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Observium_CE/mibs/siaemic/ARICENT-ECFM-MI-MIB

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-- Copyright (C) 2007-2012 Aricent Group . All Rights Reserved
-- $Id: fscfmmi.mib,v 1.18 2013/01/18 11:52:08 siva Exp $
-- ECFM Proprietary MIB Definition
-- This MIB contains tables used to configure a switch running
-- ECFM in addition to the standard MIB.
ARICENT-ECFM-MI-MIB DEFINITIONS ::= BEGIN
IMPORTS
MODULE-IDENTITY, OBJECT-TYPE,
NOTIFICATION-TYPE, enterprises, Integer32,
Unsigned32 FROM SNMPv2-SMI
TEXTUAL-CONVENTION,
TimeInterval,
TimeStamp, RowStatus,
TruthValue, MacAddress,
TDomain, TAddress, DisplayString FROM SNMPv2-TC
InterfaceIndex,
InterfaceIndexOrZero FROM IF-MIB
LldpChassisId,
LldpChassisIdSubtype,
LldpPortId,
LldpPortIdSubtype FROM LLDP-MIB
VlanIdOrNone, VlanId FROM Q-BRIDGE-MIB
;
fsMIEcfmMIB MODULE-IDENTITY
LAST-UPDATED "201209050000Z"
ORGANIZATION "ARICENT COMMUNICATIONS SOFTWARE"
CONTACT-INFO "support@aricent.com"
DESCRIPTION
" ECFM MIB with multiple instance capability"
REVISION "201209050000Z"
DESCRIPTION
" ECFM MIB with multiple instance capability"
::= { enterprises futuresoftware (2076) 160 }
fsMIEcfmNotifications OBJECT IDENTIFIER ::= { fsMIEcfmMIB 0 }
fsMIEcfmMIBObjects OBJECT IDENTIFIER ::= { fsMIEcfmMIB 1 }
-- ----------------------------------------------------------------------------
-- Groups in the ECFM MIB Module
-- ----------------------------------------------------------------------------
fsMIEcfmContext OBJECT IDENTIFIER ::= { fsMIEcfmMIBObjects 0 }
fsMIEcfmSystem OBJECT IDENTIFIER ::= { fsMIEcfmMIBObjects 1 }
-- ----------------------------------------------------------------------------
-- Textual conventions
-- ----------------------------------------------------------------------------
FsMIEcfmOuiType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"24-bit Organizationally Unique Identifier. Information on
OUIs can be found in IEEE 802-2001 [802-2001] Clause 9."
SYNTAX OCTET STRING(SIZE(3))
FsMIEcfmMaintDomainNameType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"A value that represents a type (and thereby the format)
of a FsMIEcfmMaintDomainName. The value can be one of
the following:
ieeeReserved(0) Reserved for definition by IEEE 802.1
recommend to not use zero unless
absolutely needed.
none(1) No format specified, usually because
there is not (yet) a Maintenance
Domain Name. In this case, a zero
length OCTET STRING for the Domain
Name field is acceptable.
dnsLikeName(2) Domain Name like string, globally unique
text string derived from a DNS name.
macAddrAndUint(3) MAC address + 2-octet (unsigned) integer.
charString(4) RFC2579 DisplayString, except that the
character codes 0-31 (decimal) are not
used.
ieeeReserved(xx) Reserved for definition by IEEE 802.1
xx values can be [5..31] and [64..255]
ituReserved(xx) Reserved for definition by ITU-T Y.1731
xx values range from [32..63]
To support future extensions, the FsMIEcfmMaintDomainNameType
textual convention SHOULD NOT be sub-typed in object type
definitions. It MAY be sub-typed in compliance statements in
order to require only a subset of these address types for a
compliant implementation.
Implementations must ensure that FsMIEcfmMaintDomainNameType
objects and any dependent objects (e.g.,
FsMIEcfmMaintDomainName objects) are consistent. An
inconsistentValue error must be generated if an attempt to
change an FsMIEcfmMaintDomainNameType object would, for
example, lead to an undefined FsMIEcfmMaintDomainName value.
In particular,
FsMIEcfmMaintDomainNameType/FsMIEcfmMaintDomainName pairs
must be changed together if the nameType changes.
"
REFERENCE
"802.1ag clause 21.6.5, Table 21-19"
SYNTAX INTEGER {
none (1),
dnsLikeName (2),
macAddressAndUint (3),
charString (4)
}
FsMIEcfmMaintDomainName ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Denotes a generic Maintenance Domain Name.
A FsMIEcfmMaintDomainName value is always interpreted within
the context of a FsMIEcfmMaintDomainNameType value. Every
usage of the FsMIEcfmMaintDomainName textual convention is
required to specify the FsMIEcfmMaintDomainNameType object
that provides the context. It is suggested that the
FsMIEcfmMaintDomainNameType object be logically registered
before the object(s) that use the FsMIEcfmMaintDomainName
textual convention, if they appear in the same logical row.
The value of a FsMIEcfmMaintDomainName object must always
be consistent with the value of the associated
FsMIEcfmMaintDomainNameType object. Attempts to set
an FsMIEcfmMaintDomainName object to a value inconsistent
with the associated FsMIEcfmMaintDomainNameType must fail
with an inconsistentValue error.
When this textual convention is used as the syntax of an
index object, there may be issues with the limit of 128
sub-identifiers specified in SMIv2, IETF STD 58. In this
case, the object definition MUST include a 'SIZE' clause
to limit the number of potential instance sub-identifiers;
otherwise the applicable constraints MUST be stated in
the appropriate conceptual row DESCRIPTION clauses, or
in the surrounding documentation if there is no single
DESCRIPTION clause that is appropriate.
A value of none(1) in the associated
FsMIEcfmMaintDomainNameType object means that no Maintenance
Domain name is present, and the contents of the
FsMIEcfmMaintDomainName object are meaningless.
See the DESCRIPTION of the FsMIEcfmMaintAssocNameType
TEXTUAL-CONVENTION for a discussion of the length limits on
the Maintenance Domain name and Maintenance Association name.
"
REFERENCE
"802.1ag clause 21.6.5"
SYNTAX OCTET STRING (SIZE(1..43))
FsMIEcfmMaintAssocNameType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"A value that represents a type (and thereby the format)
of a FsMIEcfmMaintAssocName. The value can be one of
the following:
ieeeReserved(0) Reserved for definition by IEEE 802.1
recommend to not use zero unless
absolutely needed.
primaryVid(1) Primary VLAN ID.
12 bits represented in a 2-octet integer:
- 4 least significant bits of the first
byte contains the 4 most significant
bits of the 12 bits primary VID
- second byte contains the 8 least
significant bits of the primary VID
0 1 2 3 4 5 6 7 8
+-+-+-+-+-+-+-+-+
|0 0 0 0| (MSB) |
+-+-+-+-+-+-+-+-+
| VID LSB |
+-+-+-+-+-+-+-+-+
charString(2) RFC2579 DisplayString, except that the
character codes 0-31 (decimal) are not
used. (1..45) octets
unsignedInt16 (3) 2-octet integer/big endian
rfc2865VpnId(4) RFC 2685 VPN ID
3 octet VPN authority Organizationally
Unique Identifier followed by 4 octet VPN
index identifying VPN according to the OUI:
0 1 2 3 4 5 6 7 8
+-+-+-+-+-+-+-+-+
| VPN OUI (MSB) |
+-+-+-+-+-+-+-+-+
| VPN OUI |
+-+-+-+-+-+-+-+-+
| VPN OUI (LSB) |
+-+-+-+-+-+-+-+-+
|VPN Index (MSB)|
+-+-+-+-+-+-+-+-+
| VPN Index |
+-+-+-+-+-+-+-+-+
| VPN Index |
+-+-+-+-+-+-+-+-+
|VPN Index (LSB)|
+-+-+-+-+-+-+-+-+
ieeeReserved(xx) Reserved for definition by IEEE 802.1
xx values can be [5..31] and [64..255]
ituReserved(xx) Reserved for definition by ITU-T Y.1731
xx values range from [32..63]
To support future extensions, the FsMIEcfmMaintAssocNameType
textual convention SHOULD NOT be sub-typed in object type
definitions. It MAY be sub-typed in compliance statements in
order to require only a subset of these address types for a
compliant implementation.
Implementations must ensure that FsMIEcfmMaintAssocNameType
objects and any dependent objects (e.g.,
FsMIEcfmMaintAssocName objects) are consistent. An
inconsistentValue error must be generated if an attempt to
change an FsMIEcfmMaintAssocNameType object would, for
example, lead to an undefined FsMIEcfmMaintAssocName value.
In particular,
FsMIEcfmMaintAssocNameType/FsMIEcfmMaintAssocName pairs
must be changed together if the nameType changes.
The Maintenance Domain name and Maintenance Association name,
when put together into the CCM PDU, MUST total 48 octets or
less. If the FsMIEcfmMaintDomainNameType object contains
none(1), then the FsMIEcfmMaintAssocName object MUST be
45 octets or less in length. Otherwise, the length of
the FsMIEcfmMaintDomainName object plus the length of the
FsMIEcfmMaintAssocName object, added together, MUST total
less than or equal to 44 octets.
"
REFERENCE
"802.1ag clause 21.6.5.4, Table 21-20"
SYNTAX INTEGER {
primaryVid (1),
charString (2),
unsignedInt16 (3),
rfc2865VpnId (4)
}
FsMIEcfmMaintAssocName ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Denotes a generic Maintenance Association Name. It is the
part of the Maintenance Association Identifier which is
unique within the Maintenance Domain Name and is appended
to the Maintenance Domain Name to form the Maintenance
Association Identifier (MAID).
A FsMIEcfmMaintAssocName value is always interpreted within
the context of a FsMIEcfmMaintAssocNameType value. Every
usage of the FsMIEcfmMaintAssocName textual convention is
required to specify the FsMIEcfmMaintAssocNameType object
that provides the context. It is suggested that the
FsMIEcfmMaintAssocNameType object be logically registered
before the object(s) that use the FsMIEcfmMaintAssocName
textual convention, if they appear in the same logical row.
The value of a FsMIEcfmMaintAssocName object must
always be consistent with the value of the associated
FsMIEcfmMaintAssocNameType object. Attempts to set
an FsMIEcfmMaintAssocName object to a value inconsistent
with the associated FsMIEcfmMaintAssocNameType must fail
with an inconsistentValue error.
When this textual convention is used as the syntax of an
index object, there may be issues with the limit of 128
sub-identifiers specified in SMIv2, IETF STD 58. In this
case, the object definition MUST include a 'SIZE' clause
to limit the number of potential instance sub-identifiers;
otherwise the applicable constraints MUST be stated in
the appropriate conceptual row DESCRIPTION clauses, or
in the surrounding documentation if there is no single
DESCRIPTION clause that is appropriate.
"
REFERENCE
"802.1ag clauses 21.6.5.4, 21.6.5.5, 21.6.5.6"
SYNTAX OCTET STRING (SIZE(1..45))
FsMIEcfmMDLevel ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"Integer identifying the Maintenance Domain Level (MD Level).
Higher numbers correspond to higher Maintenance Domains,
those with the greatest physical reach, with the highest
values for customers' CFM PDUs. Lower numbers correspond
to lower Maintenance Domains, those with more limited
physical reach, with the lowest values for CFM PDUs
protecting single bridges or physical links.
"
REFERENCE
"802.1ag clauses 18.3, 21.4.1"
SYNTAX Integer32 (0..7)
FsMIEcfmMDLevelOrNone ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"Integer identifying the Maintenance Domain Level (MD Level).
Higher numbers correspond to higher Maintenance Domains,
those with the greatest physical reach, with the highest
values for customers' CFM packets. Lower numbers correspond
to lower Maintenance Domains, those with more limited
physical reach, with the lowest values for CFM PDUs
protecting single bridges or physical links.
The value (-1) is reserved to indicate that no MA Level has
been assigned.
"
REFERENCE
"802.1ag clauses 18.3, 12.14.3.1.3:c"
SYNTAX Integer32 (-1 | 0..7)
FsMIEcfmMpDirection ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Indicates the direction in which the Maintenance
association (MEP or MIP) faces on the bridge port:
down(1) Sends Continuity Check Messages away from the
MAC Relay Entity.
up(2) Sends Continuity Check Messages towards the
MAC Relay Entity.
"
REFERENCE
"802.1ag clauses 12.14.6.3.2:c"
SYNTAX INTEGER {
down (1),
up (2)
}
FsMIEcfmPortStatus ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"An enumerated value from he Port Status TLV from the last CCM
received from the last MEP. It indicates the ability of the
Bridge Port on which the transmitting MEP resides to pass
ordinary data, regardless of the status of the MAC
(Table 21-10).
psNoPortStateTLV(0) Indicates either that no CCM has been
received or that no port status TLV was
present in the last CCM received.
psBlocked(1) Ordinary data cannot pass freely through
the port on which the remote MEP resides.
Value of enableRmepDefect is equal to
false.
psUp(2): Ordinary data can pass freely through
the port on which the remote MEP resides.
Value of enableRmepDefect is equal to
true.
NOTE: A 0 value is used for psNoPortStateTLV, so that
additional code points can be added in a manner
consistent with the FsMIEcfmInterfaceStatus textual
convention.
"
REFERENCE
"802.1ag clause 12.14.7.6.3:f, 20.19.3 and 21.5.4"
SYNTAX INTEGER {
psNoPortStateTLV (0),
psBlocked (1),
psUp (2)
}
FsMIEcfmInterfaceStatus ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"An enumerated value from the Interface Status TLV from the
last CCM received from the last MEP. It indicates the status
of the Interface within which the MEP transmitting the CCM
is configured, or the next lower Interface in the Interface
Stack, if the MEP is not configured within an Interface.
isNoInterfaceStatusTLV(0) Indicates either that no CCM has been
received or that no interface status TLV
was present in the last CCM received.
isUp(1) The interface is ready to pass packets.
isDown(2) The interface cannot pass packets
isTesting(3) The interface is in some test mode.
isUnknown(4) The interface status cannot be determined
for some reason.
isDormant(5) The interface is not in a state to pass
packets but is in a pending state, waiting
for some external event.
isNotPresent(6) Some component of the interface is missing
isLowerLayerDown(7) The interface is down due to state of the
lower layer interfaces
NOTE: A 0 value is used for isNoInterfaceStatusTLV, so that
these code points can be kept consistent with new code
points added to ifOperStatus in the IF-MIB.
"
REFERENCE
"802.1ag clause 12.14.7.6.3:g, 20.19.4 and 21.5.5"
SYNTAX INTEGER {
isNoInterfaceStatusTLV (0),
isUp (1),
isDown (2),
isTesting (3),
isUnknown (4),
isDormant (5),
isNotPresent (6),
isLowerLayerDown (7)
}
FsMIEcfmHighestDefectPri ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"An enumerated value, equal to the contents of the variable
highestDefect (20.33.9 and Table 20-1), indicating the
highest-priority defect that has been present since the MEP
Fault Notification Generator State Machine was last in the
FNG_RESET state, either:
none(0) no defects since FNG_RESET
defRDICCM(1) DefRDICCM
defMACstatus(2) DefMACstatus
defRemoteCCM(3) DefRemoteCCM
defErrorCCM(4) DefErrorCCM
defXconCCM(5) DefXconCCM
The value 0 is used for no defects so that additional higher
priority values can be added, if needed, at a later time, and
so that these values correspond with those in
FsMIEcfmLowestAlarmPri.
"
REFERENCE
"802.1ag clause 20.1.2, 12.14.7.7.2:c and 20.33.9"
SYNTAX INTEGER {
none (0),
defRDICCM (1),
defMACstatus (2),
defRemoteCCM (3),
defErrorCCM (4),
defXconCCM (5)
}
FsMIEcfmLowestAlarmPri ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"An integer value specifying the lowest priority defect
that is allowed to generate a Fault Alarm (20.9.5), either:
allDef(1) DefRDICCM, DefMACstatus, DefRemoteCCM,
DefErrorCCM, and DefXconCCM;
macRemErrXcon(2) Only DefMACstatus, DefRemoteCCM,
DefErrorCCM, and DefXconCCM (default);
remErrXcon(3) Only DefRemoteCCM, DefErrorCCM,
and DefXconCCM;
errXcon(4) Only DefErrorCCM and DefXconCCM;
xcon(5) Only DefXconCCM; or
noXcon(6) No defects DefXcon or lower are to be
reported;
"
REFERENCE
"802.1ag clause 12.14.7.1.3:k and 20.9.5"
SYNTAX INTEGER {
allDef (1),
macRemErrXcon (2),
remErrXcon (3),
errXcon (4),
xcon (5),
noXcon (6)
}
FsMIEcfmMepId ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"Maintenance association End Point Identifier (MEPID): A small
integer, unique over a given Maintenance Association,
identifying a specific MEP.
"
REFERENCE
"802.1ag clauses 3.19 and 19.2.1"
SYNTAX Unsigned32 (1..8191)
FsMIEcfmMepIdOrZero ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"Maintenance association End Point Identifier (MEPID): A small
integer, unique over a given Maintenance Association,
identifying a specific MEP.
The special value 0 is allowed to indicate special cases, for
example that no MEPID is configured.
Whenever an object is defined with this SYNTAX, then the
DESCRIPTION clause of such an object MUST specify what the
special value of 0 means.
"
REFERENCE
"802.1ag clause 19.2.1"
SYNTAX Unsigned32 (0 | 1..8191)
FsMIEcfmMhfCreation ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Indicates if the Management Entity can create MHFs.
