PIM Working Group X. Liu
Internet-Draft Volta Networks
Intended Status: Standard Track F. Guo
Expires: November 29, 2019 Huawei
M. Sivakumar
Juniper
P. McAllister
Metaswitch Networks
A. Peter
Individual
May 29, 2019
A YANG Data Model for Internet Group Management Protocol (IGMP) and
Multicast Listener Discovery (MLD)
draft-ietf-pim-igmp-mld-yang-14
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carefully, as they describe your rights and restrictions with
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Abstract
This document defines a YANG data model that can be used to
configure and manage Internet Group Management Protocol (IGMP) and
Multicast Listener Discovery (MLD) devices.
Conventions used in this document
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in
BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all
capitals, as shown here.
Table of Contents
1. Introduction...................................................3
1.1. Terminology...............................................3
1.2. Tree Diagrams.............................................4
1.3. Prefixes in Data Node Names...............................4
2. Design of Data model...........................................4
2.1. Scope of Model............................................4
2.1.1. Parameters Not Covered at Global Level..................5
2.1.2. Parameters Not Covered at Interface Level...............5
2.2. Optional Capabilities.....................................6
2.3. Position of Address Family in Hierarchy...................6
3. Module Structure...............................................7
3.1. IGMP Configuration and Operational State..................7
3.2. MLD Configuration and Operational State..................10
3.3. IGMP and MLD Actions.....................................13
4. IGMP and MLD YANG Module......................................13
5. Security Considerations.......................................39
6. IANA Considerations...........................................42
7. Acknowledgments...............................................42
8. Contributing Authors..........................................43
9. References....................................................43
9.1. Normative References.....................................43
9.2. Informative References...................................44
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1. Introduction
YANG [RFC6020] [RFC7950] is a data definition language that was
introduced to model the configuration and running state of a device
managed using network management protocols such as NETCONF [RFC6241]
or RESTCONF [RFC8040]. YANG is now also being used as a component of
wider management interfaces, such as command line interfaces (CLIs).
This document defines a YANG data model that can be used to
configure and manage Internet Group Management Protocol (IGMP) and
Multicast Listener Discovery (MLD) devices. The protocol versions
include IGMPv1 [RFC1112], IGMPv2 [RFC2236], IGMPv3 [RFC3376], MLDv1
[RFC2710], and MLDv2 [RFC3810]. The core features of the IGMP and
MLD protocols are defined as required. Non-core features are
defined as optional in the provided data model.
The YANG model in this document conforms to the Network Management
Datastore Architecture (NMDA) [RFC8342].
1.1. Terminology
The terminology for describing YANG data models is found in
[RFC6020] and [RFC7950], including:
o augment
o data model
o data node
o identity
o module
The following abbreviations are used in this document and the
defined model:
IGMP:
Internet Group Management Protocol [RFC3376].
MLD:
Multicast Listener Discovery [RFC3810].
SSM:
Source-Specific Multicast service model [RFC3569] [RFC4607].
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1.2. Tree Diagrams
Tree diagrams used in this document follow the notation defined in
[RFC8340].
1.3. Prefixes in Data Node Names
In this document, names of data nodes, actions, and other data model
objects are often used without a prefix, as long as it is clear from
the context in which YANG module each name is defined. Otherwise,
names are prefixed using the standard prefix associated with the
corresponding YANG module, as shown in Table 1.
+-----------+--------------------------+---------------------+
| Prefix | YANG module | Reference |
+-----------+--------------------------+---------------------+
| yang | ietf-yang-types | [RFC6991] |
| inet | ietf-inet-types | [RFC6991] |
| if | ietf-interfaces | [RFC8343] |
| ip | ietf-ip | [RFC8344] |
| rt | ietf-routing | [RFC8349] |
| rt-types | ietf-routing-types | [RFC8294] |
| acl | ietf-access-control-list | [RFC8519] |
+-----------+--------------------------+---------------------+
Table 1: Prefixes and Corresponding YANG Modules
2. Design of Data model
2.1. Scope of Model
The model covers IGMPv1 [RFC1112], IGMPv2 [RFC2236], IGMPv3
[RFC3376], MLDv1 [RFC2710], and MLDv2 [RFC3810].
This model does not cover other IGMP and MLD related protocols such
as IGMP/MLD Proxy [RFC4605] or IGMP/MLD Snooping [RFC4541] etc.,
which will be specified in separate documents.
This model can be used to configure and manage various versions of
IGMP and MLD protocols. The operational state data and statistics
can be retrieved by this model. Even though no protocol specific
notifications are defined in this model, the subscription and push
mechanism defined in [I-D.ietf-netconf-subscribed-notifications] and
[I-D.ietf-netconf-yang-push] can be used by the user to subscribe to
notifications on the data nodes in this model.
The model contains all the basic configuration parameters to operate
the protocols listed above. Depending on the implementation choices,
some systems may not allow some of the advanced parameters to be
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configurable. The occasionally implemented parameters are modeled as
optional features in this model, while the rarely implemented
parameters are not included this model and left for augmentation.
This model can be extended, and has been structured in a way that
such extensions can be conveniently made.
The protocol parameters covered in this model can been seen from the
model structure described in Section 3.
The protocol parameters that were considered but are not covered in
this model are described in the following sections.
2.1.1. Parameters Not Covered at Global Level
The configuration parameters and operational states not covered on
an IGMP instance or an MLD instance are:
o Explicit tracking
o Maximum transmit rate
o Last member query count
o Other querier present time
o Send router alert
o Startup query interval
o Startup query count
2.1.2. Parameters Not Covered at Interface Level
The configuration parameters and operational states not covered on
an IGMP interface or an MLD interface are:
o Disable router alert check
o Drop IGMP version 1, IGMP version 2, or MLD version 1
o Last member query count
o Maximum number of sources
o Other querier present time
o Passive mode
o Promiscuous mode
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o Query before immediate leave
o Send router alert
2.2. Optional Capabilities
This model is designed to represent the capabilities of IGMP and MLD
devices with various specifications, including the basic capability
subsets of the IGMP and MLD protocols. The main design goals of
this document are that the basic capabilities described in the model
are supported by any major now-existing implementation, and that the
configuration of all implementations meeting the specifications is
easy to express through some combination of the optional features in
the model and simple vendor augmentations.
There is also value in widely-supported features being standardized,
to provide a standardized way to access these features, to save work
for individual vendors, and so that mapping between different
vendors' configuration is not needlessly complicated. Therefore this
model declares a number of features representing capabilities that
not all deployed devices support.
The extensive use of feature declarations should also substantially
simplify the capability negotiation process for a vendor's IGMP and
MLD implementations.
