-- *****************************************************************
-- CISCO-OPTICAL-IF-EXTN-MIB.my: Cisco optical IF extension MIB file
--
-- May 2002, Suresh Basavarajappa, Mickey Spiegel and Sameer Merchant
--
-- Copyright (c) 2001, 2002, 2003, 2004 by cisco Systems, Inc.
-- All rights reserved.
--
-- *****************************************************************CISCO-OPTICAL-IF-EXTN-MIB DEFINITIONS::=BEGINIMPORTSMODULE-IDENTITY,OBJECT-TYPE,Unsigned32FROM SNMPv2-SMI
MODULE-COMPLIANCE,OBJECT-GROUPFROM SNMPv2-CONF
TEXTUAL-CONVENTIONFROM SNMPv2-TC
ifIndex FROM IF-MIB
ciscoExperiment FROM CISCO-SMI
;ciscoOpticalIfExtnMIB MODULE-IDENTITYLAST-UPDATED"200411190000Z"ORGANIZATION"Cisco Systems, Inc."CONTACT-INFO"Cisco Systems
Customer Service
Postal: 170 W Tasman Drive
San Jose, CA 95134
USA
Tel: +1 800 553-NETS
E-mail: cs-dwdm@cisco.com"DESCRIPTION"A MIB module containing extensions to the IF-MIB for optical
interfaces."REVISION"200411190000Z"DESCRIPTION"This revision adds 'sonetPhy' and 'multiRate' enumeration to
coIfTypeExtn object.
"REVISION"200312290000Z"DESCRIPTION"This revision adds 'twoGigabitPhy' enumeration to
coIfTypeExtn object.
"REVISION"200205230000Z"DESCRIPTION"This revision adds a new table coIfXcvrTable to
control transceivers (lasers and optical receivers)
at optoelectronic interfaces. It also defines three new
code points, ethernetPhy, esconPhy and gigabitPhy
for the coIfTypeExtn object.
"REVISION"200104200000Z"DESCRIPTION"Initial version of this MIB."::={ ciscoExperiment 66}coIfExtnMIBObjects OBJECTIDENTIFIER::={ ciscoOpticalIfExtnMIB 1}coIfTypeExtnGroup OBJECTIDENTIFIER::={ coIfExtnMIBObjects 1}
coIfWavelengthGroup OBJECTIDENTIFIER::={ coIfExtnMIBObjects 2}coIfDwdmChannelGroup OBJECTIDENTIFIER::={ coIfExtnMIBObjects 3}coIfXcvrGroup OBJECTIDENTIFIER::={ coIfExtnMIBObjects 4}-- Textual ConventionsCoDwdmFrequency ::=TEXTUAL-CONVENTIONSTATUScurrentDESCRIPTION"The nominal central frequency of one channel in a DWDM system,
in GHz."SYNTAXUnsigned32(1..1000000)CoDwdmFrequencyOrZero ::=TEXTUAL-CONVENTION
STATUScurrentDESCRIPTION"The nominal central frequency of one channel in a DWDM system,
in GHz, or zero. The value zero either indicates that the
frequency is unknown, or indicates that this channel is
uncolored."SYNTAXUnsigned32(0..1000000)-- Optical Interface Type Extension TablecoIfTypeExtnTable OBJECT-TYPESYNTAXSEQUENCEOF CoIfTypeExtnEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains extensions to the ifType object defined in
the IF-MIB for optical interfaces."::={ coIfTypeExtnGroup 1}coIfTypeExtnEntry OBJECT-TYPESYNTAX CoIfTypeExtnEntry
MAX-ACCESSnot-accessibleSTATUScurrent
DESCRIPTION"An entry contains extensions to the ifType object defined in
the IF-MIB for one optical interface."INDEX{ ifIndex }::={ coIfTypeExtnTable 1}
CoIfTypeExtnEntry ::=SEQUENCE{
coIfTypeExtn INTEGER}coIfTypeExtn OBJECT-TYPESYNTAXINTEGER{opticalTransponder(1),wdmTransport(2),wdmChannel(3),wdmChannelGroup(4),wavelengthTransport(5),ethernetPhy(6),
esconPhy(7),gigabitPhy(8),twoGigabitPhy(9),sonetPhy(10),multiRate(11)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object indicates the type of an optical interface, when
the type is not specified in the ifType object in the IF-MIB,
i.e., when the ifType object is set to 'other'.
