no] threshold

When a port is configured as a working circuit of an APS group, the configurations listed above and all service configurations related to the APS port are operationally inherited by the working circuit from the APS group ID. If the working circuit cannot inherit that configuration (for example, due to resource limitations), the configuration attempt fails and an error is returned to the user.

The working circuit must be shut down before it can be removed from an APS group. The inherited configuration for the circuit and APS operational commands for that circuit are not preserved when the circuit is removed from the APS group.

All configurations for the APS group under the config>port context and its submenus and all configuration for services that use this APS group ID are preserved as a non-activated configuration since the APS group no longer has any physical circuits assigned.

The no form of this command removes the working circuit. The working circuit can only be removed from the configuration after the protection circuit has been removed.

Parameters

port-id

the physical port that will act as the working circuit for this APS group in the format slot/mda/port

Syntax

[no] lcr lcr-id

Context

config

Description

This command enables access to the context to configure Line Card Redundancy (LCR) parameters on T1/E1 ports or links. When the lcr-id is specified, this command assigns an LCR group ID. Both working and protection adapter cards must be configured with the same LCR group ID and on the same card type. For SC-LCR, both working and protection adapter cards must be on the same 7705 SAR node. For MC-LCR, the working and protection adapter cards must be on different 7705 SAR nodes.

Parameters

lcr

keyword

id

the LCR group ID, from 1 to 6

Syntax

advertise-interval advertise-interval

no advertise-interval

Context

config>lcr

Description

This command specifies the time interval between ‟I am operational” messages sent by the protection and working adapter cards to their neighbors in an MC-LCR group. The advertise-interval value is valid only for MC-LCR.

Default

10

Parameters

advertise-interval

the time interval, in tenths of a second, between transmitted operational messages

Values

10 to 650

Syntax

hold-time hold-time

no hold-time

Context

config>lcr

Description

This command specifies how much time can pass without the node receiving an advertise packet from its neighbor in an MC-LCR group before the neighbor is considered operationally down. The hold time is usually the advertise-interval value multiplied by 3.

Parameters

hold-time

specifies, in 100s of milliseconds, how long to wait for an LCR advertise packet before the neighbor in an MC-LCR group is considered operationally down

Values

10 to 650

Syntax

neighbor ip-address

no neighbor

Context

config>lcr

Description

This command specifies the neighbor IP address in an MC-LCR group. When the value of the neighbor IP address is set to 0.0.0.0, or not set, this implies that the LCR group is configured as an SC-LCR group.

The route to the neighbor must not traverse the MC-LCR member (working or protection) adapter cards. It is recommended that the neighbor be on a shared network between the nodes that are configured with the working and protection cards. The node should be connected with a direct interface to ensure optimum failover time.

By default, no neighbor address is configured and both the working and protection adapter cards should be configured as an SC-LCR group on the same node.

Default

0.0.0.0

Parameters

ip-address

specifies the neighbor IP address for MC-LCR

Values

ipv4-address:       a.b.c.d

ipv6-address:       x:x:x:x:x:x:x:x (eight 16-bit pieces)

                              x:x:x:x:x:x:d.d.d.d

                              x:   [0 to FFFF]H

                              d:   [0 to 255]D

Syntax

protect-mda mda-id

no protect-mda

Context

config>lcr

Description

This command configures an adapter card that will act as the protection card for this LCR group.

The protection adapter card must contain only the default configuration and cannot belong to another LCR group. The protection card must be of the same type as the working adapter card for the LCR group; if it is not, the command will return an error.

A protection card can only be added if the working card already exists in the LCR group. The protection card must be removed from the configuration before the working card can be removed.

The protection card must be shut down before it can be removed from the LCR group. The inherited configuration for the protection card and the configured LCR operational commands for that card are not preserved when it is removed from the LCR group.

The no form of this command removes the protection card from the LCR group.