On the other hand, operational state parameters are not so widely
designated as features, as there are many cases where the defaulting
of an operational state parameter would not cause any harm to the
system, and it is much more likely that an implementation without
native support for a piece of operational state would be able to
derive a suitable value for a state variable that is not natively
supported.
2.3. Position of Address Family in Hierarchy
The protocol IGMP only supports IPv4, while the protocol MLD only
supports IPv6. The data model defined in this document can be used
for both IPv4 and IPv6 address families.
This document defines IGMP and MLD as separate schema branches in
the structure. The benefits are:
o The model can support IGMP (IPv4), MLD (IPv6), or both
optionally and independently. Such flexibility cannot be
achieved cleanly with a combined branch.
o The structure is consistent with other YANG models such as RFC
8344, which uses separate branches for IPv4 and IPv6.
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o The separate branches for IGMP and MLD can accommodate their
differences better and cleaner. The two branches can better
support different features and node types.
3. Module Structure
This model augments the core routing data model specified in
[RFC8349].
+--rw routing
+--rw router-id?
+--rw control-plane-protocols
| +--rw control-plane-protocol* [type name]
| +--rw type
| +--rw name
| +--rw igmp <= Augmented by this Model
...
| +--rw mld <= Augmented by this Model
...
The "igmp" container instantiates an IGMP protocol of version
IGMPv1, IGMPv2, or IGMPv3. The "mld" container instantiates an MLD
protocol of version MLDv1 or MLDv2.
The YANG data model defined in this document conforms to the Network
Management Datastore Architecture (NMDA) [RFC8342]. The operational
state data is combined with the associated configuration data in the
same hierarchy [RFC8407].
A configuration data node is marked as mandatory only when its value
must be provided by the user. Where nodes are not essential to
protocol operation, they are marked as optional. Some other nodes
are essential but have a default specified, so that they are also
optional and need not be configured explicitly.
3.1. IGMP Configuration and Operational State
The IGMP data is modeled as a schema subtree augmenting the
"control-plane-protocol" data node under "/rt:routing/rt:control-
plane-protocols" in the module ietf-routing, following the
convention described in [RFC8349]. The augmentation to the module
ietf-routing allows this model to support multiple instances of
IGMP, but a restriction MAY be added depending on the implementation
and the device. The identity "igmp" is derived from the "rt:control-
plane-protocol" base identity and indicates that a control-plane-
protocol instance is IGMP.
The IGMP subtree is a three-level hierarchy structure as listed
below:
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Global level: Including IGMP configuration and operational state
attributes for the entire IGMP protocol instance in this router.
Interface-global level: Including configuration data nodes that
are applicable to all the interfaces whose corresponding nodes are
not defined or not configured at the interface level. For such a
node at the interface level, the system uses the same value of the
corresponding node at the interface-global level.
Interface level: Including IGMP configuration and operational
state attributes specific to the given interface. For a
configuration node at the interface level, there may exist a
corresponding configuration node with the same name at the
interface-global level. The value configured on a node at the
interface level overrides the value configured on the corresponding
node at the interface-global level.
augment /rt:routing/rt:control-plane-protocols
/rt:control-plane-protocol:
+--rw igmp {feature-igmp}?
+--rw global
| +--rw enable? boolean {global-admin-enable}?
| +--rw max-entries? uint32 {global-max-entries}?
| +--rw max-groups? uint32 {global-max-groups}?
| +--ro entries-count? uint32
| +--ro groups-count? uint32
| +--ro statistics
| +--ro discontinuity-time? yang:date-and-time
| +--ro error
| | +--ro total? yang:counter64
| | +--ro query? yang:counter64
| | +--ro report? yang:counter64
| | +--ro leave? yang:counter64
| | +--ro checksum? yang:counter64
| | +--ro too-short? yang:counter64
| +--ro received
| | +--ro total? yang:counter64
| | +--ro query? yang:counter64
| | +--ro report? yang:counter64
| | +--ro leave? yang:counter64
| +--ro sent
| +--ro total? yang:counter64
| +--ro query? yang:counter64
| +--ro report? yang:counter64
| +--ro leave? yang:counter64
+--rw interfaces
+--rw last-member-query-interval? uint16
+--rw query-interval? uint16
+--rw query-max-response-time? uint16
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+--rw require-router-alert? boolean
| {intf-require-router-alert}?
+--rw robustness-variable? uint8
+--rw version? uint8
+--rw max-groups-per-interface? uint32
| {intf-max-groups}?
+--rw interface* [interface-name]
+--rw interface-name if:interface-ref
+--rw last-member-query-interval? uint16
+--rw query-interval? uint16
+--rw query-max-response-time? uint16
+--rw require-router-alert? boolean
| {intf-require-router-alert}?
+--rw robustness-variable? uint8
+--rw version? uint8
+--rw enable? boolean
| {intf-admin-enable}?
+--rw group-policy?
| -> /acl:acls/acl/name
+--rw immediate-leave? empty
| {intf-immediate-leave}?
+--rw max-groups? uint32
| {intf-max-groups}?
+--rw max-group-sources? uint32
| {intf-max-group-sources}?
+--rw source-policy?
| -> /acl:acls/acl/name {intf-source-policy}?
+--rw verify-source-subnet? empty
| {intf-verify-source-subnet}?
+--rw explicit-tracking? empty
| {intf-explicit-tracking}?
+--rw exclude-lite? empty
| {intf-exclude-lite}?
+--rw join-group*
| rt-types:ipv4-multicast-group-address
| {intf-join-group}?
+--rw ssm-map*
| | [ssm-map-source-addr ssm-map-group-policy]
| | {intf-ssm-map}?
| +--rw ssm-map-source-addr ssm-map-ipv4-addr-type
| +--rw ssm-map-group-policy string
+--rw static-group* [group-addr source-addr]
| | {intf-static-group}?
| +--rw group-addr
| | rt-types:ipv4-multicast-group-address
| +--rw source-addr
| rt-types:ipv4-multicast-source-address
+--ro oper-status enumeration
+--ro querier inet:ipv4-address
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+--ro joined-group*
| rt-types:ipv4-multicast-group-address
| {intf-join-group}?
+--ro group* [group-address]
+--ro group-address
| rt-types:ipv4-multicast-group-address
+--ro expire uint32
+--ro filter-mode enumeration
+--ro up-time uint32
+--ro last-reporter? inet:ipv4-address
+--ro source* [source-address]
+--ro source-address inet:ipv4-address
+--ro expire uint32
+--ro up-time uint32
+--ro host-count? uint32
| {intf-explicit-tracking}?
+--ro last-reporter? inet:ipv4-address
+--ro host* [host-address]
| {intf-explicit-tracking}?
