module ietf-ipfix-psamp {
namespace "urn:ietf:params:xml:ns:yang:ietf-ipfix-psamp";
prefix ipfix;
import ietf-yang-types { prefix yang; }
import ietf-inet-types { prefix inet; }
organization
"IETF IPFIX Working Group";
contact
"WG Web:
WG List:
WG Chair: Nevil Brownlee
WG Chair: Juergen Quittek
Editor: Gerhard Muenz
";
description
"IPFIX/PSAMP Configuration Data Model
Copyright (c) 2010 IETF Trust and the persons identified as
the document authors. All rights reserved.
Redistribution and use in source and binary forms, with or
without modification, is permitted pursuant to, and subject
to the license terms contained in, the Simplified BSD License
set forth in Section 4.c of the IETF Trust's Legal Provisions
Relating to IETF Documents
(http://trustee.ietf.org/license-info).";
revision 2010-07-08 {
description "Version of draft-ietf-ipfix-configuration-model-06
Changes in draft-ietf-ipfix-configuration-model-06:
- new features cacheModeImmediate, cacheModeTimeout,
cacheModeNatural, cacheModePermanent
- parameter exportingProcess/destination/exportMemberType
replaced by new parameter exportingProcess/exportMode
- new destination subclasses sctpExporter, tcpExporter,
udpExporter, and fileWriter
- Template's bitvector state parameter flags replaced by
isFlowKey and isScope parameters
- interface and linecard containers removed from
observationPoint
- Cache parameter maxRecords renamed maxFlows
- fileWriter and fileReader have separate statistics
(do not use Transport Session statistics)
- new Transport Session state parameter
transportSessionStartTime
- parameter inactiveFlows renamed unusedCacheEntries
(as in IPFIX MIB)
- a Selection Process may receive packets from multiple
Observation Points but may only refer to a single Cache
- selectorId state parameter removed
- selectionSequenceId reported together with
observationDomainId
- nameType type definition for name parameters (keys)
- renaming: *IpAddress => *IPAddress
- renaming: *Receiver => *Collector
- parameters numberOfStreams and maxAllowedStreams
removed
Changes in draft-ietf-ipfix-configuration-model-05:
- new Cache Mode 'natural'
- new parameter exportInterval for permanent Cache
- new optionType 'extendedTypeInformation'
- ieId value range restricted to 1..32767
- parameter isFlowKey not available for Reverse Information
Elements and Cache Mode 'immediate'
- sourceIpAddress parameter used for all transport protocols,
replaces localIpAddress parameter for SCTP
- destinationIpAddress parameter may appear multiple times
in the case of SCTP
- new parameters ifIndex or ifName for export destinations
- description of timedReliability parameter updated
- new parameter maxPacketSize for UDP export
- must statement of selectionProcess updated
- must statement of Cache removed
Changes in draft-ietf-ipfix-configuration-model-04:
- descriptions and references added in various places,
especially for state parameters
- enum types cacheMode, exportMemberType, optionsType replaced
by identities in order to facilitate the addition of new
values using YANG deviations
- Selector parameters revised:
- parameter names now correspond to Information Element
names
- single matching value instead of range in filterMatch
(which is consistent with Selector Report Interpretation)
- filterHash parameters adapted to PSAMP RFCs
- sampNonUniProb, sampFlowState, filterRState removed
(a Selector Report Interpretation does not exist, yet)
- some must statements replaced by choices, which is easier
to read
- orderedDelivery parameter removed, better add a parameter
for activating per-sctp stream later
- YANG data type timeticks replaced by uint32 and unit
milliseconds
- configuration of fields included in an Options Template
removed because there is no real use-case
- observationPointId, selectionSequenceId, and selectorId are
now state parameters (i.e., not configurable any more)
because there is no real use-case to configure them
- meaning of configuration parameters activeTimeout and
inactiveTimeout clarified
- several additional must statements enforcing certain
configuration restrictions
Changes in draft-ietf-ipfix-configuration-model-03:
- list of used or received templates now inside transport
session container because templates are defined per transport
session
- transport session: removed 'index', added missing 'protocol'
- exportingProcessId removed
- Transport Session state data can be used for File Readers
and File Writers
- module name changed
- Renaming: cacheType => cacheMode,
Options' type => optionsType,
Destination's/FileWriter's type => exportMemberType,
uri => file, optionTemplate => optionsTemplate,
optionField => optionsField
- transport layer security parameters added to Destination
class and Receiver class
- must statements ensure that Selection Processes and Caches
process packets of a single Observation Domain (as long as
Selection Processes are not cascaded)
- replaced default value of port by description because the
value differs in the case of DTLS/TLS
Changes in draft-ietf-ipfix-configuration-model-02:
- conformance to draft-ietf-netmod-yang-03 and
draft-ietf-netmod-yang-types-01
- canonical form
- observationDomainId is now mandatory parameter
- usage of YANG features
- renamed parameter 'idleTimeout' in 'inactiveTimeout'
- state data: Selector statistics, Cache statistics, Templates,
Transport Sessions
- Exporting Process: new structure of destination, fileWriter
- Collecting Process: new structure of receiver, fileReader
- more groupings and typedefs
- options configured per Exporting Process, not per
destination
- verified optional parameters, added default values or
description clause if necessary
Changes in draft-ietf-ipfix-configuration-model-01:
- separation of Selectors and Selection Processes as in PSAMP
documents
- parameter modifications in filterMatch
- new rateLimit parameter in destinations of Exporting Process
- Cache Type 'normal' now called 'timeout'
Changes in draft-ietf-ipfix-configuration-model-00:
- Metering Process container replaced by direct reference to
Selection Process
- meteringProcessId parameter disappears together with the
Metering Process container
- concatenation of Selection Processes realize Selection
Sequence
- removal of premature support of
IPFIX Mediators/Concentrators.
