ACC SHELL
| Path : /usr/share/pibs/ |
|
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| Current File : //usr/share/pibs/DIFFSERV-PIB |
DIFFSERV-PIB PIB-DEFINITIONS ::= BEGIN
IMPORTS
Unsigned32, MODULE-IDENTITY, MODULE-COMPLIANCE,
OBJECT-TYPE, OBJECT-GROUP, pib
FROM COPS-PR-SPPI
InstanceId, Prid, TagId, TagReferenceId
FROM COPS-PR-SPPI-TC
zeroDotZero
FROM SNMPv2-SMI
AutonomousType
FROM SNMPv2-TC
SnmpAdminString
FROM SNMP-FRAMEWORK-MIB
RoleCombination, PrcIdentifierOid, PrcIdentifierOidOrZero,
AttrIdentifier
FROM FRAMEWORK-TC-PIB
Dscp
FROM DIFFSERV-DSCP-TC
IfDirection
FROM DIFFSERV-MIB
BurstSize
FROM INTEGRATED-SERVICES-MIB;
dsPolicyPib MODULE-IDENTITY
SUBJECT-CATEGORIES { diffServ (2) } -- DiffServ QoS COPS Client Type
LAST-UPDATED "200302180000Z" -- 18 Feb 2003
ORGANIZATION "IETF DIFFSERV WG"
CONTACT-INFO "
Keith McCloghrie
Cisco Systems, Inc.
170 West Tasman Drive,
San Jose, CA 95134-1706 USA
Phone: +1 408 526 5260
Email: kzm@cisco.com
John Seligson
Nortel Networks, Inc.
4401 Great America Parkway
Santa Clara, CA 95054 USA
Phone: +1 408 495 2992
Email: jseligso@nortelnetworks.com
Kwok Ho Chan
Nortel Networks, Inc.
600 Technology Park Drive
Billerica, MA 01821 USA
Phone: +1 978 288 8175
Email: khchan@nortelnetworks.com
Differentiated Services Working Group:
diffserv@ietf.org"
DESCRIPTION
"The PIB module containing a set of provisioning classes
that describe quality of service (QoS) policies for
DiffServ. It includes general classes that may be extended
by other PIB specifications as well as a set of PIB
classes related to IP processing.
Copyright (C) The Internet Society (2003). This version of
this PIB module is part of RFC 3317; see the RFC itself for
full legal notices."
REVISION "200302180000Z" -- 18 Feb 2003
DESCRIPTION
"Initial version, published as RFC 3317."
::= { pib 4 }
dsCapabilityClasses OBJECT IDENTIFIER ::= { dsPolicyPib 1 }
dsPolicyClasses OBJECT IDENTIFIER ::= { dsPolicyPib 2 }
dsPolicyPibConformance OBJECT IDENTIFIER ::= { dsPolicyPib 3 }
--
-- Interface Type Capabilities Group
--
--
-- Interface Type Capability Tables
--
-- The Interface type capability tables define capabilities that may
-- be associated with interfaces of a specific type.
-- This PIB defines capability tables for DiffServ Functionalities.
--
--
-- The Base Capability Table
--
dsBaseIfCapsTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsBaseIfCapsEntry
PIB-ACCESS notify
STATUS current
DESCRIPTION
"The Base Interface Type Capability class. This class
represents a generic capability supported by a device in the
ingress, egress, or both directions."
::= { dsCapabilityClasses 1 }
dsBaseIfCapsEntry OBJECT-TYPE
SYNTAX DsBaseIfCapsEntry
STATUS current
DESCRIPTION
"An instance of this class describes the dsBaseIfCaps class."
PIB-INDEX { dsBaseIfCapsPrid }
::= { dsBaseIfCapsTable 1 }
DsBaseIfCapsEntry ::= SEQUENCE {
dsBaseIfCapsPrid InstanceId,
dsBaseIfCapsDirection INTEGER
}
dsBaseIfCapsPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsBaseIfCapsEntry 1 }
dsBaseIfCapsDirection OBJECT-TYPE
SYNTAX INTEGER {
inbound(1),
outbound(2),
inAndOut(3)
}
STATUS current
DESCRIPTION
"This object specifies the direction(s) for which the
capability applies. A value of 'inbound(1)' means the
capability applies only to the ingress direction. A value of
'outbound(2)' means the capability applies only to the egress
direction. A value of 'inAndOut(3)' means the capability
applies to both directions."
::= { dsBaseIfCapsEntry 2 }
--
-- The Classification Capability Table
--
dsIfClassificationCapsTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsIfClassificationCapsEntry
PIB-ACCESS notify
STATUS current
DESCRIPTION
"This class specifies the classification capabilities of
a Capability Set."
::= { dsCapabilityClasses 2 }
dsIfClassificationCapsEntry OBJECT-TYPE
SYNTAX DsIfClassificationCapsEntry
STATUS current
DESCRIPTION
"An instance of this class describes the classification
capabilities of a Capability Set."
EXTENDS { dsBaseIfCapsEntry }
UNIQUENESS { dsBaseIfCapsDirection,
dsIfClassificationCapsSpec }
::= { dsIfClassificationCapsTable 1 }
DsIfClassificationCapsEntry ::= SEQUENCE {
dsIfClassificationCapsSpec BITS
}
dsIfClassificationCapsSpec OBJECT-TYPE
SYNTAX BITS {
ipSrcAddrClassification(0),
-- indicates the ability to classify based on
-- IP source addresses
ipDstAddrClassification(1),
-- indicates the ability to classify based on
-- IP destination addresses
ipProtoClassification(2),
-- indicates the ability to classify based on
-- IP protocol numbers
ipDscpClassification(3),
-- indicates the ability to classify based on
-- IP DSCP
ipL4Classification(4),
-- indicates the ability to classify based on
-- IP layer 4 port numbers for UDP and TCP
ipV6FlowID(5)
-- indicates the ability to classify based on
-- IPv6 FlowIDs.
}
STATUS current
DESCRIPTION
"Bit set of supported classification capabilities. In
addition to these capabilities, other PIBs may define other
capabilities that can then be specified in addition to the
ones specified here (or instead of the ones specified here if
none of these are specified)."
::= { dsIfClassificationCapsEntry 1 }
--
-- Metering Capabilities
--
dsIfMeteringCapsTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsIfMeteringCapsEntry
PIB-ACCESS notify
STATUS current
DESCRIPTION
"This class specifies the metering capabilities of a
Capability Set."
::= { dsCapabilityClasses 3 }
dsIfMeteringCapsEntry OBJECT-TYPE
SYNTAX DsIfMeteringCapsEntry
STATUS current
DESCRIPTION
"An instance of this class describes the metering
capabilities of a Capability Set."
EXTENDS { dsBaseIfCapsEntry }
UNIQUENESS { dsBaseIfCapsDirection,
dsIfMeteringCapsSpec }
::= { dsIfMeteringCapsTable 1 }
DsIfMeteringCapsEntry ::= SEQUENCE {
dsIfMeteringCapsSpec BITS
}
dsIfMeteringCapsSpec OBJECT-TYPE
SYNTAX BITS {
zeroNotUsed(0),
simpleTokenBucket(1),
avgRate(2),
srTCMBlind(3),
srTCMAware(4),
trTCMBlind(5),
trTCMAware(6),
tswTCM(7)
}
STATUS current
DESCRIPTION
"Bit set of supported metering capabilities. As with
classification capabilities, these metering capabilities may
be augmented by capabilities specified in other PRCs (in other
PIBs)."
::= { dsIfMeteringCapsEntry 1 }
--
-- Algorithmic Dropper Capabilities
--
dsIfAlgDropCapsTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsIfAlgDropCapsEntry
PIB-ACCESS notify
STATUS current
DESCRIPTION
"This class specifies the algorithmic dropper
capabilities of a Capability Set.
This capability table indicates the types of algorithmic
drop supported by a Capability Set for a specific flow
direction.
Additional capabilities affecting the drop functionalities
are determined based on queue capabilities associated with
specific instance of a dropper, hence not specified by
this class."
::= { dsCapabilityClasses 4 }
dsIfAlgDropCapsEntry OBJECT-TYPE
SYNTAX DsIfAlgDropCapsEntry
STATUS current
DESCRIPTION
"An instance of this class describes the algorithmic dropper
capabilities of a Capability Set."
EXTENDS { dsBaseIfCapsEntry }
UNIQUENESS { dsBaseIfCapsDirection,
dsIfAlgDropCapsType,
dsIfAlgDropCapsMQCount }
::= { dsIfAlgDropCapsTable 1 }
DsIfAlgDropCapsEntry ::= SEQUENCE {
dsIfAlgDropCapsType BITS,
dsIfAlgDropCapsMQCount Unsigned32
}
dsIfAlgDropCapsType OBJECT-TYPE
SYNTAX BITS {
zeroNotUsed(0),
oneNotUsed(1),
tailDrop(2),
headDrop(3),
randomDrop(4),
alwaysDrop(5),
mQDrop(6) }
STATUS current
DESCRIPTION
"The type of algorithm that droppers associated with queues
may use.
The tailDrop(2) algorithm means that packets are dropped from
the tail of the queue when the associated queue's MaxQueueSize
is exceeded. The headDrop(3) algorithm means that packets are
dropped from the head of the queue when the associated queue's
MaxQueueSize is exceeded. The randomDrop(4) algorithm means
that an algorithm is executed which may randomly
drop the packet, or drop other packet(s) from the queue
in its place. The specifics of the algorithm may be
proprietary. However, parameters would be specified in the
dsRandomDropTable. The alwaysDrop(5) will drop every packet
presented to it. The mQDrop(6) algorithm will drop packets
based on measurement from multiple queues."
::= { dsIfAlgDropCapsEntry 1 }
dsIfAlgDropCapsMQCount OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
STATUS current
DESCRIPTION
"Indicates the number of queues measured for the drop
algorithm.
This attribute is ignored when alwaysDrop(5) algorithm is
used. This attribute contains the value of 1 for all drop
algorithm types except for mQDrop(6), where this attribute
is used to indicate the maximum number of dsMQAlgDropEntry
that can be chained together."
::= { dsIfAlgDropCapsEntry 2 }
--
-- Queue Capabilities
--
dsIfQueueCapsTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsIfQueueCapsEntry
PIB-ACCESS notify
STATUS current
DESCRIPTION
"This class specifies the queueing capabilities of a
Capability Set."
::= { dsCapabilityClasses 5 }
dsIfQueueCapsEntry OBJECT-TYPE
SYNTAX DsIfQueueCapsEntry
STATUS current
DESCRIPTION
"An instance of this class describes the queue
capabilities of a Capability Set."