+--ro host-address inet:ipv4-address
+--ro host-filter-mode enumeration
3.2. MLD Configuration and Operational State
The MLD data is modeled as a schema subtree augmenting the "control-
plane-protocol" data node under "/rt:routing/rt:control-plane-
protocols" in the module ietf-routing, following the convention
described in [RFC8349]. The augmentation to the module ietf-routing
allows this model to support multiple instances of MLD, but a
restriction MAY be added depending on the implementation and the
device. The identity "mld" is derived from the "rt:control-plane-
protocol" base identity and indicates that a control-plane-protocol
instance is MLD.
The MLD subtree is a three-level hierarchy structure as listed
below:
Global level: Including MLD configuration and operational state
attributes for the entire MLD protocol instance in this router.
Interface-global level: Including configuration data nodes that
are applicable to all the interfaces whose corresponding nodes are
not defined or not configured at the interface level. For such a
node at the interface level, the system uses the same value of the
corresponding node at the interface-global level.
Interface level: Including MLD configuration and operational
state attributes specific to the given interface. For a
configuration node at the interface level, there may exist a
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corresponding configuration node with the same name at the
interface-global level. The value configured on a node at the
interface level overrides the value configured on the corresponding
node at the interface-global level.
augment /rt:routing/rt:control-plane-protocols
/rt:control-plane-protocol:
+--rw mld {feature-mld}?
+--rw global
| +--rw enable? boolean {global-admin-enable}?
| +--rw max-entries? uint32 {global-max-entries}?
| +--rw max-groups? uint32 {global-max-groups}?
| +--ro entries-count? uint32
| +--ro groups-count? uint32
| +--ro statistics
| +--ro discontinuity-time? yang:date-and-time
| +--ro error
| | +--ro total? yang:counter64
| | +--ro query? yang:counter64
| | +--ro report? yang:counter64
| | +--ro leave? yang:counter64
| | +--ro checksum? yang:counter64
| | +--ro too-short? yang:counter64
| +--ro received
| | +--ro total? yang:counter64
| | +--ro query? yang:counter64
| | +--ro report? yang:counter64
| | +--ro leave? yang:counter64
| +--ro sent
| +--ro total? yang:counter64
| +--ro query? yang:counter64
| +--ro report? yang:counter64
| +--ro leave? yang:counter64
+--rw interfaces
+--rw last-member-query-interval? uint16
+--rw query-interval? uint16
+--rw query-max-response-time? uint16
+--rw require-router-alert? boolean
| {intf-require-router-alert}?
+--rw robustness-variable? uint8
+--rw version? uint8
+--rw max-groups-per-interface? uint32
| {intf-max-groups}?
+--rw interface* [interface-name]
+--rw interface-name if:interface-ref
+--rw last-member-query-interval? uint16
+--rw query-interval? uint16
+--rw query-max-response-time? uint16
+--rw require-router-alert? boolean
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| {intf-require-router-alert}?
+--rw robustness-variable? uint8
+--rw version? uint8
+--rw enable? boolean
| {intf-admin-enable}?
+--rw group-policy?
| -> /acl:acls/acl/name
+--rw immediate-leave? empty
| {intf-immediate-leave}?
+--rw max-groups? uint32
| {intf-max-groups}?
+--rw max-group-sources? uint32
| {intf-max-group-sources}?
+--rw source-policy?
| -> /acl:acls/acl/name {intf-source-policy}?
+--rw verify-source-subnet? empty
| {intf-verify-source-subnet}?
+--rw explicit-tracking? empty
| {intf-explicit-tracking}?
+--rw exclude-lite? empty
| {intf-exclude-lite}?
+--rw join-group*
| rt-types:ipv6-multicast-group-address
| {intf-join-group}?
+--rw ssm-map*
| | [ssm-map-source-addr ssm-map-group-policy]
| | {intf-ssm-map}?
| +--rw ssm-map-source-addr ssm-map-ipv6-addr-type
| +--rw ssm-map-group-policy string
+--rw static-group* [group-addr source-addr]
| | {intf-static-group}?
| +--rw group-addr
| | rt-types:ipv6-multicast-group-address
| +--rw source-addr
| rt-types:ipv6-multicast-source-address
+--ro oper-status enumeration
+--ro querier inet:ipv6-address
+--ro joined-group*
| rt-types:ipv6-multicast-group-address
| {intf-join-group}?
+--ro group* [group-address]
+--ro group-address
| rt-types:ipv6-multicast-group-address
+--ro expire uint32
+--ro filter-mode enumeration
+--ro up-time uint32
+--ro last-reporter? inet:ipv6-address
+--ro source* [source-address]
+--ro source-address inet:ipv6-address
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+--ro expire uint32
+--ro up-time uint32
+--ro host-count? uint32
| {intf-explicit-tracking}?
+--ro last-reporter? inet:ipv6-address
+--ro host* [host-address]
| {intf-explicit-tracking}?
+--ro host-address inet:ipv6-address
+--ro host-filter-mode enumeration
3.3. IGMP and MLD Actions
IGMP and MLD each have one action which clears the group membership
cache entries for that protocol.
augment /rt:routing/rt:control-plane-protocols
/rt:control-plane-protocol:
+--rw igmp {feature-igmp}?
+---x clear-groups {action-clear-groups}?
+---w input
+---w (interface)
| +--:(name)
| | +---w interface-name? leafref
| +--:(all)
| +---w all-interfaces? empty
+---w group-address union
+---w source-address
rt-types:ipv4-multicast-source-address
augment /rt:routing/rt:control-plane-protocols
/rt:control-plane-protocol:
+--rw mld {feature-mld}?
+---x clear-groups {action-clear-groups}?
+---w input
+---w (interface)
| +--:(name)
| | +---w interface-name? leafref
| +--:(all)
| +---w all-interfaces? empty
+---w group-address? union
+---w source-address?
rt-types:ipv6-multicast-source-address
4. IGMP and MLD YANG Module
This module references [RFC1112], [RFC2236], [RFC2710], [RFC3376],
[RFC3810], [RFC5790], [RFC6991], [RFC8294], [RFC8343], [RFC8344],
[RFC8349], and [RFC8519].