The valid values are:
defMHFnone(1) No MHFs can be created for this VID.
defMHFdefault(2) MHFs can be created on this VID on any
Bridge port through which this VID can
pass.
defMHFexplicit(3) MHFs can be created for this VID only on
Bridge ports through which this VID can
pass, and only if a MEP is created at some
lower MD Level.
defMHFdefer(4) The creation of MHFs is determined by the
corresponding Maintenance Domain variable
(dot1agCfmMaMhfCreation).
"
REFERENCE
"802.1ag clause 12.14.5.1.3:c and 22.2.3"
SYNTAX INTEGER {
defMHFnone (1),
defMHFdefault (2),
defMHFexplicit (3),
defMHFdefer (4)
}
FsMIEcfmIdPermission ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Indicates what, if anything, is to be included in the Sender
ID TLV transmitted in CCMs, LBMs, LTMs, and LTRs. The valid
values are:
sendIdNone(1) The Sender ID TLV is not to be sent.
sendIdChassis(2) The Chassis ID Length, Chassis ID
Subtype, and Chassis ID fields of the
Sender ID TLV are to be sent.
sendIdManage(3) The Management Address Length and
Management Address of the Sender ID TLV
are to be sent.
sendIdChassisManage(4) The Chassis ID Length, Chassis ID
Subtype, Chassis ID, Management Address
Length and Management Address fields are
all to be sent.
sendIdDefer(5) The contents of the Sender ID TLV are
determined by the corresponding
Maintenance Domain variable
(dot1agCfmMaIdPermission).
"
REFERENCE
"802.1ag clause 12.14.6.1.3:d and 21.5.3"
SYNTAX INTEGER {
sendIdNone (1),
sendIdChassis (2),
sendIdManage (3),
sendIdChassisManage (4),
sendIdDefer (5)
}
FsMIEcfmCcmInterval ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Indicates the interval at which CCMs are sent by a MEP.
The possible values are:
intervalInvalid(0) No CCMs are sent (disabled).
interval300Hz(1) CCMs are sent every 3 1/3 milliseconds
(300Hz).
interval10ms(2) CCMs are sent every 10 milliseconds.
interval100ms(3) CCMs are sent every 100 milliseconds.
interval1s(4) CCMs are sent every 1 second.
interval10s(5) CCMs are sent every 10 seconds.
interval1min(6) CCMs are sent every minute.
interval10min(7) CCMs are sent every 10 minutes.
Note: enumerations start at zero to match the 'CCM Interval
field' protocol field.
"
REFERENCE
"802.1ag clauses 12.14.6.1.3:e, 20.8.1 and 21.6.1.3"
SYNTAX INTEGER {
intervalInvalid (0),
interval300Hz (1),
interval10ms (2),
interval100ms (3),
interval1s (4),
interval10s (5),
interval1min (6),
interval10min (7)
}
FsMIEcfmFngState ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Indicates the diferent states of the MEP Fault Notification
Generator State Machine.
fngReset(1) No defect has been present since the
dot1agCfmMepFngResetTime timer
expired, or since the state machine
was last reset.
fngDefect(2) A defect is present, but not for a
long enough time to be reported
(dot1agCfmMepFngAlarmTime).
fngReportDefect(3) A momentary state during which the
defect is reported by sending a
dot1agCfmFaultAlarm notification,
if that action is enabled.
fngDefectReported(4) A defect is present, and some defect
has been reported.
fngDefectClearing(5) No defect is present, but the
dot1agCfmMepFngResetTime timer has
not yet expired.
"
REFERENCE
"802.1ag clause 12.14.7.1.3:f and 20.35"
SYNTAX INTEGER {
fngReset (1),
fngDefect (2),
fngReportDefect (3),
fngDefectReported (4),
fngDefectClearing (5)
}
FsMIEcfmRelayActionFieldValue ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Possible values the Relay action field can take."
REFERENCE
"802.1ag clauses 12.14.7.5.3:g, 20.36.2.5, 21.9.5, and
Table 21-27"
SYNTAX INTEGER {
rlyHit (1),
rlyFdb (2),
rlyMpdb (3)
}
FsMIEcfmIngressActionFieldValue ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Possible values returned in the ingress action field."
REFERENCE
"802.1ag clauses 12.14.7.5.3:g, 20.36.2.6, 21.9.8.1, and
Table 21-30
"
SYNTAX INTEGER {
ingOk (1),
ingDown (2),
ingBlocked (3),
ingVid (4)
}
FsMIEcfmEgressActionFieldValue ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Possible values returned in the egress action field"
REFERENCE
"802.1ag clauses 12.14.7.5.3:o, 20.36.2.10, 21.9.9.1, and
Table 21-32"
SYNTAX INTEGER {
egrOK (1),
egrDown (2),
egrBlocked (3),
egrVid (4)
}
FsMIEcfmRemoteMepState ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Operational state of the remote MEP state machine. This
state machine monitors the reception of valid CCMs from a
remote MEP with a specific MEPID. It uses a timer that
expires in 3.5 times the length of time indicated by the
dot1agCfmMaCcmInterval object.
rMepIdle(1) Momentary state during reset.
rMepStart(2) The timer has not expired since the
state machine was reset, and no valid
CCM has yet been received.
rMepFailed(3) The timer has expired, both since the
state machine was reset, and since a
valid CCM was received.
rMepOk(4) The timer has not expired since a
valid CCM was received.
"
REFERENCE
"802.1ag clauses 12.14.7.6.3:b, 20.22"
SYNTAX INTEGER {
rMepIdle (1),
rMepStart (2),
rMepFailed (3),
rMepOk (4)
}
FsMIEcfmIndexIntegerNextFree ::= TEXTUAL-CONVENTION
DISPLAY-HINT "d"
STATUS current
DESCRIPTION
"An integer which may be used as a new Index in a table.
The special value of 0 indicates that no more new entries can
be created in the relevant table.
When a MIB is used for configuration, an object with this
SYNTAX always contains a legal value (if non-zero) for an
index that is not currently used in the relevant table. The
Command Generator (Network Management Application) reads this
variable and uses the (non-zero) value read when creating a
new row with an SNMP SET. When the SET is performed, the
Command Responder (agent) must determine whether the value is
indeed still unused; Two Network Management Applications may
attempt to create a row (configuration entry) simultaneously
and use the same value. If it is currently unused, the SET
succeeds and the Command Responder (agent) changes the value
of this object, according to an implementation-specific
algorithm. If the value is in use, however, the SET fails.
The Network Management Application must then re-read this
variable to obtain a new usable value.
An OBJECT-TYPE definition using this SYNTAX MUST specify the
relevant table for which the object is providing this
functionality.
"
SYNTAX Unsigned32 (0..4294967295)
FsMIEcfmMepDefects ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"A MEP can detect and report a number of defects, and multiple
defects can be present at the same time. These defects are:
bDefRDICCM(1) A remote MEP is reported the RDI bit in its
last CCM.
bDefMACstatus(2) Either some remote MEP is reporting its
Interface Status TLV as not isUp, or all remote
MEPs are reporting a Port Status TLV that
contains some value other than psUp.
bDefRemoteCCM(3) The MEP is not receiving valid CCMs from at
least one of the remote MEPs.
bDefErrorCCM(4) The MEP has received at least one invalid CCM
whose CCM Interval has not yet timed out.
bDefXconCCM(5) The MEP has received at least one CCM from
either another MAID or a lower MD Level whose
CCM Interval has not yet timed out.
"
REFERENCE
"802.1ag clauses 12.14.7.1.3:o, 12.14.7.1.3:p, 12.14.7.1.3:q,
12.14.7.1.3:r, and 12.14.7.1.3:s."
SYNTAX BITS {
bUnUsedBit(0),
bDefRDICCM(1),
bDefMACstatus(2),
bDefRemoteCCM(3),
bDefErrorCCM(4),
bDefXconCCM(5)
}
FsMIEcfmConfigErrors ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"While making the MIP creation evaluation described in 802.1ag
clause 22.2.3, the management entity can encounter errors in
the configuration. These are possible errors that can be
encountered:
CFMleak(0) MA x is associated with a specific VID list,
one or more of the VIDs in MA x can pass through
the Bridge Port, no Down MEP is configured on
any Bridge Port for MA x, and some other MA y,
at a higher MD Level than MA x, and associated
with at least one of the VID(s) also in MA x,
does have a MEP configured on the Bridge Port.
conflictingVids(1) MA x is associated with a specific VID
list, an Up MEP is configured on MA x on the
Bridge Port, and some other MA y, associated
with at least one of the VID(s) also in MA x,
also has an Up MEP configured on some Bridge
Port.
ExcessiveLevels(2) The number of different MD Levels at
which MIPs are to be created on this port
exceeds the Bridge's capabilities (see
subclause 22.3).
OverlappedLevels(3) A MEP is created for one VID at one MD
Level, but a MEP is configured on another
VID at that MD Level or higher, exceeding
the Bridge's capabilities.
"
REFERENCE
"802.1ag clause 12.14.4.1.3:b and clauses 22.2.3 and 22.2.4"
SYNTAX BITS {
cfmLeak(0),
conflictingVids(1),
excessiveLevels(2),
overlappedLevels(3)
}
FsMIEcfmTransmitStatus ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"An enumerated value indicates whether LBM or LTM trasmission
can be initiated.
ready(0) Indicates LTM or LBM transmission
can be initiated.
notReady(1) Indicates LTM or LBM transmission
can not be initiated.
transmit(2) To initiate the transmission of LBM or LTM.
NOTE: A 2 value is used to initiate LBM or LTM transmission.
"
SYNTAX INTEGER {
ready (0),
notReady (1),
transmit (2)
}
FsMIEcfmSetTraps ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION
"Multiple traps can be enabled at the same time.
"
SYNTAX BITS {
trapUnUsedBit(0),
trapRDICCM(1),
trapMACstatus(2),
trapRemoteCCM(3),
trapErrorCCM(4),
trapXconCCM(5)
}
-- ----------------------------------------------------------------------------
-- The ECFM System Group
-- ----------------------------------------------------------------------------
fsMIEcfmGlobalTrace OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enable/Disable the global trace in ECFM."
::= { fsMIEcfmSystem 1 }
fsMIEcfmOui OBJECT-TYPE
SYNTAX FsMIEcfmOuiType
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Organizational Unique Identifier of the local ECFM
Client. This will be sent in the Information CFMPDU in
Local Information TLV.
Default for this object will be the first three bytes
of system MAC address."
::= { fsMIEcfmSystem 2 }
-- ----------------------------------------------------------------------------
-- fsMIEcfmContextTable - Start
-- ----------------------------------------------------------------------------
fsMIEcfmContextTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmContextEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"List of per virtual context ECFM Module parameters."
REFERENCE
"802.1ag clauses 12.14.2"
::= { fsMIEcfmContext 1 }
fsMIEcfmContextEntry OBJECT-TYPE
SYNTAX FsMIEcfmContextEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Per virtual context ECFM Module parameters."
INDEX { fsMIEcfmContextId }
::= { fsMIEcfmContextTable 1 }
FsMIEcfmContextEntry ::= SEQUENCE {
fsMIEcfmContextId Unsigned32,
fsMIEcfmSystemControl INTEGER,
fsMIEcfmModuleStatus INTEGER,
fsMIEcfmDefaultMdDefLevel FsMIEcfmMDLevel,
fsMIEcfmDefaultMdDefMhfCreation FsMIEcfmMhfCreation,
fsMIEcfmDefaultMdDefIdPermission FsMIEcfmIdPermission,
fsMIEcfmMdTableNextIndex FsMIEcfmIndexIntegerNextFree,
fsMIEcfmLtrCacheStatus INTEGER,
fsMIEcfmLtrCacheClear TruthValue,
fsMIEcfmLtrCacheHoldTime Integer32,
fsMIEcfmLtrCacheSize Integer32,
fsMIEcfmMipCcmDbStatus INTEGER,
fsMIEcfmMipCcmDbClear TruthValue,
fsMIEcfmMipCcmDbSize Integer32,
fsMIEcfmMipCcmDbHoldTime Integer32,
fsMIEcfmMemoryFailureCount Unsigned32,
fsMIEcfmBufferFailureCount Unsigned32,
fsMIEcfmUpCount Unsigned32,
fsMIEcfmDownCount Unsigned32,
fsMIEcfmNoDftCount Unsigned32,
fsMIEcfmRdiDftCount Unsigned32,
fsMIEcfmMacStatusDftCount Unsigned32,
fsMIEcfmRemoteCcmDftCount Unsigned32,
fsMIEcfmErrorCcmDftCount Unsigned32,
fsMIEcfmXconDftCount Unsigned32,
fsMIEcfmCrosscheckDelay Integer32,
fsMIEcfmMipDynamicEvaluationStatus TruthValue,
fsMIEcfmContextName DisplayString,
fsMIEcfmTrapControl FsMIEcfmSetTraps,
fsMIEcfmTrapType INTEGER,
fsMIEcfmTraceOption Integer32,
fsMIEcfmGlobalCcmOffload INTEGER
}
fsMIEcfmContextId OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Identifies the Context."
::= { fsMIEcfmContextEntry 1 }
fsMIEcfmSystemControl OBJECT-TYPE
SYNTAX INTEGER { start(1), shutdown(2) }
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The administrative system control status of Ethernet
CFM module. The value 'start' (1) indicates that all
resources required by ECFM module should be allocated
and ECFM should be supported in the device on all ports.
The value 'shutdown' (2) indicates that ECFM should be
shutdown in the device on all ports and all allocated
memory must be released."
::= { fsMIEcfmContextEntry 2 }
fsMIEcfmModuleStatus OBJECT-TYPE
SYNTAX INTEGER { enabled(1), disabled(2) }
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The administrative module status of Ethernet CFM module.
This enables or disables ECFM in the system. A value of
'enabled' (1) indicates that ECFM is enabled in the device.
A value of 'disabled' (2) indicates that ECFM is disabled
in the device ."
DEFVAL { disabled }
::= { fsMIEcfmContextEntry 3 }
fsMIEcfmDefaultMdDefLevel OBJECT-TYPE
SYNTAX FsMIEcfmMDLevel
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A value indicating the MD Level at which MHFs are to be
created, and Sender ID TLV transmission by those MHFs is to
be controlled, for each fsMIEcfmDefaultMdEntry whose
fsMIEcfmDefaultMdLevel object contains the value -1.
After this initialization, this object needs to be persistent
upon reboot or restart of a device.
"
REFERENCE
"802.1ag clause 12.14.3.1.3:c, 12.14.3.2.2:b"
DEFVAL {0}
::= { fsMIEcfmContextEntry 4 }
fsMIEcfmDefaultMdDefMhfCreation OBJECT-TYPE
SYNTAX FsMIEcfmMhfCreation
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A value indicating if the Management entity can create MHFs
(MIP Half Function) for the VID, for each
fsMIEcfmDefaultMdEntry whose fsMIEcfmDefaultMdMhfCreation
object contains the value defMHFdefer. Since, in this
variable, there is no encompassing Maintenance Domain, the
value defMHFdefer takes the meaning of defMHFnone.
After this initialization, this object needs to be persistent
upon reboot or restart of a device.
"
REFERENCE
"802.1ag clause 12.14.3.1.3:d"
DEFVAL {defMHFnone}
::= { fsMIEcfmContextEntry 5 }
fsMIEcfmDefaultMdDefIdPermission OBJECT-TYPE
SYNTAX FsMIEcfmIdPermission
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enumerated value indicating what, if anything, is to be
included in the Sender ID TLV (21.5.3) transmitted by MHFs
created by the Default Maintenance Domain, for each
fsMIEcfmDefaultMdEntry whose fsMIEcfmDefaultMdIdPermission
object contains the value sendIdDefer. Since, in this
variable, there is no encompassing Maintenance Domain, the
value sendIdDefer takes the meaning of sendIdChassisManage.
After this initialization, this object needs to be persistent
upon reboot or restart of a device.
"
REFERENCE
"802.1ag clause 12.14.3.1.3:e"
DEFVAL { sendIdNone }
::= { fsMIEcfmContextEntry 6 }
fsMIEcfmMdTableNextIndex OBJECT-TYPE
SYNTAX FsMIEcfmIndexIntegerNextFree
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This object contains an unused value for fsMIEcfmMdIndex in
the fsMIEcfmMdTable, or a zero to indicate that none exist.
"
::= { fsMIEcfmContextEntry 7 }
fsMIEcfmLtrCacheStatus OBJECT-TYPE
SYNTAX INTEGER { enabled(1), disabled(2) }
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The administrative status of LTR cache.
This enables or disables caching of CFM data learned through trace
route messages"
DEFVAL { disabled }
::= { fsMIEcfmContextEntry 8 }
fsMIEcfmLtrCacheClear OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates if the contents of traceroute cache are to be removed.
If set to true then entries in traceroute cache are removed,
and it sets to false."
DEFVAL { false }
::= { fsMIEcfmContextEntry 9 }
fsMIEcfmLtrCacheHoldTime OBJECT-TYPE
SYNTAX Integer32 (1..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the time in minutes for which CFM traceroute cache entries
are retained"
DEFVAL { 100 }
::= { fsMIEcfmContextEntry 10 }
fsMIEcfmLtrCacheSize OBJECT-TYPE
SYNTAX Integer32 (1..4095)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the maximum no of entries for the CFM traceroute cache table,
only if fsMIEcfmLtrCacheStatus is enabled"
DEFVAL { 100 }
::= { fsMIEcfmContextEntry 11 }
fsMIEcfmMipCcmDbStatus OBJECT-TYPE
SYNTAX INTEGER { enabled(1), disabled(2) }
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The administrative status of MIP CCM DB .
This enables or disables caching of data learned through CCM
messages"
DEFVAL { disabled }
::= { fsMIEcfmContextEntry 12 }
fsMIEcfmMipCcmDbClear OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates if the contents of MIP CCM DB are to be removed.