The value 'opticalTransponder' represents an optoelectronic
interface that relays signals of various physical layer
protocols. The interface may be capable of pulse shaping and
retiming. The interface may be capable of monitoring various
physical layer protocols. The interface may emit signals
that are colored (e.g. one channel in a DWDM system) or
uncolored (i.e., for single channel interfaces).
The value 'wdmTransport' indicates an optical interface that
carries multiple wavelengths.
The value 'wdmChannel' indicates an interface sub-layer above
'wdmTransport' representing a single wavelength.
The value 'wdmChannelGroup' indicates an interface sub-layer
above 'wdmTransport' representing a wavelength division
multiplexed group of wavelengths.
The value 'wavelengthTransport' indicates an optical interface
that carries a single wavelength.
The value 'ethernetPhy' indicates an interface that implements
the physical layer of the Ethernet protocol.
The value 'esconPhy' indicates an interface that implements the
physical layer of ESCON.
The value 'gigabitPhy' indicates an interface that supports the
physical layers of both Gigabit Ethernet and Fibre Channel.
The value 'twoGigabitPhy' indicates an interface that supports
the physical layer of 1x and 2x Fibre Channel.
The value 'sonetPhy' indicates an interface that carries the
trunk side traffic of eight port multirate muxponder
The value 'multiRate' indicates an interface that supports
client protocols of eight port multirate muxponder ."::={ coIfTypeExtnEntry 1}-- Optical Interface Wavelength TablecoIfWavelengthTable OBJECT-TYPESYNTAXSEQUENCEOF CoIfWavelengthEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains wavelength information for optical
interfaces."::={ coIfWavelengthGroup 1}coIfWavelengthEntry OBJECT-TYPESYNTAX CoIfWavelengthEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry contains wavelength information for one optical
interface."INDEX{ ifIndex }::={ coIfWavelengthTable 1}
CoIfWavelengthEntry ::=SEQUENCE{
coIfDwdmFrequency CoDwdmFrequency
}
coIfDwdmFrequency OBJECT-TYPESYNTAX CoDwdmFrequency
UNITS"GHz"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The nominal central frequency associated with this interface,
in GHz.
This object is instantiated for interfaces with
coIfTypeExtn value of 'wdmChannel' and
'wavelengthTransport'. This object may also be instantiated
for optoelectronic interfaces that originate or terminate
DWDM wavelengths, including some of the interfaces with
coIfTypeExtn value of 'opticalTransponder'."::={ coIfWavelengthEntry 1}-- DWDM Channel Group TablecoIfDwdmChannelGroupTable OBJECT-TYPESYNTAXSEQUENCEOF CoIfDwdmChannelGroupEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains information about interfaces representing
groups of DWDM channels. This includes interfaces with
coIfTypeExtn value of 'wdmChannelGroup'."::={ coIfDwdmChannelGroup 3}coIfDwdmChannelGroupEntry OBJECT-TYPESYNTAX CoIfDwdmChannelGroupEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry contains information about one interface that
represents a group of DWDM channels. The group can be
described as a specified set of DWDM frequencies, or as the
group of all DWDM frequencies except for those in a specified
set.