EXTENDS { dsBaseIfCapsEntry }
UNIQUENESS { dsBaseIfCapsDirection,
dsIfQueueCapsMinQueueSize,
dsIfQueueCapsMaxQueueSize,
dsIfQueueCapsTotalQueueSize }
::= { dsIfQueueCapsTable 1 }
DsIfQueueCapsEntry ::= SEQUENCE {
dsIfQueueCapsMinQueueSize Unsigned32,
dsIfQueueCapsMaxQueueSize Unsigned32,
dsIfQueueCapsTotalQueueSize Unsigned32
}
dsIfQueueCapsMinQueueSize OBJECT-TYPE
SYNTAX Unsigned32 (0..4294967295)
UNITS "Bytes"
STATUS current
DESCRIPTION
"Some interfaces may allow the size of a queue to be
configured. This attribute specifies the minimum size that
can be configured for a queue, specified in bytes.
dsIfQueueCapsMinQueueSize must be less than or equals to
dsIfQueueCapsMaxQueueSize when both are specified.
A zero value indicates not specified."
::= { dsIfQueueCapsEntry 1 }
dsIfQueueCapsMaxQueueSize OBJECT-TYPE
SYNTAX Unsigned32 (0..4294967295)
UNITS "Bytes"
STATUS current
DESCRIPTION
"Some interfaces may allow the size of a queue to be
configured. This attribute specifies the maximum size that
can be configured for a queue, specified in bytes.
dsIfQueueCapsMinQueueSize must be less than or equals to
dsIfQueueCapsMaxQueueSize when both are specified.
A zero value indicates not specified."
::= { dsIfQueueCapsEntry 2 }
dsIfQueueCapsTotalQueueSize OBJECT-TYPE
SYNTAX Unsigned32 (0..4294967295)
UNITS "Bytes"
STATUS current
DESCRIPTION
"Some interfaces may have a limited buffer space to be
shared amongst all queues of that interface while also
allowing the size of each queue to be configurable. To
prevent the situation where the PDP configures the sizes of
the queues in excess of the total buffer available to the
interface, the PEP can report the total buffer space in
bytes available with this capability.
A zero value indicates not specified."
::= { dsIfQueueCapsEntry 3 }
--
-- Scheduler Capabilities
--
dsIfSchedulerCapsTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsIfSchedulerCapsEntry
PIB-ACCESS notify
STATUS current
DESCRIPTION
"This class specifies the scheduler capabilities of a
Capability Set."
::= { dsCapabilityClasses 6 }
dsIfSchedulerCapsEntry OBJECT-TYPE
SYNTAX DsIfSchedulerCapsEntry
STATUS current
DESCRIPTION
"An instance of this class describes the scheduler
capabilities of a Capability Set."
EXTENDS { dsBaseIfCapsEntry }
UNIQUENESS { dsBaseIfCapsDirection,
dsIfSchedulerCapsServiceDisc,
dsIfSchedulerCapsMaxInputs }
::= { dsIfSchedulerCapsTable 1 }
DsIfSchedulerCapsEntry ::= SEQUENCE {
dsIfSchedulerCapsServiceDisc AutonomousType,
dsIfSchedulerCapsMaxInputs Unsigned32,
dsIfSchedulerCapsMinMaxRate INTEGER
}
dsIfSchedulerCapsServiceDisc OBJECT-TYPE
SYNTAX AutonomousType
STATUS current
DESCRIPTION
"The scheduling discipline for which the set of capabilities
specified in this object apply. Object identifiers for several
general purpose and well-known scheduling disciplines are
shared with and defined in the DiffServ MIB.
These include diffServSchedulerPriority,
diffServSchedulerWRR, diffServSchedulerWFQ."
::= { dsIfSchedulerCapsEntry 1 }
dsIfSchedulerCapsMaxInputs OBJECT-TYPE
SYNTAX Unsigned32 (0..4294967295)
STATUS current
DESCRIPTION
"The maximum number of queues and/or schedulers that can
feed into a scheduler indicated by this capability entry.
A value of zero means there is no maximum."
::= { dsIfSchedulerCapsEntry 2 }
dsIfSchedulerCapsMinMaxRate OBJECT-TYPE
SYNTAX INTEGER {
minRate(1),
maxRate(2),
minAndMaxRates(3)
}
STATUS current
DESCRIPTION
"Scheduler capability indicating ability to handle inputs
with minimum rate, maximum rate, or both."
::= { dsIfSchedulerCapsEntry 3 }
--
-- Maximum Rate Capabilities
--
dsIfMaxRateCapsTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsIfMaxRateCapsEntry
PIB-ACCESS notify
STATUS current
DESCRIPTION
"This class specifies the maximum rate capabilities of a
Capability Set."
::= { dsCapabilityClasses 7 }
dsIfMaxRateCapsEntry OBJECT-TYPE
SYNTAX DsIfMaxRateCapsEntry
STATUS current
DESCRIPTION
"An instance of this class describes the maximum rate
capabilities of a Capability Set."
EXTENDS { dsBaseIfCapsEntry }
UNIQUENESS { dsBaseIfCapsDirection,
dsIfMaxRateCapsMaxLevels }
::= { dsIfMaxRateCapsTable 1 }
DsIfMaxRateCapsEntry ::= SEQUENCE {
dsIfMaxRateCapsMaxLevels Unsigned32
}
dsIfMaxRateCapsMaxLevels OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
STATUS current
DESCRIPTION
"The maximum number of levels a maximum rate specification
may have for this Capability Set and flow direction."
::= { dsIfMaxRateCapsEntry 1 }
--
-- DataPath Element Linkage Capabilities
--
--
-- DataPath Element Cascade Depth
--
dsIfElmDepthCapsTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsIfElmDepthCapsEntry
PIB-ACCESS notify
STATUS current
DESCRIPTION
"This class specifies the number of elements of the same
type that can be cascaded together in a datapath."
::= { dsCapabilityClasses 8 }
dsIfElmDepthCapsEntry OBJECT-TYPE
SYNTAX DsIfElmDepthCapsEntry
STATUS current
DESCRIPTION
"An instance of this class describes the cascade depth
for a particular functional datapath element PRC. A
functional datapath element not represented in this
class can be assumed to have no specific maximum
depth."
EXTENDS { dsBaseIfCapsEntry }
UNIQUENESS { dsBaseIfCapsDirection,
dsIfElmDepthCapsPrc }
::= { dsIfElmDepthCapsTable 1 }
DsIfElmDepthCapsEntry ::= SEQUENCE {
dsIfElmDepthCapsPrc PrcIdentifierOid,
dsIfElmDepthCapsCascadeMax Unsigned32
}
dsIfElmDepthCapsPrc OBJECT-TYPE
SYNTAX PrcIdentifierOid
STATUS current
DESCRIPTION
"The object identifier of a PRC that represents a functional
datapath element. This may be one of: dsClfrElementEntry,
dsMeterEntry, dsActionEntry, dsAlgDropEntry, dsQEntry, or
dsSchedulerEntry.
There may not be more than one instance of this class with
the same value of dsIfElmDepthCapsPrc and same value of
dsBaseIfCapsDirection. Must not contain the value of
zeroDotZero."
::= { dsIfElmDepthCapsEntry 1 }
dsIfElmDepthCapsCascadeMax OBJECT-TYPE
SYNTAX Unsigned32 (0..4294967295)
STATUS current
DESCRIPTION
"The maximum number of elements of type dsIfElmDepthCapsPrc
that can be linked consecutively in a data path. A value of
zero indicates there is no specific maximum."
::= { dsIfElmDepthCapsEntry 2 }
--
-- DataPath Element Linkage Types
--
dsIfElmLinkCapsTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsIfElmLinkCapsEntry
PIB-ACCESS notify
STATUS current
DESCRIPTION
"This class specifies what types of datapath functional
elements may be used as the next downstream element for
a specific type of functional element."
::= { dsCapabilityClasses 9 }
dsIfElmLinkCapsEntry OBJECT-TYPE
SYNTAX DsIfElmLinkCapsEntry
STATUS current
DESCRIPTION
"An instance of this class specifies a PRC that may
be used as the next functional element after a specific
type of element in a data path."
EXTENDS { dsBaseIfCapsEntry }
UNIQUENESS { dsBaseIfCapsDirection,
dsIfElmLinkCapsPrc,
dsIfElmLinkCapsAttr,
dsIfElmLinkCapsNextPrc }
::= { dsIfElmLinkCapsTable 1 }
DsIfElmLinkCapsEntry ::= SEQUENCE {
dsIfElmLinkCapsPrc PrcIdentifierOid,
dsIfElmLinkCapsAttr AttrIdentifier,
dsIfElmLinkCapsNextPrc PrcIdentifierOidOrZero
}
dsIfElmLinkCapsPrc OBJECT-TYPE
SYNTAX PrcIdentifierOid
STATUS current
DESCRIPTION
" The object identifier of a PRC that represents a functional
datapath element. This may be one of: dsClfrElementEntry,
dsMeterEntry, dsActionEntry, dsAlgDropEntry, dsQEntry, or
dsSchedulerEntry.
This must not have the value zeroDotZero."
::= { dsIfElmLinkCapsEntry 1 }
dsIfElmLinkCapsAttr OBJECT-TYPE
SYNTAX AttrIdentifier
STATUS current
DESCRIPTION
"The value represents the attribute in the PRC
indicated by dsIfElmLinkCapsPrc that is used to
specify the next functional element in the datapath."
::= { dsIfElmLinkCapsEntry 2 }
dsIfElmLinkCapsNextPrc OBJECT-TYPE
SYNTAX PrcIdentifierOidOrZero
STATUS current
DESCRIPTION
"The value is the OID of a PRC table entry from which
instances can be referenced by the attribute indicated
by dsIfElmLinkCapsPrc and dsIfElmLinkAttr.
For example, suppose a meter's success output can be an
action or another meter, and the fail output can only be
an action. This can be expressed as follows:
Prid Prc Attr NextPrc
1 dsMeterEntry dsMeterSucceedNext dsActionEntry
2 dsMeterEntry dsMeterSucceedNext dsMeterEntry
3 dsMeterEntry dsMeterFailNext dsActionEntry.
zeroDotZero is a valid value for this attribute to
specify that the PRC specified in dsIfElmLinkCapsPrc
is the last functional data path element."
::= { dsIfElmLinkCapsEntry 3 }
--
-- Policy Classes
--
--
-- Data Path Table
--
dsDataPathTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsDataPathEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"The data path table indicates the start of
functional data paths in this device.
The Data Path Table enumerates the Differentiated
Services Functional Data Paths within this device.
Each entry specifies the first functional datapath
element to process data flow for each specific datapath.
Each datapath is defined by the interface set's capability
set name, role combination, and direction. This class can
therefore have up to two entries for each interface set,
ingress and egress."