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<CODE BEGINS> file "ietf-igmp-mld@2019-05-21.yang"
module ietf-igmp-mld {
yang-version 1.1;
namespace "urn:ietf:params:xml:ns:yang:ietf-igmp-mld";
prefix igmp-mld;
import ietf-inet-types {
prefix "inet";
reference "RFC 6991: Common YANG Data Types";
}
import ietf-yang-types {
prefix "yang";
reference "RFC 6991: Common YANG Data Types";
}
import ietf-routing-types {
prefix "rt-types";
reference
"RFC 8294: Common YANG Data Types for the Routing Area";
}
import ietf-access-control-list {
prefix "acl";
reference
"RFC 8519: YANG Data Model for Network Access Control Lists
(ACLs)";
}
import ietf-routing {
prefix "rt";
reference
"RFC 8349: A YANG Data Model for Routing Management (NMDA
Version)";
}
import ietf-interfaces {
prefix "if";
reference "RFC 8343: A YANG Data Model for Interface Management";
}
import ietf-ip {
prefix ip;
reference "RFC 8344: A YANG Data Model for IP Management";
}
organization
"IETF PIM Working Group";
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contact
"WG Web: <http://tools.ietf.org/wg/pim/>
WG List: <mailto:pim@ietf.org>
Editor: Xufeng Liu
<mailto:xufeng.liu.ietf@gmail.com>
Editor: Feng Guo
<mailto:guofeng@huawei.com>
Editor: Mahesh Sivakumar
<mailto:sivakumar.mahesh@gmail.com>
Editor: Pete McAllister
<mailto:pete.mcallister@metaswitch.com>
Editor: Anish Peter
<mailto:anish.ietf@gmail.com>";
description
"The module defines the configuration and operational state for
the Internet Group Management Protocol (IGMP) and Multicast
Listener Discovery (MLD) protocols.
Copyright (c) 2019 IETF Trust and the persons identified as
authors of the code. 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).
This version of this YANG module is part of RFC XXXX; see the
RFC itself for full legal notices.";
// RFC Ed.: replace XXXX with actual RFC number and remove
// this note
revision 2019-05-29 {
description
"Initial revision.";
reference
"RFC XXXX: A YANG Data Model for IGMP and MLD";
}
/*
* Features
*/
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feature feature-igmp {
description
"Support IGMP protocol for IPv4 group membership record.";
}
feature feature-mld {
description
"Support MLD protocol for IPv6 group membership record.";
}
feature global-admin-enable {
description
"Support global configuration to enable or disable protocol.";
}
feature global-interface-config {
description
"Support global configuration applied for all interfaces.";
}
feature global-max-entries {
description
"Support configuration of global max-entries.";
}
feature global-max-groups {
description
"Support configuration of global max-groups.";
}
feature intf-admin-enable {
description
"Support configuration of interface administrative enabling.";
}
feature intf-immediate-leave {
description
"Support configuration of interface immediate-leave.";
}
feature intf-join-group {
description
"Support configuration of interface join-group.";
}
feature intf-max-groups {
description
"Support configuration of interface max-groups.";
}
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feature intf-max-group-sources {
description
"Support configuration of interface max-group-sources.";
}
feature intf-require-router-alert {
description
"Support configuration of interface require-router-alert.";
}
feature intf-source-policy {
description
"Support configuration of interface source policy.";
}
feature intf-ssm-map {
description
"Support configuration of interface ssm-map.";
}
feature intf-static-group {
description
"Support configuration of interface static-group.";
}
feature intf-verify-source-subnet {
description
"Support configuration of interface verify-source-subnet.";
}
feature intf-explicit-tracking {
description
"Support configuration of interface explicit-tracking hosts.";
}
feature intf-exclude-lite {
description
"Support configuration of interface exclude-lite.";
}
feature per-interface-config {
description
"Support per interface configuration.";
}
feature action-clear-groups {
description
"Support actions to clear groups.";
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}
/*
* Typedefs
*/
typedef ssm-map-ipv4-addr-type {
type union {
type enumeration {
enum 'policy' {
description
"Source address is specified in SSM map policy.";
}
}
type inet:ipv4-address;
}
description
"Multicast source IP address type for SSM map.";
} // source-ipv4-addr-type
typedef ssm-map-ipv6-addr-type {
type union {
type enumeration {
enum 'policy' {
description
"Source address is specified in SSM map policy.";
}
}
type inet:ipv6-address;
}
description
"Multicast source IP address type for SSM map.";
} // source-ipv6-addr-type
/*
* Identities
*/
identity igmp {
base "rt:control-plane-protocol";
description "IGMP protocol.";
reference
"RFC 3376: Internet Group Management Protocol, Version 3.";
}
identity mld {
base "rt:control-plane-protocol";
description "MLD protocol.";
reference
"RFC 3810: Multicast Listener Discovery Version 2 (MLDv2) for
IPv6.";
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}
/*
* Groupings
*/
grouping global-config-attributes {
description
"This grouping is used in either IGMP schema or MLD schema.
When used in IGMP schema, this grouping contains the global
configuration for IGMP;
when used in MLD schema, this grouping contains the global
configuration for MLD.";
leaf enable {
if-feature global-admin-enable;
type boolean;
default true;
description
"When this grouping is used for IGMP, this leaf indicates
whether IGMP is enabled ('true') or disabled ('false')
in the routing instance.
When this grouping is used for MLD, this leaf indicates
whether MLD is enabled ('true') or disabled ('false')
in the routing instance.";
}
leaf max-entries {
if-feature global-max-entries;
type uint32;
description
"When this grouping is used for IGMP, this leaf indicates
the maximum number of entries in the IGMP instance.
When this grouping is used for MLD, this leaf indicates
the maximum number of entries in the MLD instance.
If this leaf is not specified, the number of entries is not
limited.";
}
leaf max-groups {
if-feature global-max-groups;
type uint32;
description
"When this grouping is used for IGMP, this leaf indicates
the maximum number of groups in the IGMP instance.
When this grouping is used for MLD, this leaf indicates
the maximum number of groups in the MLD instance.
If this leaf is not specified, the number of groups is not
limited.";
}
} // global-config-attributes
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grouping global-state-attributes {
description
"This grouping is used in either IGMP schema or MLD schema.
When used in IGMP schema, this grouping contains the global
IGMP state attributes;
when used in MLD schema, this grouping contains the global
MLD state attributes;";
leaf entries-count {
type uint32;
config false;
description
"When this grouping is used for IGMP, this leaf indicates
the number of entries in the IGMP instance.
When this grouping is used for MLD, this leaf indicates
the number of entries in the MLD instance.";
}
leaf groups-count {
type uint32;
config false;
description
"When this grouping is used for IGMP, this leaf indicates
the number of existing groups in the IGMP instance.
When this grouping is used for MLD, this leaf indicates
the number of existing groups in the MLD instance.";
}
container statistics {
config false;
description
"When this grouping is used for IGMP, this container contains
the statistics for the IGMP instance.