If set to true then entries in traceroute cache are removed,
and it sets to false."
DEFVAL { false }
::= { fsMIEcfmContextEntry 13 }
fsMIEcfmMipCcmDbSize OBJECT-TYPE
SYNTAX Integer32 (1000..10000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the maximum no of entries for the MIP CCM DB table,
only if fsMIEcfmMipDbStatus is enabled"
DEFVAL { 1000 }
::= { fsMIEcfmContextEntry 14 }
fsMIEcfmMipCcmDbHoldTime OBJECT-TYPE
SYNTAX Integer32 (24..48)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the time in hours for which MIP CCM DB table entries
are retained"
DEFVAL { 24 }
::= { fsMIEcfmContextEntry 15 }
fsMIEcfmMemoryFailureCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of memory allocation failures"
::= { fsMIEcfmContextEntry 16 }
fsMIEcfmBufferFailureCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of buffer allocation failures"
::= { fsMIEcfmContextEntry 17 }
fsMIEcfmUpCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of times module was enabled"
::= { fsMIEcfmContextEntry 18 }
fsMIEcfmDownCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of times module was disabled"
::= { fsMIEcfmContextEntry 19 }
fsMIEcfmNoDftCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of times no defect occured in any MEP"
::= { fsMIEcfmContextEntry 20 }
fsMIEcfmRdiDftCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of times RDI defect occured in any MEP"
::= { fsMIEcfmContextEntry 21 }
fsMIEcfmMacStatusDftCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of times MAC Status defect occured in any MEP"
::= { fsMIEcfmContextEntry 22 }
fsMIEcfmRemoteCcmDftCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of times Remote CCM defect occured in any MEP"
::= { fsMIEcfmContextEntry 23 }
fsMIEcfmErrorCcmDftCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of times Error CCM defect occured in any MEP"
::= { fsMIEcfmContextEntry 24 }
fsMIEcfmXconDftCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of times Xconn defect occured in any MEP
filtering rules"
::= { fsMIEcfmContextEntry 25 }
fsMIEcfmCrosscheckDelay OBJECT-TYPE
SYNTAX Integer32 (0 | 3..100)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"To configure the number of CCMs to be missed, for which a device waits for the
remote maintenance end points(MEPs) to come up. If the user has not configured then deault value for mib object wil be taken"
DEFVAL {0}
::= { fsMIEcfmContextEntry 26 }
fsMIEcfmMipDynamicEvaluationStatus OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This enables or disables the implicit evaluation and creation of MIPs.
is purged."
::= { fsMIEcfmContextEntry 27 }
fsMIEcfmContextName OBJECT-TYPE
SYNTAX DisplayString (SIZE (1..32))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This object is used to identity the context-name."
::= { fsMIEcfmContextEntry 28 }
fsMIEcfmTrapControl OBJECT-TYPE
SYNTAX FsMIEcfmSetTraps
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This object is used to enable or disable ECFM
traps.A string of 8 bits,corresponding to the administrative
status of Traps .The second bit corresponds to bit 1 of Traps
(Trap for RDI CCM defect),the third bit corresponds to bit 2
(Trap for MAC status defect), the fourth bit corresponds to bit 3
(Trap for Remote CCM defect),the fifth bit corresponds to bit 4
(Trap for Errorred CCM defect), the sixth bit corresponds to bit 5
(Trap for cross connected defect)."
::= { fsMIEcfmContextEntry 29 }
fsMIEcfmTrapType OBJECT-TYPE
SYNTAX INTEGER {
none(0),
trapRDICCM(2),
trapMACStatus(3),
trapRemoteCCM(4),
trapErroredCCM(5),
trapXConnCCM(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
" Trap types:
trapRDICCM : Generated when at least one of the Remote MEP
state machines is receiving valid CCMs from its remote MEP that have the RDI
bit set.
trapMACStatus : Generated when one or more of the remote MEPs is
reporting a failure in its Port Status TLV or Interface Status TLV.
trapRemoteCCM : Generated when that at least one of the
Remote MEP state machines is not receiving valid CCMs from its remote
MEP.
trapErroredCCM : Generated when one or more invalid CCMs
has been received and that 3.5 times that CCM.s transmission interval has
not yet expired.
trapXConnCCM : Generated when one or more crossconnect CCMs
has been received and that 3.5 times of at least one of those CCMs.
"
::= { fsMIEcfmContextEntry 30 }
fsMIEcfmTraceOption OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This object is used to enable trace statements in
Ethernat CFM module.
A four byte integer is used for enabling the trace level.
Each bit in the four byte integer represents a particular
trace level.
The mapping between the bit positions & the trace level is
as follows:
Bit 0 - Init and Shutdown traces
Bit 1 - Management traces
Bit 2 - Data Path traces [NOT REQUIRED IN ECFM]
Bit 3 - Control Plane traces
Bit 4 - Packet Dump traces
Bit 5 - Traces related to all resources except buffers
Bit 6 - All Failure traces
Bit 7 - Buffer allocation/release traces
Bit 16 - ECFM Function Entry traces
Bit 17 - ECFM Function Exit traces
Bit 18 - ECFM Name traces
The remaining bits are unused. Combination of levels are
also allowed.
For example if the bits 19 and 20 are set, then the trace
statement related to discovery and remote loopback related
messages will be printed.
The user has to enter the corresponding integer value for the
bits set. For example if bits 8 and 9 are to be set ,then user
has to give the value 0x300."
DEFVAL { '00040000'H }
::= { fsMIEcfmContextEntry 31 }
fsMIEcfmGlobalCcmOffload OBJECT-TYPE
SYNTAX INTEGER { enabled(1), disabled(2) }
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The administrative Global CCMOffloading status.
when value 'enabled' (1) is set then CCMOffloading will start for all the
MEPs in the system and will overwrite the per MEP offloading configuration.
when value 'disabled' (2) is set then CCMOffloading will be disabled for
all the MEPs in the system.
CCMOffloading is disabled by default."
DEFVAL { disabled }
::= { fsMIEcfmContextEntry 32 }
-- ----------------------------------------------------------------------------
-- fsMIEcfmContextTable - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- fsMIEcfmPortTable - Start
-- ----------------------------------------------------------------------------
fsMIEcfmPortTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmPortEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Port Table"
REFERENCE
"802.1ag clauses 12.14.2"
::= { fsMIEcfmSystem 3 }
fsMIEcfmPortEntry OBJECT-TYPE
SYNTAX FsMIEcfmPortEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
" List of Port related Parameters for ecfm module."
INDEX { fsMIEcfmPortIfIndex }
::= { fsMIEcfmPortTable 1 }
FsMIEcfmPortEntry ::= SEQUENCE {
fsMIEcfmPortIfIndex InterfaceIndex,
fsMIEcfmPortLLCEncapStatus TruthValue,
fsMIEcfmPortModuleStatus INTEGER,
fsMIEcfmPortTxCfmPduCount Unsigned32,
fsMIEcfmPortTxCcmCount Unsigned32,
fsMIEcfmPortTxLbmCount Unsigned32,
fsMIEcfmPortTxLbrCount Unsigned32,
fsMIEcfmPortTxLtmCount Unsigned32,
fsMIEcfmPortTxLtrCount Unsigned32,
fsMIEcfmPortTxFailedCount Unsigned32,
fsMIEcfmPortRxCfmPduCount Unsigned32,
fsMIEcfmPortRxCcmCount Unsigned32,
fsMIEcfmPortRxLbmCount Unsigned32,
fsMIEcfmPortRxLbrCount Unsigned32,
fsMIEcfmPortRxLtmCount Unsigned32,
fsMIEcfmPortRxLtrCount Unsigned32,
fsMIEcfmPortRxBadCfmPduCount Unsigned32,
fsMIEcfmPortFrwdCfmPduCount Unsigned32,
fsMIEcfmPortDsrdCfmPduCount Unsigned32
}
fsMIEcfmPortIfIndex OBJECT-TYPE
SYNTAX InterfaceIndex
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Interface Index of the Bridge port."
::= { fsMIEcfmPortEntry 1 }
fsMIEcfmPortLLCEncapStatus OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates the LLC encapsulation status.
If set to true then LLC SNAP header shall be added to the
transmitted CFM PDUs. Otherwise, LLC SNAP header shall not
be added."
DEFVAL { false }
::= { fsMIEcfmPortEntry 2 }
fsMIEcfmPortModuleStatus OBJECT-TYPE
SYNTAX INTEGER { enabled(1), disabled(2) }
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The administrative module status of Ethernet CFM module.
This enables or disables ECFM in the system.
If set to enable, enables the ECFM for a
particular port. Otherwise, disables ECFM for a particular
port."
DEFVAL { disabled }
::= { fsMIEcfmPortEntry 3 }
fsMIEcfmPortTxCfmPduCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CFM-PDUs transmitted."
::= { fsMIEcfmPortEntry 4 }
fsMIEcfmPortTxCcmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CCMs transmitted"
::= { fsMIEcfmPortEntry 5 }
fsMIEcfmPortTxLbmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LBMs transmitted"
::= { fsMIEcfmPortEntry 6 }
fsMIEcfmPortTxLbrCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LBRs transmitted"
::= { fsMIEcfmPortEntry 7 }
fsMIEcfmPortTxLtmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LTMs transmitted"
::= { fsMIEcfmPortEntry 8 }
fsMIEcfmPortTxLtrCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LTRs transmitted"
::= { fsMIEcfmPortEntry 9 }
fsMIEcfmPortTxFailedCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CFM-PDU tranmission failed"
::= { fsMIEcfmPortEntry 10 }
fsMIEcfmPortRxCfmPduCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CFM-PDUs received"
::= { fsMIEcfmPortEntry 11 }
fsMIEcfmPortRxCcmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CCMs received"
::= { fsMIEcfmPortEntry 12 }
fsMIEcfmPortRxLbmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LBMs received"
::= { fsMIEcfmPortEntry 13 }
fsMIEcfmPortRxLbrCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LBRs received"
::= { fsMIEcfmPortEntry 14 }
fsMIEcfmPortRxLtmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LTMs received"
::= { fsMIEcfmPortEntry 15 }
fsMIEcfmPortRxLtrCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LTRs received"
::= { fsMIEcfmPortEntry 16 }
fsMIEcfmPortRxBadCfmPduCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of Bad CFM-PDUs received"
::= { fsMIEcfmPortEntry 17 }
fsMIEcfmPortFrwdCfmPduCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CFM-PDUs forwarded"
::= { fsMIEcfmPortEntry 18 }
fsMIEcfmPortDsrdCfmPduCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CFM-PDUs discarded"
::= { fsMIEcfmPortEntry 19 }
-- ----------------------------------------------------------------------------
-- fsMIEcfmPortTable - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The ECFM Stack Table - Start
-- ----------------------------------------------------------------------------
fsMIEcfmStackTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmStackEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"There is one CFM Stack table per bridge. It permits
the retrieval of information about the Maintenance Points
configured on any given interface.
"
REFERENCE
"802.1ag clauses 12.14.2"
::= { fsMIEcfmSystem 4 }
fsMIEcfmStackEntry OBJECT-TYPE
SYNTAX FsMIEcfmStackEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Stack table entry"
INDEX { fsMIEcfmStackIfIndex, fsMIEcfmStackVlanIdOrNone,
fsMIEcfmStackMdLevel, fsMIEcfmStackDirection
}
::= { fsMIEcfmStackTable 1 }
FsMIEcfmStackEntry ::= SEQUENCE {
fsMIEcfmStackIfIndex InterfaceIndex,
fsMIEcfmStackVlanIdOrNone VlanIdOrNone,
fsMIEcfmStackMdLevel FsMIEcfmMDLevel,
fsMIEcfmStackDirection FsMIEcfmMpDirection,
fsMIEcfmStackMdIndex Unsigned32,
fsMIEcfmStackMaIndex Unsigned32,
fsMIEcfmStackMepId FsMIEcfmMepIdOrZero,
fsMIEcfmStackMacAddress MacAddress
}
fsMIEcfmStackIfIndex OBJECT-TYPE
SYNTAX InterfaceIndex
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This object represents the Bridge Port or aggregated port
on which MEPs or MHFs might be configured.
Upon a restart of the system, the system SHALL, if necessary,
change the value of this variable, and rearrange the
fsMIEcfmStackTable, so that it indexes the entry in the
interface table with the same value of ifAlias that it
indexed before the system restart. If no such entry exists,
then the system SHALL delete all entries in the
fsMIEcfmStackTable with the interface index.
"
REFERENCE
"802.1ag clause 12.14.2.1.2:a"
::= { fsMIEcfmStackEntry 1 }
fsMIEcfmStackVlanIdOrNone OBJECT-TYPE
SYNTAX VlanIdOrNone
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"VLAN ID to which the MP is attached, or 0, if none."
REFERENCE
"802.1ag clause 12.14.2.1.2:d"
::= { fsMIEcfmStackEntry 2 }
fsMIEcfmStackMdLevel OBJECT-TYPE
SYNTAX FsMIEcfmMDLevel
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"MD Level of the Maintenance Point."
REFERENCE
"802.1ag clause 12.14.2.1.2:b"
::= { fsMIEcfmStackEntry 3 }
fsMIEcfmStackDirection OBJECT-TYPE
SYNTAX FsMIEcfmMpDirection
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Direction in which the MP faces on the Bridge Port"
REFERENCE
"802.1ag clause 12.14.2.1.2:c"
::= { fsMIEcfmStackEntry 4 }
fsMIEcfmStackMdIndex OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index of the Maintenance Domain in the fsMIEcfmMdTable
to which the MP is associated, or 0, if none."
REFERENCE
"802.1ag clause 12.14.2.1.3:b"
::= { fsMIEcfmStackEntry 5 }
fsMIEcfmStackMaIndex OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index of the MA in the fsMIEcfmMaTable to which the MP
is associated, or 0, if none."
REFERENCE
"802.1ag clause 12.14.2.1.3:c"
::= { fsMIEcfmStackEntry 6 }
fsMIEcfmStackMepId OBJECT-TYPE
SYNTAX FsMIEcfmMepIdOrZero
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"If an MEP is configured, the MEPID, else 0"
REFERENCE
"802.1ag clause 12.14.2.1.3:d"
::= { fsMIEcfmStackEntry 7 }
fsMIEcfmStackMacAddress OBJECT-TYPE
SYNTAX MacAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"MAC address of the MP."
REFERENCE
"802.1ag clause 12.14.2.1.3:e"
::= { fsMIEcfmStackEntry 8 }
-- ----------------------------------------------------------------------------
-- The ECFM Stack Table - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The ECFM VLAN Table - Start
-- ----------------------------------------------------------------------------
fsMIEcfmVlanTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmVlanEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table defines the association of VIDs into VLANs. There
is an entry in this table for each VID that is:
a) a VID belonging to a VLAN associated with more than
one VID; and
b) not the Primary VLAN of that VID.
The entry in this table contains the Primary VID of the VLAN.
By default, this table is empty, meaning that every VID is
the Primary VID of a single-VID VLAN.
VLANs that are associated with only one VID SHOULD NOT have
an entry in this table.
The writable objects in this table need to be persistent
upon reboot or restart of a device.
"
REFERENCE
"802.1ag clauses 12.14.3.1.3:a, 12.14.3.2.2:a, 12.14.5.3.2:c,
12.14.6.1.3:b, 22.1.5."
::= { fsMIEcfmContext 2 }
fsMIEcfmVlanEntry OBJECT-TYPE
SYNTAX FsMIEcfmVlanEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The VLAN table entry."
INDEX { fsMIEcfmContextId, fsMIEcfmVlanVid }
::= { fsMIEcfmVlanTable 1 }
FsMIEcfmVlanEntry ::= SEQUENCE {
fsMIEcfmVlanVid VlanId,
fsMIEcfmVlanPrimaryVid VlanId,
fsMIEcfmVlanRowStatus RowStatus
}
fsMIEcfmVlanVid OBJECT-TYPE
SYNTAX VlanId
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a VLAN ID belonging to a VLAN that is associated with
more than one VLAN ID, and this is not the Primary VID of the
VLAN.
"
::= { fsMIEcfmVlanEntry 1 }
fsMIEcfmVlanPrimaryVid OBJECT-TYPE
SYNTAX VlanId
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"This is the Primary VLAN ID of the VLAN with which this
entry's fsMIEcfmVlanVid is associated. This value must not
equal the value of fsMIEcfmVlanVid.
"
::= { fsMIEcfmVlanEntry 2 }
fsMIEcfmVlanRowStatus OBJECT-TYPE
SYNTAX RowStatus
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The status of the row.
The writable columns in a row can not be changed if the row
is active. All columns must have a valid value before a row
can be activated.
"
::= { fsMIEcfmVlanEntry 3 }
-- ----------------------------------------------------------------------------
-- The ECFM VLAN Table - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The Default MD Level Table - Start
-- ----------------------------------------------------------------------------
fsMIEcfmDefaultMdTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmDefaultMdEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Default MD Level Managed Object controls MHF creation for
VIDs that are not attached to a specific Maintenance
Association Managed Object, and Sender ID TLV transmission by
those MHFs.
For each Bridge Port, and for each VLAN ID whose data can
pass through that Bridge Port, an entry in this table is
used by the algorithm in subclause 22.2.3 only if there is no
entry in the Maintenance Association table defining an MA
for the same VLAN ID and MD Level as this table's entry, and
on which MA an Up MEP is defined. If there exists such an
MA, that MA's objects are used by the algorithm in
subclause 22.2.3 in place of this table entry's objects. The
agent maintains the value of fsMIEcfmDefaultMdStatus to
indicate whether this entry is overridden by an MA.
When first initialized, the agent creates this table
automatically with entries for all VLAN IDs,
with the default values specified for each object.