- more SCTP parameters in SctpReceiver and SctpExport classes
- sendBufferSize parameter for all *Export classes
- templateId no longer configuration parameter
Changes in draft-muenz-ipfix-configuration-04:
- first version in yang
- Collecting Process can be configured for file import
- Collecting Process can be configured to export received
records without modifications (e.g., to file or other
collectors)
- SCTP export parameter timedReliability
- parameter for eligible local IP addresses for SCTP endpoint
- all tags names uncapitalized, types names etc. capitalized
- CacheParameters renamed as Cache
- description attribute removed
Changes in -03:
- Linecard and Interface classes now have direction element
- sec => s (SI unit)
- optional description attribute for annotations
- simplifications in ExportingProcess class
- new parameters: observationPointId, meteringProcessId,
selectorId, exportingProcessId (note that devices do not
have to support the configuration of these parameters)
- new FileExport class for exporting into a file
- Reporting class renamed Options Class
Changes in -02:
- new structure without next pointers
- packet reporting and flow metering replaced by record cache
- added reporting with options";
reference "RFC XXXX: IPFIX/PSAMP Configuration Data Model";
}
/*****************************************************************
* Features
*****************************************************************/
feature exporter {
description "If supported, the Monitoring Device can be used as
an Exporter. Exporting Processes can be configured.";
}
feature collector {
description "If supported, the Monitoring Device can be used as
a Collector. Collecting Processes can be configured.";
}
feature meter {
description "If supported, Observation Points, Selection
Processes, and Caches can be configured.";
}
feature psampSampCountBased {
description "If supported, the Monitoring Device supports
count-based Sampling. The Selector method sampCountBased can
be configured.";
}
feature psampSampTimeBased {
description "If supported, the Monitoring Device supports
time-based Sampling. The Selector method sampTimeBased can
be configured.";
}
feature psampSampRandOutOfN {
description "If supported, the Monitoring Device supports
random n-out-of-N Sampling. The Selector method
sampRandOutOfN can be configured.";
}
feature psampSampUniProb {
description "If supported, the Monitoring Device supports
uniform probabilistic Sampling. The Selector method
sampUniProb can be configured.";
}
feature psampFilterMatch {
description "If supported, the Monitoring Device supports
property match Filtering. The Selector method filterMatch
can be configured.";
}
feature psampFilterHash {
description "If supported, the Monitoring Device supports
hash-based Filtering. The Selector method filterHash can be
configured.";
}
feature cacheModeImmediate {
description "If supported, the Monitoring Device supports
Cache Mode 'immediate'.";
}
feature cacheModeTimeout {
description "If supported, the Monitoring Device supports
Cache Mode 'timeout'.";
}
feature cacheModeNatural {
description "If supported, the Monitoring Device supports
Cache Mode 'natural'.";
}
feature cacheModePermanent {
description "If supported, the Monitoring Device supports
Cache Mode 'permanent'.";
}
feature udpTransport {
description "If supported, the Monitoring Device supports UDP
as transport protocol.";
}
feature tcpTransport {
description "If supported, the Monitoring Device supports TCP
as transport protocol.";
}
feature fileReader {
description "If supported, the Monitoring Device supports the
configuration of Collecting Processes as File Readers.";
}
feature fileWriter {
description "If supported, the Monitoring Device supports the
configuration of Exporting Processes as File Writers.";
}
/*****************************************************************
* Identities
*****************************************************************/
/*** Hash function identities ***/
identity hashFunction {
description "Base identity for all hash functions used for
hash-based packet filtering. Identities derived from
this base are used by the leaf
/ipfix/selectionProcess/selector/filterHash/hashFunction.";
}
identity BOB {
base "hashFunction";
description "BOB hash function";
reference "RFC5475, Section 6.2.4.1.";
}
identity IPSX {
base "hashFunction";
description "IPSX hash function";
reference "RFC5475, Section 6.2.4.1.";
}
identity CRC {
base "hashFunction";
description "CRC hash function";
reference "RFC5475, Section 6.2.4.1.";
}
/*** Cache mode identities ***/
identity cacheMode {
description "Base identity for all Cache Modes specifying
Flow expiration policies of a Cache. Identities derived from
this base are used by the leaf /ipfix/cache/cacheMode.";
}
identity immediate {
base "cacheMode";
description "Flow expiration after the first packet;
generation of Packet Records.
This identity MUST NOT be referred to unless the feature
cacheModeImmediate is supported by the Monitoring Device.";
}
identity timeout {
base "cacheMode";
description "Flow expiration after active and inactive timeout;
generation of Flow Records.
This identity MUST NOT be referred to unless the feature
cacheModeTimeout is supported by the Monitoring Device.";
}
identity natural {
base "cacheMode";
description "Flow expiration after active and inactive timeout,
or on natural termination (e.g. TCP FIN, or TCP RST) of the
Flow; generation of Flow Records.
This identity MUST NOT be referred to unless the feature
cacheModeNatural is supported by the Monitoring Device.";
}
identity permanent {
base "cacheMode";
description "No flow expiration, periodical export with
time interval exportInterval; generation of Flow Records.
This identity MUST NOT be referred to unless the feature
cacheModePermanent is supported by the Monitoring Device.";
}
/*** Export mode identities ***/
identity exportMode {
description "Base identity for different usages of export
destinations configured for an Exporting Process.
Identities derived from this base are used by the leaf
/ipfix/exportingProcess/exportMode.";
}
identity parallel {
base "exportMode";
description "Parallel export of Data Records to all
destinations configured for the Exporting Process.";
}
identity loadBalancing {
base "exportMode";
description "Load-balancing between the different destinations
configured for the Exporting Process.";
}
identity fallback {
base "exportMode";
description "Export to the primary destination (i.e., the first
SCTP, UDP, TCP, or file destination configured for the
Exporting Process). If the export to the primary destination
fails, the Exporting Process tries to export to the secondary
destination. If the secondary destination fails as well, it
continues with the tertiary, etc.";
}
/*** Options type identities ***/
identity optionsType {
description "Base identity for report types exported with
options. Identities derived from this base are used by the leaf
/ipfix/exportingProcess/options/optionsType.";
}
identity meteringStatistics {
base "optionsType";
description "Metering Process Statistics.";
reference "RFC 5101, Section 4.1.";
}
identity meteringReliability {
base "optionsType";
description "Metering Process Reliability Statistics.";
reference "RFC 5101, Section 4.2.";
}
identity exportingReliability {
base "optionsType";
description "Exporting Process Reliability
Statistics.";
reference "RFC 5101, Section 4.3.";
}
identity flowKeys {
base "optionsType";
description "Flow Keys.";
reference "RFC 5101, Section 4.4.";
}
identity selectionSequence {
base "optionsType";
description "Selection Sequence and Selector Reports.";
reference "RFC5476, Sections 6.5.1 and 6.5.2.";
}
identity selectionStatistics {
base "optionsType";
description "Selection Sequence Statistics Report.";
reference "RFC5476, Sections 6.5.3.";
}
identity accuracy {
base "optionsType";
description "Accuracy Report.";
reference "RFC5476, Section 6.5.4.";
}
identity reducingRedundancy {
base "optionsType";
description "Enables the utilization of Options Templates to
reduce redundancy in the exported Data Records.";
reference "RFC5473.";
}
identity extendedTypeInformation {
base "optionsType";
description "Export of extended type information for
enterprise-specific Information Elements used in the
exported Templates.";
reference "RFC5610.";
}
/*****************************************************************
* Type definitions
*****************************************************************/
typedef nameType {
type string {
length "1..max";
pattern "\S(.*\S)?";
}
description "Type for 'name' leafs which are used to identify
specific instances within lists etc.
Leading and trailing whitespaces are not allowed.";
}
typedef direction {
type enumeration {
enum ingress {
description "This value is used for monitoring incoming
packets.";
}
enum egress {
description "This value is used for monitoring outgoing
packets.";
}
enum both {
description "This value is used for monitoring incoming and
outgoing packets.";
}
}
description "Direction of packets going through an interface or
linecard.";
}
typedef transportSessionStatus {
type enumeration {
enum inactive {
description "This value MUST be used for Transport Sessions
that are specified in the system but currently not active.