When this grouping is used for MLD, this leaf indicates
the statistics for the MLD instance.";
leaf discontinuity-time {
type yang:date-and-time;
description
"The time on the most recent occasion at which any one
or more of the statistic counters suffered a
discontinuity. If no such discontinuities have occurred
since the last re-initialization of the local
management subsystem, then this node contains the time
the local management subsystem re-initialized itself.";
}
container error {
description "Statistics of errors.";
uses global-statistics-error;
}
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container received {
description "Statistics of received messages.";
uses global-statistics-sent-received;
}
container sent {
description "Statistics of sent messages.";
uses global-statistics-sent-received;
}
} // statistics
} // global-state-attributes
grouping global-statistics-error {
description
"A grouping defining statistics attributes for errors.";
uses global-statistics-sent-received;
leaf checksum {
type yang:counter64;
description
"The number of checksum errors.";
}
leaf too-short {
type yang:counter64;
description
"The number of messages that are too short.";
}
} // global-statistics-error
grouping global-statistics-sent-received {
description
"A grouping defining statistics attributes.";
leaf total {
type yang:counter64;
description
"The number of total messages.";
}
leaf query {
type yang:counter64;
description
"The number of query messages.";
}
leaf report {
type yang:counter64;
description
"The number of report messages.";
}
leaf leave {
type yang:counter64;
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description
"The number of leave messages.";
}
} // global-statistics-sent-received
grouping interface-global-config-attributes {
description
"Configuration attributes applied to the interface-global level
whose per interface attributes are not configured.";
leaf max-groups-per-interface {
if-feature intf-max-groups;
type uint32;
description
"The maximum number of groups associated with each interface.
If this leaf is not specified, the number of groups is not
limited.";
}
} //interface-global-config-attributes
grouping interface-common-config-attributes {
description
"Configuration attributes applied to both the interface-global
level and interface level.";
leaf last-member-query-interval {
type uint16 {
range "1..1023";
}
units seconds;
default 1;
description
"Last Member Query Interval, which may be tuned to modify the
leave latency of the network.";
reference "RFC 3376. Sec. 8.8.";
}
leaf query-interval {
type uint16 {
range "1..31744";
}
units seconds;
default 125;
description
"The Query Interval is the interval between General Queries
sent by the Querier. In RFC 3376, the Querier's Query
Interval(QQI) is represented from the Querier's Query
Interval Code in query message as follows:
If QQIC < 128, QQI = QQIC.
If QQIC >= 128, QQIC represents a floating-point value as
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follows:
0 1 2 3 4 5 6 7
+-+-+-+-+-+-+-+-+
|1| exp | mant |
+-+-+-+-+-+-+-+-+
QQI = (mant | 0x10) << (exp + 3).
The maximum value of QQI is 31744.";
reference "RFC 3376. Sec. 4.1.7, 8.2, 8.14.2.";
}
leaf query-max-response-time {
type uint16 {
range "1..1023";
}
units seconds;
default 10;
description
"Query maximum response time specifies the maximum time
allowed before sending a responding report.";
reference "RFC 3376. Sec. 4.1.1, 8.3, 8.14.3.";
}
leaf require-router-alert {
if-feature intf-require-router-alert;
type boolean;
default false;
description
"Protocol packets should contain router alert IP option.";
}
leaf robustness-variable {
type uint8 {
range "1..7";
}
default 2;
description
"Querier's Robustness Variable allows tuning for the
expected packet loss on a network.";
reference "RFC 3376. Sec. 4.1.6, 8.1, 8.14.1.";
}
} // interface-common-config-attributes
grouping interface-common-config-attributes-igmp {
description
"Configuration attributes applied to both the interface-global
level and interface level for IGMP.";
uses interface-common-config-attributes;
leaf version {
type uint8 {
range "1..3";
}
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default 2;
description "IGMP version.";
reference "RFC 1112, RFC 2236, RFC 3376.";
}
}
grouping interface-common-config-attributes-mld {
description
"Configuration attributes applied to both the interface-global
level and interface level for MLD.";
uses interface-common-config-attributes;
leaf version {
type uint8 {
range "1..2";
}
default 2;
description "MLD version.";
reference "RFC 2710, RFC 3810.";
}
}
grouping interfaces-config-attributes-igmp {
description
"Configuration attributes applied to the interface-global
level for IGMP.";
uses interface-common-config-attributes-igmp;
uses interface-global-config-attributes;
}
grouping interfaces-config-attributes-mld {
description
"Configuration attributes applied to the interface-global
level for MLD.";
uses interface-common-config-attributes-mld;
uses interface-global-config-attributes;
}
grouping interface-level-config-attributes {
description
"This grouping is used in either IGMP schema or MLD schema.
When used in IGMP schema, this grouping contains the IGMP
configuration attributes that are defined at the interface
level but are not defined at the interface-global level;
when used in MLD schema, this grouping contains the MLD
configuration attributes that are defined at the interface
level but are not defined at the interface-global level.";
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leaf enable {
if-feature intf-admin-enable;
type boolean;
default true;
description
"When this grouping is used for IGMP, this leaf indicates
whether IGMP is enabled ('true') or disabled ('false')
on the interface.
When this grouping is used for MLD, this leaf indicates
whether MLD is enabled ('true') or disabled ('false')
on the interface.";
}
leaf group-policy {
type leafref {
path "/acl:acls/acl:acl/acl:name";
}
description
"When this grouping is used for IGMP, this leaf specifies
the name of the access policy used to filter the
IGMP membership.
When this grouping is used for MLD, this leaf specifies
the name of the access policy used to filter the
MLD membership.
The value space of this leaf is restricted to the existing
policy instances defined by the referenced schema RFC 8519.
As specified by RFC 8519, the length of the name is between
1 and 64; a device MAY further restrict the length of this
name; space and special characters are not allowed.
If this leaf is not specified, no policy is applied, and
all packets received from this interface are accepted.";
reference
"RFC 8519: YANG Data Model for Network Access Control Lists
(ACLs)";
}
leaf immediate-leave {
if-feature intf-immediate-leave;
type empty;
description
"When this grouping is used for IGMP, the presence of this
leaf requests IGMP to perform an immediate leave upon
receiving an IGMPv2 leave message.
If the router is IGMP-enabled, it sends an IGMP last member
query with a last member query response time. However, the
router does not wait for the response time before it prunes
the group.
When this grouping is used for MLD, the presence of this
leaf requests MLD to perform an immediate leave upon
receiving an MLDv1 leave message.
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If the router is MLD-enabled, it sends an MLD last member
query with a last member query response time. However, the
router does not wait for the response time before it prunes
the group.";
}
leaf max-groups {
if-feature intf-max-groups;
type uint32;
description
"When this grouping is used for IGMP, this leaf indicates
the maximum number of groups associated with the IGMP
interface.
When this grouping is used for MLD, this leaf indicates
the maximum number of groups associated with the MLD
interface.