If a frequency is included in a DWDM channel group, this does
not necessarily indicate that there is a signal present at that
frequency. It indicates that if a signal is present at that
frequency, then that signal is included in this DWDM channel
group."INDEX{ ifIndex }::={ coIfDwdmChannelGroupTable 1}
CoIfDwdmChannelGroupEntry ::=SEQUENCE{
coIfDwdmChannelGroupMinFrequency CoDwdmFrequency,
coIfDwdmChannelGroupSpacing Unsigned32,
coIfDwdmChannelGroupBitmapLogic INTEGER,
coIfDwdmChannelGroupBitmap OCTETSTRING}coIfDwdmChannelGroupMinFrequency OBJECT-TYPESYNTAX CoDwdmFrequency
UNITS"GHz"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The lowest frequency represented in the bitmap specified in
coIfDwdmChannelGroupBitmap, i.e., the frequency represented by
bit 0 of octet 1 of coIfDwdmChannelGroupBitmap."::={ coIfDwdmChannelGroupEntry 1}coIfDwdmChannelGroupSpacing OBJECT-TYPESYNTAXUnsigned32(1..1000)UNITS"GHz"
MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The difference in frequency between successive bits in
coIfDwdmChannelGroupBitmap. This is typically the frequency
difference between adjacent channels in the DWDM system."::={ coIfDwdmChannelGroupEntry 2}coIfDwdmChannelGroupBitmapLogic OBJECT-TYPESYNTAXINTEGER{carried(1),blocked(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object indicates whether coIfDwdmChannelGroupBitmap
identifies channels included in the channel group, or whether
it identifies channels excluded from the channel group.
When the value of this object is 'carried', then the channel
group is composed only of those channels for which the value of
the corresponding bit in coIfDwdmChannelBitmap is one.
When the value of this object is 'blocked', then the channel
group is composed of all channels except those for which the
value of the corresponding bit in coIfDwdmChannelBitmap is
one. Channels that are not identified in coIfDwdmChannelBitmap
are included in the channel group."::={ coIfDwdmChannelGroupEntry 3}coIfDwdmChannelGroupBitmap OBJECT-TYPESYNTAXOCTETSTRING(SIZE(0..32))MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The DWDM channel bitmap that indicates those channels that
are included or excluded (depending on the value of
coIfDwdmChannelBitmapLogic) from the DWDM channel group.
If a frequency is included in a DWDM channel group, this does
not necessarily indicate that there is a signal present at that
frequency. It indicates that if a signal is present at that
frequency, then that signal is included in this DWDM channel
group.
Bit zero of octet one corresponds to the lowest channel
(representing the frequency identified by
coIfDwdmChannelGroupMinFrequency), bit one of octet one
corresponds to the lowest plus one channel (representing
the frequency obtained by adding the values of
coIfDwdmChannelGroupMinFrequency and
coIfDwdmChannelGroupSpacing), and so on.
When the value of coIfDwdmChannelBitmapLogic is 'carried',
then channels included in the channel group will have the
corresponding bit set to one in the bitmap. Bits that are set
to zero represent channels that are excluded from the channel
group. Channels that are not represented in the bitmap are
also excluded from the channel group.
When the value of coIfDwdmChannelBitmapLogic is 'blocked',
then channels excluded from the channel group will have the
corresponding bit set to one in the bitmap. Bits that are set
to zero represent channels that are included in the channel
group. Channels that are not represented in the bitmap are
also included in the channel group."::={ coIfDwdmChannelGroupEntry 4}-- Optical Interface Transceiver Table
coIfXcvrTable OBJECT-TYPESYNTAXSEQUENCEOF CoIfXcvrEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"This table contains objects to control transceivers (lasers
and optical receivers) at optoelectronic interfaces."::={ coIfXcvrGroup 1}coIfXcvrEntry OBJECT-TYPESYNTAX CoIfXcvrEntry
MAX-ACCESSnot-accessibleSTATUScurrentDESCRIPTION"An entry contains objects for control of a transceiver at an
optoelectronic interface."INDEX{ ifIndex }::={ coIfXcvrTable 1}
CoIfXcvrEntry ::=SEQUENCE{
coIfXcvrLaserAdminStatus INTEGER,
coIfXcvrLaserOperStatus INTEGER,
coIfXcvrMinLaserFrequency CoDwdmFrequencyOrZero,
coIfXcvrLaserFrequencySpacing Unsigned32,
coIfXcvrLaserFrequencyBitmap OCTETSTRING,
coIfXcvrForwardLaserControl INTEGER,
coIfXcvrLaserSafetyControl INTEGER,
coIfXcvrLSCProtocol INTEGER,
coIfXcvrLSCRestartMode INTEGER,
coIfXcvrLSCManualRestart INTEGER,
coIfXcvrLSCPulseLength Unsigned32,
coIfXcvrLSCTestPulseLength Unsigned32,
coIfXcvrLSCPulseRepetitionTime Unsigned32}coIfXcvrLaserAdminStatus OBJECT-TYPESYNTAXINTEGER{up(1),
down(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The desired state of the laser on this interface.