::= { dsPolicyClasses 1 }
dsDataPathEntry OBJECT-TYPE
SYNTAX DsDataPathEntry
STATUS current
DESCRIPTION
"Each entry in this class indicates the start of a single
functional data path, defined by its capability set name,
role combination and traffic direction. The first
functional datapath element to handle traffic for each
data path is defined by the dsDataPathStart attribute
of each table entry.
Notice for each entry:
1. dsDataPathCapSetName must reference an existing capability
set name in frwkCapabilitySetTable [FR-PIB].
2. dsDataPathRoles must reference existing Role Combination
in frwkIfRoleComboTable [FR-PIB].
3. dsDataPathStart must reference an existing entry in a
functional data path element table.
If any one or more of these three requirements is not
satisfied, the dsDataPathEntry will not be installed."
PIB-INDEX { dsDataPathPrid }
UNIQUENESS { dsDataPathCapSetName,
dsDataPathRoles,
dsDataPathIfDirection }
::= { dsDataPathTable 1 }
DsDataPathEntry ::= SEQUENCE {
dsDataPathPrid InstanceId,
dsDataPathCapSetName SnmpAdminString,
dsDataPathRoles RoleCombination,
dsDataPathIfDirection IfDirection,
dsDataPathStart Prid
}
dsDataPathPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsDataPathEntry 1 }
dsDataPathCapSetName OBJECT-TYPE
SYNTAX SnmpAdminString
STATUS current
DESCRIPTION
"The capability set associated with this data path entry.
The capability set name specified by this attribute
must exist in the frwkCapabilitySetTable [FR-PIB]
prior to association with an instance of this class."
::= { dsDataPathEntry 2 }
dsDataPathRoles OBJECT-TYPE
SYNTAX RoleCombination
STATUS current
DESCRIPTION
"The interfaces to which this data path entry applies,
specified in terms of roles. There must exist an entry
in the frwkIfRoleComboTable [FR-PIB] specifying
this role combination, together with the capability
set specified by dsDataPathCapSetName, prior to
association with an instance of this class."
::= { dsDataPathEntry 3 }
dsDataPathIfDirection OBJECT-TYPE
SYNTAX IfDirection
STATUS current
DESCRIPTION
"Specifies the direction for which this data path
entry applies."
::= { dsDataPathEntry 4 }
dsDataPathStart OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This selects the first functional datapath element
to handle traffic for this data path. This
Prid should point to an instance of one of:
dsClfrEntry
dsMeterEntry
dsActionEntry
dsAlgDropEntry
dsQEntry
The PRI pointed to must exist prior to the installation of
this datapath start element."
::= { dsDataPathEntry 5 }
--
-- Classifiers
--
-- Classifier allows multiple classifier elements, of same or
-- different types, to be used together.
-- A classifier must completely classify all packets presented to
-- it. This means all traffic handled by a classifier must match
-- at least one classifier element within the classifier,
-- with the classifier element parameters specified by a filter.
-- It is the PDP's responsibility to create a _catch all_ classifier
-- element and filter that matches all packet. This _catch all_
-- classifier element should have the lowest Precedence value.
--
-- If there is ambiguity between classifier elements of different
-- classifier, classifier linkage order indicates their precedence;
-- the first classifier in the link is applied to the traffic first.
--
-- Each entry in the classifier table represents a classifier, with
-- classifier element table handling the fan-out functionality of a
-- classifier, and filter table defining the classification
-- patterns.
--
--
-- Classifier Table
--
dsClfrTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsClfrEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"This table enumerates all the DiffServ classifier functional
data path elements of this device. The actual classification
definitions are detailed in dsClfrElementTable entries
belonging to each classifier. Each classifier is referenced
by its classifier elements using its classifier ID.
An entry in this table, referenced by an upstream functional
data path element or a datapath table entry, is the entry
point to the classifier functional data path element.
The dsClfrId of each entry is used to organize all
classifier elements belonging to the same classifier."
REFERENCE
"An Informal Management Model for Diffserv Routers,
RFC 3290, section 4.1"
::= { dsPolicyClasses 2 }
dsClfrEntry OBJECT-TYPE
SYNTAX DsClfrEntry
STATUS current
DESCRIPTION
"An entry in the classifier table describes a single
classifier. Each classifier element belonging to this
classifier must have its dsClfrElementClfrId attribute equal
to dsClfrId."
PIB-INDEX { dsClfrPrid }
UNIQUENESS { dsClfrId }
::= { dsClfrTable 1 }
DsClfrEntry ::= SEQUENCE {
dsClfrPrid InstanceId,
dsClfrId TagReferenceId
}
dsClfrPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsClfrEntry 1 }
dsClfrId OBJECT-TYPE
SYNTAX TagReferenceId
PIB-TAG { dsClfrElementClfrId }
STATUS current
DESCRIPTION
"Identifies a Classifier. A Classifier must be
complete, this means all traffic handled by a
Classifier must match at least one Classifier
Element within the Classifier."
::= { dsClfrEntry 2 }
--
-- Classifier Element Table
--
dsClfrElementTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsClfrElementEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"Entries in the classifier element table serves as
the anchor for each classification pattern, defined
in filter table entries. Each classifier element
table entry also specifies the subsequent downstream
diffserv functional datapath element when the
classification pattern is satisfied. Hence
the classifier element table enumerates the relationship
between classification patterns and subsequent downstream
diffserv functional data path elements, describing one
branch of the fan-out characteristic of a classifier
indicated in [Model].
Classification parameters are defined by entries of filter
tables pointed to by dsClfrElementSpecific. There can be
filter tables of different types, and they can be inter-mixed
and used within a classifier. An example of a filter table is
the frwkIpFilterTable [FR-PIB], for IP Multi-Field
Classifiers (MFCs).
If there is ambiguity between classifier elements of the same
classifier, then dsClfrElementPrecedence needs to be used."
::= { dsPolicyClasses 3 }
dsClfrElementEntry OBJECT-TYPE
SYNTAX DsClfrElementEntry
STATUS current
DESCRIPTION
"An entry in the classifier element table describes a
single element of the classifier."
PIB-INDEX { dsClfrElementPrid }
UNIQUENESS { dsClfrElementClfrId,
dsClfrElementPrecedence,
dsClfrElementSpecific }
::= { dsClfrElementTable 1 }
DsClfrElementEntry ::= SEQUENCE {
dsClfrElementPrid InstanceId,
dsClfrElementClfrId TagId,
dsClfrElementPrecedence Unsigned32,
dsClfrElementNext Prid,
dsClfrElementSpecific Prid
}
dsClfrElementPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsClfrElementEntry 1 }
dsClfrElementClfrId OBJECT-TYPE
SYNTAX TagId
STATUS current
DESCRIPTION
"A classifier is composed of one or more classifier
elements. Each classifier element belonging to
the same classifier uses the same classifier ID.
Hence, A classifier Id identifies which classifier
this classifier element is a part of. This must be
the value of dsClfrId attribute for an existing
instance of dsClfrEntry."
::= { dsClfrElementEntry 2 }
dsClfrElementPrecedence OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
STATUS current
DESCRIPTION
"The relative order in which classifier elements are
applied: higher numbers represent classifier elements
with higher precedence. Classifier elements with the
same precedence must be unambiguous i.e., they must
define non-overlapping patterns, and are considered to
be applied simultaneously to the traffic stream.
Classifier elements with different precedence may
overlap in their filters: the classifier element with
the highest precedence that matches is taken.
On a given interface, there must be a complete
classifier in place at all times in the ingress
direction. This means that there will always be one
or more filters that match every possible pattern
that could be presented in an incoming packet.
There is no such requirement in the egress direction."
::= { dsClfrElementEntry 3 }
dsClfrElementNext OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This attribute provides one branch of the fan-out
functionality of a classifier described in Diffserv
Model section 4.1.
This selects the next diffserv functional datapath
element to handle traffic for this data path.
A value of zeroDotZero marks the end of DiffServ processing
for this data path. Any other value must point to a
valid (pre-existing) instance of one of:
dsClfrEntry
dsMeterEntry
dsActionEntry
dsAlgDropEntry
dsQEntry."
DEFVAL { zeroDotZero }
::= { dsClfrElementEntry 4 }
dsClfrElementSpecific OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"A pointer to a valid entry in another table that
describes the applicable classification filter, e.g.,
an entry in frwkIpFilterTable (Framework PIB).
The PRI pointed to must exist prior to the installation of
this classifier element.
The value zeroDotZero is interpreted to match any-
thing not matched by another classifier element - only one
such entry may exist for each classifier."
::= { dsClfrElementEntry 5 }
--
-- Meters
--
-- This PIB supports a variety of Meters. It includes a
-- specific definition for Meters whose parameter set can
-- be modeled using Token Bucket parameters.
-- Other metering parameter sets can be defined by other PIBs.
--
-- Multiple meter elements may be logically cascaded
-- using their dsMeterSucceedNext and dsMeterFailNext pointers if
-- required.
-- One example of this might be for an AF PHB implementation
-- that uses multiple level conformance meters.
--
-- Cascading of individual meter elements in the PIB is intended
-- to be functionally equivalent to multiple level conformance
-- determination of a packet. The sequential nature of the
-- representation is merely a notational convenience for this PIB.
--
-- srTCM meters (RFC 2697) can be specified using two sets of
-- dsMeterEntry and dsTBParamEntry. First set specifies the
-- Committed Information Rate and Committed Burst Size
-- token-bucket. Second set specifies the Excess Burst
-- Size token-bucket.
--
-- trTCM meters (RFC 2698) can be specified using two sets of
-- dsMeterEntry and dsTBParamEntry. First set specifies the
-- Committed Information Rate and Committed Burst Size
-- token-bucket. Second set specifies the Peak Information
-- Rate and Peak Burst Size token-bucket.
--
-- tswTCM meters (RFC 2859) can be specified using two sets of
-- dsMeterEntry and dsTBParamEntry. First set specifies the
-- Committed Target Rate token-bucket. Second set specifies the
-- Peak Target Rate token-bucket. dsTBParamInterval in each
-- token bucket reflects the Average Interval.
dsMeterTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsMeterEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"This class enumerates specific meters that a system
may use to police a stream of traffic. The traffic
stream to be metered is determined by the element(s)
upstream of the meter i.e., by the object(s) that
point to each entry in this class. This may include
all traffic on an interface.
Specific meter details are to be found in table entry
referenced by dsMeterSpecific."
REFERENCE
"An Informal Management Model for Diffserv Routers,
RFC 3290, section 5"
::= { dsPolicyClasses 4 }
dsMeterEntry OBJECT-TYPE
SYNTAX DsMeterEntry
STATUS current
DESCRIPTION
"An entry in the meter table describes a single
conformance level of a meter."