If this leaf is not specified, the number of groups is not
limited.";
}
leaf max-group-sources {
if-feature intf-max-group-sources;
type uint32;
description
"The maximum number of group sources.
If this leaf is not specified, the number of group sources
is not limited.";
}
leaf source-policy {
if-feature intf-source-policy;
type leafref {
path "/acl:acls/acl:acl/acl:name";
}
description
"Name of the access policy used to filter sources.
A device can restrict the length and value of this name,
with the possibility that space and certain special
characters are not allowed.
If this leaf is not specified, no policy is applied, and
all packets received from this interface are accepted.";
}
leaf verify-source-subnet {
if-feature intf-verify-source-subnet;
type empty;
description
"If present, the interface accepts packets with matching
source IP subnet only.";
}
leaf explicit-tracking {
if-feature intf-explicit-tracking;
type empty;
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description
"When this grouping is used for IGMP, the presence of this
leaf enables IGMP-based explicit membership tracking
function for multicast routers and IGMP proxy devices
supporting IGMPv3.
When this grouping is used for MLD, the presence of this
leaf enables MLD-based explicit membership tracking
function for multicast routers and MLD proxy devices
supporting MLDv2.
The explicit membership tracking function contributes to
saving network resources and shortening leave latency.";
}
leaf exclude-lite {
if-feature intf-exclude-lite;
type empty;
description
"When this grouping is used for IGMP, the presence of this
leaf enables the support of the simplified EXCLUDE filter
in the Lightweight IGMPv3 protocol, which simplifies the
standard versions of IGMPv3.
When this grouping is used for MLD, the presence of this
leaf enables the support of the simplified EXCLUDE filter
in the Lightweight MLDv2 protocol, which simplifies the
standard versions of MLDv2.";
reference "RFC 5790";
}
} // interface-level-config-attributes
grouping interface-config-attributes-igmp {
description
"Per interface configuration attributes for IGMP.";
uses interface-common-config-attributes-igmp;
uses interface-level-config-attributes;
leaf-list join-group {
if-feature intf-join-group;
type rt-types:ipv4-multicast-group-address;
description
"The router joins this multicast group on the interface.";
}
list ssm-map {
if-feature intf-ssm-map;
key "ssm-map-source-addr ssm-map-group-policy";
description "The policy for (*,G) mapping to (S,G).";
leaf ssm-map-source-addr {
type ssm-map-ipv4-addr-type;
description
"Multicast source IPv4 address.";
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}
leaf ssm-map-group-policy {
type string;
description
"Name of the policy used to define ssm-map rules.
A device can restrict the length
and value of this name, possibly space and special
characters are not allowed. ";
}
}
list static-group {
if-feature intf-static-group;
key "group-addr source-addr";
description
"A static multicast route, (*,G) or (S,G).";
leaf group-addr {
type rt-types:ipv4-multicast-group-address;
description
"Multicast group IPv4 address.";
}
leaf source-addr {
type rt-types:ipv4-multicast-source-address;
description
"Multicast source IPv4 address.";
}
}
} // interface-config-attributes-igmp
grouping interface-config-attributes-mld {
description
"Per interface configuration attributes for MLD.";
uses interface-common-config-attributes-mld;
uses interface-level-config-attributes;
leaf-list join-group {
if-feature intf-join-group;
type rt-types:ipv6-multicast-group-address;
description
"The router joins this multicast group on the interface.";
}
list ssm-map {
if-feature intf-ssm-map;
key "ssm-map-source-addr ssm-map-group-policy";
description "The policy for (*,G) mapping to (S,G).";
leaf ssm-map-source-addr {
type ssm-map-ipv6-addr-type;
description
"Multicast source IPv6 address.";
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}
leaf ssm-map-group-policy {
type string;
description
"Name of the policy used to define ssm-map rules.
A device can restrict the length
and value of this name, possibly space and special
characters are not allowed.";
}
}
list static-group {
if-feature intf-static-group;
key "group-addr source-addr";
description
"A static multicast route, (*,G) or (S,G).";
leaf group-addr {
type rt-types:ipv6-multicast-group-address;
description
"Multicast group IPv6 address.";
}
leaf source-addr {
type rt-types:ipv6-multicast-source-address;
description
"Multicast source IPv6 address.";
}
}
} // interface-config-attributes-mld
grouping interface-state-attributes {
description
"Per interface state attributes for both IGMP and MLD.";
leaf oper-status {
type enumeration {
enum up {
description
"Ready to pass packets.";
}
enum down {
description
"The interface does not pass any packets.";
}
}
config false;
mandatory true;
description
"Indicates whether the operational state of the interface
is up or down.";
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}
} // interface-state-attributes
grouping interface-state-attributes-igmp {
description
"Per interface state attributes for IGMP.";
uses interface-state-attributes;
leaf querier {
type inet:ipv4-address;
config false;
mandatory true;
description "The querier address in the subnet";
}
leaf-list joined-group {
if-feature intf-join-group;
type rt-types:ipv4-multicast-group-address;
config false;
description
"The routers that joined this multicast group.";
}
list group {
key "group-address";
config false;
description
"Multicast group membership information
that joined on the interface.";
leaf group-address {
type rt-types:ipv4-multicast-group-address;
description
"Multicast group address.";
}
uses interface-state-group-attributes;
leaf last-reporter {
type inet:ipv4-address;
description
"The IPv4 address of the last host which has sent the
report to join the multicast group.";
}
list source {
key "source-address";
description
"List of multicast source information
of the multicast group.";
leaf source-address {
type inet:ipv4-address;
description
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"Multicast source address in group record.";
}
uses interface-state-source-attributes;
leaf last-reporter {
type inet:ipv4-address;
description
"The IPv4 address of the last host which has sent the
report to join the multicast source and group.";
}
list host {
if-feature intf-explicit-tracking;
key "host-address";
description
"List of hosts with the membership for the specific
multicast source-group.";
leaf host-address {
type inet:ipv4-address;
description
"The IPv4 address of the host.";
}
uses interface-state-host-attributes;
}// list host
} // list source
} // list group
} // interface-state-attributes-igmp
grouping interface-state-attributes-mld {
description
"Per interface state attributes for MLD.";
uses interface-state-attributes;
leaf querier {
type inet:ipv6-address;
config false;
mandatory true;
description
"The querier address in the subnet.";
}
leaf-list joined-group {
if-feature intf-join-group;
type rt-types:ipv6-multicast-group-address;
config false;
description
"The routers that joined this multicast group.";
}
list group {
key "group-address";
config false;
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description
"Multicast group membership information
that joined on the interface.";
leaf group-address {
type rt-types:ipv6-multicast-group-address;
description
"Multicast group address.";
}
uses interface-state-group-attributes;
leaf last-reporter {
type inet:ipv6-address;
description
"The IPv6 address of the last host which has sent the