After this initialization, the writable objects in this
table need to be persistent upon reboot or restart of a
device.
"
REFERENCE
"802.1ag clause 12.14.3"
::= { fsMIEcfmContext 3 }
fsMIEcfmDefaultMdEntry OBJECT-TYPE
SYNTAX FsMIEcfmDefaultMdEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Default MD Level table entry."
INDEX { fsMIEcfmContextId, fsMIEcfmDefaultMdPrimaryVid }
::= { fsMIEcfmDefaultMdTable 1 }
FsMIEcfmDefaultMdEntry ::= SEQUENCE {
fsMIEcfmDefaultMdPrimaryVid VlanId,
fsMIEcfmDefaultMdStatus TruthValue,
fsMIEcfmDefaultMdLevel FsMIEcfmMDLevelOrNone,
fsMIEcfmDefaultMdMhfCreation FsMIEcfmMhfCreation,
fsMIEcfmDefaultMdIdPermission FsMIEcfmIdPermission
}
fsMIEcfmDefaultMdPrimaryVid OBJECT-TYPE
SYNTAX VlanId
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Primary VID of the VLAN to which this entry's objects
apply"
::= { fsMIEcfmDefaultMdEntry 1 }
fsMIEcfmDefaultMdStatus OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"State of this Default MD Level table entry. True if there is
no entry in the Maintenance Association table defining an MA
for the same VLAN ID and MD Level as this table's entry, and
on which MA an Up MEP is defined, else false.
"
REFERENCE
"802.1ag clause 12.14.3.1.3:b"
::= { fsMIEcfmDefaultMdEntry 2 }
fsMIEcfmDefaultMdLevel OBJECT-TYPE
SYNTAX FsMIEcfmMDLevelOrNone
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A value indicating the MD Level at which MHFs are to be
created, and Sender ID TLV transmission by those MHFs is to
be controlled, for the VLAN to which this entry's objects
apply. If this object has the value -1, the MD Level for MHF
creation for this VLAN is controlled by
fsMIEcfmDefaultMdDefLevel.
"
REFERENCE
"802.1ag clause 12.14.3.1.3:c, 12.14.3.2.2:b"
DEFVAL {-1}
::= { fsMIEcfmDefaultMdEntry 3 }
fsMIEcfmDefaultMdMhfCreation OBJECT-TYPE
SYNTAX FsMIEcfmMhfCreation
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A value indicating if the Management entity can create MHFs
(MIP Half Function) for this VID at this MD Level. If this
object has the value defMHFdefer, MHF creation for this VLAN
is controlled by fsMIEcfmDefaultMdDefMhfCreation.
The value of this variable is meaningless if the values of
fsMIEcfmDefaultMdStatus is false.
"
REFERENCE
"802.1ag clause 12.14.3.1.3:d"
DEFVAL {defMHFdefer}
::= { fsMIEcfmDefaultMdEntry 4 }
fsMIEcfmDefaultMdIdPermission OBJECT-TYPE
SYNTAX FsMIEcfmIdPermission
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enumerated value indicating what, if anything, is to be
included in the Sender ID TLV (21.5.3) transmitted by MHFs
created by the Default Maintenance Domain. If this object
has the value sendIdDefer, Sender ID TLV transmission for
this VLAN is controlled by fsMIEcfmDefaultMdDefIdPermission.
The value of this variable is meaningless if the values of
fsMIEcfmDefaultMdStatus is false.
"
REFERENCE
"802.1ag clause 12.14.3.1.3:e"
DEFVAL { sendIdDefer }
::= { fsMIEcfmDefaultMdEntry 5 }
-- ----------------------------------------------------------------------------
-- The Default MD Level Table - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The CFM configuration error list managed object. This group will
-- contain all the MIB objects used to read the interfaces and VIDs
-- configured incorrectly.
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The CFM Configuration Error List Table - Start
-- ----------------------------------------------------------------------------
fsMIEcfmConfigErrorListTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmConfigErrorListEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The CFM Configuration Error List table provides a list of
Interfaces and VIDs that are incorrectly configured.
"
REFERENCE
"802.1ag clause 12.14.4"
::= {fsMIEcfmSystem 5}
fsMIEcfmConfigErrorListEntry OBJECT-TYPE
SYNTAX FsMIEcfmConfigErrorListEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Config Error List Table entry"
INDEX { fsMIEcfmConfigErrorListVid,
fsMIEcfmConfigErrorListIfIndex
}
::= { fsMIEcfmConfigErrorListTable 1}
FsMIEcfmConfigErrorListEntry ::= SEQUENCE {
fsMIEcfmConfigErrorListVid VlanId,
fsMIEcfmConfigErrorListIfIndex InterfaceIndex,
fsMIEcfmConfigErrorListErrorType FsMIEcfmConfigErrors
}
fsMIEcfmConfigErrorListVid OBJECT-TYPE
SYNTAX VlanId
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The VLAN ID of the VLAN with interfaces in error."
REFERENCE
"802.1ag Clause 12.14.4.1.2:a"
::= { fsMIEcfmConfigErrorListEntry 1 }
fsMIEcfmConfigErrorListIfIndex OBJECT-TYPE
SYNTAX InterfaceIndex
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This object is the logicl port number of the interface.
Upon a restart of the system, the system SHALL, if necessary,
change the value of this variable so that it indexes the
entry in the interface table with the same value of ifAlias
that it indexed before the system restart. If no such
entry exists, then the system SHALL delete any entries in
fsMIEcfmConfigErrorListTable indexed by that IfIndex value."
REFERENCE
"802.1ag clause 12.14.4.1.2:b"
::= { fsMIEcfmConfigErrorListEntry 2 }
fsMIEcfmConfigErrorListErrorType OBJECT-TYPE
SYNTAX FsMIEcfmConfigErrors
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"A vector of Boolean error conditions from 22.2.4, any of
which may be true:
0) CFMleak;
1) ConflictingVids;
2) ExcessiveLevels;
3) OverlappedLevels.
"
REFERENCE
"802.1ag clause 12.14.4.1.3:b"
::= { fsMIEcfmConfigErrorListEntry 3 }
-- ----------------------------------------------------------------------------
-- The CFM Configuration Error List Table - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The Maintenance Domain Table - Start
-- ----------------------------------------------------------------------------
fsMIEcfmMdTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmMdEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Maintenance Domain table. Each row in the table
represents a different Maintenance Domain.
A Maintenance Domain is described in 802.1ag (3.22) as the
network or the part of the network for which faults in
connectivity are to be managed. The boundary of a Maintenance
Domain is defined by a set of DSAPs, each of which can become
a point of connectivity to a service instance.
"
REFERENCE
"802.1ag clauses 3.22 and 18.1"
::= { fsMIEcfmContext 4}
fsMIEcfmMdEntry OBJECT-TYPE
SYNTAX FsMIEcfmMdEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Maintenance Domain table entry. This entry is not lost
upon reboot. It is backed up by stable storage.
"
INDEX {fsMIEcfmContextId, fsMIEcfmMdIndex }
::= { fsMIEcfmMdTable 1 }
FsMIEcfmMdEntry ::= SEQUENCE {
fsMIEcfmMdIndex Unsigned32,
fsMIEcfmMdFormat FsMIEcfmMaintDomainNameType,
fsMIEcfmMdName FsMIEcfmMaintDomainName,
fsMIEcfmMdMdLevel FsMIEcfmMDLevel,
fsMIEcfmMdMhfCreation FsMIEcfmMhfCreation,
fsMIEcfmMdMhfIdPermission FsMIEcfmIdPermission,
fsMIEcfmMdMaTableNextIndex FsMIEcfmIndexIntegerNextFree,
fsMIEcfmMdRowStatus RowStatus
}
fsMIEcfmMdIndex OBJECT-TYPE
SYNTAX Unsigned32(1..4294967295)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index to the Maintenance Domain table.
fsMIEcfmMdTableNextIndex needs to be inspected to find an
available index for row-creation.
Referential integrity is required i.e. the index needs to be
persistent upon a reboot or restart of a device. The index
can never be reused for other Maintenance Domain. The index
value should keep increasing up to the time that they wrap
around. This is to facilitate access control based on OID.
"
::= { fsMIEcfmMdEntry 1 }
fsMIEcfmMdFormat OBJECT-TYPE
SYNTAX FsMIEcfmMaintDomainNameType
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The type (and thereby format) of the Maintenance Domain Name."
REFERENCE
"802.1ag clause 21.6.5.1"
DEFVAL { charString }
::= { fsMIEcfmMdEntry 2 }
fsMIEcfmMdName OBJECT-TYPE
SYNTAX FsMIEcfmMaintDomainName
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The Maintenance Domain name. The type/format of this object
is determined by the value of the fsMIEcfmMdNameType object.
Each Maintenance Domain has unique name amongst all those
used or available to a service provider or operator. It
facilitates easy identification of administrative
responsibility for each Maintenance Domain.
Clause 3.24 defines a Maintenance Domain name as the
identifier, unique over the domain for which CFM is to
protect against accidental concatenation of Service
Instances, of a particular Maintenance Domain.
"
REFERENCE
"802.1ag clauses 3.24, 12.14.5, and 21.6.5.3"
DEFVAL { "DEFAULT" }
::= { fsMIEcfmMdEntry 3 }
fsMIEcfmMdMdLevel OBJECT-TYPE
SYNTAX FsMIEcfmMDLevel
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The Maintenance Domain Level."
REFERENCE
"802.1ag clause 12.14.5.1.3:b"
DEFVAL { 0 }
::= { fsMIEcfmMdEntry 4 }
fsMIEcfmMdMhfCreation OBJECT-TYPE
SYNTAX FsMIEcfmMhfCreation
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Enumerated value indicating whether the management entity can
create MHFs (MIP Half Function) for this Maintenance Domain.
"
REFERENCE
"802.1ag clause 12.14.5.1.3:c"
DEFVAL { defMHFnone }
::= { fsMIEcfmMdEntry 5 }
fsMIEcfmMdMhfIdPermission OBJECT-TYPE
SYNTAX FsMIEcfmIdPermission
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Enumerated value indicating what, if anything, is to be
included in the Sender ID TLV (21.5.3) transmitted by MPs
configured in this Maintenance Domain. Since, in this
variable, there is no encompassing Maintenance Domain, the
value sendIdDefer takes the meaning of sendIdChassisManage.
"
REFERENCE
"802.1ag clause 12.14.5.1.3:d"
DEFVAL { sendIdNone }
::= { fsMIEcfmMdEntry 6 }
fsMIEcfmMdMaTableNextIndex OBJECT-TYPE
SYNTAX FsMIEcfmIndexIntegerNextFree
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value to be used as the index of the MA table entries for
this Maintenance Domain when the management entity wants to
create a new row in the MA table.
"
::= { fsMIEcfmMdEntry 7 }
fsMIEcfmMdRowStatus OBJECT-TYPE
SYNTAX RowStatus
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The status of the row.
The writable columns in a row can not be changed if the row
is active. All columns must have a valid value before a row
can be activated.
"
::= { fsMIEcfmMdEntry 8 }
-- ----------------------------------------------------------------------------
-- The Maintenance Domain Table - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The Maintenance Association Object. This group contains all the
-- MIB objects used to read, create, modify, and delete Maintenance
-- Associations in the MIB.
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The Maintenance Association (MA) Table - Start
-- ----------------------------------------------------------------------------
fsMIEcfmMaTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmMaEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Maintenance Association table. Each row in the table
represents an MA. An MA is a set of MEPs, each configured
with a single service instance.
Creation of a Service Instance establishes a connectionless
association among the selected DSAPs. Configuring a
Maintenance association End Point (MEP) at each of the
DSAPs creates a Maintenance Association (MA) to monitor
that connectionless connectivity. The MA is identified by a
Short MA Name that is unique within the Maintenance Domain
and chosen to facilitate easy identification of the Service
Instance. Together, the Maintenance Domain Name and the
Short MA Name form the Maintenance Association Identifier
(MAID) that is carried in CFM Messages to identify
incorrect connectivity among Service Instances. A small
integer, the Maintenance association End Point Identifier
(MEPID), identifies each MEP among those configured on a
single MA (802.1ag clauses 3.17 and 18.2).
This table uses two indices, first index is the index of the
Maintenance Domain table.
The writable objects in this table need to be persistent
upon reboot or restart of a device.
"
REFERENCE
"802.1ag clause 18.2"
::= { fsMIEcfmContext 5}
fsMIEcfmMaEntry OBJECT-TYPE
SYNTAX FsMIEcfmMaEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The MA table entry."
INDEX {fsMIEcfmContextId, fsMIEcfmMdIndex, fsMIEcfmMaIndex }
::= { fsMIEcfmMaTable 1 }
FsMIEcfmMaEntry ::= SEQUENCE {
fsMIEcfmMaIndex Unsigned32,
fsMIEcfmMaPrimaryVlanId VlanIdOrNone,
fsMIEcfmMaFormat FsMIEcfmMaintAssocNameType,
fsMIEcfmMaName FsMIEcfmMaintAssocName,
fsMIEcfmMaMhfCreation FsMIEcfmMhfCreation,
fsMIEcfmMaIdPermission FsMIEcfmIdPermission,
fsMIEcfmMaCcmInterval FsMIEcfmCcmInterval,
fsMIEcfmMaNumberOfVids Unsigned32,
fsMIEcfmMaRowStatus RowStatus
}
fsMIEcfmMaIndex OBJECT-TYPE
SYNTAX Unsigned32(1..4294967295)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of the MA table fsMIEcfmMdMaTableNextIndex needs to
be inspected to find an available index for row-creation.
"
::= { fsMIEcfmMaEntry 1 }
fsMIEcfmMaPrimaryVlanId OBJECT-TYPE
SYNTAX VlanIdOrNone
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The Primary VLAN ID with which the Maintenance Association is
associated, or 0 if the MA is not attached to any VID. If
the MA is associated with more than one VID, the
fsMIEcfmVlanTable lists them.
"
REFERENCE
"802.1ag clause 12.14.6.1.3:b"
::= { fsMIEcfmMaEntry 2 }
fsMIEcfmMaFormat OBJECT-TYPE
SYNTAX FsMIEcfmMaintAssocNameType
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The type (and thereby format) of the Maintenance Association
Name.
"
REFERENCE
"802.1ag clauses 21.6.5.4"
::= { fsMIEcfmMaEntry 3 }
fsMIEcfmMaName OBJECT-TYPE
SYNTAX FsMIEcfmMaintAssocName
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The Short Maintenance Association name. The type/format of
this object is determined by the value of the
fsMIEcfmMaNameType object.
"
REFERENCE
"802.1ag clauses 21.6.5.6, and Table 21-20"
::= { fsMIEcfmMaEntry 4 }
fsMIEcfmMaMhfCreation OBJECT-TYPE
SYNTAX FsMIEcfmMhfCreation
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Indicates if the Management entity can create MHFs (MIP Half
Function) for this MA.
"
REFERENCE
"802.1ag clause 12.14.6.1.3:c"
DEFVAL { defMHFdefer }
::= { fsMIEcfmMaEntry 5 }
fsMIEcfmMaIdPermission OBJECT-TYPE
SYNTAX FsMIEcfmIdPermission
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Enumerated value indicating what, if anything, is to be
included in the Sender ID TLV (21.5.3) transmitted by MPs
configured in this MA.
"
REFERENCE
"802.1ag clause 12.14.6.1.3:d"
DEFVAL { sendIdDefer }
::= { fsMIEcfmMaEntry 6 }
fsMIEcfmMaCcmInterval OBJECT-TYPE
SYNTAX FsMIEcfmCcmInterval
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Interval between CCM transmissions to be used by all MEPs
in the MA.
"
REFERENCE
"802.1ag clause 12.14.6.1.3:e"
DEFVAL { interval1s }
::= { fsMIEcfmMaEntry 7 }
fsMIEcfmMaNumberOfVids OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of VIDs associated with the MA.
"
REFERENCE
"802.1ag clause 12.14.6.1.3:b"
::= { fsMIEcfmMaEntry 8 }
fsMIEcfmMaRowStatus OBJECT-TYPE
SYNTAX RowStatus
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The status of the row.
The writable columns in a row can not be changed if the row
is active. All columns must have a valid value before a row
can be activated.
"
::= { fsMIEcfmMaEntry 9 }
-- ----------------------------------------------------------------------------
-- The Maintenance Association (MA) Table - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The list of known MEPs for a given MA - Start
-- ----------------------------------------------------------------------------
fsMIEcfmMaMepListTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmMaMepListEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"List of MEPIDs (in any bridge) that belong to the same MA.
Clause 12.14.6.1.3 specifies that a list of MEPIDs in all
bridges in that MA, but since SNMP SMI does not allow to
state in a MIB that an object in a table is an array, the
information has to be stored in another table with two
indices, being the first index, the index of the table that
contains the list or array.
"
REFERENCE
"802.1ag clause 12.14.6.1.3:g"
::= { fsMIEcfmContext 6 }
fsMIEcfmMaMepListEntry OBJECT-TYPE
SYNTAX FsMIEcfmMaMepListEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The known MEPS table entry."
INDEX { fsMIEcfmContextId,
fsMIEcfmMdIndex,
fsMIEcfmMaIndex,
fsMIEcfmMaMepListIdentifier
}
::= { fsMIEcfmMaMepListTable 1 }
FsMIEcfmMaMepListEntry ::= SEQUENCE {
fsMIEcfmMaMepListIdentifier FsMIEcfmMepId,
fsMIEcfmMaMepListRowStatus RowStatus
}
fsMIEcfmMaMepListIdentifier OBJECT-TYPE
SYNTAX FsMIEcfmMepId
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"MEPID"
REFERENCE
"802.1ag clause 12.14.6.1.3:g"
::= { fsMIEcfmMaMepListEntry 1 }
fsMIEcfmMaMepListRowStatus OBJECT-TYPE
SYNTAX RowStatus
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The status of the row. Read SNMPv2-TC (RFC1903) for an
explanation of the possible values this object can take.