PIB-INDEX { dsMeterPrid }
UNIQUENESS { dsMeterSucceedNext,
dsMeterFailNext,
dsMeterSpecific }
::= { dsMeterTable 1 }
DsMeterEntry ::= SEQUENCE {
dsMeterPrid InstanceId,
dsMeterSucceedNext Prid,
dsMeterFailNext Prid,
dsMeterSpecific Prid
}
dsMeterPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsMeterEntry 1 }
dsMeterSucceedNext OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"If the traffic does conform, this selects the next
diffserv functional datapath element to handle
traffic for this data path.
The value zeroDotZero in this variable indicates no
further DiffServ treatment is performed on traffic of
this datapath. Any other value must point to a valid
(pre-existing) instance of one of:
dsClfrEntry
dsMeterEntry
dsActionEntry
dsAlgDropEntry
dsQEntry."
DEFVAL { zeroDotZero }
::= { dsMeterEntry 2 }
dsMeterFailNext OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"If the traffic does not conform, this selects the
next diffserv functional datapath element to handle
traffic for this data path.
The value zeroDotZero in this variable indicates no
further DiffServ treatment is performed on traffic of
this datapath. Any other value must point to a valid
(pre-existing) instance of one of:
dsClfrEntry
dsMeterEntry
dsActionEntry
dsAlgDropEntry
dsQEntry."
DEFVAL { zeroDotZero }
::= { dsMeterEntry 3 }
dsMeterSpecific OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This indicates the behaviour of the meter by point-
ing to an entry containing detailed parameters. Note
that entries in that specific table must be managed
explicitly.
For example, dsMeterSpecific may point to an
entry in dsTBMeterTable, which contains an
instance of a single set of Token Bucket parameters.
The PRI pointed to must exist prior to installing this
Meter datapath element."
::= { dsMeterEntry 4 }
--
-- Token-Bucket Parameter Table
--
-- Each entry in the Token Bucket Parameter Table parameterizes
-- a single token bucket. Multiple token buckets can be
-- used together to parameterize multiple levels of
-- conformance.
--
-- Note that an entry in the Token Bucket Parameter Table can
-- be shared, pointed to, by multiple dsMeterTable entries.
--
dsTBParamTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsTBParamEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"This table enumerates token-bucket meter parameter sets
that a system may use to police a stream of traffic.
Such parameter sets are modelled here as each having a single
rate and a single burst size. Multiple entries are used
when multiple rates/burst sizes are needed."
REFERENCE
"An Informal Management Model for Diffserv Routers,
RFC 3290, section 5.1"
::= { dsPolicyClasses 5 }
dsTBParamEntry OBJECT-TYPE
SYNTAX DsTBParamEntry
STATUS current
DESCRIPTION
"An entry that describes a single token-bucket
parameter set."
PIB-INDEX { dsTBParamPrid }
UNIQUENESS { dsTBParamType,
dsTBParamRate,
dsTBParamBurstSize,
dsTBParamInterval }
::= { dsTBParamTable 1 }
DsTBParamEntry ::= SEQUENCE {
dsTBParamPrid InstanceId,
dsTBParamType AutonomousType,
dsTBParamRate Unsigned32,
dsTBParamBurstSize BurstSize,
dsTBParamInterval Unsigned32
}
dsTBParamPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsTBParamEntry 1 }
dsTBParamType OBJECT-TYPE
SYNTAX AutonomousType
STATUS current
DESCRIPTION
"The Metering algorithm associated with the
Token-Bucket parameters. zeroDotZero indicates this
is unknown.
Standard values for generic algorithms are as follows:
diffServTBParamSimpleTokenBucket, diffServTBParamAvgRate,
diffServTBParamSrTCMBlind, diffServTBParamSrTCMAware,
diffServTBParamTrTCMBlind, diffServTBParamTrTCMAware,
diffServTBParamTswTCM
These are specified in the DiffServ MIB."
REFERENCE
"An Informal Management Model for Diffserv Routers,
RFC 3290, section 5.1"
::= { dsTBParamEntry 2 }
dsTBParamRate OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
UNITS "kilobits per second"
STATUS current
DESCRIPTION
"The token-bucket rate, in kilobits per second
(kbps). This attribute is used for:
1. CIR in RFC 2697 for srTCM
2. CIR and PIR in RFC 2698 for trTCM
3. CTR and PTR in RFC 2859 for TSWTCM
4. AverageRate in RFC 3290, section 5.1.1"
::= { dsTBParamEntry 3 }
dsTBParamBurstSize OBJECT-TYPE
SYNTAX BurstSize
UNITS "Bytes"
STATUS current
DESCRIPTION
"The maximum number of bytes in a single transmission
burst. This attribute is used for:
1. CBS and EBS in RFC 2697 for srTCM
2. CBS and PBS in RFC 2698 for trTCM
3. Burst Size in RFC 3290, section 5."
::= { dsTBParamEntry 4 }
dsTBParamInterval OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
UNITS "microseconds"
STATUS current
DESCRIPTION
"The time interval used with the token bucket. For:
1. Average Rate Meter, RFC 3290, section 5.1.1,
-Delta.
2. Simple Token Bucket Meter, RFC 3290, section
5.1.3, - time interval t.
3. RFC 2859 TSWTCM, - AVG_INTERVAL.
4. RFC 2697 srTCM, RFC 2698 trTCM, - token
bucket update time interval."
::= { dsTBParamEntry 5 }
--
-- Actions
--
--
-- The Action Table allows enumeration of the different
-- types of actions to be applied to a traffic flow.
--
dsActionTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsActionEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"The Action Table enumerates actions that can be per-
formed to a stream of traffic. Multiple actions can
be concatenated.
Specific actions are indicated by dsAction-
Specific which points to an entry of a specific
action type parameterizing the action in detail."
REFERENCE
"An Informal Management Model for Diffserv Routers,
RFC 3290, section 6."
::= { dsPolicyClasses 6 }
dsActionEntry OBJECT-TYPE
SYNTAX DsActionEntry
STATUS current
DESCRIPTION
"Each entry in the action table allows description of
one specific action to be applied to traffic."
PIB-INDEX { dsActionPrid }
UNIQUENESS { dsActionNext,
dsActionSpecific }
::= { dsActionTable 1 }
DsActionEntry ::= SEQUENCE {
dsActionPrid InstanceId,
dsActionNext Prid,
dsActionSpecific Prid
}
dsActionPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsActionEntry 1 }
dsActionNext OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This selects the next diffserv functional datapath
element to handle traffic for this data path.
The value zeroDotZero in this variable indicates no
further DiffServ treatment is performed on traffic of
this datapath. Any other value must point to a valid
(pre-existing) instance of one of:
dsClfrEntry
dsMeterEntry
dsActionEntry
dsAlgDropEntry
dsQEntry."
DEFVAL { zeroDotZero }
::= { dsActionEntry 2 }
dsActionSpecific OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"A pointer to an object instance providing additional
information for the type of action indicated by this
action table entry.
For the standard actions defined by this PIB module,
this should point to an instance of dsDscpMarkActEntry.
For other actions, it may point to an instance of a
PRC defined in some other PIB.
The PRI pointed to must exist prior to installing this
action datapath entry."
::= { dsActionEntry 3 }
-- DSCP Mark Action Table
--
-- Rows of this class are pointed to by dsActionSpecific
-- to provide detailed parameters specific to the DSCP
-- Mark action.
-- This class should at most contain one entry for each supported
-- DSCP value. These entries should be reused by different
-- dsActionEntry in same or different data paths.
--
dsDscpMarkActTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsDscpMarkActEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"This class enumerates specific DSCPs used for marking or
remarking the DSCP field of IP packets. The entries of this
table may be referenced by a dsActionSpecific attribute."
REFERENCE
"An Informal Management Model for Diffserv Routers,
RFC 3290, section 6.1"
::= { dsPolicyClasses 7 }
dsDscpMarkActEntry OBJECT-TYPE
SYNTAX DsDscpMarkActEntry
STATUS current
DESCRIPTION
"An entry in the DSCP mark action table that describes a
single DSCP used for marking."
PIB-INDEX { dsDscpMarkActPrid }
UNIQUENESS { dsDscpMarkActDscp }
::= { dsDscpMarkActTable 1 }
DsDscpMarkActEntry ::= SEQUENCE {
dsDscpMarkActPrid InstanceId,
dsDscpMarkActDscp Dscp
}
dsDscpMarkActPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsDscpMarkActEntry 1 }
dsDscpMarkActDscp OBJECT-TYPE
SYNTAX Dscp
STATUS current
DESCRIPTION
"The DSCP that this Action uses for marking/remarking
traffic. Note that a DSCP value of -1 is not permit-
ted in this class. It is quite possible that the
only packets subject to this Action are already
marked with this DSCP. Note also that DiffServ may
result in packet remarking both on ingress to a net-
work and on egress from it and it is quite possible
that ingress and egress would occur in the same
router."
::= { dsDscpMarkActEntry 2 }
--
-- Algorithmic Drop Table
--
-- Algorithmic Drop Table is the entry point for the Algorithmic
-- Dropper functional data path element.
-- For a simple algorithmic dropper, a single algorithmic drop entry
-- will be sufficient to parameterize the dropper.
-- For more complex algorithmic dropper, the dsAlgDropSpecific
-- attribute can be used to reference an entry in a parameter table,
-- e.g., dsRandomDropTable for random dropper.
-- For yet more complex dropper, for example, dropper that measures
-- multiple queues, each queue with its own algorithm, can use a
-- dsAlgDropTable entry as the entry point for Algorithmic Dropper
-- functional data path element, leaving the dropper parameters
-- for each queue be specified by entries of dsMQAlgDropTable.
-- In such usage, the anchoring dsAlgDropEntry's dsAlgDropType
-- should be mQDrop, and its dsAlgDropQMeasure should reference
-- the subsequent dsMQAlgDropEntry's, its dsAlgDropSpecific
-- should be used to reference parameters applicable to all the
-- queues being measured.
-- The subsequent dsMQAlgDropEntry's will provide the parameters,
-- one for each queue being measured. The dsMQAlgDropEntry's are
-- chained using their dsMQAlgDropNext attributes.
--
dsAlgDropTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsAlgDropEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"The algorithmic drop table contains entries describ-
ing a functional data path element that drops
packets according to some algorithm."
REFERENCE
"An Informal Management Model for Diffserv Routers,
RFC 3290, section 7.1.3"
::= { dsPolicyClasses 8 }
dsAlgDropEntry OBJECT-TYPE
SYNTAX DsAlgDropEntry
STATUS current
DESCRIPTION
"An entry describes a process that drops packets
according to some algorithm. Further details of the
algorithm type are to be found in dsAlgDropType
and with more detail parameter entry pointed to by
dsAlgDropSpecific when necessary."