This object differs from ifAdminStatus in the IF-MIB, since
in some cases setting ifAdminStatus to 'down' causes an alarm
indication to be transmitted, rather than shutting down the
laser. When this object is set to 'down', ifOperStatus in the
IF-MIB goes to the 'down' state, and the laser is shut down.
In order to administratively enable an interface, both
ifAdminStatus in the IF-MIB and this object must be set to
'up'."::={ coIfXcvrEntry 1}coIfXcvrLaserOperStatus OBJECT-TYPESYNTAXINTEGER{transmitting(1),degraded(2),
down(3),lscDown(4),flcDown(5),unknown(6)}MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This object indicates the current operational status of the
laser on this interface.
'transmitting': The laser is on.
'degraded': The laser is on, but there is a fault that causes
it to transmit in a degraded manner.
'down': The laser is shut down, either because of error
conditions or because it has been administratively
disabled. This state indicates that the laser is shut down
due to conditions other than Laser Safety Control or
Forward Laser Control.
'lscDown': The laser is shut down due to Laser Safety Control
(LSC) mechanisms such as Automatic Laser Shutdown (ALS),
i.e., due to a fault in the receive direction at this
interface.
'flcDown': The laser is shut down due to Forward Laser Control,
i.e., due to a fault on the cross-connected interface.
'unknown': The operational status of the laser cannot be
determined.
If the value of coIfXcvrLaserAdminStatus is 'down', then this
object also indicates 'down'. If coIfXcvrLaserAdminStatus is
set to 'up', then the value of this object should change to
'transmitting' if the laser is functioning properly."::={ coIfXcvrEntry 2}coIfXcvrMinLaserFrequency OBJECT-TYPESYNTAX CoDwdmFrequencyOrZero
UNITS"GHz"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The lowest frequency represented in the bitmap specified in
coIfXcvrLaserFrequencyBitmap, i.e., the frequency represented
by bit 0 of octet 1 of coIfXcvrLaserFrequencyBitmap.
A value of zero signifies that the laser on this interface is
uncolored and that coIfXcvrLaserFrequencyBitmap does not
apply."::={ coIfXcvrEntry 3}
coIfXcvrLaserFrequencySpacing OBJECT-TYPESYNTAXUnsigned32(1..1000)UNITS"GHz"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"The difference in frequency between successive bits in
coIfXcvrLaserFrequencyBitmap. This is typically the frequency
difference between adjacent channels in the DWDM system."::={ coIfXcvrEntry 4}coIfXcvrLaserFrequencyBitmap OBJECT-TYPESYNTAXOCTETSTRING(SIZE(0..32))MAX-ACCESSread-onlySTATUScurrentDESCRIPTION"This bitmap indicates the DWDM channel frequencies supported
by the tunable laser on this interface.
Bit zero of octet one corresponds to the lowest channel
(representing the frequency identified by
coIfXcvrMinLaserFrequency), bit one of octet one corresponds
to the lowest plus one channel (representing the frequency
obtained by adding the values of coIfXcvrMinLaserFrequency
and coIfXcvrMinLaserFrequencySpacing), and so on.