"
::= { fsMIEcfmMaMepListEntry 2 }
-- ----------------------------------------------------------------------------
-- The list of known MEPs for a given MA - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The MEP Object. This object represents a Maintenance End
-- Point as described in 802.1ag document.
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The MEP Table - Start
-- ----------------------------------------------------------------------------
fsMIEcfmMepTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmMepEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Maintenance Association End Point (MEP) table.
Each row in the table represents a different MEP. A MEP is
an actively managed CFM entity, associated with a specific
DSAP of a Service Instance, which can generate and receive
CFM PDUs and track any responses. It is an end point of a
single Maintenance Association, and is an endpoint of a
separate Maintenance Entity for each of the other MEPs in
the same Maintenance Association (802.1ag clause 3.18).
This table uses three indices. The first two indices are the
indices of the Maintenance Domain and MA tables, the reason
being that a MEP is always related to an MA and Maintenance
Domain.
The Transmit Loopback table. Entries in this table are
created/removed at the same time than entries in the MEP
table are created/removed.
The MEP table also stores all the managed objects for sending
LBM and LTM.
*LBM Managed objects
LBM Managed objects in the MEP table
enables the management entity to initiate
transmission of Loopback messages. It will signal the MEP
that it should transmit some number of Loopback messages
and detect the detection (or lack thereof) of the
corresponding Loopback messages.
Steps to use entries in this table:
1) Wait for fsMIEcfmMepTransmitLbmStatus value to be
'ready'. To do this do this sequence:
a. an SNMP GET for both SnmpSetSerialNo and
fsMIEcfmMepTransmitLbmStatus objects (in same SNMP
PDU).
b. Check if value for fsMIEcfmMepTransmitLbmStatus is
'ready'
- if not, wait x seconds, go to step a above.
- if yes, save the value of SnmpSetSerialNo and go
to step 2) below
2) Change fsMIEcfmMepTransmitLbmStatus value from 'ready' to
'notReady' to ensure no other management entity will use
the service. In order to not disturb a possible other NMS
do this by sending an SNMP SET for both SnmpSetSerialNo
and fsMIEcfmMepTransmitLbmStatus objects (in same SNMP
PDU, and make sure SNmpSetSerialNo is the first varBind).
For the SnmpSetSerialNo varBind, use the value that you
obtained in step 1)a.. This ensures that two cooperating
NMSes will not step on each others toes.
3) Setup the different data to be sent (number of messages,
optional TLVs,...).
4) Record the current values of fsMIEcfmMepLbrIn,
fsMIEcfmMepLbrInOutOfOrder, and fsMIEcfmMepLbrBadMsdu.
6) Change fsMIEcfmMepTransmitLbmStatus value from 'notReady'
to 'transmit' to initiate transmission of Loopback
messages.
7) Check the value of fsMIEcfmMepTransmitLbmResultOK to
find out if the operation was successfully initiated or
not.
8) Monitor the value of fsMIEcfmMepTransmitLbmMessages.
When it reaches 0, the last LBM has been transmitted.
Wait an additional 5 seconds to ensure that all LBRs have
been returned.
9) Compare fsMIEcfmMepLbrIn, fsMIEcfmMepLbrInOutOfOrder,
and fsMIEcfmMepLbrBadMsdu to their old values from step
4, above, to get the results of the test.
10) Change the fsMIEcfmMepTransmitLbmStatus value back to
'ready' to allow other management entities to use the
table.
*LTM Managed objects
The LTM Managed objects in the MEP table are used in a manner
similar to that described for LBM transmission, above. Upon
successfully initiating the transmission, the variables
fsMIEcfmMepTransmitLtmSeqNumber and
fsMIEcfmMepTransmitLtmEgressIdentifier return the information
required to recover the results of the LTM from the
fsMIEcfmLtrTable.
"
REFERENCE
"802.1ag clauses 12.14.7 and 19.2"
::= { fsMIEcfmContext 7 }
fsMIEcfmMepEntry OBJECT-TYPE
SYNTAX FsMIEcfmMepEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The MEP table entry"
INDEX { fsMIEcfmContextId,
fsMIEcfmMdIndex,
fsMIEcfmMaIndex,
fsMIEcfmMepIdentifier
}
::= { fsMIEcfmMepTable 1 }
FsMIEcfmMepEntry ::= SEQUENCE {
fsMIEcfmMepIdentifier FsMIEcfmMepId,
fsMIEcfmMepIfIndex InterfaceIndexOrZero,
fsMIEcfmMepDirection FsMIEcfmMpDirection,
fsMIEcfmMepPrimaryVid Unsigned32,
fsMIEcfmMepActive TruthValue,
fsMIEcfmMepFngState FsMIEcfmFngState,
fsMIEcfmMepCciEnabled TruthValue,
fsMIEcfmMepCcmLtmPriority Unsigned32,
fsMIEcfmMepMacAddress MacAddress,
fsMIEcfmMepLowPrDef FsMIEcfmLowestAlarmPri,
fsMIEcfmMepFngAlarmTime TimeInterval,
fsMIEcfmMepFngResetTime TimeInterval,
fsMIEcfmMepHighestPrDefect FsMIEcfmHighestDefectPri,
fsMIEcfmMepDefects FsMIEcfmMepDefects,
fsMIEcfmMepErrorCcmLastFailure OCTET STRING,
fsMIEcfmMepXconCcmLastFailure OCTET STRING,
fsMIEcfmMepCcmSequenceErrors Unsigned32,
fsMIEcfmMepCciSentCcms Unsigned32,
fsMIEcfmMepNextLbmTransId Unsigned32,
fsMIEcfmMepLbrIn Unsigned32,
fsMIEcfmMepLbrInOutOfOrder Unsigned32,
fsMIEcfmMepLbrBadMsdu Unsigned32,
fsMIEcfmMepLtmNextSeqNumber Unsigned32,
fsMIEcfmMepUnexpLtrIn Unsigned32,
fsMIEcfmMepLbrOut Unsigned32,
fsMIEcfmMepTransmitLbmStatus FsMIEcfmTransmitStatus,
fsMIEcfmMepTransmitLbmDestMacAddress MacAddress,
fsMIEcfmMepTransmitLbmDestMepId FsMIEcfmMepIdOrZero,
fsMIEcfmMepTransmitLbmDestIsMepId TruthValue,
fsMIEcfmMepTransmitLbmMessages Integer32,
fsMIEcfmMepTransmitLbmDataTlv OCTET STRING,
fsMIEcfmMepTransmitLbmVlanPriority Integer32,
fsMIEcfmMepTransmitLbmVlanDropEnable TruthValue,
fsMIEcfmMepTransmitLbmResultOK TruthValue,
fsMIEcfmMepTransmitLbmSeqNumber Unsigned32,
fsMIEcfmMepTransmitLtmStatus FsMIEcfmTransmitStatus,
fsMIEcfmMepTransmitLtmFlags BITS,
fsMIEcfmMepTransmitLtmTargetMacAddress MacAddress,
fsMIEcfmMepTransmitLtmTargetMepId FsMIEcfmMepIdOrZero,
fsMIEcfmMepTransmitLtmTargetIsMepId TruthValue,
fsMIEcfmMepTransmitLtmTtl Unsigned32,
fsMIEcfmMepTransmitLtmResult TruthValue,
fsMIEcfmMepTransmitLtmSeqNumber Unsigned32,
fsMIEcfmMepTransmitLtmEgressIdentifier OCTET STRING,
fsMIEcfmMepRowStatus RowStatus,
fsMIEcfmMepCcmOffload INTEGER
}
fsMIEcfmMepIdentifier OBJECT-TYPE
SYNTAX FsMIEcfmMepId
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Integer that is unique among all the MEPs in the same MA.
Other definition is: a small integer, unique over a given
Maintenance Association, identifying a specific Maintenance
association End Point (3.19).
MEP Identifier is also known as the MEPID.
"
REFERENCE
"802.1ag clauses 3.19, 19.2 and 12.14.7"
::= { fsMIEcfmMepEntry 1 }
fsMIEcfmMepIfIndex OBJECT-TYPE
SYNTAX InterfaceIndexOrZero
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"This object is the interface index of the interface either a
bridge port, or an aggregated IEEE 802.1 link within a bridge
port, to which the MEP is attached.
Upon a restart of the system, the system SHALL, if necessary,
change the value of this variable so that it indexes the
entry in the interface table with the same value of ifAlias
that it indexed before the system restart. If no such
entry exists, then the system SHALL set this variable to 0.
For MPLS-TP based MEPs this object is not configurable and the ifIndex
shall remain as zero.
"
REFERENCE
"802.1ag clause 12.14.7.1.3:b"
::= { fsMIEcfmMepEntry 2 }
fsMIEcfmMepDirection OBJECT-TYPE
SYNTAX FsMIEcfmMpDirection
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The direction in which the MEP faces on the Bridge port."
REFERENCE
"802.1ag clauses 12.14.7.1.3:c and 19.2"
::= { fsMIEcfmMepEntry 3 }
fsMIEcfmMepPrimaryVid OBJECT-TYPE
SYNTAX Unsigned32(0..16777215)
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"An integer indicating the Primary VID of the MEP, always
one of the VIDs assigned to the MEP's MA. The value 0
indicates that either the Primary VID is that of the
MEP's MA, or that the MEP's MA is associated with no VID."
REFERENCE
"802.1ag clauses 12.14.7.1.3:d"
DEFVAL { 0 }
::= { fsMIEcfmMepEntry 4 }
fsMIEcfmMepActive OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Administrative state of the MEP
A Boolean indicating the administrative state of the MEP.
True indicates that the MEP is to function normally, and
false that it is to cease functioning."
REFERENCE
"802.1ag clauses 12.14.7.1.3:e and 20.9.1"
DEFVAL { false }
::= { fsMIEcfmMepEntry 5 }
fsMIEcfmMepFngState OBJECT-TYPE
SYNTAX FsMIEcfmFngState
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current state of the MEP Fault Notification Generator
State Machine.
"
REFERENCE
"802.1ag clauses 12.14.7.1.3:f and 20.35"
DEFVAL { fngReset }
::= { fsMIEcfmMepEntry 6 }
fsMIEcfmMepCciEnabled OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"If set to true, the MEP will generate CCM messages."
REFERENCE
"802.1ag clauses 12.14.7.1.3:g and 20.10.1"
DEFVAL { false }
::= { fsMIEcfmMepEntry 7 }
fsMIEcfmMepCcmLtmPriority OBJECT-TYPE
SYNTAX Unsigned32 (0..7)
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The priority value for CCMs and LTMs transmitted by the MEP.
Default Value in the highest priority value allowed to pass
through the bridge port for any of this MEPs VIDs.
The management entity can obtain the default value for this
variable from the priority regeneration table by extracting the
highest priority value in this table on this MEPs bridge port.
(1 is lowest, then 2, then 0, then 3-7).
"
REFERENCE
"802.1ag clause 12.14.7.1.3:h"
::= { fsMIEcfmMepEntry 8 }
fsMIEcfmMepMacAddress OBJECT-TYPE
SYNTAX MacAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"MAC address of the MEP. For MEPs that do not possess a MAC address
this value will be all zeros. Such a MEP will be present in the
MPLS TP transport networks."
REFERENCE
"802.1ag clause 12.14.7.1.3:i and 19.4"
::= { fsMIEcfmMepEntry 9 }
fsMIEcfmMepLowPrDef OBJECT-TYPE
SYNTAX FsMIEcfmLowestAlarmPri
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"An integer value specifying the lowest priority defect
that is allowed to generate fault alarm.
"
REFERENCE
"802.1ag clause 12.14.7.1.3:k and 20.9.5 and Table 20-1"
DEFVAL { macRemErrXcon }
::= { fsMIEcfmMepEntry 10}
fsMIEcfmMepFngAlarmTime OBJECT-TYPE
SYNTAX TimeInterval (250..1000)
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The time that defects must be present before a Fault Alarm is
issued (fngAlarmTime. 20.33.3) (default 2.5s).
"
REFERENCE
"802.1ag clauses 12.14.7.1.3:l and 20.33.3"
DEFVAL { 250 }
::= { fsMIEcfmMepEntry 11 }
fsMIEcfmMepFngResetTime OBJECT-TYPE
SYNTAX TimeInterval (250..1000)
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The time that defects must be absent before re-enabling a
Fault Alarm (fngResetTime, 20.33.4) (default 10s).
"
REFERENCE
"802.1ag clauses 12.14.7.1.3:m and 20.33.4"
DEFVAL { 1000 }
::= { fsMIEcfmMepEntry 12 }
fsMIEcfmMepHighestPrDefect OBJECT-TYPE
SYNTAX FsMIEcfmHighestDefectPri
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The highest priority defect that has been present since the
MEPs Fault Notification Generator State Machine was last in
the FNG_RESET state.
"
REFERENCE
"802.1ag clause 12.14.7.1.3:n 20.33.9 and Table 21-1"
::= { fsMIEcfmMepEntry 13 }
fsMIEcfmMepDefects OBJECT-TYPE
SYNTAX FsMIEcfmMepDefects
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"A vector of Boolean error conditions from Table 20-1, any of
which may be true:
DefRDICCM(1)
DefMACstatus(2)
DefRemoteCCM(3)
DefErrorCCM(4)
DefXconCCM(5)
"
REFERENCE
".1ag clauses 12.14.7.1.3:o, 12.14.7.1.3:p, 12.14.7.1.3:q,
12.14.7.1.3:r, 12.14.7.1.3:s, 20.21.3, 20.23.3, 20.33.5,
20.33.6, 20.33.7."
::= { fsMIEcfmMepEntry 14 }
fsMIEcfmMepErrorCcmLastFailure OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(1..1522))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The last-received CCM that triggered an DefErrorCCM fault."
REFERENCE
"802.1ag clauses 12.14.7.1.3:t and 20.21.2"
::= { fsMIEcfmMepEntry 15 }
fsMIEcfmMepXconCcmLastFailure OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(1..1522))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The last-received CCM that triggered a DefXconCCM fault."
REFERENCE
"802.1ag clauses 12.14.7.1.3:u and 20.23.2"
::= { fsMIEcfmMepEntry 16 }
fsMIEcfmMepCcmSequenceErrors OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The total number of out-of-sequence CCMs received from all
remote MEPs.
"
REFERENCE
"802.1ag clauses 12.14.7.1.3:v and 20.16.12"
::= { fsMIEcfmMepEntry 17 }
fsMIEcfmMepCciSentCcms OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Total number of Continuity Check messages transmitted."
REFERENCE
"802.1ag clauses 12.14.7.1.3:w and 20.10.2"
::= { fsMIEcfmMepEntry 18 }
fsMIEcfmMepNextLbmTransId OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Next sequence number/transaction identifier to be sent in a
Loopback message. This sequence number can be zero because
it wraps around.
"
REFERENCE
"802.1ag clauses 12.14.7.1.3:x and 20.28.2"
::= { fsMIEcfmMepEntry 19 }
fsMIEcfmMepLbrIn OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Total number of valid, in-order Loopback Replies received."
REFERENCE
"802.1ag clause 12.14.7.1.3:y and 20.31.1"
::= { fsMIEcfmMepEntry 20 }
fsMIEcfmMepLbrInOutOfOrder OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The total number of valid, out-of-order Loopback Replies
received.
"
REFERENCE
"802.1ag clause 12.14.7.1.3:z and 20.31.1"
::= { fsMIEcfmMepEntry 21 }
fsMIEcfmMepLbrBadMsdu OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"(optional) The total number of LBRs received whose
mac_service_data_unit did not match (except for the OpCode)
that of the corresponding LBM (20.2.3).
"
REFERENCE
"802.1ag clause 12.14.7.1.3:aa 20.2.3"
::= { fsMIEcfmMepEntry 22}
fsMIEcfmMepLtmNextSeqNumber OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Next transaction identifier/sequence number to be sent in a
Linktrace message. This sequence number can be zero because
it wraps around.
"
REFERENCE
"802.1ag clause 12.14.7.1.3:ab and 20.36.1"
::= { fsMIEcfmMepEntry 23 }
fsMIEcfmMepUnexpLtrIn OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The total number of unexpected LTRs received (20.39.1).
"
REFERENCE
"802.1ag clause 12.14.7.1.3:ac 20.39.1"
::= { fsMIEcfmMepEntry 24 }
fsMIEcfmMepLbrOut OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Total number of Loopback Replies transmitted."
REFERENCE
"802.1ag clause 12.14.7.1.3:ad and 20.26.2"
::= { fsMIEcfmMepEntry 25 }
fsMIEcfmMepTransmitLbmStatus OBJECT-TYPE
SYNTAX FsMIEcfmTransmitStatus
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"A Enumerated value set to 'transmit'to initiate LBM transmission.
Set to 'ready' or 'notReady' by the MEP Loopback Initiator State Machine."
DEFVAL { ready }
::= { fsMIEcfmMepEntry 26 }
fsMIEcfmMepTransmitLbmDestMacAddress OBJECT-TYPE
SYNTAX MacAddress
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The Target MAC Address Field to be transmitted: A unicast
destination MAC address.
This address will be used if the value of the column
fsMIEcfmMepTransmitLbmDestIsMepId is 'false'.
"
REFERENCE
"802.1ag clause 12.14.7.3.2:b"
::= { fsMIEcfmMepEntry 27 }
fsMIEcfmMepTransmitLbmDestMepId OBJECT-TYPE
SYNTAX FsMIEcfmMepIdOrZero
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The Maintenance association End Point Identifier of another
MEP in the same Maintenance Association to which the LBM is
to be sent.