Default

no protect-mda

Parameters

mda-id

the adapter card that will act as the protection card for this LCR group in the format slot/mda, where slot is the slot number of the IOM and mda is the slot number of the adapter card

Values

slot is 1

mda is from 1 to 16

Syntax

revert-time minutes

no revert-time

Context

config>lcr

Description

This command configures how long the 7705 SAR waits before switching activity back to the working adapter card after it has been restored to service.

If the minutes value is changed, the change takes effect at the next initiation of the wait-to-restore (WTR) timer.

This command does not modify the duration of a WTR timer that has already been started. The WTR timer of a non-revertive switch can be assumed to be infinite.

The no form of this command restores the default (non-revertive) mode. The switch back does not occur unless the protection adapter card fails or activity is manually switched by the operator.

Default

no revert-time

Parameters

minutes

the time to wait, in minutes, before reverting to the working adapter card after it has been restored to service

Values

0 to 60

Default

5

Syntax

working-mda mda-id

no working-mda

Context

config>lcr

Description

This command configures an adapter card that will act as the working card for this LCR group.

The working card must contain only the default configuration and cannot be part of another LCR group. The working card must be created before the protection card.

The working card must be shut down before it can be removed from an LCR group. The inherited configuration for the card and configured LCR operational commands for that card are not preserved when it is removed from the LCR group.

The no form of this command removes the working card from the LCR group. The working card can only be removed from the configuration after the protection card has been removed.

Default

no working-mda

Parameters

mda-id

the adapter card that will act as the working card for this LCR group in the format slot/mda, where slot is the slot number of the IOM and mda is the slot number of the adapter card

Values

slot is 1

mda is from 1 to 16

Syntax

[no] port mw-link-id

Context

config

Description

This command configure a microwave link on a 7705 SAR-8 Shelf V2 or 7705 SAR-18.

The no form of this command removes the microwave link configuration.

Parameters

mw-link-id

specifies the microwave link ID number, using the form mw-link-id

Values

id = 1 to 24

Syntax

mw

Context

config>port

Description

This command enables the context to configure microwave link parameters.

Syntax

[no] hold-time {[up hold-time-up] [down hold-time-down]}

Context

config>port>mw

Description

This command configures dampening timers on a microwave link. Dampening timers guard against excessive link transitions reported to upper layer protocols.

The no form of this command removes the dampening timers configuration.

Default

down 0 or up 0 — no microwave link dampening is enabled; link transitions are immediately reported to upper layer protocols

Parameters

hold-time-up

the number of seconds before an up-state to down-state transition is reported to upper layer protocols

Values

0 to 900 s

hold-time-down

the number of seconds before a down-state to up-state transition is reported to upper layer protocols

Values

0 to 900 s

Syntax

[no] peer-discovery

Context

config>port>mw

Description

This command enables or disables peer discovery on the microwave link.

Peer discovery is used to discover the IP addresses of remote routers over the microwave link, as well as the physical ports of the remote routers corresponding to the primary radios for the microwave link.

Ports with peer discovery disabled do not send peer discovery packets and ignore any received peer discovery packets. The CLI does not display the IP address of peers when peer discovery is disabled.

Syntax

[no] protection

Context

config>port>mw

Description

This command enables protection switching on a microwave link.

The no form of this command removes the protection switching on a microwave link.

Syntax

radio port-id create [main | spare]

no radio port-id

Context

config>port>mw

Description

This command configures an MPR-e radio for a microwave link.

The no form of this command removes an MPR-e spare radio from the specified port

Parameters

port-id

specifies a port on a Packet Microwave Adapter card on which an MPR-e radio is configured, in the format slot/mda/port (port = 1 through 4)

Note:

• The port must have an encap-type of dot1q and it cannot be used by any service or interface.

• Only a main radio can be configured on an odd-numbered port, that is, port 1 or 3.

create

creates the MPR-e radio (mandatory)

main

sets the MPR-e radio as the main (active) radio

spare

sets the MPR-e radio as the spare (standby) radio

Syntax

database filename

no database

Context

config>port>mw>radio

Description

This command configures the filename of the MPR-e radio database.

The no form of this command removes the MPR-e radio database configuration.