The frequencies supported by the tunable laser have the
corresponding bit set to one in the bitmap. Bits that are set
to zero represent frequencies that are not supported by the
tunable laser. The frequencies that are not represented in the
bitmap are also not supported by the tunable laser."::={ coIfXcvrEntry 5}coIfXcvrForwardLaserControl OBJECT-TYPESYNTAXINTEGER{enable(1),disable(2)}MAX-ACCESSread-writeSTATUScurrent
DESCRIPTION"This object is used to enable or disable Forward Laser Control
(FLC) on this interface. If Forward Laser Control is enabled,
the laser is automatically shut down when the receive direction
of the cross-connected interface is in an alarm condition."::={ coIfXcvrEntry 6}coIfXcvrLaserSafetyControl OBJECT-TYPESYNTAXINTEGER{enable(1),disable(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object is used to enable or disable Laser Safety Control
(LSC) mechanisms such as Automatic Laser Shutdown (ALS) on this
interface. Laser Safety Control mechanisms are used to
automatically shutdown the output power of laser transmitters
when potentially hazardous conditions such as fiber breaks or
unplugged optical connectors are detected."::={ coIfXcvrEntry 7}coIfXcvrLSCProtocol OBJECT-TYPESYNTAXINTEGER{proprietary(1),g664(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object identifies the Laser Safety Control protocol that
is applied when coIfXcvrLaserSafetyControl is set to 'enable'.
'proprietary': Indicates that the Laser Safety Control protocol
is proprietary.
'g664': Indicates the Automatic Laser Shutdown (ALS) protocol
specified in ITU-T Recommendation G.664."REFERENCE"ITU-T Recommendation G.664, Optical safety procedures and
requirements for optical transport systems, June 1999"::={ coIfXcvrEntry 8}
coIfXcvrLSCRestartMode OBJECT-TYPESYNTAXINTEGER{automaticRestart(1),manualRestart(2)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object selects the mechanism used to restore transmission
after the fiber has been repaired or reconnected.
'automaticRestart': This mode selects automatic restart of the
laser by periodically transmitting restart pulses. The
period between restart pulse transmissions is specified by
coIfXcvrLSCPulseReptitionTime.
'manualRestart': This mode selects manual restart of the laser.
After the fiber has been repaired or reconnected, the
coIfXcvrLSCManualRestart object should be used to trigger
transmission of a restart pulse."::={ coIfXcvrEntry 9}
coIfXcvrLSCManualRestart OBJECT-TYPESYNTAXINTEGER{noop(1),restart(2),restartForTest(3)}MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object initiates laser activation when the laser is shut
down due to Laser Safety Control.
When the value is set to 'restart', transmission of a restart
pulse of length coIfXcvrLSCPulseLength is triggered.
When this object is set to 'restartForTest', transmission of a
restart pulse of length coIfXcvrLSCTestPulseLength is
triggered. Before setting this object to 'restartForTest',
specific care must be taken to assure connectivity to avoid
exposure to hazardous optical levels.
When the value is set to 'noop', no operation is performed.
When read, the value 'noop' is returned.
Manual restart can only be activated when the value of
coIfXcvrLaserOperStatus is 'lscDown'."::={ coIfXcvrEntry 10}coIfXcvrLSCPulseLength OBJECT-TYPESYNTAXUnsigned32(100..20000)UNITS"milliseconds"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the length of restart pulses used to
restore transmission when a Laser Safety Control protocol is
activated."::={ coIfXcvrEntry 11}coIfXcvrLSCTestPulseLength OBJECT-TYPESYNTAXUnsigned32(1..300)UNITS"seconds"MAX-ACCESSread-write
STATUScurrentDESCRIPTION"This object specifies the length of test restart pulses that
are transmitted when coIfXcvrLSCManualRestart is set to
'restartForTest'."::={ coIfXcvrEntry 12}coIfXcvrLSCPulseRepetitionTime OBJECT-TYPESYNTAXUnsigned32(1..300)UNITS"seconds"MAX-ACCESSread-writeSTATUScurrentDESCRIPTION"This object specifies the delay interval between transmissions
of restart pulses, when coIfXcvrLSCRestartMode is set to
'automaticRestart' and coIfXcvrLaserOperStatus indicates
'lscDown'."::={ coIfXcvrEntry 13}-- conformance informationcoIfExtnMIBConformance OBJECTIDENTIFIER
::={ ciscoOpticalIfExtnMIB 3}coIfExtnMIBCompliances OBJECTIDENTIFIER::={ coIfExtnMIBConformance 1}coIfExtnMIBGroups OBJECTIDENTIFIER::={ coIfExtnMIBConformance 2}coIfExtnMIBCompliance MODULE-COMPLIANCESTATUSdeprecatedDESCRIPTION"The compliance statement for the Cisco Optical Interface
Extensions MIB."MODULE-- this moduleMANDATORY-GROUPS{ coIfWavelengthMIBGroup }GROUP coIfTypeExtnMIBGroup
DESCRIPTION"This group should be implemented only by entities
containing interfaces whose type is not defined in the
IANAifType textual convention."