This address will be used if the value of the column
fsMIEcfmMepTransmitLbmDestIsMepId is 'true'.
"
REFERENCE
"802.1ag clause 12.14.7.3.2:b"
::= { fsMIEcfmMepEntry 28 }
fsMIEcfmMepTransmitLbmDestIsMepId OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"True indicates that MEPID of the target MEP is used for
Loopback transmission.
False indicates that unicast destination MAC address of the
target MEP is used for Loopback transmission.
"
REFERENCE
"802.1ag clause 12.14.7.3.2:b"
::= {fsMIEcfmMepEntry 29 }
fsMIEcfmMepTransmitLbmMessages OBJECT-TYPE
SYNTAX Integer32(1..1024)
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The number of Loopback messages to be transmitted."
REFERENCE
"802.1ag clause 12.14.7.3.2:c"
DEFVAL { 1 }
::= {fsMIEcfmMepEntry 30 }
fsMIEcfmMepTransmitLbmDataTlv OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(0..1500))
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"An arbitrary amount of data to be included in the Data TLV,
if the Data TLV is selected to be sent.
"
REFERENCE
"802.1ag clause 12.14.7.3.2:d"
::= { fsMIEcfmMepEntry 31 }
fsMIEcfmMepTransmitLbmVlanPriority OBJECT-TYPE
SYNTAX Integer32(0..7)
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Priority. 3 bit value to be used in the VLAN tag, if present
in the transmitted frame.
The default value is CCM priority.
"
REFERENCE
"802.1ag clause 12.14.7.3.2:e"
::= { fsMIEcfmMepEntry 32 }
fsMIEcfmMepTransmitLbmVlanDropEnable OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Drop Enable bit value to be used in the VLAN tag, if present
in the transmitted frame.
For more information about VLAN Drop Enable, please check
IEEE 802.1ad.
"
REFERENCE
"802.1ag clause 12.14.7.3.2:e"
DEFVAL { true }
::= { fsMIEcfmMepEntry 33 }
fsMIEcfmMepTransmitLbmResultOK OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates the result of the operation:
- true The Loopback Message(s) will be
(or has been) sent.
- false The Loopback Message(s) will not
be sent.
"
REFERENCE
"802.1ag clause 12.14.7.3.3:a"
DEFVAL { true }
::= { fsMIEcfmMepEntry 34 }
fsMIEcfmMepTransmitLbmSeqNumber OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Loopback Transaction Identifier
(fsMIEcfmMepNextLbmTransId) of the first LBM (to be) sent.
The value returned is undefined if
fsMIEcfmMepTransmitLbmResultOK is false.
"
REFERENCE
"802.1ag clause 12.14.7.3.3:a"
::= { fsMIEcfmMepEntry 35 }
fsMIEcfmMepTransmitLtmStatus OBJECT-TYPE
SYNTAX FsMIEcfmTransmitStatus
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"A Enumerated value set to 'transmit' to initiate LTM transmission.
Set to 'ready' or 'notReady' by the MEP Linktrace Initiator State
Machine.
"
DEFVAL { ready }
::= { fsMIEcfmMepEntry 36 }
fsMIEcfmMepTransmitLtmFlags OBJECT-TYPE
SYNTAX BITS {
useFDBonly (0)
}
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The flags field for LTMs transmitted by the MEP."
REFERENCE
"802.1ag clause 12.14.7.4.2:b and 20.37.1"
DEFVAL {0}
::= { fsMIEcfmMepEntry 37 }
fsMIEcfmMepTransmitLtmTargetMacAddress OBJECT-TYPE
SYNTAX MacAddress
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The Target MAC Address Field to be transmitted: A unicast
destination MAC address.
This address will be used if the value of the column
fsMIEcfmMepTransmitLtmTargetIsMepId is 'false'.
"
REFERENCE
"802.1ag clause 12.14.7.4.2:c"
::= { fsMIEcfmMepEntry 38 }
fsMIEcfmMepTransmitLtmTargetMepId OBJECT-TYPE
SYNTAX FsMIEcfmMepIdOrZero
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"An indication of the Target MAC Address Field to be
transmitted:
The Maintenance association End Point Identifier of
another MEP in the same Maintenance Association
This address will be used if the value of the column
fsMIEcfmMepTransmitLtmTargetIsMepId is 'true'.
"
REFERENCE
"802.1ag clause 12.14.7.4.2:c"
::= { fsMIEcfmMepEntry 39 }
fsMIEcfmMepTransmitLtmTargetIsMepId OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"True indicates that MEPID of the target MEP is used for
Linktrace transmission.
False indicates that unicast destination MAC address of the
target MEP is used for Loopback transmission.
"
REFERENCE
"802.1ag clause 12.14.7.4.2:c"
::= { fsMIEcfmMepEntry 40 }
fsMIEcfmMepTransmitLtmTtl OBJECT-TYPE
SYNTAX Unsigned32 (0..255)
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The LTM TTL field. Default value, if not specified, is 64.
The TTL field indicates the number of hops remaining to the
LTM. Decremented by 1 by each Linktrace Responder that
handles the LTM. The value received in the LTM is returned
in the LTR. If 0 on input, the LTM is not transmitted to the
next hop.
"
REFERENCE
"802.1ag clause 12.14.7.4.2:d and 21.8.4"
DEFVAL {64}
::= { fsMIEcfmMepEntry 41 }
fsMIEcfmMepTransmitLtmResult OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates the result of the operation:
- true The Linktrace Message will be (or has been) sent.
- false The Linktrace Message will not be sent"
REFERENCE
"802.1ag clause 12.14.7.4.3:a"
DEFVAL { true }
::= { fsMIEcfmMepEntry 42 }
fsMIEcfmMepTransmitLtmSeqNumber OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The LTM Transaction Identifier
(fsMIEcfmMepLtmNextSeqNumber) of the LTM sent.
The value returned is undefined if
fsMIEcfmMepTransmitLtmResult is false.
"
REFERENCE
"802.1ag clause 12.14.7.4.3:a"
::= { fsMIEcfmMepEntry 43 }
fsMIEcfmMepTransmitLtmEgressIdentifier OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(8))
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Identifies the MEP Linktrace Initiator that is originating,
or the Linktrace Responder that is forwarding, this LTM.
The low-order six octets contain a 48-bit IEEE MAC address
unique to the system in which the MEP Linktrace Initiator
or Linktrace Responder resides. The high-order two octets
contain a value sufficient to uniquely identify the MEP
Linktrace Initiator or Linktrace Responder within that system.
For most Bridges, the address of any MAC attached to the
Bridge will suffice for the low-order six octets, and 0 for
the high-order octets. In some situations, e.g. if multiple
virtual Bridges utilizing emulated LANs are implemented in a
single physical system, the high-order two octets can be used
to differentiate among the transmitting entities.
The value returned is undefined if
fsMIEcfmMepTransmitLtmResult is false.
"
REFERENCE
"802.1ag clause 12.14.7.4.3:b and 21.8.8"
::= { fsMIEcfmMepEntry 44 }
fsMIEcfmMepRowStatus OBJECT-TYPE
SYNTAX RowStatus
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The status of the row.
The writable columns in a row can not be changed if the row
is active. All columns must have a valid value before a row
can be activated.
"
::= { fsMIEcfmMepEntry 45 }
fsMIEcfmMepCcmOffload OBJECT-TYPE
SYNTAX INTEGER { enabled(1), disabled(2) }
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The administrative MEP CCMOffloading status.
when value 'enabled' (1) is set The CCM Offloading starts for
the MEP in the system.when value 'disabled' (2) is set then
CCMOffloading will disabled for the MEP in system.
By Default CCMOffloading is disabled."
DEFVAL { disabled }
::= { fsMIEcfmMepEntry 46 }
-- ----------------------------------------------------------------------------
-- The MEP Table - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The Linktrace Reply Table - Start
-- ----------------------------------------------------------------------------
fsMIEcfmLtrTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmLtrEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table extends the MEP table and contains a list of
Linktrace replies received by a specific MEP in response to
a linktrace message.
SNMP SMI does not allow to state in a MIB that an object in
a table is an array. The solution is to take the index (or
indices) of the first table and add one or more indices.
"
REFERENCE
"802.1ag clause 12.14.7.5"
::= { fsMIEcfmContext 8 }
fsMIEcfmLtrEntry OBJECT-TYPE
SYNTAX FsMIEcfmLtrEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Linktrace Reply table entry."
INDEX { fsMIEcfmContextId,
fsMIEcfmMdIndex,
fsMIEcfmMaIndex,
fsMIEcfmMepIdentifier,
fsMIEcfmLtrSeqNumber,
fsMIEcfmLtrReceiveOrder
}
::= { fsMIEcfmLtrTable 1 }
FsMIEcfmLtrEntry ::= SEQUENCE {
fsMIEcfmLtrSeqNumber Unsigned32,
fsMIEcfmLtrReceiveOrder Unsigned32,
fsMIEcfmLtrTtl Unsigned32,
fsMIEcfmLtrForwarded TruthValue,
fsMIEcfmLtrTerminalMep TruthValue,
fsMIEcfmLtrLastEgressIdentifier OCTET STRING,
fsMIEcfmLtrNextEgressIdentifier OCTET STRING,
fsMIEcfmLtrRelay FsMIEcfmRelayActionFieldValue,
fsMIEcfmLtrChassisIdSubtype LldpChassisIdSubtype,
fsMIEcfmLtrChassisId LldpChassisId,
fsMIEcfmLtrManAddressDomain TDomain,
fsMIEcfmLtrManAddress TAddress,
fsMIEcfmLtrIngress FsMIEcfmIngressActionFieldValue,
fsMIEcfmLtrIngressMac MacAddress,
fsMIEcfmLtrIngressPortIdSubtype LldpPortIdSubtype,
fsMIEcfmLtrIngressPortId LldpPortId,
fsMIEcfmLtrEgress FsMIEcfmEgressActionFieldValue,
fsMIEcfmLtrEgressMac MacAddress,
fsMIEcfmLtrEgressPortIdSubtype LldpPortIdSubtype,
fsMIEcfmLtrEgressPortId LldpPortId,
fsMIEcfmLtrOrganizationSpecificTlv OCTET STRING
}
fsMIEcfmLtrSeqNumber OBJECT-TYPE
SYNTAX Unsigned32 (0..4294967295)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Transaction identifier/Sequence number returned by a previous
transmit linktrace message command, indicating which LTM's
response is going to be returned.
"
REFERENCE
"802.1ag clause 12.14.7.5.2:b"
::= { fsMIEcfmLtrEntry 1}
fsMIEcfmLtrReceiveOrder OBJECT-TYPE
SYNTAX Unsigned32(1..4294967295)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"An index to distinguish among multiple LTRs with the same LTR
Transaction Identifier field value. fsMIEcfmLtrReceiveOrder
are assigned sequentially from 1, in the order that the
Linktrace Initiator received the LTRs.
"
REFERENCE
"802.1ag clause 12.14.7.5.2:c"
::= { fsMIEcfmLtrEntry 2 }
fsMIEcfmLtrTtl OBJECT-TYPE
SYNTAX Unsigned32 (0..255)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"TTL field value for a returned LTR."
REFERENCE
"802.1ag clause 12.14.7.5 and 20.36.2.2"
::= { fsMIEcfmLtrEntry 3 }
fsMIEcfmLtrForwarded OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates if a LTM was forwarded by the responding MP, as
returned in the 'FwdYes' flag of the flags field.
"
REFERENCE
"802.1ag clauses 12.14.7.5.3:c and 20.36.2.1"
::= { fsMIEcfmLtrEntry 4 }
fsMIEcfmLtrTerminalMep OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"A boolean value stating whether the forwarded LTM reached a
MEP enclosing its MA, as returned in the Terminal MEP flag of
the Flags field.
"
REFERENCE
"802.1ag clauses 12.14.7.5.3:d and 20.36.2.1"
::= { fsMIEcfmLtrEntry 5 }
fsMIEcfmLtrLastEgressIdentifier OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(8))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"An octet field holding the Last Egress Identifier returned
in the LTR Egress Identifier TLV of the LTR.
The Last Egress Identifier identifies the MEP Linktrace
Initiator that originated, or the Linktrace Responder that
forwarded, the LTM to which this LTR is the response. This
is the same value as the Egress Identifier TLV of that LTM.
"
REFERENCE
"802.1ag clauses 12.14.7.5.3:e and 20.36.2.3"
::= { fsMIEcfmLtrEntry 6 }
fsMIEcfmLtrNextEgressIdentifier OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(8))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"An octet field holding the Next Egress Identifier returned
in the LTR Egress Identifier TLV of the LTR. The Next Egress
Identifier Identifies the Linktrace Responder that
transmitted this LTR, and can forward the LTM to the next
hop. This is the same value as the Egress Identifier TLV of
the forwarded LTM, if any. If the FwdYes bit of the Flags
field is false, the contents of this field are undefined,
i.e. any value can be transmitted, and the field is ignored
by the receiver.
"
REFERENCE
"802.1ag clauses 12.14.7.5.3:f and 20.36.2.4"
::= { fsMIEcfmLtrEntry 7 }
fsMIEcfmLtrRelay OBJECT-TYPE
SYNTAX FsMIEcfmRelayActionFieldValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value returned in the Relay Action field."
REFERENCE
"802.1ag clauses 12.14.7.5.3:g and 20.36.2.5"
::= { fsMIEcfmLtrEntry 8 }
fsMIEcfmLtrChassisIdSubtype OBJECT-TYPE
SYNTAX LldpChassisIdSubtype
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This object specifies the format of the Chassis ID returned
in the Sender ID TLV of the LTR, if any. This value is
meaningless if the fsMIEcfmLtrChassisId has a length of 0."
REFERENCE
"802.1ag clauses 12.14.7.5.3:h and 21.5.3.2"
::= { fsMIEcfmLtrEntry 9 }
fsMIEcfmLtrChassisId OBJECT-TYPE
SYNTAX LldpChassisId
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Chassis ID returned in the Sender ID TLV of the LTR, if
any. The format of this object is determined by the
value of the fsMIEcfmLtrChassisIdSubtype object.
"
REFERENCE
"802.1ag clauses 12.14.7.5.3:i and 21.5.3.3"
::= { fsMIEcfmLtrEntry 10 }
fsMIEcfmLtrManAddressDomain OBJECT-TYPE
SYNTAX TDomain
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The TDomain that identifies the type and format of
the related fsMIEcfmMepDbManAddress object, used to access
the SNMP agent of the system transmitting the LTR. Received
in the LTR Sender ID TLV from that system.
Typical values will be one of (not all inclusive) list:
snmpUDPDomain (from SNMPv2-TM, RFC3417)
snmpIeee802Domain (from SNMP-IEEE802-TM-MIB, RFC4789)
The value 'zeroDotZero' (from RFC2578) indicates 'no LTR
Sender ID TLV received', in which case the related object
fsMIEcfmMepDbManAddress must have a zero-length OCTET STRING
as a value.
"
REFERENCE
"802.1ag clauses 12.14.7.5.3:j, 21.5.3.5, 21.9.6"
::= { fsMIEcfmLtrEntry 11 }
fsMIEcfmLtrManAddress OBJECT-TYPE
SYNTAX TAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The TAddress that can be used to access the SNMP
agent of the system transmitting the CCM, received in the CCM
Sender ID TLV from that system.
If the related object fsMIEcfmLtrManAddressDomain contains
the value 'zeroDotZero', this object fsMIEcfmLtrManAddress
must have a zero-length OCTET STRING as a value.
"
REFERENCE
"802.1ag clauses 12.14.7.5.3:j, 21.5.3.7, 21.9.6"
::= { fsMIEcfmLtrEntry 12 }
fsMIEcfmLtrIngress OBJECT-TYPE
SYNTAX FsMIEcfmIngressActionFieldValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The value returned in the Ingress Action Field of the LTM."
REFERENCE
"802.1ag clauses 12.14.7.5.3:k and 20.36.2.6"
::= { fsMIEcfmLtrEntry 13 }
fsMIEcfmLtrIngressMac OBJECT-TYPE
SYNTAX MacAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"MAC address returned in the ingress MAC address field."
REFERENCE
"802.1ag clauses 12.14.7.5.3:l and 20.36.2.7"
::= { fsMIEcfmLtrEntry 14 }
fsMIEcfmLtrIngressPortIdSubtype OBJECT-TYPE
SYNTAX LldpPortIdSubtype
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Format of the Ingress Port ID."
REFERENCE
"802.1ag clauses 12.14.7.5.3:m and 20.36.2.8"
::= { fsMIEcfmLtrEntry 15 }
fsMIEcfmLtrIngressPortId OBJECT-TYPE
SYNTAX LldpPortId
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Ingress Port ID. The format of this object is determined by
the value of the fsMIEcfmLtrIngressPortIdSubtype object.
"
REFERENCE
"802.1ag clauses 12.14.7.5.3:n and 20.36.2.9"
::= { fsMIEcfmLtrEntry 16 }
fsMIEcfmLtrEgress OBJECT-TYPE
SYNTAX FsMIEcfmEgressActionFieldValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The value returned in the Egress Action Field of the LTM."
REFERENCE
"802.1ag clauses 12.14.7.5.3:o and 20.36.2.10"
::= { fsMIEcfmLtrEntry 17 }
fsMIEcfmLtrEgressMac OBJECT-TYPE
SYNTAX MacAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"MAC address returned in the egress MAC address field."