Default

n/a

Parameters

filename

specifies the name of the MPR-e radio database

Values

up to 32 characters

Syntax

name name-string

no name

Context

config>port>mw>radio

Description

This command specifies a name to be associated with an MPR-e radio.

The no form of this command removes the name configured for the MPR-e radio.

Default

n/a

Parameters

name-string

specifies the MPR-e radio name

Values

up to 32 characters

Syntax

perfmon [g826] [power] [acm]

Context

config>port>mw>radio

Description

This command enables MWA performance monitoring on microwave links in order to collect G.826, radio power, and Adaptive Coding and Modulation (ACM) level performance statistics.

The no form of this command disables MWA performance monitoring on microwave links.

Default

no perfmon

Parameters

g826

enables performance monitoring for G.826 statistics (BBE, ES, SES, and UAS)

power

enables performance monitoring for radio power statistics

acm

enables performance monitoring for ACM level statistics

Syntax

rsl-history file-url

no rsl-history

Context

config>port>mw>radio

Description

This command enables the RSL history file for an MPR-e radio to be uploaded to the 7705 SAR.

The no form of this command removes the configuration.

Default

no rsl-history

Parameters

file-url

specifies the URL of the RSL history file for the specified radio

Values

local-url:      [cflash-id/][file-path]; 99 characters maximum

Syntax

[no] standalone

Context

config>port>mw>radio

Description

This command configures the MPR-e radio to operate in standalone mode.

The no form of this command removes the standalone designation and sets the MPR-e radio in MWA mode.

Default

no standalone

Syntax

suppress-faults [hber] [rsl-threshold] [rdi] [all]

[no] suppress-faults

Context

config>port>mw>radio

Description

This command suppresses detected faults on microwave links. If microwave link faults are detected, an event is logged and the link is disabled. When faults are suppressed, the event is still logged, but the microwave link is not disabled. By default, the system does not suppress faults for FFD.

The no form of this command removes fault suppression.

Default

no suppress-faults

Parameters

hber

suppresses High Bit Error Rate faults

rsl-threshold

suppresses RSL threshold crossing faults

rdi

suppresses RDI faults

all

suppresses all faults

Syntax

[no] tx-mute

Context

config>port>mw>radio

Description

This command mutes the transmitter on the radio MPR-e radio.

The no form of this command disables the mute configuration.

Syntax

[no] revert [eps] [rps]

Context

config>port>mw

Description

This command configures the type of revertive switching on the microwave link. Revertive switching occurs when the MPR-e radio operation switches from the spare radio back to the main radio after a fault condition is cleared.

The no form of this command removes the revertive switching configuration.

Default

n/a

Parameters

eps

sets Equipment Protection Switching as the revertive switching type

Note: If EPS is configured as the revertive switching type, Transmission Protection Switching (TPS) is automatically applied as well; TPS cannot be enabled independently.

rps

sets Radio Protection Switching as the revertive switching type

Syntax

port {port-id | bundle-id}

no port {port-id | bundle-id}

Context

config

Description

This command enables access to the context to configure ports, multilink bundles, and IMA groups. Before a port can be configured, the chassis slot must be provisioned with a valid card type and the adapter card slot must be provisioned with a valid adapter card type. (See the card and mda commands.)

Default

n/a

Parameters

port-id

specifies the physical port ID in the slot/mda/port format, or a virtual port (v-port) on the 2-port 10GigE (Ethernet) Adapter card or 2-port 10GigE (Ethernet) module (where port-id for the virtual port is either ‟v-port” or 3)

bundle-id

specifies the multilink bundle identifier

The command syntax must be configured as follows:

Syntax	bundle-type-slot/mda.bundle-num
	bundle[-ppp]-slot/mda.bundle-num (Creates a multilink PPP bundle)
	bundle-ima-slot/mda.bundle-num (Creates an IMA group)
	bundle: keyword
	slot: card/adapter card slot numbers
	bundle-num: 1 to 32 For example: router1>config# port bundle-1/1.1 (multilink PPP bundle) router1>config# port bundle-ima-1/1.2 (IMA group bundle)

Syntax

[no] ddm-events

Context

config>port

Description

This command enables or disables digital diagnostic monitoring (DDM) events for the port. DDM is supported on Ethernet SFP ports, OC3 SONET SFP ports, and v-ports.