PIB-INDEX { dsAlgDropPrid }
UNIQUENESS { dsAlgDropType,
dsAlgDropNext,
dsAlgDropQMeasure,
dsAlgDropQThreshold,
dsAlgDropSpecific }
::= { dsAlgDropTable 1 }
DsAlgDropEntry ::= SEQUENCE {
dsAlgDropPrid InstanceId,
dsAlgDropType INTEGER,
dsAlgDropNext Prid,
dsAlgDropQMeasure Prid,
dsAlgDropQThreshold Unsigned32,
dsAlgDropSpecific Prid
}
dsAlgDropPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsAlgDropEntry 1 }
dsAlgDropType OBJECT-TYPE
SYNTAX INTEGER {
other(1),
tailDrop(2),
headDrop(3),
randomDrop(4),
alwaysDrop(5),
mQDrop(6)
}
STATUS current
DESCRIPTION
"The type of algorithm used by this dropper. A value
of tailDrop(2), headDrop(3), or alwaysDrop(5) represents
an algorithm that is completely specified by this PIB.
A value of other(1) indicates that the specifics of
the drop algorithm are specified in some other PIB
module, and that the dsAlgDropSpecific attribute
points to an instance of a PRC in that PIB that
specifies the information necessary to implement the
algorithm.
The tailDrop(2) algorithm is described as follows:
dsAlgDropQThreshold represents the depth of the
queue, pointed to by dsAlgDropQMeasure, at
which all newly arriving packets will be dropped.
The headDrop(3) algorithm is described as follows: if
a packet arrives when the current depth of the queue,
pointed to by dsAlgDropQMeasure, is at
dsAlgDropQThreshold, packets currently at the head of
the queue are dropped to make room for the new packet
to be enqueued at the tail of the queue.
The randomDrop(4) algorithm is described as follows:
on packet arrival, an algorithm is executed which may
randomly drop the packet, or drop other packet(s)
from the queue in its place. The specifics of the
algorithm may be proprietary. For this algorithm,
dsAlgDropSpecific points to a dsRandomDropEntry
that describes the algorithm. For this
algorithm, dsAlgQThreshold is understood to be
the absolute maximum size of the queue and additional
parameters are described in dsRandomDropTable.
The alwaysDrop(5) algorithm always drops packets. In
this case, the other configuration values in this Entry
are not meaningful; The queue is not used, therefore,
dsAlgDropNext, dsAlgDropQMeasure, and
dsAlgDropSpecific should be all set to zeroDotZero.
The mQDrop(6) algorithm measures multiple queues for
the drop algorithm. The queues measured are represented
by having dsAlgDropQMeasure referencing a dsMQAlgDropEntry.
Each of the chained dsMQAlgDropEntry is used to describe
the drop algorithm for one of the measured queues."
::= { dsAlgDropEntry 2 }
dsAlgDropNext OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This selects the next diffserv functional datapath
element to handle traffic for this data path.
The value zeroDotZero in this attribute indicates no
further DiffServ treatment is performed on traffic of
this datapath. Any other value must point to a valid
(pre-existing) instance of one of:
dsClfrEntry
dsMeterEntry
dsActionEntry
dsAlgDropEntry
dsQEntry.
When dsAlgDropType is alwaysDrop(5), this attribute is
Ignored."
DEFVAL { zeroDotZero }
::= { dsAlgDropEntry 3 }
dsAlgDropQMeasure OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"Points to a PRI to indicate the queues that a drop algorithm
is to monitor when deciding whether to drop a packet.
For alwaysDrop(5), this attribute should be zeroDotZero.
For tailDrop(2), headDrop(3), randomDrop(4), this should
point to an entry in the dsQTable.
For mQDrop(6), this should point to a dsMQAlgDropEntry that
Describe one of the queues being measured for multiple
queue dropper.
The PRI pointed to must exist prior to installing
this dropper element."
::= { dsAlgDropEntry 4 }
dsAlgDropQThreshold OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
UNITS "Bytes"
STATUS current
DESCRIPTION
"A threshold on the depth in bytes of the queue being
measured at which a trigger is generated to the drop-
ping algorithm, unless dsAlgDropType is alwaysDrop(5)
where this attribute is ignored.
For the tailDrop(2) or headDrop(3) algorithms, this
represents the depth of the queue, pointed to by
dsAlgDropQMeasure, at which the drop action
will take place. Other algorithms will need to define
their own semantics for this threshold."
::= { dsAlgDropEntry 5 }
dsAlgDropSpecific OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"Points to a table entry that provides further detail
regarding a drop algorithm. The PRI pointed to
must exist prior to installing this dropper element.
Entries with dsAlgDropType equal to other(1) must
have this point to an instance of a PRC defined
in another PIB module.
Entries with dsAlgDropType equal to random-
Drop(4) must have this point to an entry in
dsRandomDropTable.
Entries with dsAlgDropType equal to mQDrop(6) can use this
attribute to reference parameters that is used by all the
queues of the multiple queues being measured.
For all other algorithms, this should take the value
zeroDotZero."
::= { dsAlgDropEntry 6 }
--
-- Multiple Queue Algorithmic Drop Table
--
-- Entries of this table should be referenced by dsAlgDropQMeasure
-- when dsAlgDropType is mQDrop(6) for droppers measuring multiple
-- queues for its drop algorithm.
-- Each entry of the table is used to describe the drop algorithm
-- for a single queue within the multiple queues being measured.
--
-- Entries of this table, dsMQAlgDropEntry, is extended from
-- dsAlgDropEntry, with usage of corresponding parameters the same
-- except:
-- dsAlgDropNext is used to point to the next diffserv
-- functional data path element when the packet is not dropped.
-- dsMQAlgDropExceedNext is used to point to the next
-- dsMQAlgDropEntry for chaining together the multiple
-- dsMQAlgDropEntry's for the multiple queues being measured.
--
dsMQAlgDropTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsMQAlgDropEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"The multiple queue algorithmic drop table contains entries
describing each queue being measured for the multiple queue
algorithmic dropper."
::= { dsPolicyClasses 9 }
dsMQAlgDropEntry OBJECT-TYPE
SYNTAX DsMQAlgDropEntry
STATUS current
DESCRIPTION
"An entry describes a process that drops packets
according to some algorithm. Each entry is used for
each of the multiple queues being measured. Each entry
extends the basic dsAlgDropEntry with adding of a
dsMQAlgDropExceedNext attribute.
Further details of the algorithm type are to be found in
dsAlgDropType and with more detail parameter entry pointed
to by dsMQAlgDropSpecific when necessary."
EXTENDS { dsAlgDropEntry }
UNIQUENESS { dsMQAlgDropExceedNext }
::= { dsMQAlgDropTable 1 }
DsMQAlgDropEntry ::= SEQUENCE {
dsMQAlgDropExceedNext Prid
}
dsMQAlgDropExceedNext OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"Used for linking of multiple dsMQAlgDropEntry for mQDrop.
A value of zeroDotZero indicates this is the last of a
chain of dsMQAlgDropEntry."
DEFVAL { zeroDotZero }
::= { dsMQAlgDropEntry 1 }
--
-- Random Drop Table
--
dsRandomDropTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsRandomDropEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"The random drop table contains entries describing a
process that drops packets randomly. Entries in this
table is intended to be pointed to by dsAlgDropSpecific
when dsAlgDropType is randomDrop(4)."
REFERENCE
"An Informal Management Model for Diffserv Routers,
RFC 3290, section 7.1.3"
::= { dsPolicyClasses 10 }
dsRandomDropEntry OBJECT-TYPE
SYNTAX DsRandomDropEntry
STATUS current
DESCRIPTION
"An entry describes a process that drops packets
according to a random algorithm."
PIB-INDEX { dsRandomDropPrid }
UNIQUENESS { dsRandomDropMinThreshBytes,
dsRandomDropMinThreshPkts,
dsRandomDropMaxThreshBytes,
dsRandomDropMaxThreshPkts,
dsRandomDropProbMax,
dsRandomDropWeight,
dsRandomDropSamplingRate
}
::= { dsRandomDropTable 1 }
DsRandomDropEntry ::= SEQUENCE {
dsRandomDropPrid InstanceId,
dsRandomDropMinThreshBytes Unsigned32,
dsRandomDropMinThreshPkts Unsigned32,
dsRandomDropMaxThreshBytes Unsigned32,
dsRandomDropMaxThreshPkts Unsigned32,
dsRandomDropProbMax Unsigned32,
dsRandomDropWeight Unsigned32,
dsRandomDropSamplingRate Unsigned32
}
dsRandomDropPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsRandomDropEntry 1 }
dsRandomDropMinThreshBytes OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
UNITS "bytes"
STATUS current
DESCRIPTION
"The average queue depth in bytes, beyond which traffic has a
non-zero probability of being dropped."
::= { dsRandomDropEntry 2 }
dsRandomDropMinThreshPkts OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
UNITS "packets"
STATUS current
DESCRIPTION
"The average queue depth in packets, beyond which traffic has
a non-zero probability of being dropped."
::= { dsRandomDropEntry 3 }
dsRandomDropMaxThreshBytes OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
UNITS "bytes"
STATUS current
DESCRIPTION
"The average queue depth beyond which traffic has a
probability indicated by dsRandomDropProbMax of being dropped
or marked. Note that this differs from the physical queue
limit, which is stored in dsAlgDropQThreshold."
::= { dsRandomDropEntry 4 }
dsRandomDropMaxThreshPkts OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
UNITS "packets"
STATUS current
DESCRIPTION
"The average queue depth beyond which traffic has a
probability indicated by dsRandomDropProbMax of being dropped
or marked. Note that this differs from the physical queue
limit, which is stored in dsAlgDropQThreshold."
::= { dsRandomDropEntry 5 }
dsRandomDropProbMax OBJECT-TYPE
SYNTAX Unsigned32 (0..1000)
STATUS current
DESCRIPTION
"The worst case random drop probability, expressed in drops
per thousand packets.
For example, if every packet may be dropped in the worst case
(100%), this has the value 1000. Alternatively, if in the
worst case one percent (1%) of traffic may be dropped, it has
the value 10."
::= { dsRandomDropEntry 6 }
dsRandomDropWeight OBJECT-TYPE
SYNTAX Unsigned32 (0..4294967295)
STATUS current
DESCRIPTION
"The weighting of past history in affecting the Exponentially
Weighted Moving Average function which calculates the current
average queue depth. The equation uses
dsRandomDropWeight/MaxValue as the coefficient for the new
sample in the equation, and
(MaxValue - dsRandomDropWeight)/MaxValue as the coefficient
of the old value, where, MaxValue is determined via capability
reported by the PEP.