REFERENCE
"802.1ag clauses 12.14.7.5.3:p and 20.36.2.11"
::= { fsMIEcfmLtrEntry 18 }
fsMIEcfmLtrEgressPortIdSubtype OBJECT-TYPE
SYNTAX LldpPortIdSubtype
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Format of the egress Port ID."
REFERENCE
"802.1ag clauses 12.14.7.5.3:q and 20.36.2.12"
::= { fsMIEcfmLtrEntry 19 }
fsMIEcfmLtrEgressPortId OBJECT-TYPE
SYNTAX LldpPortId
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Egress Port ID. The format of this object is determined by
the value of the fsMIEcfmLtrEgressPortIdSubtype object.
"
REFERENCE
"802.1ag clauses 12.14.7.5.3:r and 20.36.2.13"
::= { fsMIEcfmLtrEntry 20 }
fsMIEcfmLtrOrganizationSpecificTlv OBJECT-TYPE
SYNTAX OCTET STRING (SIZE(0|4..1500))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"All Organization specific TLVs returned in the LTR, if
any. Includes all octets including and following the TLV
Length field of each TLV, concatenated together."
REFERENCE
"802.1ag clauses 12.14.7.5.3:s, 21.5.2"
::= { fsMIEcfmLtrEntry 21 }
-- ----------------------------------------------------------------------------
-- The Linktrace Reply Table - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- The MEP Database Table - Start
-- ----------------------------------------------------------------------------
fsMIEcfmMepDbTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmMepDbEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The MEP Database. A database, maintained by every MEP, that
maintains received information about other MEPs in the
Maintenance Domain.
The SMI does not allow to state in a MIB that an object in
a table is an array. The solution is to take the index (or
indices) of the first table and add one or more indices.
"
REFERENCE
"802.1ag clause 19.2.15"
::= { fsMIEcfmContext 9 }
fsMIEcfmMepDbEntry OBJECT-TYPE
SYNTAX FsMIEcfmMepDbEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The MEP Database table entry."
INDEX { fsMIEcfmContextId,
fsMIEcfmMdIndex,
fsMIEcfmMaIndex,
fsMIEcfmMepIdentifier,
fsMIEcfmMepDbRMepIdentifier
}
::= { fsMIEcfmMepDbTable 1 }
FsMIEcfmMepDbEntry ::= SEQUENCE {
fsMIEcfmMepDbRMepIdentifier FsMIEcfmMepId,
fsMIEcfmMepDbRMepState FsMIEcfmRemoteMepState,
fsMIEcfmMepDbRMepFailedOkTime TimeStamp,
fsMIEcfmMepDbMacAddress MacAddress,
fsMIEcfmMepDbRdi TruthValue,
fsMIEcfmMepDbPortStatusTlv FsMIEcfmPortStatus,
fsMIEcfmMepDbInterfaceStatusTlv FsMIEcfmInterfaceStatus,
fsMIEcfmMepDbChassisIdSubtype LldpChassisIdSubtype,
fsMIEcfmMepDbChassisId LldpChassisId,
fsMIEcfmMepDbManAddressDomain TDomain,
fsMIEcfmMepDbManAddress TAddress
}
fsMIEcfmMepDbRMepIdentifier OBJECT-TYPE
SYNTAX FsMIEcfmMepId
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Maintenance association End Point Identifier of a remote MEP
whose information from the MEP Database is to be returned.
"
REFERENCE
"802.1ag clause 12.14.7.6.2:b"
::= { fsMIEcfmMepDbEntry 1 }
fsMIEcfmMepDbRMepState OBJECT-TYPE
SYNTAX FsMIEcfmRemoteMepState
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The operational state of the remote MEP IFF State machines."
REFERENCE
"802.1ag clause 12.14.7.6.3:b and 20.22"
::= { fsMIEcfmMepDbEntry 2}
fsMIEcfmMepDbRMepFailedOkTime OBJECT-TYPE
SYNTAX TimeStamp
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The time (SysUpTime) at which the IFF Remote MEP state machine
last entered either the RMEP_FAILED or RMEP_OK state.
"
REFERENCE
"802.1ag clause 12.14.7.6.3:c"
::= { fsMIEcfmMepDbEntry 3 }
fsMIEcfmMepDbMacAddress OBJECT-TYPE
SYNTAX MacAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The MAC address of the remote MEP."
REFERENCE
"802.1ag clause 12.14.7.6.3:d and 20.19.7"
::= { fsMIEcfmMepDbEntry 4 }
fsMIEcfmMepDbRdi OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"State of the RDI bit in the last received CCM (true for
RDI=1), or false if none has been received.
"
REFERENCE
"802.1ag clauses 12.14.7.6.3:e and 20.19.2"
::= { fsMIEcfmMepDbEntry 5 }
fsMIEcfmMepDbPortStatusTlv OBJECT-TYPE
SYNTAX FsMIEcfmPortStatus
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"An enumerated value of the Port status TLV received in the
last CCM from the remote MEP or the default value
psNoPortStateTLV indicating either no CCM has been received,
or that nor port status TLV was received in the last CCM.
"
REFERENCE
"802.1ag clause 12.14.7.6.3:f and 20.19.3"
DEFVAL { psNoPortStateTLV }
::= { fsMIEcfmMepDbEntry 6}
fsMIEcfmMepDbInterfaceStatusTlv OBJECT-TYPE
SYNTAX FsMIEcfmInterfaceStatus
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"An enumerated value of the Interface status TLV received
in the last CCM from the remote MEP or the default value
isNoInterfaceStatus TLV indicating either no CCM has been
received, or that no interface status TLV was received in
the last CCM.
"
REFERENCE
"802.1ag clause 12.14.7.6.3:g and 20.19.4"
DEFVAL { isNoInterfaceStatusTLV }
::= { fsMIEcfmMepDbEntry 7}
fsMIEcfmMepDbChassisIdSubtype OBJECT-TYPE
SYNTAX LldpChassisIdSubtype
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This object specifies the format of the Chassis ID received
in the last CCM."
REFERENCE
"802.1ag clauses 12.14.7.6.3:h and 21.5.3.2"
DEFVAL { 4 }
::= { fsMIEcfmMepDbEntry 8 }
fsMIEcfmMepDbChassisId OBJECT-TYPE
SYNTAX LldpChassisId
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Chassis ID. The format of this object is determined by the
value of the fsMIEcfmLtrChassisIdSubtype object.
"
REFERENCE
"802.1ag clauses 12.14.7.6.3:h and 21.5.3.3"
::= { fsMIEcfmMepDbEntry 9 }
fsMIEcfmMepDbManAddressDomain OBJECT-TYPE
SYNTAX TDomain
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The TDomain that identifies the type and format of
the related fsMIEcfmMepDbManAddress object, used to access
the SNMP agent of the system transmitting the CCM. Received
in the CCM Sender ID TLV from that system.
Typical values will be one of (not all inclusive) list:
snmpUDPDomain (from SNMPv2-TM, RFC3417)
snmpIeee802Domain (from SNMP-IEEE802-TM-MIB, RFC4789)
The value 'zeroDotZero' (from RFC2578) indicates 'no LTR
Sender ID TLV received', in which case the related object
fsMIEcfmMepDbManAddress must have a zero-length OCTET STRING
as a value.
"
REFERENCE
"802.1ag clauses 12.14.7.6.3:h, 21.5.3.5, 21.6.7"
::= { fsMIEcfmMepDbEntry 10 }
fsMIEcfmMepDbManAddress OBJECT-TYPE
SYNTAX TAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The TAddress that can be used to access the SNMP
agent of the system transmitting the CCM, received in the CCM
Sender ID TLV from that system.
If the related object fsMIEcfmMepDbManAddressDomain contains
the value 'zeroDotZero', this object fsMIEcfmMepDbManAddress
must have a zero-length OCTET STRING as a value.
"
REFERENCE
"802.1ag clauses 12.14.7.6.3:h, 21.5.3.7, 21.6.7"
::= { fsMIEcfmMepDbEntry 11 }
-- ----------------------------------------------------------------------------
-- The MEP Database Table - End
-- ----------------------------------------------------------------------------
-- -------------------------------------
-- fsMIEcfmMipTable - Start
-- -------------------------------------
fsMIEcfmMipTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmMipEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Maintenance Intermediate Point (MIP) table.
Each row in the table represents a different MIP.
A MIP consists two MIP Half Functions (MHFs) on a
single Bridge Port, an Up MHF and a Down MHF."
::= { fsMIEcfmSystem 6 }
fsMIEcfmMipEntry OBJECT-TYPE
SYNTAX FsMIEcfmMipEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The MIP table entry"
INDEX { fsMIEcfmMipIfIndex,
fsMIEcfmMipMdLevel,
fsMIEcfmMipVid
}
::= { fsMIEcfmMipTable 1 }
FsMIEcfmMipEntry ::=
SEQUENCE {
fsMIEcfmMipIfIndex InterfaceIndex,
fsMIEcfmMipMdLevel Integer32 ,
fsMIEcfmMipVid VlanId,
fsMIEcfmMipActive TruthValue,
fsMIEcfmMipRowStatus RowStatus
}
fsMIEcfmMipIfIndex OBJECT-TYPE
SYNTAX InterfaceIndex
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This object is the interface index of the interface either a
bridge port, or an aggregated IEEE 802.1 link within a bridge
port, to which the MIP is attached."
::= { fsMIEcfmMipEntry 1 }
fsMIEcfmMipMdLevel OBJECT-TYPE
SYNTAX Integer32 (0..7)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Maintenance Domain Level at which MIP is configured."
::= { fsMIEcfmMipEntry 2 }
fsMIEcfmMipVid OBJECT-TYPE
SYNTAX VlanId
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
" Vlan Identifier to which MIP is attached."
::= { fsMIEcfmMipEntry 3 }
fsMIEcfmMipActive OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"Administrative state of the MIP
A Boolean indicating the administrative state of the MIP.
True indicates that the MIP is to function normally, and
false that it is to cease functioning."
::= { fsMIEcfmMipEntry 4 }
fsMIEcfmMipRowStatus OBJECT-TYPE
SYNTAX RowStatus
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The status of the row.
The writable columns in a row can not be changed if the row
is active. All columns must have a valid value before a row
can be activated.
"
::= { fsMIEcfmMipEntry 5 }
-- -------------------------------------
-- fsMIEcfmMipTable - End
-- -------------------------------------
-- -------------------------------------
-- fsMIEcfmDynMipPreventionTable - Start
-- -------------------------------------
fsMIEcfmDynMipPreventionTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmDynMipPreventionEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Dynamic Maintenance Intermediate Point (MIP) Prevention table.
An entry in this table will restrict the automatic creation of
MIPs for the corresponding index (IfIndex, MD Level and VLAN Id)."
::= { fsMIEcfmSystem 7 }
fsMIEcfmDynMipPreventionEntry OBJECT-TYPE
SYNTAX FsMIEcfmDynMipPreventionEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Dyanamic MIP Prevention table entry"
INDEX { fsMIEcfmMipIfIndex,
fsMIEcfmMipMdLevel,
fsMIEcfmMipVid
}
::= { fsMIEcfmDynMipPreventionTable 1 }
FsMIEcfmDynMipPreventionEntry ::=
SEQUENCE {
fsMIEcfmDynMipPreventionRowStatus RowStatus
}
fsMIEcfmDynMipPreventionRowStatus OBJECT-TYPE
SYNTAX RowStatus {
createAndGo(4),
destroy(6)
}
MAX-ACCESS read-create
STATUS current
DESCRIPTION
"The status of the row.
A row can be created in this table by assigning the value
'createAndGo' for the status object. Every 'active' row indicates
that the automatic creation of MIP will be restricted.
And an 'active' row can be deleted by assigning the value
'destroy' to the status."
::= { fsMIEcfmDynMipPreventionEntry 1 }
-- -------------------------------------
-- fsMIEcfmDynMipPreventionTable - End
-- -------------------------------------
-- -------------------------------------
-- fsMIEcfmMipCcmDbTable - Start
-- -------------------------------------
fsMIEcfmMipCcmDbTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmMipCcmDbEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"It is a list of every distinct {FID, source_address,
IfIndex} triple from all of the CCMs presented
to all of the Bridge.s MPs. Continuity Check Receivers
since the Bridge was last reset. Entries in the MIP CCM
Database are timed out very slowly, on the order of one day,
so that their information is available for fault isolation long
after the information is no longer used for frame forwarding."
::= { fsMIEcfmContext 10 }
fsMIEcfmMipCcmDbEntry OBJECT-TYPE
SYNTAX FsMIEcfmMipCcmDbEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The MIP CCM DB table entry"
INDEX { fsMIEcfmContextId, fsMIEcfmMipCcmFid, fsMIEcfmMipCcmSrcAddr }
::= { fsMIEcfmMipCcmDbTable 1 }
FsMIEcfmMipCcmDbEntry ::= SEQUENCE {
fsMIEcfmMipCcmFid Unsigned32,
fsMIEcfmMipCcmSrcAddr MacAddress,
fsMIEcfmMipCcmIfIndex InterfaceIndex
}
fsMIEcfmMipCcmFid OBJECT-TYPE
SYNTAX Unsigned32 (1..4094)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Filtering database id (FID) is the VLAN ID of MEP from which
CCM is recieved, that will be used along with source MacAddress for
frame forwarding."
::= { fsMIEcfmMipCcmDbEntry 1 }
fsMIEcfmMipCcmSrcAddr OBJECT-TYPE
SYNTAX MacAddress
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Mac Address of the MEP from which CCM is recieved."
::= { fsMIEcfmMipCcmDbEntry 2 }
fsMIEcfmMipCcmIfIndex OBJECT-TYPE
SYNTAX InterfaceIndex
MAX-ACCESS read-only
STATUS current
DESCRIPTION
" Index of interface through which CCM is recieved."
::= { fsMIEcfmMipCcmDbEntry 3 }
-- -------------------------------------
-- fsMIEcfmMipCcmDbTable - End
-- -------------------------------------
-- -------------------------------------
-- fsMIEcfmRemoteMepDbExTable - Start
-- -------------------------------------
fsMIEcfmRemoteMepDbExTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmRemoteMepDbExEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
" The MEP Database. A database, maintained by every MEP, that
maintains received information about other MEPs in the
Maintenance Domain."
::= { fsMIEcfmContext 11 }
fsMIEcfmRemoteMepDbExEntry OBJECT-TYPE
SYNTAX FsMIEcfmRemoteMepDbExEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The MEP Database table entry."
INDEX { fsMIEcfmContextId,
fsMIEcfmMdIndex,
fsMIEcfmMaIndex,
fsMIEcfmMepIdentifier,
fsMIEcfmMepDbRMepIdentifier
}
::= { fsMIEcfmRemoteMepDbExTable 1 }
FsMIEcfmRemoteMepDbExEntry ::=
SEQUENCE {
fsMIEcfmRMepCcmSequenceNum
Unsigned32,
fsMIEcfmRMepPortStatusDefect
TruthValue,
fsMIEcfmRMepInterfaceStatusDefect
TruthValue,
fsMIEcfmRMepCcmDefect
TruthValue,
fsMIEcfmRMepRDIDefect
TruthValue,
fsMIEcfmRMepMacAddress
MacAddress,
fsMIEcfmRMepRdi
TruthValue,
fsMIEcfmRMepPortStatusTlv
FsMIEcfmPortStatus,
fsMIEcfmRMepInterfaceStatusTlv
FsMIEcfmInterfaceStatus,
fsMIEcfmRMepChassisIdSubtype
LldpChassisIdSubtype,
fsMIEcfmRMepDbChassisId
LldpChassisId,
fsMIEcfmRMepManAddressDomain
TDomain,
fsMIEcfmRMepManAddress
TAddress
}
fsMIEcfmRMepCcmSequenceNum OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Sequence Number of CCM sent by Remote MEP"
::= { fsMIEcfmRemoteMepDbExEntry 1 }
fsMIEcfmRMepPortStatusDefect OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A Boolean indicating that the remote MEP is reporting a failure
in its Port-Status TLV"
::= { fsMIEcfmRemoteMepDbExEntry 2 }
fsMIEcfmRMepInterfaceStatusDefect OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A Boolean indicating that the remote MEP is reporting a failure
in its Interface-Status TLV"
::= { fsMIEcfmRemoteMepDbExEntry 3 }
fsMIEcfmRMepCcmDefect OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A Boolean indicating that no CCM has been received from the
remote MEP for at least (3.25*CCMtime(CCMinterval)) seconds"
::= { fsMIEcfmRemoteMepDbExEntry 4 }
fsMIEcfmRMepRDIDefect OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A Boolean indicating that RDI flag is received from the remote
MEP"
::= { fsMIEcfmRemoteMepDbExEntry 5 }
fsMIEcfmRMepMacAddress OBJECT-TYPE
SYNTAX MacAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The MAC address of the remote MEP."
::= { fsMIEcfmRemoteMepDbExEntry 6 }
fsMIEcfmRMepRdi OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"State of the RDI bit in the last received CCM (true for
RDI=1), or false if none has been received.
"
::= { fsMIEcfmRemoteMepDbExEntry 7 }
fsMIEcfmRMepPortStatusTlv OBJECT-TYPE
SYNTAX FsMIEcfmPortStatus
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"An enumerated value of the Port status TLV received in the
last CCM from the remote MEP or the default value
psNoPortStateTLV indicating either no CCM has been received,
or that nor port status TLV was received in the last CCM.
"
DEFVAL { psNoPortStateTLV }
::= { fsMIEcfmRemoteMepDbExEntry 8}
fsMIEcfmRMepInterfaceStatusTlv OBJECT-TYPE
SYNTAX FsMIEcfmInterfaceStatus
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"An enumerated value of the Interface status TLV received
in the last CCM from the remote MEP or the default value
isNoInterfaceStatus TLV indicating either no CCM has been
received, or that no interface status TLV was received in
the last CCM.