OBJECT coIfDwdmFrequency
MIN-ACCESSread-onlyDESCRIPTION"Write-access applies only when interfaces with tunable
lasers or tunable filters are present.
This object is supported by entities with interfaces that
carry a single wavelength or frequency. This includes
interfaces with coIfTypeExtn value of
'wdmChannel' and 'wavelengthTransport'. This also includes
optoelectronic interfaces that originate and terminate
DWDM wavelengths, including some of the interfaces with
coIfTypeExtn value of 'opticalTransponder'."GROUP coIfDwdmChannelGroupMIBGroup
DESCRIPTION"This group is required for systems supporting interfaces
representing groups of DWDM channels. This includes
interfaces with coIfTypeExtn value of
'wdmChannelGroup'."OBJECT coIfDwdmChannelGroupMinFrequency
MIN-ACCESSread-onlyDESCRIPTION"Write-access applies only when tunable or switchable
filters are present."OBJECT coIfDwdmChannelGroupSpacing
MIN-ACCESSread-onlyDESCRIPTION"Write-access applies only when tunable or switchable
filters are present."OBJECT coIfDwdmChannelGroupBitmapLogic
MIN-ACCESSread-onlyDESCRIPTION"Write-access applies only when tunable or switchable
filters are present."OBJECT coIfDwdmChannelGroupBitmap
MIN-ACCESSread-onlyDESCRIPTION"Write-access applies only when tunable or switchable
filters are present."::={ coIfExtnMIBCompliances 1}coIfExtnMIBCompliance2 MODULE-COMPLIANCESTATUScurrentDESCRIPTION"The compliance statement for the Cisco Optical Interface
Extensions MIB."MODULE-- this moduleMANDATORY-GROUPS{ coIfWavelengthMIBGroup }
GROUP coIfTypeExtnMIBGroup
DESCRIPTION"This group should be implemented only by entities
containing interfaces whose type is not defined in the
IANAifType textual convention."OBJECT coIfDwdmFrequency
MIN-ACCESSread-onlyDESCRIPTION"Write-access applies only when interfaces with tunable
lasers or tunable filters are present.
This object is supported by entities with interfaces that
carry a single wavelength or frequency. This includes
interfaces with coIfTypeExtn value of
'wdmChannel' and 'wavelengthTransport'. This also includes
optoelectronic interfaces that originate and terminate
DWDM wavelengths, including some of the interfaces with
coIfTypeExtn value of 'opticalTransponder'."GROUP coIfDwdmChannelGroupMIBGroup
DESCRIPTION"This group is required for systems supporting interfaces
representing groups of DWDM channels. This includes
interfaces with coIfTypeExtn value of
'wdmChannelGroup'."OBJECT coIfDwdmChannelGroupMinFrequency
MIN-ACCESSread-onlyDESCRIPTION"Write-access applies only when tunable or switchable
filters are present."OBJECT coIfDwdmChannelGroupSpacing
MIN-ACCESSread-onlyDESCRIPTION"Write-access applies only when tunable or switchable
filters are present."OBJECT coIfDwdmChannelGroupBitmapLogic
MIN-ACCESSread-onlyDESCRIPTION"Write-access applies only when tunable or switchable
filters are present."OBJECT coIfDwdmChannelGroupBitmap
MIN-ACCESSread-onlyDESCRIPTION"Write-access applies only when tunable or switchable
filters are present."GROUP coIfXcvrBaseMIBGroup
DESCRIPTION"This group is optional."