report to join the multicast group.";
}
list source {
key "source-address";
description
"List of multicast sources of the multicast group.";
leaf source-address {
type inet:ipv6-address;
description
"Multicast source address in group record";
}
uses interface-state-source-attributes;
leaf last-reporter {
type inet:ipv6-address;
description
"The IPv6 address of the last host which has sent the
report to join the multicast source and group.";
}
list host {
if-feature intf-explicit-tracking;
key "host-address";
description
"List of hosts with the membership for the specific
multicast source-group.";
leaf host-address {
type inet:ipv6-address;
description
"The IPv6 address of the host.";
}
uses interface-state-host-attributes;
}// list host
} // list source
} // list group
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} // interface-state-attributes-mld
grouping interface-state-group-attributes {
description
"Per interface state attributes for both IGMP and MLD
groups.";
leaf expire {
type uint32;
units seconds;
mandatory true;
description
"The time left before multicast group state expires.";
}
leaf filter-mode {
type enumeration {
enum "include" {
description
"In include mode, reception of packets sent
to the specified multicast address is requested
only from those IP source addresses listed in the
source-list parameter";
}
enum "exclude" {
description
"In exclude mode, reception of packets sent
to the given multicast address is requested
from all IP source addresses except those
listed in the source-list parameter.";
}
}
mandatory true;
description
"Filter mode for a multicast group,
may be either include or exclude.";
}
leaf up-time {
type uint32;
units seconds;
mandatory true;
description
"The elapsed time since the device created multicast group
record.";
}
} // interface-state-group-attributes
grouping interface-state-source-attributes {
description
"Per interface state attributes for both IGMP and MLD
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source-group records.";
leaf expire {
type uint32;
units seconds;
mandatory true;
description
"The time left before multicast source-group state expires.";
}
leaf up-time {
type uint32;
units seconds;
mandatory true;
description
"The elapsed time since the device created multicast
source-group record.";
}
leaf host-count {
if-feature intf-explicit-tracking;
type uint32;
description
"The number of host addresses.";
}
} // interface-state-source-attributes
grouping interface-state-host-attributes {
description
"Per interface state attributes for both IGMP and MLD
hosts of source-group records.";
leaf host-filter-mode {
type enumeration {
enum "include" {
description
"In include mode";
}
enum "exclude" {
description
"In exclude mode.";
}
}
mandatory true;
description
"Filter mode for a multicast membership
host may be either include or exclude.";
}
} // interface-state-host-attributes
/*
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* Configuration and Operational state data nodes (NMDA version)
*/
augment "/rt:routing/rt:control-plane-protocols/"
+ "rt:control-plane-protocol" {
when "derived-from-or-self(rt:type, 'igmp-mld:igmp')" {
description
"This augmentation is only valid for a control-plane
protocol instance of IGMP (type 'igmp').";
}
description
"IGMP augmentation to routing control plane protocol
configuration and state.";
container igmp {
if-feature feature-igmp;
description
"IGMP configuration and operational state data.";
container global {
description
"Global attributes.";
uses global-config-attributes;
uses global-state-attributes;
}
container interfaces {
description
"Containing a list of interfaces.";
uses interfaces-config-attributes-igmp {
if-feature global-interface-config;
}
list interface {
key "interface-name";
description
"List of IGMP interfaces.";
leaf interface-name {
type if:interface-ref;
must "/if:interfaces/if:interface[if:name = current()]/"
+ "ip:ipv4" {
description
"The interface must have IPv4 configured, either
enabled or disabled.";
}
description
"Reference to an entry in the global interface list.";
}
uses interface-config-attributes-igmp {
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if-feature per-interface-config;
}
uses interface-state-attributes-igmp;
} // interface
} // interfaces
/*
* Actions
*/
action clear-groups {
if-feature action-clear-groups;
description
"Clears the specified IGMP cache entries.";
input {
choice interface {
mandatory true;
description
"Indicates the interface(s) from which the cache
entries are cleared.";
case name {
leaf interface-name {
type leafref {
path "/rt:routing/rt:control-plane-protocols/"
+ "rt:control-plane-protocol/"
+ "igmp-mld:igmp/igmp-mld:interfaces/"
+ "igmp-mld:interface/igmp-mld:interface-name";
}
description
"Name of the IGMP interface.";
}
}
case all {
leaf all-interfaces {
type empty;
description
"IGMP groups from all interfaces are cleared.";
}
}
}
leaf group-address {
type union {
type enumeration {
enum '*' {
description
"Any group address.";
}
}
type rt-types:ipv4-multicast-group-address;
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}
mandatory true;
description
"Multicast group IPv4 address.
If the value '*' is specified, all IGMP group entries
are cleared.";
}
leaf source-address {
type rt-types:ipv4-multicast-source-address;
mandatory true;
description
"Multicast source IPv4 address.
If the value '*' is specified, all IGMP source-group
entries are cleared.";
}
}
} // action clear-groups
} // igmp
} //augment
augment "/rt:routing/rt:control-plane-protocols/"
+ "rt:control-plane-protocol" {
when "derived-from-or-self(rt:type, 'igmp-mld:mld')" {
description
"This augmentation is only valid for a control-plane
protocol instance of IGMP (type 'mld').";
}
description
"MLD augmentation to routing control plane protocol
configuration and state.";
container mld {
if-feature feature-mld;
description
"MLD configuration and operational state data.";
container global {
description
"Global attributes.";
uses global-config-attributes;
uses global-state-attributes;
}
container interfaces {
description
"Containing a list of interfaces.";
uses interfaces-config-attributes-mld {
if-feature global-interface-config;
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}
list interface {
key "interface-name";
description
"List of MLD interfaces.";
leaf interface-name {
type if:interface-ref;
must "/if:interfaces/if:interface[if:name = current()]/"
+ "ip:ipv6" {
description
"The interface must have IPv6 configured, either
enabled or disabled.";
}
description
"Reference to an entry in the global interface list.";
}
uses interface-config-attributes-mld {
if-feature per-interface-config;
}
uses interface-state-attributes-mld;
} // interface
} // interfaces
/*
* Actions
*/
action clear-groups {
if-feature action-clear-groups;
description
"Clears the specified MLD cache entries.";
input {
choice interface {
mandatory true;
description
"Indicates the interface(s) from which the cache
entries are cleared.";
case name {
leaf interface-name {
type leafref {
path "/rt:routing/rt:control-plane-protocols/"
+ "rt:control-plane-protocol/"
+ "igmp-mld:mld/igmp-mld:interfaces/"
+ "igmp-mld:interface/igmp-mld:interface-name";
}
description
"Name of the MLD interface.";
}
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}
case all {
leaf all-interfaces {
type empty;
description
"MLD groups from all interfaces are cleared.";
}
}
}
leaf group-address {
type union {
type enumeration {
enum '*' {
description
"Any group address.";
}
}
type rt-types:ipv6-multicast-group-address;
}
description
"Multicast group IPv6 address.