The value can be used for Transport Sessions that are
backup (secondary) sessions.";
}
enum active {
description "This value MUST be used for Transport Sessions
that are currently active and transmitting or receiving
data.";
}
enum unknown {
description "This value MUST be used if the status of the
Transport Sessions cannot be detected by the device. This
value should be avoided as far as possible.";
}
}
description "Status of a Transport Session.";
reference "RFC5815, Section 8 (ipfixTransportSessionStatus).";
}
/*****************************************************************
* Groupings
*****************************************************************/
grouping observationPointParameters {
description "Interface as input to Observation Point.";
leaf observationPointId {
type uint32;
config false;
description "Observation Point ID (i.e., the value of the
Information Element observationPointId) assigned by the
Monitoring Device.";
reference "RFC5102, Section 5.1.10.";
}
leaf observationDomainId {
type uint32;
mandatory true;
description "The Observation Domain ID associates the
Observation Point to an Observation Domain. Observation
Points with identical Observation Domain ID belong to the
same Observation Domain.";
reference "RFC5101.";
}
choice OPLocation {
mandatory true;
description "Location of the Observation Point.";
leaf ifIndex {
type uint32;
description "Index of an interface as stored in the ifTable
of IF-MIB.";
reference "RFC 1229.";
}
leaf ifName {
type string;
description "Name of an interface as stored in the ifTable
of IF-MIB.";
reference "RFC 1229.";
}
leaf entPhysicalIndex {
type uint32;
description "Index of a linecard as stored in the
entPhysicalTable of ENTITY-MIB.";
reference "RFC 4133.";
}
leaf entPhysicalName {
type string;
description "Name of a linecard as stored in the
entPhysicalTable of ENTITY-MIB.";
reference "RFC 4133.";
}
}
leaf direction {
type direction;
default both;
description "Direction of packets. If not applicable (e.g., in
the case of a sniffing interface in promiscuous mode), this
parameter is ignored.";
}
}
grouping selectorParameters {
description "Configuration and state parameters of a Selector.";
choice Method {
mandatory true;
description "Packet selection method applied by the Selector.";
leaf selectAll {
type empty;
description "Method which selects all packets.";
}
container sampCountBased {
if-feature psampSampCountBased;
description "This container contains the configuration
parameters of a Selector applying systematic count-based
packet sampling to the packet stream.";
reference "RFC5475, Section 5.1;
RFC5476, Section 6.5.2.1.";
leaf packetInterval {
type uint32;
units packets;
mandatory true;
description "The number of packets that are consecutively
sampled between gaps of length packetSpace.
This parameter corresponds to the Information Element
samplingPacketInterval.";
reference "RFC5477, Section 8.2.2.";
}
leaf packetSpace {
type uint32;
units packets;
mandatory true;
description "The number of unsampled packets between two
sampling intervals.
This parameter corresponds to the Information Element
samplingPacketSpace.";
reference "RFC5477, Section 8.2.3.";
}
}
container sampTimeBased {
if-feature psampSampTimeBased;
description "This container contains the configuration
parameters of a Selector applying systematic time-based
packet sampling to the packet stream.";
reference "RFC5475, Section 5.1;
RFC5476, Section 6.5.2.2.";
leaf timeInterval {
type uint32;
units microseconds;
mandatory true;
description "The time interval in microseconds during
which all arriving packets are sampled between gaps
of length timeSpace.
This parameter corresponds to the Information Element
samplingTimeInterval.";
reference "RFC5477, Section 8.2.4.";
}
leaf timeSpace {
type uint32;
units microseconds;
mandatory true;
description "The time interval in microseconds during
which no packets are sampled between two sampling
intervals specified by timeInterval.
This parameter corresponds to the Information Element
samplingTimeInterval.";
reference "RFC5477, Section 8.2.5.";
}
}
container sampRandOutOfN {
if-feature psampSampRandOutOfN;
description "This container contains the configuration
parameters of a Selector applying n-out-of-N packet
sampling to the packet stream.";
reference "RFC5475, Section 5.2.1;
RFC5476, Section 6.5.2.3.";
leaf size {
type uint32;
units packets;
mandatory true;
description "The number of elements taken from the parent
population.
This parameter corresponds to the Information Element
samplingSize.";
reference "RFC5477, Section 8.2.6.";
}
leaf population {
type uint32;
units packets;
mandatory true;
description "The number of elements in the parent
population.
This parameter corresponds to the Information Element
samplingPopulation.";
reference "RFC5477, Section 8.2.7.";
}
}
container sampUniProb {
if-feature psampSampUniProb;
description "This container contains the configuration
parameters of a Selector applying uniform probabilistic
packet sampling (with equal probability per packet) to the
packet stream.";
reference "RFC5475, Section 5.2.2.1;
RFC5476, Section 6.5.2.4.";
leaf probability {
type decimal64 {
fraction-digits 18;
range "0..1";
}
mandatory true;
description "Probability that a packet is sampled,
expressed as a value between 0 and 1. The probability
is equal for every packet.
This parameter corresponds to the Information Element
samplingProbability.";
reference "RFC5477, Section 8.2.8.";
}
}
container filterMatch {
if-feature psampFilterMatch;
description "This container contains the configuration
parameters of a Selector applying property match filtering
to the packet stream.";
reference "RFC5475, Section 6.1;
RFC5476, Section 6.5.2.5.";
choice nameOrId {
mandatory true;
description "The field to be matched is specified by
either the name or the ID of the Information
Element.";
leaf ieName {
type string;
description "Name of the Information Element.";
}
leaf ieId {
type uint16 {
range "1..32767" {
description "Valid range of Information Element
identifiers.";
reference "RFC5102, Section 4.";
}
}
description "ID of the Information Element.";
}
}
leaf ieEnterpriseNumber {
type uint32;
description "If present, the Information Element is
enterprise-specific. The field value configures the
enterprise number. If omitted or zero, the Information
Element is registered in the IANA registry of IPFIX
Information Elements.";
}
leaf value {
type string;
mandatory true;
description "Matching value of the Information Element.";
}
}
container filterHash {
if-feature psampFilterHash;
description "This container contains the configuration
parameters of a Selector applying hash-based filtering
to the packet stream.";
reference "RFC5475, Section 6.2;
RFC5476, Section 6.5.2.6.";
leaf hashFunction {
type identityref {
base "hashFunction";
}
default BOB;
description "Hash function to be applied. According to
RFC5475, Section 6.2.4.1, 'BOB' must be used in order to
be compliant with PSAMP.";
}
leaf ipPayloadOffset {
type uint64;
units octets;
default 0;
description "IP payload offset indicating the position of
the first payload byte considered as input to the hash
function.
Default value 0 corresponds to the minimum offset that
must be configurable according to RFC5476, Section
6.2.5.6.
This parameter corresponds to the Information Element
hashIPPayloadOffset.";
reference "RFC5477, Section 8.3.2.";
}
leaf ipPayloadSize {
type uint64;
units octets;
default 8;
description "Number of IP payload bytes used as input to
the hash function, counted from the payload offset.
If the IP payload is shorter than the payload range,
all available payload octets are used as input.