Default

no ddm-events

Syntax

dwdm

Context

config>port

Description

This command configures the Dense Wavelength Division Multiplexing (DWDM) parameters.

Syntax

channel channel

Context

config>port>dwdm

Description

This command configures the DWDM ITU channel for a tunable adapter card optical interface. The channel is expressed in a form that is derived from the laser's operational frequency. For example, 193.40 THz corresponds to DWDM ITU channel 34 in the 100 GHz grid and 193.45 THz corresponds to DWDM ITU channel 345 in the 50 GHz grid. The provisioned adapter card must support DWDM tunable optics. For a complete list of supported optics and associated adapter cards, contact your Nokia representative.

The DWDM channel must be set to a non-zero value before the port is set to no shutdown.

The port must be shut down before changing the DWDM channel, and the port must be a physical port to set the DWDM channel.

Parameters

channel

specifies the channel

Values

0: valid on disabled ports

17 to 61 inclusive: 100 GHz channels

175, 185 to 605: 50 GHz channels

Syntax

ethernet

Context

config>port

Description

This command enables access to the context to configure Ethernet port attributes on all cards, modules, and chassis that support Ethernet. For the Packet Microwave Adapter card, this command does not apply to ports that support microwave awareness.

Syntax

access

Context

config>port>ethernet

Description

This command enables access to the context to configure access mode parameters.

Syntax

egress

Context

config>port>ethernet>access

Description

This command enables access to the context to configure the CIR rate for the aggregate of all the unshaped 4-priority SAPs on the port and to configure the shaper policy.

Syntax

shaper-policy name

no shaper-policy

Context

config>port>ethernet>access>egress

Description

This command assigns a shaper policy to the specified hybrid port.

For hybrid ports, the shaper policy is independently assigned to access or network egress traffic. When the Ethernet port mode is changed to hybrid mode, the default policy is assigned to access and network traffic. To change an access or network policy, use the commands config>port>ethernet> access>egress>shaper-policy and config>port>ethernet> network>egress>shaper-policy.

For access egress per-customer aggregate shaping, the shaper policy is assigned to a port and SAPs on that port must be bound to a shaper group within the shaper policy bound to that port.

The shaper policy defines shaper parameters such as shaper group, and PIR and CIR rates. The shaper policy is defined in the config>qos>shaper-policy context. See the 7705 SAR Quality of Service Guide, ‟QoS for Hybrid Ports” and ‟Per-Customer Aggregate shapers (Multiservice Site)”, for more information.

The no form of this command reverts to the default.

Default

‟default”

Parameters

name

specifies an existing shaper policy name

Syntax

unshaped-sap-cir cir-rate

no unshaped-sap-cir

Context

config>port>ethernet>access>egress

Description

This command sets the CIR rate for the aggregate of all the unshaped 4-priority SAPs on the port. The default cir-rate is 0 kb/s. When the cir-rate is set to max, the CIR rate adopts the maximum rate of the port, which is set using the egress-rate sub-rate command.

If the cir-rate is higher than the sub-rate, the cir-rate is stored in the configuration database but the sub-rate limit is used.

On a Gen-3-based port, this command can be set for mix-and-match LAG SAP purposes, but is not applied to the Gen-3-based port. See LAG Support on Mixed-Generation Hardware for more information.

The no form of the command sets the unshaped-sap-cir CIR rate to 0 kb/s.

Default

no unshaped-sap-cir

Parameters

cir-rate

the CIR rate for the aggregate of all the unshaped 4-priority SAPs on the port

Values

0 to 100000000 kb/s, or max

Default

0 kb/s

Syntax

autonegotiate [limited]

no autonegotiate

Context

config>port>ethernet

Description

This command enables speed autonegotiation and duplex autonegotiation on Ethernet ports.