"
DEFVAL { isNoInterfaceStatusTLV }
::= { fsMIEcfmRemoteMepDbExEntry 9}
fsMIEcfmRMepChassisIdSubtype OBJECT-TYPE
SYNTAX LldpChassisIdSubtype
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This object specifies the format of the Chassis ID received
in the last CCM."
DEFVAL { 4 }
::= { fsMIEcfmRemoteMepDbExEntry 10 }
fsMIEcfmRMepDbChassisId OBJECT-TYPE
SYNTAX LldpChassisId
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Chassis ID. The format of this object is determined by the
value of the dot1agCfmLtrChassisIdSubtype object.
"
::= { fsMIEcfmRemoteMepDbExEntry 11 }
fsMIEcfmRMepManAddressDomain OBJECT-TYPE
SYNTAX TDomain
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The TDomain that identifies the type and format of
the related dot1agCfmMepDbManAddress object, used to access
the SNMP agent of the system transmitting the CCM. Received
in the CCM Sender ID TLV from that system.
Typical values will be one of (not all inclusive) list:
snmpUDPDomain (from SNMPv2-TM, RFC3417)
snmpIeee802Domain (from SNMP-IEEE802-TM-MIB, RFC4789)
The value 'zeroDotZero' (from RFC2578) indicates 'no LTR
Sender ID TLV received', in which case the related object
fsMIEcfmRMepManAddress must have a zero-length OCTET STRING
as a value.
"
::= { fsMIEcfmRemoteMepDbExEntry 12 }
fsMIEcfmRMepManAddress OBJECT-TYPE
SYNTAX TAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The TAddress that can be used to access the SNMP
agent of the system transmitting the CCM, received in the CCM
Sender ID TLV from that system.
If the related object fsMIEcfmRMepManAddressDomain contains
the value 'zeroDotZero', this object fsMIEcfmRMepManAddress
must have a zero-length OCTET STRING as a value.
"
::= { fsMIEcfmRemoteMepDbExEntry 13 }
-- -------------------------------------
-- fsMIEcfmRemoteMepDbExTable - End
-- -------------------------------------
-- -------------------------------------
-- fsMIEcfmLtmTable - Start
-- -------------------------------------
fsMIEcfmLtmTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmLtmEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table contains a list of parameters with which the linktrace
messages were transmitted/initiated by MEP"
::= { fsMIEcfmContext 12 }
fsMIEcfmLtmEntry OBJECT-TYPE
SYNTAX FsMIEcfmLtmEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Linktrace Message table entry."
INDEX {
fsMIEcfmContextId,
fsMIEcfmMdIndex,
fsMIEcfmMaIndex,
fsMIEcfmMepIdentifier,
fsMIEcfmLtmSeqNumber
}
::= { fsMIEcfmLtmTable 1 }
FsMIEcfmLtmEntry ::=
SEQUENCE {
fsMIEcfmLtmSeqNumber
Unsigned32,
fsMIEcfmLtmTargetMacAddress
MacAddress,
fsMIEcfmLtmTtl
Unsigned32
}
fsMIEcfmLtmSeqNumber OBJECT-TYPE
SYNTAX Unsigned32 (0..4294967295)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Transaction identifier/Sequence number returned by a previous
transmit linktrace message command, indicating which LTM's
response is going to be returned.
"
::= { fsMIEcfmLtmEntry 1}
fsMIEcfmLtmTargetMacAddress OBJECT-TYPE
SYNTAX MacAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Target MAC Address of MP for which LTM has been initiated :
A unicast destination MAC address.
"
::= { fsMIEcfmLtmEntry 2 }
fsMIEcfmLtmTtl OBJECT-TYPE
SYNTAX Unsigned32 (0..255)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The LTM TTL field, with which LTM has been initiated.
The TTL field indicates the number of hops expected to be covered
by the LTM, decremented by 1 by each Linktrace Responder that
handles the LTM. The value received in the LTM is returned
in the LTR.
"
::= { fsMIEcfmLtmEntry 3 }
-- -------------------------------------
-- fsMIEcfmLtmTable - End
-- -------------------------------------
-- -------------------------------------
-- fsMIEcfmMepExTable - Start
-- -------------------------------------
fsMIEcfmMepExTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmMepExEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Maintenance Association End Point (MEP) table.
Each row in the table represents a different MEP. A MEP is
an actively managed CFM entity, associated with a specific
DSAP of a Service Instance, which can generate and receive
CFM PDUs and track any responses. It is an end point of a
single Maintenance Association, and is an endpoint of a
separate Maintenance Entity for each of the other MEPs in
the same Maintenance Association (802.1ag clause 3.18).
This table uses three indices. The first two indices are the
indices of the Maintenance Domain and MA tables, the reason
being that a MEP is always related to an MA and Maintenance
Domain."
::= { fsMIEcfmContext 13 }
fsMIEcfmMepExEntry OBJECT-TYPE
SYNTAX FsMIEcfmMepExEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The MEP Database table entry."
INDEX {
fsMIEcfmContextId,
fsMIEcfmMdIndex,
fsMIEcfmMaIndex,
fsMIEcfmMepIdentifier
}
::= { fsMIEcfmMepExTable 1 }
FsMIEcfmMepExEntry ::=
SEQUENCE {
fsMIEcfmXconnRMepId
Unsigned32,
fsMIEcfmErrorRMepId
Unsigned32,
fsMIEcfmMepDefectRDICcm
TruthValue,
fsMIEcfmMepDefectMacStatus
TruthValue,
fsMIEcfmMepDefectRemoteCcm
TruthValue,
fsMIEcfmMepDefectErrorCcm
TruthValue,
fsMIEcfmMepDefectXconnCcm
TruthValue
}
fsMIEcfmXconnRMepId OBJECT-TYPE
SYNTAX Unsigned32(0..8191)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"MEP Identifier of the Remote MEP which caused the cross-connect
defect, 0 indicates that no remote MEP is cross-connected."
::= { fsMIEcfmMepExEntry 1 }
fsMIEcfmErrorRMepId OBJECT-TYPE
SYNTAX Unsigned32(0..8191)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"MEP Identifier of the Remote MEP which caused the error CCM
defect, 0 indicates that no errored CCM is recieved from any remote MEP."
::= { fsMIEcfmMepExEntry 2 }
fsMIEcfmMepDefectRDICcm OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A Boolean indicating the aggregate health of the remote MEPs.
True indicates that at least one of the Remote MEP state
machines is receiving valid CCMs from its remote MEP that
have the RDI bit set, and false that no Remote MEP state
machines are receiving valid CCMs with the RDI bit set."
::= { fsMIEcfmMepExEntry 3 }
fsMIEcfmMepDefectMacStatus OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A Boolean indicating that one or more of the remote MEPs is
reporting a failure in its Port Status TLV or Interface Status TLV ."
::= { fsMIEcfmMepExEntry 4 }
fsMIEcfmMepDefectRemoteCcm OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A Boolean indicating the aggregate state of the Remote MEP state
machines. True indicates that at least one of the Remote MEP state
machines is not receiving valid CCMs from its remote MEP, and false
that all Remote MEP state machines are receiving valid CCMs."
::= { fsMIEcfmMepExEntry 5 }
fsMIEcfmMepDefectErrorCcm OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A Boolean flag set and cleared by the Remote MEP Error state
machine to indicate that one or more invalid CCMs has been received,
and that 3.5 times that CCM.s transmission interval has not yet expired."
::= { fsMIEcfmMepExEntry 6 }
fsMIEcfmMepDefectXconnCcm OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"A Boolean flag set and cleared by the MEP Cross Connect state
machine to indicate that one or more crossconnect CCMs has been
received, and that 3.5 times of at least one of those CCMs.
transmission interval has not yet expired."
::= { fsMIEcfmMepExEntry 7 }
-- -------------------------------------
-- fsMIEcfmMepExTable - End
-- -------------------------------------
-- -------------------------------------
-- fsMIEcfmMdExTable - Start
-- -------------------------------------
fsMIEcfmMdExTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmMdExEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Maintenance Domain table. Each row in the table
represents a different Maintenance Domain. A Maintenance Domain
is described in 802.1ag (3.22) as the network or the part of the
network for which faults in connectivity are to be managed. The
boundary of a Maintenance Domain is defined by a set of DSAPs,
each of which can become a point of connectivity to a service
instance."
::= { fsMIEcfmContext 14 }
fsMIEcfmMdExEntry OBJECT-TYPE
SYNTAX FsMIEcfmMdExEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Maintenance Domain table entry. This entry is not lost
upon reboot. It is backed up by stable storage.
"
INDEX { fsMIEcfmContextId, fsMIEcfmMdIndex }
::= { fsMIEcfmMdExTable 1 }
FsMIEcfmMdExEntry ::=
SEQUENCE {
fsMIEcfmMepArchiveHoldTime
Integer32
}
fsMIEcfmMepArchiveHoldTime OBJECT-TYPE
SYNTAX Integer32 (100..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Number of minutes that data from a remote MEP is kept before it
is purged."
DEFVAL { 100 }
::= { fsMIEcfmMdExEntry 1 }
-- -------------------------------------
-- fsMIEcfmMdExTable - End
-- -------------------------------------
-- -------------------------------------
-- fsMIEcfmMaExTable - Start
-- -------------------------------------
fsMIEcfmMaExTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmMaExEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Maintenance Association table. Each row in the table
represents an MA. An MA is a set of MEPs, each configured
with a single service instance.
Creation of a Service Instance establishes a connectionless
association among the selected DSAPs. Configuring a
Maintenance association End Point (MEP) at each of the
DSAPs creates a Maintenance Association (MA) to monitor
that connectionless connectivity. The MA is identified by a
Short MA Name that is unique within the Maintenance Domain
and chosen to facilitate easy identification of the Service
Instance. Together, the Maintenance Domain Name and the
Short MA Name form the Maintenance Association Identifier
(MAID) that is carried in CFM Messages to identify
incorrect connectivity among Service Instances. A small
integer, the Maintenance association End Point Identifier
(MEPID), identifies each MEP among those configured on a
single MA (802.1ag clauses 3.17 and 18.2).
This table uses two indices, first index is the index of the
Maintenance Domain table.
The writable objects in this table need to be persistent
upon reboot or restart of a device."
::= { fsMIEcfmContext 15 }
fsMIEcfmMaExEntry OBJECT-TYPE
SYNTAX FsMIEcfmMaExEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The MA table entry."
INDEX { fsMIEcfmContextId, fsMIEcfmMdIndex, fsMIEcfmMaIndex }
::= { fsMIEcfmMaExTable 1 }
FsMIEcfmMaExEntry ::=
SEQUENCE {
fsMIEcfmMaCrosscheckStatus
INTEGER
}
fsMIEcfmMaCrosscheckStatus OBJECT-TYPE
SYNTAX INTEGER { enabled(1), disabled(2) }
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The administrative status of MA Crosscheck .
This enables or disables cross checking between the list of
configured remote maintenance end points (MEPs)of a domain and
MEPs learned through continuity check messages (CCMs).
messages"
DEFVAL { enabled }
::= { fsMIEcfmMaExEntry 1 }
-- -------------------------------------
-- fsMIEcfmMaExTable - End
-- -------------------------------------
-- ----------------------------------------------------------------------------
-- ECFM Per Context Statistics Table - Start
-- ----------------------------------------------------------------------------
fsMIEcfmStatsTable OBJECT-TYPE
SYNTAX SEQUENCE OF FsMIEcfmStatsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"List of per virtual context ECFM Module Statistics parameters."
::= { fsMIEcfmContext 16 }
fsMIEcfmStatsEntry OBJECT-TYPE
SYNTAX FsMIEcfmStatsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Per virtual context ECFM Module Statistics parameters."
INDEX { fsMIEcfmContextId }
::= { fsMIEcfmStatsTable 1 }
FsMIEcfmStatsEntry ::= SEQUENCE {
fsMIEcfmTxCfmPduCount Unsigned32,
fsMIEcfmTxCcmCount Unsigned32,
fsMIEcfmTxLbmCount Unsigned32,
fsMIEcfmTxLbrCount Unsigned32,
fsMIEcfmTxLtmCount Unsigned32,
fsMIEcfmTxLtrCount Unsigned32,
fsMIEcfmTxFailedCount Unsigned32,
fsMIEcfmRxCfmPduCount Unsigned32,
fsMIEcfmRxCcmCount Unsigned32,
fsMIEcfmRxLbmCount Unsigned32,
fsMIEcfmRxLbrCount Unsigned32,
fsMIEcfmRxLtmCount Unsigned32,
fsMIEcfmRxLtrCount Unsigned32,
fsMIEcfmRxBadCfmPduCount Unsigned32,
fsMIEcfmFrwdCfmPduCount Unsigned32,
fsMIEcfmDsrdCfmPduCount Unsigned32
}
fsMIEcfmTxCfmPduCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CFM-PDUs transmitted."
::= { fsMIEcfmStatsEntry 1 }
fsMIEcfmTxCcmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CCMs transmitted."
::= { fsMIEcfmStatsEntry 2 }
fsMIEcfmTxLbmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LBMs transmitted."
::= { fsMIEcfmStatsEntry 3 }
fsMIEcfmTxLbrCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LBRs transmitted."
::= { fsMIEcfmStatsEntry 4 }
fsMIEcfmTxLtmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LTMs transmitted."
::= { fsMIEcfmStatsEntry 5 }
fsMIEcfmTxLtrCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LTRs transmitted."
::= { fsMIEcfmStatsEntry 6 }
fsMIEcfmTxFailedCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CFM-PDU tranmission failed."
::= { fsMIEcfmStatsEntry 7 }
fsMIEcfmRxCfmPduCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CFM-PDUs received."
::= { fsMIEcfmStatsEntry 8 }
fsMIEcfmRxCcmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CCMs received."
::= { fsMIEcfmStatsEntry 9 }
fsMIEcfmRxLbmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LBMs received."
::= { fsMIEcfmStatsEntry 10 }
fsMIEcfmRxLbrCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LBRs received."
::= { fsMIEcfmStatsEntry 11 }
fsMIEcfmRxLtmCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LTMs received."
::= { fsMIEcfmStatsEntry 12 }
fsMIEcfmRxLtrCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of LTRs received."
::= { fsMIEcfmStatsEntry 13 }
fsMIEcfmRxBadCfmPduCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of Bad CFM-PDUs received."
::= { fsMIEcfmStatsEntry 14 }
fsMIEcfmFrwdCfmPduCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CFM-PDUs forwarded."
::= { fsMIEcfmStatsEntry 15 }
fsMIEcfmDsrdCfmPduCount OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies the number of CFM-PDUs discarded."
::= { fsMIEcfmStatsEntry 16 }
-- ----------------------------------------------------------------------------
-- ECFM Per Context Statistics Table - End
-- ----------------------------------------------------------------------------
-- ----------------------------------------------------------------------------
-- NOTIFICATIONS (TRAPS) - Start
-- These notifications will be sent to the management entity
-- whenever a MEP loses/restores contact with one or more other MEPs.
-- ----------------------------------------------------------------------------
fsMIEcfmFaultAlarm NOTIFICATION-TYPE
OBJECTS {
fsMIEcfmContextName,
fsMIEcfmMepHighestPrDefect
}
STATUS current
DESCRIPTION
"A MEP has a persistent defect condition. A notification
(fault alarm) is sent to the management entity with the OID
of the MEP that has detected the fault.
Whenever a MEP has a persistent defect,
it may or may not generate a Fault Alarm to warn the system
administrator of the problem, as controlled by the MEP
Fault Notification Generator State Machine and associated
Managed Objects. Only the highest-priority defect, as shown
in Table 20-1, is reported in the Fault Alarm.
If a defect with a higher priority is raised after a Fault
Alarm has been issued, another Fault Alarm is issued.
The management entity receiving the notification can identify
the system from the network source address of the
notification, and can identify the MEP reporting the defect
by the indices in the OID of the fsMIEcfmMepHighestPrDefect
variable in the notification:
fsMIEcfmMdIndex - Also the index of the MEP's
Maintenance Domain table entry
(fsMIEcfmMdTable).
fsMIEcfmMaIndex - Also an index (with the MD table index)
of the MEP's Maintenance Association
table entry (fsMIEcfmMaTable).
fsMIEcfmMepIdentifier - MEP Identifier and final index
into the MEP table (fsMIEcfmMepTable).
"
REFERENCE
"802.1ag clause 12.14.7.7"
::= { fsMIEcfmNotifications 1}
fsEcfmMepDefectTrap NOTIFICATION-TYPE
OBJECTS {
fsMIEcfmContextName,
fsMIEcfmTrapType
}
STATUS current
DESCRIPTION
"
A MEP has a persistent defect condition. A notification
is sent to the management entity with the OID
of the MEP or remote MEP that has detected the fault.
Various faults are described in , as shown
in Table 20-1, is reported in the Notification.
The management entity receiving the notification can identify
the system from the network source address of the
notification, and can identify the MEP or remote MEP
reporting the defect by the indices in the OID of the fsEcfmTrapType
variable in the notification:
fsEcfmMdIndex - Also the index of the MEP's
Maintenance Domain table entry
fsEcfmMaIndex - Also an index (with the MD table index)
of the MEP's Maintenance Association
table entry.
fsEcfmMepIdentifier - MEP Identifier index
into the MEP table.
fsEcfmRMepIdentifier - (Not for the defects errored CCM and
cross-connected CCM)remote MEP Identifier index
into the MEP Database table."
::= {fsMIEcfmNotifications 2}
-- ----------------------------------------------------------------------------
-- NOTIFICATIONS (TRAPS) - End
-- ----------------------------------------------------------------------------
END
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