Implementations may further limit the values of
dsRandomDropWeight via the capability tables."
::= { dsRandomDropEntry 7 }
dsRandomDropSamplingRate OBJECT-TYPE
SYNTAX Unsigned32 (0..1000000)
STATUS current
DESCRIPTION
"The number of times per second the queue is sampled for queue
average calculation. A value of zero means the queue is
sampled approximately each time a packet is enqueued (or
dequeued)."
::= { dsRandomDropEntry 8 }
--
-- Queue Table
--
--
-- An entry of dsQTable represents a FIFO queue diffserv
-- functional data path element as described in [MODEL] section
-- 7.1.1.
-- Notice the specification of scheduling parameters for a queue
-- as part of the input to a scheduler functional data path
-- element as described in [MODEL] section 7.1.2. This allows
-- building of hierarchical queuing/scheduling.
-- A queue therefore is parameterized by:
-- 1. Which scheduler will service this queue, dsQNext.
-- 2. How the scheduler will service this queue, with respect
-- to all the other queues the same scheduler needs to service,
-- dsQMinRate and dsQMaxRate.
--
-- Notice one or more upstream diffserv functional data path element
-- may share, point to, a dsQTable entry as described in [MODEL]
-- section 7.1.1.
--
dsQTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsQEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"The Queue Table enumerates the queues."
::= { dsPolicyClasses 11 }
dsQEntry OBJECT-TYPE
SYNTAX DsQEntry
STATUS current
DESCRIPTION
"An entry in the Queue Table describes a single queue
as a functional data path element."
PIB-INDEX { dsQPrid }
UNIQUENESS { dsQNext,
dsQMinRate,
dsQMaxRate }
::= { dsQTable 1 }
DsQEntry ::= SEQUENCE {
dsQPrid InstanceId,
dsQNext Prid,
dsQMinRate Prid,
dsQMaxRate Prid
}
dsQPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsQEntry 1 }
dsQNext OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This selects the next diffserv scheduler. This must point
to a dsSchedulerEntry.
A value of zeroDotZero in this attribute indicates an
incomplete dsQEntry instance. In such a case, the entry
has no operational effect, since it has no parameters to
give it meaning."
::= { dsQEntry 2 }
dsQMinRate OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This Prid indicates the entry in dsMinRateTable
the scheduler, pointed to by dsQNext, should use to service
this queue.
If this value is zeroDotZero
then minimum rate and priority is unspecified.
If this value is not zeroDotZero then the instance pointed to
must exist prior to installing this entry."
::= { dsQEntry 3 }
dsQMaxRate OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This Prid indicates the entry in dsMaxRateTable
the scheduler, pointed to by dsQNext, should use to service
this queue.
If this value is zeroDotZero, then the maximum rate is the
line speed of the interface.
If this value is not zeroDotZero, then the instance pointed
to must exist prior to installing this entry."
::= { dsQEntry 4 }
--
-- Scheduler Table
--
--
-- The Scheduler Table is used for representing packet schedulers:
-- it provides flexibility for multiple scheduling algorithms, each
-- servicing multiple queues, to be used on the same
-- logical/physical interface of a data path.
--
-- Notice the servicing parameters the scheduler uses is
-- specified by each of its upstream functional data path elements,
-- queues or schedulers of this PIB.
-- The coordination and coherency between the servicing parameters
-- of the scheduler's upstream functional data path elements must
-- be maintained for the scheduler to function correctly.
--
-- The dsSchedulerMinRate and dsSchedulerMaxRate attributes are
-- used for specifying the servicing parameters for output of a
-- scheduler when its downstream functional data path element
-- is another scheduler.
-- This is used for building hierarchical queue/scheduler.
--
-- More discussion of the scheduler functional data path element
-- is in [MODEL] section 7.1.2.
--
dsSchedulerTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsSchedulerEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"The Scheduler Table enumerates packet schedulers.
Multiple scheduling algorithms can be used on a given
datapath, with each algorithm described by one
dsSchedulerEntry."
REFERENCE
"An Informal Management Model for Diffserv Routers,
RFC 3290, section 7.1.2"
::= { dsPolicyClasses 12 }
dsSchedulerEntry OBJECT-TYPE
SYNTAX DsSchedulerEntry
STATUS current
DESCRIPTION
"An entry in the Scheduler Table describing a single
instance of a scheduling algorithm."
PIB-INDEX { dsSchedulerPrid }
UNIQUENESS { dsSchedulerNext,
dsSchedulerMethod,
dsSchedulerMinRate,
dsSchedulerMaxRate }
::= { dsSchedulerTable 1 }
DsSchedulerEntry ::= SEQUENCE {
dsSchedulerPrid InstanceId,
dsSchedulerNext Prid,
dsSchedulerMethod AutonomousType,
dsSchedulerMinRate Prid,
dsSchedulerMaxRate Prid
}
dsSchedulerPrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsSchedulerEntry 1 }
dsSchedulerNext OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This selects the next diffserv functional datapath
element to handle traffic for this data path.
This attribute normally have a value of zeroDotZero to
indicate no further DiffServ treatment is performed on
traffic of this datapath. The use of zeroDotZero is the
normal usage for the last functional datapath element.
Any value other than zeroDotZero must point to a valid
(pre-existing) instance of one of:
dsSchedulerEntry
dsQEntry,
or:
dsClfrEntry
dsMeterEntry
dsActionEntry
dsAlgDropEntry
This points to another dsSchedulerEntry
for implementation of multiple scheduler methods for
the same data path, and for implementation of
hierarchical schedulers."
DEFVAL { zeroDotZero }
::= { dsSchedulerEntry 2 }
dsSchedulerMethod OBJECT-TYPE
SYNTAX AutonomousType
STATUS current
DESCRIPTION
"The scheduling algorithm used by this Scheduler.
Standard values for generic algorithms:
diffServSchedulerPriority,
diffServSchedulerWRR,
diffServSchedulerWFQ
are specified in the DiffServ MIB.
Additional values may be further specified in other PIBs.
A value of zeroDotZero indicates this is unknown."
REFERENCE
"An Informal Management Model for Diffserv Routers,
RFC 3290, section 7.1.2"
::= { dsSchedulerEntry 3 }
dsSchedulerMinRate OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This Prid indicates the entry in dsMinRateTable
which indicates the priority or minimum output rate from this
scheduler. This attribute is used only when there is more
than one level of scheduler.
When it has the value zeroDotZero, it indicates that no
Minimum rate or priority is imposed."
DEFVAL { zeroDotZero }
::= { dsSchedulerEntry 4 }
dsSchedulerMaxRate OBJECT-TYPE
SYNTAX Prid
STATUS current
DESCRIPTION
"This Prid indicates the entry in dsMaxRateTable
which indicates the maximum output rate from this scheduler.
When more than one maximum rate applies (e.g., a multi-rate
shaper is used), it points to the first of the rate entries.
This attribute is only used when there is more than one level
of scheduler.
When it has the value zeroDotZero, it indicates that no
Maximum rate is imposed."
DEFVAL { zeroDotZero }
::= { dsSchedulerEntry 5 }
--
-- Minimum Rate Parameters Table
--
-- The parameters used by a scheduler for its inputs or outputs are
-- maintained separately from the Queue or Scheduler table entries
-- for reusability reasons and so that they may be used by both
-- queues and schedulers. This follows the approach for separation
-- of data path elements from parameterization that is used
-- throughout this PIB.
-- Use of these Minimum Rate Parameter Table entries by Queues and
-- Schedulers allows the modeling of hierarchical scheduling
-- systems.
--
-- Specifically, a Scheduler has one or more inputs and one output.
-- Any queue feeding a scheduler, or any scheduler which feeds a
-- second scheduler, might specify a minimum transfer rate by
-- pointing to a Minimum Rate Parameter Table entry.
--
-- The dsMinRatePriority/Absolute/Relative attributes are used as
-- parameters to the work-conserving portion of a scheduler:
-- "work-conserving" implies that the scheduler can continue to emit
-- data as long as there is data available at its input(s). This
-- has the effect of guaranteeing a certain priority relative to
-- other scheduler inputs and/or a certain minimum proportion of the
-- available output bandwidth. Properly configured, this means a
-- certain minimum rate, which may be exceeded should traffic be
-- available should there be spare bandwidth after all other classes
-- have had opportunities to consume their own minimum rates.
--
dsMinRateTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsMinRateEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"The Minimum Rate Table enumerates individual
sets of scheduling parameter that can be used/reused
by Queues and Schedulers."
::= { dsPolicyClasses 13 }
dsMinRateEntry OBJECT-TYPE
SYNTAX DsMinRateEntry
STATUS current
DESCRIPTION
"An entry in the Minimum Rate Table describes
a single set of scheduling parameter for use by
queues and schedulers."
PIB-INDEX { dsMinRatePrid }
UNIQUENESS { dsMinRatePriority,
dsMinRateAbsolute,
dsMinRateRelative }
::= { dsMinRateTable 1 }
DsMinRateEntry ::= SEQUENCE {
dsMinRatePrid InstanceId,
dsMinRatePriority Unsigned32,
dsMinRateAbsolute Unsigned32,
dsMinRateRelative Unsigned32
}
dsMinRatePrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsMinRateEntry 1 }
dsMinRatePriority OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
STATUS current
DESCRIPTION
"The priority of this input to the associated scheduler,
relative to the scheduler's other inputs. Higher Priority
value indicates the associated queue/scheduler will get
service first before others with lower Priority values."
::= { dsMinRateEntry 2 }
dsMinRateAbsolute OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
UNITS "kilobits per second"
STATUS current
DESCRIPTION
"The minimum absolute rate, in kilobits/sec, that a downstream
scheduler element should allocate to this queue. If the value
is zero, then there is effectively no minimum rate guarantee.
If the value is non-zero, the scheduler will assure the
servicing of this queue to at least this rate.
Note that this attribute's value is coupled to that
of dsMinRateRelative: changes to one will affect the value
of the other.
[IFMIB] defines ifSpeed as Gauge32 in units of bits per
second, and ifHighSpeed as Gauge32 in units of 1,000,000 bits
per second.
This yields the following equations:
RateRelative = [ (RateAbsolute * 1000) / ifSpeed ] * 1,000
Where, 1000 is for converting kbps used by RateAbsolute to bps
used by ifSpeed, 1,000 is for 'in units of 1/1,000 of 1' for
RateRelative.
or, if appropriate:
RateRelative =
{ [ (RateAbsolute * 1000) / 1,000,000 ] / ifHIghSpeed } *
1,000
Where, 1000 and 1,000,000 is for converting kbps used by
RateAbsolute to 1 million bps used by ifHighSpeed, 1,000 is
for 'in units of 1/1,000 of 1' for RateRelative."