Default value 8 corresponds to the minimum IP payload
size that must be configurable according to RFC5476,
Section 6.2.5.6.
This parameter corresponds to the Information Element
hashIPPayloadSize.";
reference "RFC5477, Section 8.3.3.";
}
leaf digestOutput {
type boolean;
default false;
description "If true, the output from this Selector is
included in the Packet Report as a packet digest.
Therefore, the configured Cache Layout needs to contain
a digestHashValue field.
This parameter corresponds to the Information Element
hashDigestOutput.";
reference "RFC5477, Section 8.3.8.";
}
leaf initializerValue {
type uint64;
description "Initializer value to the hash function.
If not configured by the user, the Monitoring Device
arbitrarily chooses an initializer value.";
reference "RFC5477, Section 8.3.9.";
}
list selectedRange {
key name;
min-elements 1;
leaf name { type nameType; }
leaf min {
type uint64;
description "Beginning of the hash function's selected
range.
This parameter corresponds to the Information Element
hashSelectedRangeMin.";
reference "RFC5477, Section 8.3.6.";
}
leaf max {
type uint64;
description "End of the hash function's selected range.
This parameter corresponds to the Information Element
hashSelectedRangeMax.";
reference "RFC5477, Section 8.3.7.";
}
}
}
}
leaf packetsObserved {
type yang:counter64;
config false;
description "The number of packets observed at the input of
the Selector.
If this is the first Selector in the Selection Process,
this counter corresponds to the total number of packets in
all Observed Packet Streams at the input of the Selection
Process. Otherwise, the counter corresponds to the total
number of packets at the output of the preceding Selector.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
selectorDiscontinuityTime.";
reference "RFC5815, Section 8
(ipfixSelectorStatsPacketsObserved).";
}
leaf packetsDropped {
type yang:counter64;
config false;
description "The total number of packets discarded by the
Selector.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
selectorDiscontinuityTime.";
reference "RFC5815, Section 8
(ipfixSelectorStatsPacketsDropped).";
}
leaf selectorDiscontinuityTime {
type yang:date-and-time;
config false;
description "Timestamp of the most recent occasion at which
one or more of the Selector counters suffered a
discontinuity.
In contrast to ipfixSelectionProcessStatsDiscontinuityTime
in the IPFIX MIB module, the time is absolute and not
relative to sysUpTime.";
reference "RFC5815, Section 8
(ipfixSelectionProcessStatsDiscontinuityTime).";
}
}
grouping cacheParameters {
description "Configuration and state parameters of a Cache.";
leaf cacheMode {
type identityref {
base "cacheMode";
}
mandatory true;
}
leaf maxFlows {
when "../cacheMode != 'immediate'";
type uint32;
units flows;
description "This parameter configures the maximum number of
Flows in the Cache, which is the maximum number of Flows
that can be measured simultaneously.
The Monitoring Device MUST ensure that sufficient resources
are available to store the configured maximum number of
Flows.
If the maximum number of Flows is measured, no additional
Flows can be measured before any of the existing entries is
removed. However, traffic which pertains to existing Flows
can continue to be measured.";
}
leaf activeTimeout {
when "(../cacheMode = 'timeout') or
(../cacheMode = 'natural')";
type uint32;
units milliseconds;
description "This parameter configures the time in
milliseconds after which a Flow is expired even though
packets matching this Flow are still received by the Cache.
The parameter value zero indicates infinity, meaning that
there is no active timeout.
If not configured by the user, the Monitoring Device sets
this parameter.";
}
leaf inactiveTimeout {
when "(../cacheMode = 'timeout') or
(../cacheMode = 'natural')";
type uint32;
units milliseconds;
description "This parameter configures the time in
milliseconds after which a Flow is expired if no packets
matching this Flow are received by the Cache.
The parameter value zero indicates infinity, meaning that
there is no inactive timeout.
If not configured by the user, the Monitoring Device sets
this parameter.";
}
leaf exportInterval {
when "../cacheMode = 'permanent'";
type uint32;
units milliseconds;
description "This parameter configures the interval for
periodical export of Flow Records in milliseconds.
If not configured by the user, the Monitoring Device sets
this parameter.";
}
container cacheLayout {
description "Fields of a Cache Layout.";
list cacheField {
key name;
min-elements 1;
leaf name { type nameType; }
choice nameOrId {
mandatory true;
description "Name or ID of the Information Element.";
reference "RFC5102.";
leaf ieName { type string; }
leaf ieId {
type uint16 {
range "1..32767" {
description "Valid range of Information Element
identifiers.";
reference "RFC5102, Section 4.";
}
}
}
}
leaf ieLength {
type uint16;
units octets;
description "Length of the field in which the Information
Element is encoded. A value of 65535 specifies a
variable-length Information Element. For Information
Elements of integer and float type, the field length MAY
be set to a smaller value than the standard length of the
abstract data type if the rules of reduced size encoding
are fulfilled.
If not configured by the user, this parameter is set by
the Monitoring Device.";
reference "RFC5101, Section 6.2; RFC5102.";
}
leaf ieEnterpriseNumber {
type uint32;
description "If present, the Information Element is
enterprise-specific. The field value configures the
enterprise number. If omitted or zero, the Information
Element is registered in the IANA registry of IPFIX
Information Elements.
If the enterprise number is set to 29305, this field
contains a Reverse Information Element. In this case,
the Cache MUST generate Data Records in accordance to
RFC5103.";
reference "RFC5101; RFC5102.";
}
leaf isFlowKey {
when "(../../../cacheMode != 'immediate')
and
((count(../ieEnterpriseNumber) = 0)
or
(../ieEnterpriseNumber != 29305))";
type empty;
description "If present, this is a flow key.
The must statement ensures that this parameter is not
set for Reverse Information Elements or if the Cache
Mode is 'immediate'.";
}
}
}
leaf activeFlows {
when "../cacheMode != 'immediate'";
type yang:gauge32;
units flows;
config false;
description "The number of Flows currently active in this
Cache.";
reference "ietf-draft-ipfix-mib-10, Section 8
(ipfixMeteringProcessCacheActiveFlows).";
}
leaf unusedCacheEntries {
when "../cacheMode != 'immediate'";
type yang:gauge32;
units flows;
config false;
description "The number of unused Cache entries in this
Cache.";
reference "ietf-draft-ipfix-mib-10, Section 8
(ipfixMeteringProcessCacheUnusedCacheEntries).";
}
leaf dataRecords {
type yang:counter64;
units "Data Records";
config false;
description "The number of Data Records generated by this
Cache.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
cacheDiscontinuityTime.";
reference "ietf-draft-ipfix-mib-10, Section 8
(ipfixMeteringProcessDataRecords).";
}
leaf cacheDiscontinuityTime {
type yang:date-and-time;
config false;
description "Timestamp of the most recent occasion at which
the counter dataRecords suffered a discontinuity.