The 8-port Gigabit Ethernet Adapter card, 10-port 1GigE/1-port 10GigE X-Adapter card in x10-1gb-sfp mode, and Packet Microwave Adapter card support speed autonegotiation and duplex autonegotiation on all SFP ports. Each port can run in full-duplex mode or in half-duplex mode at 10 or 100 Mb/s.

The 6-port Ethernet 10Gbps Adapter card and the 7705 SAR-X support speed autonegotiation and duplex autonegotiation on all SFP ports; SFP+ ports do not support autonegotiation. Each SFP port can run in full-duplex mode or half-duplex mode at 10 Mb/s or 100 Mb/s, and in full-duplex mode at 1 Gb/s. Each SFP+ port can run in full-duplex mode at 10 Gb/s.

Speed autonegotiation takes place automatically — all ports are configured for speed autonegotiation by default. Speed autonegotiation might need to be disabled (for example, if a port must be forced to a certain speed or to avoid speed negotiation loops between the Ethernet Adapter card and other devices). To turn off speed autonegotiation for a port, the user configures the port speed manually.

When autonegotiation is disabled on a port, the port does not attempt to autonegotiate and will only operate at the speed and duplex settings configured for the port. Also, when autonegotiation is disabled, the tx and rx pauses are enabled automatically (the tx and rx pauses are negotiated with the far end if autonegotiation is enabled).

If the limited keyword option is specified, the port will autonegotiate but will only advertise a specific speed and duplex mode. The speed and duplex mode advertised are the settings configured for the port. One use for limited mode is for multispeed gigabit ports to force gigabit operation while keeping autonegotiation enabled for compliance with IEEE 801.3.

The no form of this command disables autonegotiation on this port.

Default

autonegotiate

Syntax

cfm-loopback priority {low | high | dot1p} [match-vlan {vlan-range | none}]

no cfm-loopback

Context

config>port>ethernet

Description

This command enables the port to respond to loopback messages (LBMs) and sets the queuing and scheduling conditions for handling CFM LBM frames. The user selects the desired QoS treatment by enabling the CFM loopback and including the high or low priority with the high or low keyword. The queue parameters and scheduler mappings associated with the high and low keywords are preconfigured and cannot be altered by the user.

The priority dot1p and match-vlan keywords apply only to physical ring ports on the 2-port 10GigE (Ethernet) Adapter card and 2-port 10GigE (Ethernet) module.

The parameters and mappings have the following settings:

• for network egress or access egress, where 4-priority scheduling is enabled:

  • high-priority: either cir = port_speed, which applies to all frames that are scheduled via an expedited in-profile scheduler, or RR for all other (network egress queue) frames that reside in expedited queues and are in an in-profile state

  • low-priority: either cir = 0, pir = port_speed, which applies to all frames that are scheduled via a best effort out-of-profile scheduler, or RR for all other frames that reside in best-effort queues and are in an out-of-profile state

• for the 8-port Gigabit Ethernet Adapter card, the 10-port 1GigE/1-port 10GigE X-Adapter card, and for the v-port on the 2-port 10GigE (Ethernet) Adapter card and 2-port 10GigE (Ethernet) module, for network egress, where 16-priority scheduling is enabled:

  • high-priority: has higher priority than any user frames

  • low-priority: has lower priority than any user frames

• for the physical ring ports on the 2-port 10GigE (Ethernet) Adapter card or 2-port 10GigE (Ethernet) module, which can only operate as network egress, the priority of the LBR frame is derived from the dot1p setting of the received LBM frame. Based on the assigned ring-type network queue policy, dot1p-to-queue mapping is handled using the same mapping rule that applies to all other user frames.

CFM loopback support on a physical ring port on the 2-port 10GigE (Ethernet) Adapter card or 2-port 10GigE (Ethernet) module differs from other Ethernet ports. For these ports, cfm-loopback is configured using dot1p and an optional list of up to 16 VLANs. The null VLAN is always applied. The CFM loopback message will be processed if it does not contain a VLAN header, or if it contains a VLAN header with a VLAN ID that matches one in the configured match-vlan list.