OBJECT coIfXcvrLaserAdminStatus
MIN-ACCESSread-onlyDESCRIPTION"Write access is not required."OBJECT coIfXcvrForwardLaserControl
MIN-ACCESSread-onlyDESCRIPTION"Write access is not required."GROUP coIfXcvrTunableLaserMIBGroup
DESCRIPTION"This group is required for systems supporting tunable
lasers."GROUP coIfXcvrLSCMIBGroup
DESCRIPTION"This group is required for systems supporting Laser Safety
Control (LSC) mechanisms such as Automatic Laser Shutdown
(ALS)."OBJECT coIfXcvrLSCProtocol
MIN-ACCESSread-onlyDESCRIPTION"Write access is not required."OBJECT coIfXcvrLSCRestartMode
MIN-ACCESSread-onlyDESCRIPTION
"Write access is not required."OBJECT coIfXcvrLSCManualRestart
MIN-ACCESSread-onlyDESCRIPTION"Write access is not required."OBJECT coIfXcvrLSCPulseLength
MIN-ACCESSread-onlyDESCRIPTION"Write access is not required."OBJECT coIfXcvrLSCTestPulseLength
MIN-ACCESSread-onlyDESCRIPTION"Write access is not required."OBJECT coIfXcvrLSCPulseRepetitionTime
MIN-ACCESSread-onlyDESCRIPTION"Write access is not required."::={ coIfExtnMIBCompliances 2}-- units of conformancecoIfTypeExtnMIBGroup OBJECT-GROUPOBJECTS{
coIfTypeExtn
}
STATUScurrentDESCRIPTION"A collection of managed objects providing extensions to the
interface type information found in the IF-MIB."::={ coIfExtnMIBGroups 1}coIfWavelengthMIBGroup OBJECT-GROUPOBJECTS{
coIfDwdmFrequency
}STATUScurrentDESCRIPTION"A collection of managed objects providing information about
the wavelength or frequency of optical interfaces."::={ coIfExtnMIBGroups 2}coIfDwdmChannelGroupMIBGroup OBJECT-GROUPOBJECTS{
coIfDwdmChannelGroupMinFrequency,
coIfDwdmChannelGroupSpacing,
coIfDwdmChannelGroupBitmapLogic,
coIfDwdmChannelGroupBitmap
}STATUScurrentDESCRIPTION
"A collection of managed objects providing information about
DWDM channel groups."::={ coIfExtnMIBGroups 3}coIfXcvrBaseMIBGroup OBJECT-GROUPOBJECTS{
coIfXcvrLaserAdminStatus,
coIfXcvrLaserOperStatus,
coIfXcvrForwardLaserControl
}STATUScurrentDESCRIPTION"A collection of managed objects for control of transceivers
(lasers and optical receivers) at optoelectronic interfaces."::={ coIfExtnMIBGroups 4}coIfXcvrTunableLaserMIBGroup OBJECT-GROUPOBJECTS{
coIfXcvrMinLaserFrequency,
coIfXcvrLaserFrequencySpacing,
coIfXcvrLaserFrequencyBitmap
}STATUScurrentDESCRIPTION"A collection of managed objects providing information about
tunable lasers."::={ coIfExtnMIBGroups 5}coIfXcvrLSCMIBGroup OBJECT-GROUPOBJECTS{
coIfXcvrLaserSafetyControl,
coIfXcvrLSCProtocol,
coIfXcvrLSCRestartMode,
coIfXcvrLSCManualRestart,
coIfXcvrLSCPulseLength,
coIfXcvrLSCTestPulseLength,
coIfXcvrLSCPulseRepetitionTime
}STATUScurrentDESCRIPTION"A collection of managed objects for Laser Safety Control (LSC)
mechanisms such as Automatic Laser Shutdown (ALS)."::={ coIfExtnMIBGroups 6}END