In contrast to ipfixMeteringProcessDiscontinuityTime
in the IPFIX MIB module, the time is absolute and not
relative to sysUpTime.";
reference "ietf-draft-ipfix-mib-10, Section 8
(ipfixMeteringProcessDiscontinuityTime).";
}
}
grouping exportingProcessParameters {
leaf exportMode {
type identityref {
base "exportMode";
}
default parallel;
description "This parameter determines to which configured
destination(s) the incoming Data Records are exported.";
}
list destination {
key name;
min-elements 1;
leaf name { type nameType; }
choice DestinationParameters {
mandatory true;
description "Configuration parameters depend on whether
SCTP, UDP, or TCP are used as transport protocol, and
whether the destination is a file.";
container sctpExporter {
uses sctpExporterParameters;
}
container udpExporter {
if-feature udpTransport;
uses udpExporterParameters;
}
container tcpExporter {
if-feature tcpTransport;
uses tcpExporterParameters;
}
container fileWriter {
if-feature fileWriter;
uses fileWriterParameters;
}
}
}
list options {
key name;
description "List of options reported by the Exporting
Process.";
leaf name { type nameType; }
uses optionsParameters;
}
}
grouping commonExporterParameters {
description "Parameters of en export destination which are
common to all transport protocols.";
leaf ipfixVersion {
type uint16;
default 10;
description "IPFIX version number.";
}
leaf destinationPort {
type inet:port-number;
description "If not configured by the user, the Monitoring
Device uses the default port number for IPFIX, which is
4739 without transport layer security and 4740 if transport
layer security is activated.";
}
choice indexOrName {
description "Index or name of the interface as stored in the
ifTable of IF-MIB.
If configured, the Exporting Process MUST use the given
interface to export IPFIX Messages to the export
destination.
If omitted, the Exporting Process selects the outgoing
interface based on local routing decision and accepts
return traffic, such as transport layer acknowledgments,
on all available interfaces.";
reference "RFC 1229.";
leaf ifIndex { type uint32; }
leaf ifName { type string; }
}
leaf sendBufferSize {
type uint32;
units bytes;
description "Size of the socket send buffer.
If not configured by the user, this parameter is set by
the Monitoring Device.";
}
leaf rateLimit {
type uint32;
units "bytes per second";
description "Maximum number of bytes per second the Exporting
Process may export to the given destination. The number of
bytes is calculated from the lengths of the IPFIX Messages
exported. If not configured, no rate limiting is performed.";
reference "RFC5476, Section 6.3.";
}
container transportLayerSecurity {
presence "If transportLayerSecurity is present, DTLS is
enabled if the transport protocol is SCTP or UDP, and TLS
is enabled if the transport protocol is TCP.";
uses transportLayerSecurityParameters;
}
container transportSession {
config false;
description "State parameters of the Transport Session
directed to the given destination.";
uses transportSessionParameters;
}
}
grouping sctpExporterParameters {
description "SCTP specific export destination parameters.";
uses commonExporterParameters;
leaf-list sourceIPAddress {
type inet:ip-address;
description "List of source IP addresses used by the
Exporting Process.
If configured, the specified addresses are eligible local
IP addresses of the multi-homed SCTP endpoint.
If not configured, all locally assigned IP addresses are
eligible local IP addresses.";
reference "RFC 4960 (multi-homed SCTP endpoint).";
}
leaf-list destinationIPAddress {
type inet:ip-address;
min-elements 1;
description "One or multiple IP addresses of the Collecting
Process to which IPFIX Messages are sent.
The user MUST ensure that all configured IP addresses
belong to the same Collecting Process.
The Exporting Process tries to establish an SCTP
association to any of the configured destination IP
addresses.";
reference "RFC 4960 (multi-homed SCTP endpoint).";
}
leaf timedReliability {
type uint32;
units milliseconds;
default 0;
description "Lifetime in milliseconds until an IPFIX
Message containing Data Sets only is 'abandoned' due to
the timed reliability mechanism of PR-SCTP.
If this parameter is set to zero, reliable SCTP
transport is used for all Data Records.
Regardless of the value of this parameter, the Exporting
Process MAY use reliable SCTP transport for Data Sets
associated with Options Templates.";
reference "RFC 3758; RFC 4960.";
}
}
grouping udpExporterParameters {
description "Parameters of a UDP export destination.";
uses commonExporterParameters;
leaf sourceIPAddress {
type inet:ip-address;
description "Source IP address used by the Exporting Process.
If not configured, the IP address assigned to the outgoing
interface is used as source IP address.";
}
leaf destinationIPAddress {
type inet:ip-address;
mandatory true;
description "IP address of the Collection Process to which
IPFIX Messages are sent.";
}
leaf maxPacketSize {
type uint16;
units octets;
description "This parameter specifies the maximum size of
IP packets sent to the Collector. If set to zero, the
Exporting Device MUST derive the maximum packet size
from path MTU discovery mechanisms.
If not configured by the user, this parameter is set by
the Monitoring Device.";
}
leaf templateRefreshTimeout {
type uint32;
units seconds;
default 600;
description "Sets time after which Templates are resent if
UDP is transport protocol.";
reference "RFC5101.";
}
leaf optionsTemplateRefreshTimeout {
type uint32;
units seconds;
default 600;
description "Sets time after which Options Templates are
resent if UDP is transport protocol.";
reference "RFC5101.";
}
leaf templateRefreshPacket {
type uint32;
units "IPFIX Messages";
description "Sets number of IPFIX Messages after which
Templates are resent if UDP is transport protocol.
If omitted, Templates are only resent after timeout.";
reference "RFC5101.";
}
leaf optionsTemplateRefreshPacket {
type uint32;
units "IPFIX Messages";
description "Sets number of IPFIX Messages after which
Options Templates are resent if UDP is transport
protocol.
If omitted, Templates are only resent after timeout.";
reference "RFC5101.";
}
}
grouping tcpExporterParameters {
description "Parameters of a TCP export destination.";
uses commonExporterParameters;
leaf sourceIPAddress {
type inet:ip-address;
description "Source IP address used by the Exporting Process.
If not configured by the user, this parameter is set by
the Monitoring Device to an IP address assigned to the
outgoing interface.";
}
leaf destinationIPAddress {
type inet:ip-address;
mandatory true;
description "IP address of the Collection Process to which
IPFIX Messages are sent.";
}
}
grouping fileWriterParameters {
description "File Writer parameters.";
leaf ipfixVersion {
type uint16;
default 10;
description "IPFIX version number.";
}
leaf file {
type inet:uri;
mandatory true;
description "URI specifying the location of the file.";
}
leaf bytes {
type yang:counter64;
units octets;
config false;
description "The number of bytes written by the File Writer.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileWriterDiscontinuityTime.";
}
leaf messages {
type yang:counter64;
units "IPFIX Messages";
config false;
description "The number of IPFIX Messages written by the File
Writer.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileWriterDiscontinuityTime.";
}
leaf discardedMessages {
type yang:counter64;
units "IPFIX Messages";
config false;
description "The number of IPFIX Messages that could not be
written by the File Writer due to internal buffer
overflows, limited storage capacity etc.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileWriterDiscontinuityTime.";
}
leaf records {
type yang:counter64;
units "Data Records";
config false;
description "The number of Data Records written by the File
Writer.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileWriterDiscontinuityTime.";
}
leaf templates {
type yang:counter32;
units "Templates";
config false;
description "The number of Template Records (excluding
Options Template Records) written by the File Writer.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileWriterDiscontinuityTime.";
}
leaf optionsTemplates {
type yang:counter32;
units "Options Templates";
config false;
description "The number of Options Template Records written
by the File Writer.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileWriterDiscontinuityTime.";
}
leaf fileWriterDiscontinuityTime {
type yang:date-and-time;
config false;
description "Timestamp of the most recent occasion at which
one or more File Writer counters suffered a discontinuity.