REFERENCE
"ifSpeed, ifHighSpeed from the IF-MIB, RFC 2863."
::= { dsMinRateEntry 3 }
dsMinRateRelative OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
STATUS current
DESCRIPTION
"The minimum rate that a downstream scheduler element
should allocate to this queue, relative to the max-
imum rate of the interface as reported by ifSpeed or
ifHighSpeed, in units of 1/1,000 of 1. If the value
is zero, then there is effectively no minimum rate
guarantee. If the value is non-zero, the scheduler
will assure the servicing of this queue to at least
this rate.
Note that this attribute's value is coupled to that
of dsMinRateAbsolute: changes to one will
affect the value of the other.
[IFMIB] defines ifSpeed as Gauge32 in units of bits per
second, and ifHighSpeed as Gauge32 in units of 1,000,000 bits
per second.
This yields the following equations:
RateRelative = [ (RateAbsolute * 1000) / ifSpeed ] * 1,000
Where, 1000 is for converting kbps used by RateAbsolute to bps
used by ifSpeed, 1,000 is for 'in units of 1/1,000 of 1' for
RateRelative.
or, if appropriate:
RateRelative =
{ [ (RateAbsolute * 1000) / 1,000,000 ] / ifHIghSpeed } *
1,000
Where, 1000 and 1,000,000 is for converting kbps used by
RateAbsolute to 1 million bps used by ifHighSpeed, 1,000 is
for 'in units of 1/1,000 of 1' for RateRelative."
REFERENCE
"ifSpeed, ifHighSpeed from the IF-MIB, RFC 2863."
::= { dsMinRateEntry 4 }
--
-- Maximum Rate Parameters Table
--
-- The parameters used by a scheduler for its inputs or outputs are
-- maintained separately from the Queue or Scheduler table entries
-- for reusability reasons and so that they may be used by both
-- queues and schedulers. This follows the approach for separation
-- of data path elements from parameterization that is used
-- throughout this PIB.
--
-- Use of these Maximum Rate Parameter Table entries by Queues and
-- Schedulers allows the modeling of hierarchical scheduling
-- systems.
--
-- Specifically, a Scheduler has one or more inputs and one output.
-- Any queue feeding a scheduler, or any scheduler which feeds a
-- second scheduler, might specify a maximum transfer rate by
-- pointing to a Maximum Rate Parameter Table entry. Multi-rate
-- shapers, such as a Dual Leaky Bucket algorithm, specify their
-- rates using multiple Maximum Rate Parameter Entries with the same
-- dsMaxRateId but different dsMaxRateLevels.
--
-- The dsMaxRateLevel/Absolute/Relative attributes are used as
-- parameters to the non-work-conserving portion of a scheduler:
-- non-work-conserving implies that the scheduler may sometimes not
-- emit a packet, even if there is data available at its input(s).
-- This has the effect of limiting the servicing of the
-- queue/scheduler input or output, in effect performing shaping of
-- the packet stream passing through the queue/scheduler, as
-- described in the Informal Differentiated Services Model
-- section 7.2.
--
dsMaxRateTable OBJECT-TYPE
SYNTAX SEQUENCE OF DsMaxRateEntry
PIB-ACCESS install
STATUS current
DESCRIPTION
"The Maximum Rate Table enumerates individual
sets of scheduling parameter that can be used/reused
by Queues and Schedulers."
::= { dsPolicyClasses 14 }
dsMaxRateEntry OBJECT-TYPE
SYNTAX DsMaxRateEntry
STATUS current
DESCRIPTION
"An entry in the Maximum Rate Table describes
a single set of scheduling parameter for use by
queues and schedulers."
PIB-INDEX { dsMaxRatePrid }
UNIQUENESS { dsMaxRateId,
dsMaxRateLevel,
dsMaxRateAbsolute,
dsMaxRateRelative,
dsMaxRateThreshold }
::= { dsMaxRateTable 1 }
DsMaxRateEntry ::= SEQUENCE {
dsMaxRatePrid InstanceId,
dsMaxRateId Unsigned32,
dsMaxRateLevel Unsigned32,
dsMaxRateAbsolute Unsigned32,
dsMaxRateRelative Unsigned32,
dsMaxRateThreshold BurstSize
}
dsMaxRatePrid OBJECT-TYPE
SYNTAX InstanceId
STATUS current
DESCRIPTION
"An arbitrary integer index that uniquely identifies an
instance of the class."
::= { dsMaxRateEntry 1 }
dsMaxRateId OBJECT-TYPE
SYNTAX Unsigned32 (0..4294967295)
STATUS current
DESCRIPTION
"An identifier used together with dsMaxRateLevel for
representing a multi-rate shaper. This attribute is used for
associating all the rate attributes of a multi-rate shaper.
Each dsMaxRateEntry of a multi-rate shaper must have the same
value in this attribute. The different rates of a multi-rate
shaper is identified using dsMaxRateLevel.
This attribute uses the value of zero to indicate this
attribute is not used, for single rate shaper."
DEFVAL { 0 }
::= { dsMaxRateEntry 2 }
dsMaxRateLevel OBJECT-TYPE
SYNTAX Unsigned32 (1..32)
STATUS current
DESCRIPTION
"An index that indicates which level of a multi-rate shaper is
being given its parameters. A multi-rate shaper has some
number of rate levels. Frame Relay's dual rate specification
refers to a 'committed' and an 'excess' rate; ATM's dual rate
specification refers to a 'mean' and a 'peak' rate. This table
is generalized to support an arbitrary number of rates. The
committed or mean rate is level 1, the peak rate (if any) is
the highest level rate configured, and if there are other
rates they are distributed in monotonically increasing order
between them.
When the entry is used for a single rate shaper, this
attribute contains a value of one."
DEFVAL { 1 }
::= { dsMaxRateEntry 3 }
dsMaxRateAbsolute OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
UNITS "kilobits per second"
STATUS current
DESCRIPTION
"The maximum rate in kilobits/sec that a downstream
scheduler element should allocate to this queue. If
the value is zero, then there is effectively no max-
imum rate limit and that the scheduler should attempt
to be work-conserving for this queue. If the value
is non-zero, the scheduler will limit the servicing
of this queue to, at most, this rate in a non-work-
conserving manner.
Note that this attribute's value is coupled to that
of dsMaxRateRelative: changes to one will
affect the value of the other.
[IFMIB] defines ifSpeed as Gauge32 in units of bits per
second, and ifHighSpeed as Gauge32 in units of 1,000,000 bits
per second.
This yields the following equations:
RateRelative = [ (RateAbsolute * 1000) / ifSpeed ] * 1,000
Where, 1000 is for converting kbps used by RateAbsolute to bps
used by ifSpeed, 1,000 is for 'in units of 1/1,000 of 1'
for RateRelative.
or, if appropriate:
RateRelative =
{ [ (RateAbsolute * 1000) / 1,000,000 ] / ifHIghSpeed } *
1,000
Where, 1000 and 1,000,000 is for converting kbps used by
RateAbsolute to 1 million bps used by ifHighSpeed, 1,000 is
for 'in units of 1/1,000 of 1' for RateRelative."
::= { dsMaxRateEntry 4 }
dsMaxRateRelative OBJECT-TYPE
SYNTAX Unsigned32 (1..4294967295)
STATUS current
DESCRIPTION
"The maximum rate that a downstream scheduler element
should allocate to this queue, relative to the max-
imum rate of the interface as reported by ifSpeed or
ifHighSpeed, in units of 1/1,000 of 1. If the value
is zero, then there is effectively no maximum rate
limit and the scheduler should attempt to be work-
conserving for this queue. If the value is non-zero,
the scheduler will limit the servicing of this queue
to, at most, this rate in a non-work-conserving
manner.
Note that this attribute's value is coupled to that
of dsMaxRateAbsolute: changes to one will
affect the value of the other.
[IFMIB] defines ifSpeed as Gauge32 in units of bits per
second, and ifHighSpeed as Gauge32 in units of 1,000,000 bits
per second.
This yields the following equations:
RateRelative = [ (RateAbsolute * 1000) / ifSpeed ] * 1,000
Where, 1000 is for converting kbps used by RateAbsolute to bps
used by ifSpeed, 1,000 is for 'in units of 1/1,000 of 1' for
RateRelative.
or, if appropriate:
RateRelative =
{ [ (RateAbsolute * 1000) / 1,000,000 ] / ifHIghSpeed } *
1,000
Where, 1000 and 1,000,000 is for converting kbps used by
RateAbsolute to 1 million bps used by ifHighSpeed, 1,000 is
for 'in units of 1/1,000 of 1' for RateRelative."
REFERENCE
"ifSpeed, ifHighSpeed from the IF-MIB, RFC 2863."
::= { dsMaxRateEntry 5 }
dsMaxRateThreshold OBJECT-TYPE
SYNTAX BurstSize
UNITS "Bytes"
STATUS current
DESCRIPTION
"The number of bytes of queue depth at which the rate of a
multi-rate scheduler will increase to the next output rate. In
the last PRI for such a shaper, this threshold is
ignored and by convention is zero."
REFERENCE
"Adaptive Rate Shaper, RFC 2963"
::= { dsMaxRateEntry 6 }
--
-- Conformance Section
--
dsPolicyPibCompliances
OBJECT IDENTIFIER ::= { dsPolicyPibConformance 1 }
dsPolicyPibGroups
OBJECT IDENTIFIER ::= { dsPolicyPibConformance 2 }
dsPolicyPibCompliance MODULE-COMPLIANCE
STATUS current
DESCRIPTION
"Describes the requirements for conformance to the
QoS Policy PIB."
MODULE FRAMEWORK-PIB
MANDATORY-GROUPS {
frwkPrcSupportGroup,
frwkPibIncarnationGroup,
frwkDeviceIdGroup,
frwkCompLimitsGroup,
frwkCapabilitySetGroup,
frwkRoleComboGroup,
frwkIfRoleComboGroup,
frwkBaseFilterGroup,
frwkIpFilterGroup }
OBJECT frwkPibIncarnationLongevity
PIB-MIN-ACCESS notify
DESCRIPTION
"Install support is required if policy expiration is to
be supported."
OBJECT frwkPibIncarnationTtl
PIB-MIN-ACCESS notify
DESCRIPTION
"Install support is required if policy expiration is to
be supported."