The no form of the command disables the handling of CFM loopback frames.

Default

no cfm-loopback

Parameters

low

sets the queue parameters and scheduler mappings, as described above

high

sets the queue parameters and scheduler mappings, as described above

dot1p

sets the queue parameters and scheduler mappings on a physical ring port, as described above

match-vlan

sets the matching VLAN IDs that will allow a CFM loopback on a physical ring port when priority is set to dot1p, as described above

Values

vlan-range: 1 to 4094 (for example, 1-10,33,2123)

none: only untagged CFM LBMs are accepted

Default

none

Syntax

crc-monitor

Context

config>port>ethernet

Description

This command enables the context to configure Ethernet CRC monitoring parameters.

Syntax

sd-threshold threshold [multiplier multiplier]

no sd-threshold

Context

config>port>ethernet>crc-monitor

Description

This command configures the error rate threshold at which the signal degrade condition is declared on an Ethernet interface. The error rate threshold value is the ratio of errored frames over total frames received, which is calculated as an average over the time set by the sliding window. The value is calculated as M ✕ 10E-N, where M is the optional multiplier used to increase the error ratio, and N is the rate of errored frames allowed (threshold). For example, 3 ✕ 10E-3 sets the error rate threshold at 3 errored frames per 1000 total frames received. If no window-size is configured, a default of 10-s is used. The CRC errors on the interface are sampled once per second.

The multiplier keyword is optional. If the multiplier keyword is omitted, the default value of 1 is used.

The no form of the command disables sd-threshold monitoring.

Default

no sd-threshold

Parameters

threshold

specifies the threshold value

Values

1 to 9

multiplier

specifies the multiplier value

Values

1 to 9

Default

1

Syntax

sf-threshold threshold [multiplier multiplier]

no sf-threshold

Context

config>port>ethernet>crc-monitor

Description

This command configures the error rate threshold at which the signal fail condition is declared on an Ethernet interface. The error rate threshold value is the ratio of errored frames over total frames received, which is calculated as an average over the time set by the sliding window. The value is calculated as M ✕ 10E-N, where M is the optional multiplier used to increase the error ratio, and N is the rate of errored frames allowed (threshold). For example, 3 ✕ 10E-3 sets the error rate threshold at 3 errored frames per 1000 total frames received. If no window-size is configured, a default of 10-s is used. The CRC errors on the interface are sampled once per second.

The multiplier keyword is optional. If the multiplier keyword is omitted, the default value of 1 is used.

The no form of the command disables sf-threshold monitoring.

Default

no sf-threshold

Parameters

threshold

specifies the threshold value

Values

1 to 9

multiplier

specifies the multiplier value

Values

1 to 9

Syntax

window-size seconds

no window-size

Context

config>port>ethernet>crc-monitor

Description

This command configures the sliding window size over which the Ethernet frames are sampled to detect signal fail or signal degrade conditions. The command is used jointly with the sd-threshold and the sf-threshold commands.

A sliding window (window-size) is used to calculate a statistical average of CRC error statistics collected every second. Each second, the oldest statistics are dropped from the calculation. For example, if the default 10-s sliding window is configured, at the 11th second the oldest second of statistical data is dropped and the 11th second is included. This sliding average is compared against the configured SD and SF thresholds to determine if the error rate over the window exceeds one or both of the thresholds, which will generate an alarm and log event.

The no form of the command disables window-size monitoring.

Default

10

Parameters

seconds

specifies the size of the sliding window over which the errors are measured

Values

5 to 60

Syntax

dot1q-etype 0x0600 to 0xffff

no dot1q-etype

Context

config>port>ethernet

Description

This command specifies the Ethertype expected when the port’s encapsulation type is dot1q.