In contrast to discontinuity times in the IPFIX MIB module,
the time is absolute and not relative to sysUpTime.";
}
list template {
config false;
description "This list contains the Templates and Options
Templates that have been written by the File Reader.
Withdrawn or invalidated (Options) Template MUST be removed
from this list.";
uses templateParameters;
}
}
grouping optionsParameters {
description "Parameters specifying the data export using an
Options Template.";
leaf optionsType {
type identityref {
base "optionsType";
}
mandatory true;
}
leaf optionsTimeout {
type uint32;
units milliseconds;
description "Time interval for periodic export of the options
data. If set to zero, the export is triggered when the
options data has changed.
If not configured by the user, this parameter is set by the
Monitoring Device.";
}
}
grouping collectingProcessParameters {
list sctpCollector {
key name;
description "List of SCTP receivers (sockets) on which the
Collecting Process receives IPFIX Messages.";
leaf name { type nameType; }
uses sctpCollectorParameters;
}
list udpCollector {
if-feature udpTransport;
key name;
description "List of UDP receivers (sockets) on which the
Collecting Process receives IPFIX Messages.";
leaf name { type nameType; }
uses udpCollectorParameters;
}
list tcpCollector {
if-feature tcpTransport;
key name;
description "List of TCP receivers (sockets) on which the
Collecting Process receives IPFIX Messages.";
leaf name { type nameType; }
uses tcpCollectorParameters;
}
list fileReader {
if-feature fileReader;
key name;
description "List of File Readers from which the Collecting
Process reads IPFIX Messages.";
leaf name { type nameType; }
uses fileReaderParameters;
}
}
grouping commonCollectorParameters {
description "Parameters of a Collecting Process which are
common to all transport protocols.";
leaf localPort {
type inet:port-number;
description "If not configured, the Monitoring Device uses the
default port number for IPFIX, which is 4739 without
transport layer security and 4740 if transport layer
security is activated.";
}
container transportLayerSecurity {
presence "If transportLayerSecurity is present, DTLS is enabled
if the transport protocol is SCTP or UDP, and TLS is enabled
if the transport protocol is TCP.";
uses transportLayerSecurityParameters;
}
list transportSession {
config false;
description "This list contains the currently established
Transport Sessions terminating at the given socket.";
uses transportSessionParameters;
}
}
grouping sctpCollectorParameters {
description "Parameters of an SCTP receiver in a Collecting
Process.";
uses commonCollectorParameters;
leaf-list localIPAddress {
type inet:ip-address;
description "List of local IP addresses on which the
Collecting Process listens for IPFIX Messages. The IP
addresses are used as eligible local IP addresses of the
multi-homed SCTP endpoint.";
reference "RFC 4960 (multi-homed SCTP endpoint).";
}
}
grouping udpCollectorParameters {
description "Parameters of an UDP receiver in a Collecting
Process.";
uses commonCollectorParameters;
leaf-list localIPAddress {
type inet:ip-address;
description "List of local IP addresses on which the Collecting
Process listens for IPFIX Messages.";
}
leaf templateLifetime {
type uint32;
units seconds;
default 1800;
description "Template lifetime if UDP is transport
protocol.";
reference "RFC5101, Section 10.3.7.";
}
}
grouping tcpCollectorParameters {
description "Parameters of an TCP receiver in a Collecting
Process.";
uses commonCollectorParameters;
leaf-list localIPAddress {
type inet:ip-address;
description "List of local IP addresses on which the Collecting
Process listens for IPFIX Messages.";
}
}
grouping fileReaderParameters {
description "File Reader parameters.";
leaf file {
type inet:uri;
mandatory true;
description "URI specifying the location of the file.";
}
leaf bytes {
type yang:counter64;
units octets;
config false;
description "The number of bytes read by the File Reader.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileReaderDiscontinuityTime.";
}
leaf messages {
type yang:counter64;
units "IPFIX Messages";
config false;
description "The number of IPFIX Messages read by the File
Reader.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileReaderDiscontinuityTime.";
}
leaf records {
type yang:counter64;
units "Data Records";
config false;
description "The number of Data Records read by the File
Reader.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileReaderDiscontinuityTime.";
}
leaf templates {
type yang:counter32;
units "Templates";
config false;
description "The number of Template Records (excluding
Options Template Records) read by the File Reader.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileReaderDiscontinuityTime.";
}
leaf optionsTemplates {
type yang:counter32;
units "Options Templates";
config false;
description "The number of Options Template Records read by
the File Reader.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
fileReaderDiscontinuityTime.";
}
leaf fileReaderDiscontinuityTime {
type yang:date-and-time;
config false;
description "Timestamp of the most recent occasion at which
one or more File Reader counters suffered a discontinuity.
In contrast to discontinuity times in the IPFIX MIB module,
the time is absolute and not relative to sysUpTime.";
}
list template {
config false;
description "This list contains the Templates and Options
Templates that have been read by the File Reader.
Withdrawn or invalidated (Options) Template MUST be removed
from this list.";
uses templateParameters;
}
}
grouping transportLayerSecurityParameters {
description "Transport layer security parameters.";
leaf-list localCertificationAuthorityDN {
type string;
description "Distinguished names of certification authorities
whose certificates may be used to identify the local
endpoint.";
}
leaf-list localSubjectDN {
type string;
description "Distinguished names which may be used in the
certificates to identify the local endpoint.";
}
leaf-list localSubjectFQDN {
type inet:domain-name;
description "Fully qualified domain names which may be used to
in the certificates to identify the local endpoint.";
}
leaf-list remoteCertificationAuthorityDN {
type string;
description "Distinguished names of certification authorities
whose certificates are accepted to authorize remote
endpoints.";
}
leaf-list remoteSubjectDN {
type string;
description "Distinguished names which are accepted in
certificates to authorize remote endpoints.";
}
leaf-list remoteSubjectFQDN {
type inet:domain-name;
description "Fully qualified domain name which are accepted in
certificates to authorize remote endpoints.";
}
}
grouping templateParameters {
description "State parameters of a Template used by an Exporting
Process or received by a Collecting Process in a specific
Transport Session. Parameter names and semantics correspond to
the managed objects in IPFIX-MIB";
reference "RFC5101; RFC5815, Section 8 (ipfixTemplateEntry,
ipfixTemplateDefinitionEntry, ipfixTemplateStatsEntry)";
leaf observationDomainId {
type uint32;
description "The ID of the Observation Domain for which this
Template is defined.";
reference "RFC5815, Section 8
(ipfixTemplateObservationDomainId).";
}
leaf templateId {
type uint16 {
range "256..65535" {
description "Valid range of Template IDs.";
reference "RFC5101";
}
}
description "This number indicates the Template Id in the IPFIX
message.";
reference "RFC5815, Section 8 (ipfixTemplateId).";
}
leaf setId {
type uint16;
description "This number indicates the Set ID of the Template.