MODULE DIFFSERV-PIB -- this module
MANDATORY-GROUPS {
dsPibBaseIfCapsGroup,
dsPibIfClassificationCapsGroup,
dsPibIfAlgDropCapsGroup,
dsPibIfQueueCapsGroup,
dsPibIfSchedulerCapsGroup,
dsPibIfMaxRateCapsGroup,
dsPibIfElmDepthCapsGroup,
dsPibIfElmLinkCapsGroup,
dsPibDataPathGroup,
dsPibClfrGroup,
dsPibClfrElementGroup,
dsPibActionGroup,
dsPibAlgDropGroup,
dsPibQGroup,
dsPibSchedulerGroup,
dsPibMinRateGroup,
dsPibMaxRateGroup }
GROUP dsPibIfMeteringCapsGroup
DESCRIPTION
"This group is mandatory for devices that implement
metering functions."
GROUP dsPibMeterGroup
DESCRIPTION
"This group is mandatory for devices that implement
metering functions."
GROUP dsPibTBParamGroup
DESCRIPTION
"This group is mandatory for devices that implement
token-bucket metering functions."
GROUP dsPibDscpMarkActGroup
DESCRIPTION
"This group is mandatory for devices that implement
DSCP-Marking functions."
GROUP dsPibMQAlgDropGroup
DESCRIPTION
"This group is mandatory for devices that implement
Multiple Queue Measured Algorithmic Drop functions."
GROUP dsPibRandomDropGroup
DESCRIPTION
"This group is mandatory for devices that implement
Random Drop functions."
OBJECT dsClfrId
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsClfrElementClfrId
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsClfrElementPrecedence
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsClfrElementNext
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsClfrElementSpecific
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMeterSucceedNext
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMeterFailNext
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMeterSpecific
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsTBParamType
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsTBParamRate
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsTBParamBurstSize
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsTBParamInterval
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsActionNext
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsActionSpecific
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsAlgDropType
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsAlgDropNext
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsAlgDropQMeasure
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsAlgDropQThreshold
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsAlgDropSpecific
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsRandomDropMinThreshBytes
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsRandomDropMinThreshPkts
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsRandomDropMaxThreshBytes
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsRandomDropMaxThreshPkts
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsRandomDropProbMax
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsRandomDropWeight
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsRandomDropSamplingRate
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsQNext
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsQMinRate
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsQMaxRate
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsSchedulerNext
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsSchedulerMethod
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsSchedulerMinRate
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsSchedulerMaxRate
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMinRatePriority
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMinRateAbsolute
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMinRateRelative
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMaxRateId
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMaxRateLevel
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMaxRateAbsolute
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMaxRateRelative
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
OBJECT dsMaxRateThreshold
PIB-MIN-ACCESS not-accessible
DESCRIPTION
"Install support is not required."
::= { dsPolicyPibCompliances 1 }
dsPibBaseIfCapsGroup OBJECT-GROUP
OBJECTS {
dsBaseIfCapsPrid, dsBaseIfCapsDirection
}
STATUS current
DESCRIPTION
"The Base Interface Capability Group defines the PIB
Objects that describe the base for interface capabilities."
::= { dsPolicyPibGroups 1 }
dsPibIfClassificationCapsGroup OBJECT-GROUP
OBJECTS {
dsIfClassificationCapsSpec
}
STATUS current
DESCRIPTION
"The Classification Capability Group defines the PIB
Objects that describe the classification capabilities."
::= { dsPolicyPibGroups 2 }
dsPibIfMeteringCapsGroup OBJECT-GROUP
OBJECTS {
dsIfMeteringCapsSpec
}
STATUS current
DESCRIPTION
"The Metering Capability Group defines the PIB
Objects that describe the metering capabilities."
::= { dsPolicyPibGroups 3 }
dsPibIfAlgDropCapsGroup OBJECT-GROUP
OBJECTS {
dsIfAlgDropCapsType, dsIfAlgDropCapsMQCount
}
STATUS current
DESCRIPTION
"The Algorithmic Dropper Capability Group defines the
PIB Objects that describe the algorithmic dropper
capabilities."
::= { dsPolicyPibGroups 4 }
dsPibIfQueueCapsGroup OBJECT-GROUP
OBJECTS {
dsIfQueueCapsMinQueueSize, dsIfQueueCapsMaxQueueSize,
dsIfQueueCapsTotalQueueSize
}
STATUS current
DESCRIPTION
"The Queueing Capability Group defines the PIB
Objects that describe the queueing capabilities."
::= { dsPolicyPibGroups 5 }
dsPibIfSchedulerCapsGroup OBJECT-GROUP
OBJECTS {
dsIfSchedulerCapsServiceDisc, dsIfSchedulerCapsMaxInputs,
dsIfSchedulerCapsMinMaxRate
}
STATUS current
DESCRIPTION
"The Scheduler Capability Group defines the PIB
Objects that describe the scheduler capabilities."
::= { dsPolicyPibGroups 6 }
dsPibIfMaxRateCapsGroup OBJECT-GROUP
OBJECTS {
dsIfMaxRateCapsMaxLevels
}
STATUS current
DESCRIPTION
"The Max Rate Capability Group defines the PIB
Objects that describe the max rate capabilities."
::= { dsPolicyPibGroups 7 }
dsPibIfElmDepthCapsGroup OBJECT-GROUP
OBJECTS {
dsIfElmDepthCapsPrc, dsIfElmDepthCapsCascadeMax
}
STATUS current
DESCRIPTION
"The DataPath Element Depth Capability Group defines the PIB
Objects that describe the datapath element depth
capabilities."
::= { dsPolicyPibGroups 8 }
dsPibIfElmLinkCapsGroup OBJECT-GROUP
OBJECTS {
dsIfElmLinkCapsPrc, dsIfElmLinkCapsAttr,
dsIfElmLinkCapsNextPrc
}
STATUS current
DESCRIPTION
"The DataPath Element Linkage Capability Group defines the
PIB Objects that describe the datapath element linkage
capabilities."
::= { dsPolicyPibGroups 9 }
dsPibDataPathGroup OBJECT-GROUP
OBJECTS {
dsDataPathPrid, dsDataPathCapSetName,
dsDataPathRoles, dsDataPathIfDirection,
dsDataPathStart
}
STATUS current
DESCRIPTION
"The Data Path Group defines the PIB Objects that
describe a data path."
::= { dsPolicyPibGroups 10 }
dsPibClfrGroup OBJECT-GROUP
OBJECTS {
dsClfrPrid, dsClfrId
}
STATUS current
DESCRIPTION
"The Classifier Group defines the PIB Objects that
describe a generic classifier."
::= { dsPolicyPibGroups 11 }
dsPibClfrElementGroup OBJECT-GROUP
OBJECTS {
dsClfrElementPrid, dsClfrElementClfrId,
dsClfrElementPrecedence, dsClfrElementNext,
dsClfrElementSpecific
}
STATUS current
DESCRIPTION
"The Classifier Group defines the PIB Objects that
describe a generic classifier."
::= { dsPolicyPibGroups 12 }
dsPibMeterGroup OBJECT-GROUP
OBJECTS {
dsMeterPrid, dsMeterSucceedNext,
dsMeterFailNext, dsMeterSpecific
}
STATUS current
DESCRIPTION
"The Meter Group defines the objects used in describ-
ing a generic meter element."
::= { dsPolicyPibGroups 13 }
dsPibTBParamGroup OBJECT-GROUP
OBJECTS {
dsTBParamPrid, dsTBParamType, dsTBParamRate,
dsTBParamBurstSize, dsTBParamInterval
}
STATUS current
DESCRIPTION
"The Token-Bucket Parameter Group defines the objects
used in describing a single-rate token bucket meter
element."
::= { dsPolicyPibGroups 14 }
dsPibActionGroup OBJECT-GROUP
OBJECTS {
dsActionPrid, dsActionNext, dsActionSpecific
}
STATUS current
DESCRIPTION
"The Action Group defines the objects used in
describing a generic action element."
::= { dsPolicyPibGroups 15 }
dsPibDscpMarkActGroup OBJECT-GROUP
OBJECTS {
dsDscpMarkActPrid, dsDscpMarkActDscp
}
STATUS current
DESCRIPTION
"The DSCP Mark Action Group defines the objects used
in describing a DSCP Marking Action element."
::= { dsPolicyPibGroups 16 }
dsPibAlgDropGroup OBJECT-GROUP
OBJECTS {
dsAlgDropPrid, dsAlgDropType, dsAlgDropNext,
dsAlgDropQMeasure, dsAlgDropQThreshold,
dsAlgDropSpecific
}
STATUS current
DESCRIPTION
"The Algorithmic Drop Group contains the objects that
describe algorithmic dropper operation and configura-
tion."
::= { dsPolicyPibGroups 17 }
dsPibMQAlgDropGroup OBJECT-GROUP
OBJECTS {
dsMQAlgDropExceedNext
}
STATUS current
DESCRIPTION
"The Multiple Queue Measured Algorithmic Drop Group
contains the objects that describe multiple queue
measured algorithmic dropper operation and configuration."
::= { dsPolicyPibGroups 18 }
dsPibRandomDropGroup OBJECT-GROUP
OBJECTS {
dsRandomDropPrid,
dsRandomDropMinThreshBytes,
dsRandomDropMinThreshPkts,
dsRandomDropMaxThreshBytes,
dsRandomDropMaxThreshPkts,
dsRandomDropProbMax,
dsRandomDropWeight,
dsRandomDropSamplingRate
}
STATUS current
DESCRIPTION
"The Random Drop Group augments the Algorithmic Drop Group
for random dropper operation and configuration."
::= { dsPolicyPibGroups 19 }
dsPibQGroup OBJECT-GROUP
OBJECTS {
dsQPrid, dsQNext, dsQMinRate, dsQMaxRate
}
STATUS current
DESCRIPTION
"The Queue Group contains the objects that describe
an interface type's queues."
::= { dsPolicyPibGroups 20 }
dsPibSchedulerGroup OBJECT-GROUP
OBJECTS {
dsSchedulerPrid, dsSchedulerNext, dsSchedulerMethod,
dsSchedulerMinRate, dsSchedulerMaxRate
}
STATUS current
DESCRIPTION
"The Scheduler Group contains the objects that
describe packet schedulers on interface types."
::= { dsPolicyPibGroups 21 }
dsPibMinRateGroup OBJECT-GROUP
OBJECTS {
dsMinRatePrid, dsMinRatePriority,
dsMinRateAbsolute, dsMinRateRelative
}
STATUS current
DESCRIPTION
"The Minimum Rate Group contains the objects
that describe packet schedulers' parameters on interface
types."
::= { dsPolicyPibGroups 22 }
dsPibMaxRateGroup OBJECT-GROUP
OBJECTS {
dsMaxRatePrid, dsMaxRateId, dsMaxRateLevel,
dsMaxRateAbsolute, dsMaxRateRelative,
dsMaxRateThreshold
}
STATUS current
DESCRIPTION
"The Maximum Rate Group contains the objects
that describe packet schedulers' parameters on interface
types."
::= { dsPolicyPibGroups 23 }
END
ACC SHELL 2018