IEEE 802.1q (also known as VLAN tagging) defines a process to channelize a single Ethernet port or v-port into VLANs. Each VLAN can represent a customer or an application. Up to 4096 VLANs can be configured per port. For more information about VLANs and VLAN tagging, see ‟VLL Services” in the 7705 SAR Services Guide.

The Ethertype specifies the protocol being carried in an Ethernet frame. In 802.1q, the Ethertype is set to the Tag Protocol Identifier (TPID) value of 0x8100, which identifies the frame as an IEE 802.1Q-tagged frame. As well, 2 bytes of Tag Control Information (TCI), followed by 2 bytes containing the frame’s original Ethertype are added to the frame. Together, the TPID and TCI make up the VLAN tag.

For Ethernet ports, when the port encap-type is qinq, the dot1q-etype value sets the Ethertype for the inner VLAN tag. The qinq encapsulation type is not supported by v-ports.

Network ports do not allow dot1q-etype settings.

The no form of this command resets the dot1q-etype value to the default.

Default

0x8100

Parameters

0x0600 to 0xffff

specifies the Ethertype to expect

Syntax

down-when-looped

Context

config>port>ethernet

Description

This command enables the down-when-looped feature on Ethernet ports or v-ports. When the down-when-looped feature is activated, a keepalive loop PDU is transmitted periodically toward the network. The port listens for returning keepalive loop PDUs. A loop is detected if any of the received PDUs have an Ethertype value of 9000 and the source and destination MAC addresses are identical to the MAC address of the port. When a loop is detected, the port is immediately brought down.

Ethernet port-layer line loopbacks and Ethernet port-layer internal loopbacks can be enabled on the same port with the down-when-looped feature. EFM OAM cannot be enabled on the same port with the down-when-looped feature.

Syntax

keep-alive timer

no keep-alive

Context

config>port>ethernet>down-when-looped

Description

This command configures the time interval between the keepalive PDUs transmitted toward the network during loop detection by the down-when-looped feature.

Default

10 s

Parameters

timer

the interval between keepalive PDUs

Values

1 to 120 s

Syntax

retry-timeout timer

no retry-timeout

Context

config>port>ethernet>down-when-looped

Description

This command configures the minimum wait time before re-enabling the Ethernet port or v-port after it is brought down due to a loop detection.

Default

120

Parameters

timer

the minimum wait time before re-enabling the Ethernet port or v-port

Values

0 s or 10 to 160 s

Syntax

[no] use-broadcast-address

Context

config>port>ethernet>down-when-looped

Description

This command configures the down-when-looped feature to declare a loop when the destination MAC address matches the broadcast MAC address instead of the MAC address of the Ethernet port or v-port.

Syntax

duplex {full | half}

Context

config>port>ethernet

Description

This command configures the duplex mode of an Ethernet or Fast Ethernet port when autonegotiation is disabled.

The 10-port 1GigE/1-port 10GigE X-Adapter card must be in x10-1gb-sfp mode to support this command.

SFP slots hosting Ethernet or Fast Ethernet SFPs can be configured to full-duplex or half-duplex mode when autonegotiation is disabled. Duplex autonegotiation is automatically turned off when the user sets the mode with this command. SFP slots hosting optical GigE SFPs only support full-duplex mode; duplex autonegotiation is not supported.

On 10 Gb/s ports, the mode is always full duplex and cannot be changed. This includes the ring Ethernet XFP ports and the v-port on the 2-port 10GigE (Ethernet) Adapter card and 2-port 10GigE (Ethernet) module.

Default

full

Syntax

efm-oam

Context

config>port>ethernet

Description

This command configures EFM-OAM attributes.

Syntax

[no] accept-remote-loopback

Context

config>port>ethernet>efm-oam

Description

This command enables reactions to loopback control OAMPDUs from peers.

The no form of this command disables reactions to loopback control OAMPDUs.

Default

no accept-remote-loopback

Syntax

hold-time time-value

no hold-time

Context

config>port>ethernet>efm-oam

Description

This command sets the amount of time that EFM-OAM will wait before going from a non-operational state to an operational state.