Currently, there are two values defined. The value 2 is used
for Sets containing Template definitions. The value 3 is
used for Sets containing Options Template definitions.";
reference "RFC5815, Section 8 (ipfixTemplateSetId).";
}
leaf accessTime {
type yang:date-and-time;
description "Used for Exporting Processes, this parameter
contains the time when this (Options) Template was last
sent to the Collector(s) or written to the file.
Used for Collecting Processes, this parameter contains the
time when this (Options) Template was last received from the
Exporter or read from the file.";
reference "RFC5815, Section 8 (ipfixTemplateAccessTime).";
}
leaf templateDataRecords {
type yang:counter64;
description "The number of transmitted or received Data
Records defined by this (Options) Template.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
templateDiscontinuityTime.";
reference "RFC5815, Section 8 (ipfixTemplateDataRecords).";
}
leaf templateDiscontinuityTime {
type yang:date-and-time;
description "Timestamp of the most recent occasion at which
the counter templateDataRecords suffered a discontinuity.
In contrast to ipfixTemplateDiscontinuityTime in the IPFIX
MIB module, the time is absolute and not relative to
sysUpTime.";
reference "RFC5815, Section 8
(ipfixTemplateDiscontinuityTime).";
}
list field {
description "This list contains the (Options) Template
fields of which the (Options) Template is defined.
The order of the list corresponds to the order of the fields
in the (Option) Template Record.";
leaf ieId {
type uint16 {
range "1..32767" {
description "Valid range of Information Element
identifiers.";
reference "RFC5102, Section 4.";
}
}
description "This parameter indicates the Information
Element Id of the field.";
reference "RFC5815, Section 8 (ipfixTemplateDefinitionIeId);
RFC5102.";
}
leaf ieLength {
type uint16;
units octets;
description "This parameter indicates the length of the
Information Element of the field.";
reference "RFC5815, Section 8
(ipfixTemplateDefinitionIeLength); RFC5102.";
}
leaf ieEnterpriseNumber {
type uint32;
description "This parameter indicates the IANA enterprise
number of the authority defining the Information Element
Id.
If the Information Element is not enterprise-specific,
this state parameter is omitted.";
reference "RFC5815, Section 8
(ipfixTemplateDefinitionIeEnterpriseNumber).";
}
leaf isFlowKey {
when "../../setId = 2";
type empty;
description "If present, this is a Flow Key field.";
reference "RFC5815, Section 8
(ipfixTemplateDefinitionFlags).";
}
leaf isScope {
when "../../setId = 3";
type empty;
description "If present, this is a scope field.";
reference "RFC5815, Section 8
(ipfixTemplateDefinitionFlags).";
}
}
}
grouping transportSessionParameters {
description "State parameters of a Transport Session originating
from an Exporting or terminating at a Collecting Process.
Parameter names and semantics correspond to the managed
objects in IPFIX-MIB.";
reference "RFC5101, RFC5815, Section 8
(ipfixTransportSessionEntry,
ipfixTransportSessionStatsEntry)";
leaf ipfixVersion {
type uint16;
description "Used for Exporting Processes, this parameter
contains the version number of the IPFIX protocol that the
Exporter uses to export its data in this Transport Session.
Used for Collecting Processes, this parameter contains the
version number of the IPFIX protocol it receives for
this Transport Session.
If IPFIX Messages of different IPFIX protocol versions are
transmitted or received in this Transport Session, this
object contains the maximum version number.";
reference "RFC5815, Section 8
(ipfixTransportSessionIpfixVersion).";
}
leaf protocol {
type uint32;
description "The transport protocol used for receiving or
transmitting IPFIX Messages. Protocol numbers are
assigned by IANA. A current list of all assignments is
available from .";
reference "RFC5815, Section 8
(ipfixTransportSessionProtocol).";
}
leaf sourceAddress {
type inet:ip-address;
description "The source address of the Exporter of the
IPFIX Transport Session.
This parameter is used with transport protocols like TCP(6)
and UDP(17) that have the notion of addresses. SCTP(132)
should use sctpAssocId instead. If SCTP(132) or any other
protocol without the notion of addresses is used, this
parameter is omitted.";
reference "RFC5815, Section 8
(ipfixTransportSessionSourceAddressType,
ipfixTransportSessionSourceAddress).";
}
leaf destinationAddress {
type inet:ip-address;
description "The destination address of the Collector of
the IPFIX Transport Session.
This parameter is used with transport protocols like TCP(6)
and UDP(17) that have the notion of addresses. SCTP(132)
should use sctpAssocId instead. If SCTP(132) or any other
protocol without the notion of addresses is used, this
parameter is omitted.";
reference "RFC5815, Section 8
(ipfixTransportSessionDestinationAddressType,
ipfixTransportSessionDestinationAddress).";
}
leaf sourcePort {
type inet:port-number;
description "The transport protocol port number of the
Exporter of the IPFIX Transport Session.
If a transport protocol without the notion of ports is
used, this parameter is omitted.";
reference "RFC5815, Section 8
(ipfixTransportSessionSourcePort).";
}
leaf destinationPort {
type inet:port-number;
description "The transport protocol port number of the
Collector of the IPFIX Transport Session.
If a transport protocol without the notion of ports is
used, this parameter is omitted.";
reference "RFC5815, Section 8
(ipfixTransportSessionDestinationPort).";
}
leaf sctpAssocId {
when "../protocol = 132";
type uint32;
description "The association id used for the SCTP session
between the Exporter and the Collector of the IPFIX
Transport Session. It is equal to the sctpAssocId entry
in the sctpAssocTable defined in the SCTP-MIB.
This parameter is only used if protocol has the value 132
(SCTP). In all other cases, the parameter is omitted.";
reference "RFC5815, Section 8
(ipfixTransportSessionSctpAssocId),
RFC3871";
}
choice protocolSpecificParameters {
case udp {
when "protocol = 17";
description "UDP specific Transport Session state
parameters.";
leaf templateRefreshTimeout {
type uint32;
units seconds;
description "Used for Exporting Processes, this parameter
contains the time in seconds after which Templates MUST
be resent by the Exporter.
Used for Collecting Processes, this parameter contains
the lifetime in seconds after which a Template becomes
invalid when it is not received again within this
lifetime.";
reference "RFC5815, Section 8
(ipfixTransportSessionTemplateRefreshTimeout).";
}
leaf optionsTemplateRefreshTimeout {
type uint32;
units seconds;
description "Used for Exporting Processes, this parameter
contains the time in seconds after which Options
Templates MUST be resent by the Exporter.
Used for Collecting Processes, this parameter contains
the lifetime in seconds after which a Template becomes
invalid when it is not received again within this
lifetime.";
reference "RFC5815, Section 8
(ipfixTransportSessionOptionsTemplateRefreshTimeout).";
}
leaf templateRefreshPacket {
type uint32;
units "IPFIX Messages";
description "Used for Exporting Processes, this parameter
contains the number of exported IPFIX Messages after
which Templates MUST be resent by the Exporter.
Used on Collecting Processes, this parameter contains
the lifetime in number of exported IPFIX Messages after
which an Template becomes invalid when it is not
received again within this lifetime.
This parameter is only used if protocol has the value 17
(UDP). In all other cases, the parameter is omitted.";
reference "RFC5815, Section 8
(ipfixTransportSessionTemplateRefreshPacket).";
}
leaf optionsTemplateRefreshPacket {
type uint32;
units "IPFIX Messages";
description "Used for Exporting Processes, this parameter
contains the number of exported IPFIX Messages after
which Options Templates MUST be resent by the Exporter.
Used on Collecting Processes, this parameter contains
the lifetime in number of exported IPFIX Messages after
which an Options Template becomes invalid when it is not
received again within this lifetime.";
reference "RFC5815, Section 8
(ipfixTransportSessionOptionsTemplateRefreshPacket).";
}
}
}
leaf status {
type transportSessionStatus;
description "Status of the Transport Session.";
reference "RFC5815, Section 8 (ipfixTransportSessionStatus).";
}
leaf rate {
type yang:gauge32;
units "bytes per second";
description "The number of bytes per second transmitted by the
Exporting Process or received by the Collecting Process.
This parameter is updated every second.";
reference "RFC5815, Section 8 (ipfixTransportSessionRate).";
}
leaf packets {
type yang:counter64;
units packets;
description "The number of packets transmitted by the
Exporting Process or received by the Collecting Process.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
transportSessionDiscontinuityTime.";
reference "RFC5815, Section 8
(ipfixTransportSessionPackets).";
}
leaf bytes {
type yang:counter64;
units bytes;
description "The number of bytes transmitted by the
Exporting Process or received by the Collecting Process.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
transportSessionDiscontinuityTime.";
reference "RFC5815, Section 8 (ipfixTransportSessionBytes).";
}
leaf messages {
type yang:counter64;
units "IPFIX Messages";
description "The number of messages transmitted by the
Exporting Process or received by the Collecting Process.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
transportSessionDiscontinuityTime.";
reference "RFC5815, Section 8
(ipfixTransportSessionMessages).";
}
leaf discardedMessages {
type yang:counter64;
units "IPFIX Messages";
description "Used for Exporting Processes, this parameter
indicates the number of messages that could not be sent due
to internal buffer overflows, network congestion, routing
issues, etc. Used for Collecting Process, this parameter
indicates the number of received IPFIX Message that are
malformed, cannot be decoded, are received in the wrong
order or are missing according to the sequence number.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
transportSessionDiscontinuityTime.";
reference "RFC5815, Section 8
(ipfixTransportSessionDiscardedMessages).";
}
leaf records {
type yang:counter64;
units "Data Records";
description "The number of Data Records transmitted by the
Exporting Process or received by the Collecting Process.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
transportSessionDiscontinuityTime.";
reference "RFC5815, Section 8
(ipfixTransportSessionRecords).";
}
leaf templates {
type yang:counter32;
units "Templates";
description "The number of Templates transmitted by the
Exporting Process or received by the Collecting Process.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
transportSessionDiscontinuityTime.";
reference "RFC5815, Section 8
(ipfixTransportSessionTemplates).";
}
leaf optionsTemplates {
type yang:counter32;
units "Options Templates";
description "The number of Option Templates transmitted by the
Exporting Process or received by the Collecting Process.
Discontinuities in the value of this counter can occur at
re-initialization of the management system, and at other
times as indicated by the value of
transportSessionDiscontinuityTime.";
reference "RFC5815, Section 8
(ipfixTransportSessionOptionsTemplates).";
}
leaf transportSessionStartTime {
type yang:date-and-time;
description "Timestamp of the start of the given Transport
Session.
This state parameter does not correspond to any object in
the IPFIX MIB module.";
}
leaf transportSessionDiscontinuityTime {
type yang:date-and-time;
description "Timestamp of the most recent occasion at which
one or more of the Transport Session counters suffered a
discontinuity.
In contrast to ipfixTransportSessionDiscontinuityTime
in the IPFIX MIB module, the time is absolute and not
relative to sysUpTime.";
reference "RFC5815, Section 8
(ipfixTransportSessionDiscontinuityTime).";
}
list template {
description "This list contains the Templates and Options
Templates that are transmitted by the Exporting Process
or received by the Collecting Process.
Withdrawn or invalidated (Options) Template MUST be removed
from this list.";
uses templateParameters;
}
}
/*****************************************************************
* Main container
*****************************************************************/
container ipfix {
list collectingProcess {
if-feature collector;
key name;
description "Collecting Process of the Monitoring Device.";
leaf name { type nameType; }
uses collectingProcessParameters;
leaf-list exportingProcess {
type leafref { path "/ipfix/exportingProcess/name"; }
description "Export of received records without any
modifications. Records are processed by all Exporting
Processes in the list.";
}
}
list observationPoint {
if-feature meter;
key name;
description "Observation Point of the Monitoring Device.";
leaf name { type nameType; }
uses observationPointParameters;
leaf-list selectionProcess {
type leafref { path "/ipfix/selectionProcess/name"; }
description "Selection Processes in this list process packets
in parallel.";
}
}
list selectionProcess {
if-feature meter;
key name;
description "Selection Process of the Monitoring Device.";
leaf name { type nameType; }
list selector {
key name;
min-elements 1;
ordered-by user;
description "List of Selectors that define the action of the
Selection Process on a single packet. The Selectors are
serially invoked in the same order as they appear in this
list.";
leaf name { type nameType; }
uses selectorParameters;
}
list selectionSequence {
config false;
description "This list contains the Selection Sequence IDs
which are assigned by the Monitoring Device to distinguish
different Selection Sequences passing through the
Selection Process.
As Selection Sequence IDs are unique per Observation
Domain, the corresponding Observation Domain IDs are
included as well.
With this information, it is possible to associate
Selection Sequence (Statistics) Report Interpretations
exported according to the PSAMP protocol with a Selection
Process in the configuration data.";
reference "RFC5476.";
leaf selectionSequenceId { type uint64; }
leaf observationDomainId { type uint32; }
}
leaf cache {
type leafref { path "/ipfix/cache/name"; }
description "Cache which receives the output of the
Selection Process.";
}
}
list cache {
if-feature meter;
key name;
description "Cache of the Monitoring Device.";
leaf name { type nameType; }
uses cacheParameters;
leaf-list exportingProcess {
type leafref { path "/ipfix/exportingProcess/name"; }
description "Records are exported by all Exporting Processes
in the list.";
}
}
list exportingProcess {
if-feature exporter;
key name;
description "Exporting Process of the Monitoring Device.";
leaf name { type nameType; }
uses exportingProcessParameters;
}
}
}