If the value '*' is specified, all MLD group entries
are cleared.";
}
leaf source-address {
type rt-types:ipv6-multicast-source-address;
description
"Multicast source IPv6 address.
If the value '*' is specified, all MLD source-group
entries are cleared.";
}
}
} // action clear-mld-groups
} // mld
} // augment
}
<CODE ENDS>
5. Security Considerations
The YANG module specified in this document defines a schema for data
that is designed to be accessed via network management protocols
such as NETCONF [RFC6241] or RESTCONF [RFC8040]. The lowest NETCONF
layer is the secure transport layer, and the mandatory-to-implement
secure transport is Secure Shell (SSH) [RFC6242]. The lowest
RESTCONF layer is HTTPS, and the mandatory-to-implement secure
transport is TLS [RFC8446].
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The Network Configuration Access Control Model (NACM) [RFC8341]
provides the means to restrict access for particular NETCONF or
RESTCONF users to a preconfigured subset of all available NETCONF or
RESTCONF protocol operations and content.
There are a number of data nodes defined in this YANG module that
are writable/creatable/deletable (i.e., config true, which is the
default). These data nodes may be considered sensitive or vulnerable
in some network environments. Write operations (e.g., edit-config)
to these data nodes without proper protection can have a negative
effect on network operations. These are the subtrees and data nodes
and their sensitivity/vulnerability:
Under /rt:routing/rt:control-plane-protocols
/rt:control-plane-protocol/igmp-mld:igmp,
igmp-mld:global
This subtree specifies the configuration for the IGMP attributes
at the global level on an IGMP instance. Modifying the
configuration can cause IGMP membership to be deleted or
reconstructed on all the interfaces of an IGMP instance.
igmp-mld:interfaces
This subtree specifies the configuration for the IGMP attributes
at the interface-global level on a IGMP instance. Modifying the
configuration can cause IGMP membership to be deleted or
reconstructed on all the interfaces of an IGMP instance.
igmp-mld:interfaces/interface
This subtree specifies the configuration for the IGMP attributes
at the interface level on an IGMP instance. Modifying the
configuration can cause IGMP membership to be deleted or
reconstructed on a specific interface of an IGMP instance.
Under /rt:routing/rt:control-plane-protocols
/rt:control-plane-protocol/igmp-mld:mld,
igmp-mld:global
This subtree specifies the configuration for the MLD attributes at
the global level on an MLD instance. Modifying the configuration
can cause MLD membership to be deleted or reconstructed on all the
interfaces of an MLD instance.
igmp-mld:interfaces
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This subtree specifies the configuration for the MLD attributes at
the interface-global level on an MLD instance. Modifying the
configuration can cause MLD membership to be deleted or
reconstructed on all the interfaces of an MLD instance.
igmp-mld:interfaces/interface
This subtree specifies the configuration for the MLD attributes at
the interface level on a device. Modifying the configuration can
cause MLD membership to be deleted or reconstructed on a specific
interface of an MLD instance.
Unauthorized access to any data node of these subtrees can adversely
affect the membership records of multicast routing subsystem on the
local device. This may lead to network malfunctions, delivery of
packets to inappropriate destinations, and other problems.
Some of the readable data nodes in this YANG module may be
considered sensitive or vulnerable in some network environments. It
is thus important to control read access (e.g., via get, get-config,
or notification) to these data nodes. These are the subtrees and
data nodes and their sensitivity/vulnerability:
/rt:routing/rt:control-plane-protocols
/rt:control-plane-protocol/igmmp-mld:igmp
/rt:routing/rt:control-plane-protocols
/rt:control-plane-protocol/igmp-mld:mld
Unauthorized access to any data node of the above subtree can
disclose the operational state information of IGMP or MLD on this
device.
Some of the action operations in this YANG module may be considered
sensitive or vulnerable in some network environments. It is thus
important to control access to these operations. These are the
operations and their sensitivity/vulnerability:
/rt:routing/rt:control-plane-protocols
/rt:control-plane-protocol/igmmp-mld:igmp/igmmp-mld:clear-groups
/rt:routing/rt:control-plane-protocols
/rt:control-plane-protocol/igmp-mld:mld/igmp-mld:clear-groups
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Unauthorized access to any of the above action operations can delete
the IGMP or MLD membership records on this device.
6. IANA Considerations
RFC Ed.: In this section, replace all occurrences of 'XXXX' with the
actual RFC number (and remove this note).
This document registers the following namespace URIs in the IETF XML
registry [RFC3688]:
--------------------------------------------------------------------
URI: urn:ietf:params:xml:ns:yang:ietf-igmp-mld
Registrant Contact: The IESG.
XML: N/A, the requested URI is an XML namespace.
--------------------------------------------------------------------
This document registers the following YANG modules in the YANG Module
Names registry [RFC6020]:
--------------------------------------------------------------------
name: ietf-igmp-mld
namespace: urn:ietf:params:xml:ns:yang:ietf-igmp-mld
prefix: igmp-mld
reference: RFC XXXX
--------------------------------------------------------------------
7. Acknowledgments
The authors would like to thank Steve Baillargeon, Hu Fangwei,
Robert Kebler, Tanmoy Kundu, and Stig Venaas for their valuable
contributions.
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8. Contributing Authors
Yisong Liu
Huawei Technologies
Huawei Bldg., No.156 Beiqing Rd.
Beijing 100095
China
Email: liuyisong@huawei.com
9. References
9.1. Normative References
[RFC1112] Deering, S., "Host extensions for IP multicasting", STD 5,
RFC 1112, August 1989.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC2236] Fenner, W., "Internet Group Management Protocol, Version
2", RFC 2236, November 1997.
[RFC2710] Deering, S., Fenner, W., and B. Haberman, "Multicast
Listener Discovery (MLD) for IPv6", RFC 2710, October
1999.
[RFC3376] Cain, B., Deering, S., Kouvelas, I., Fenner, B., and A.
Thyagarajan, "Internet Group Management Protocol, Version
3", RFC 3376, October 2002.
[RFC3688] Mealling, M., "The IETF XML Registry", RFC 3688, January
2004.
[RFC3810] Vida, R. and L. Costa, "Multicast Listener Discovery
Version 2 (MLDv2) for IPv6", RFC 3810, June 2004.
[RFC4607] Holbrook, H. and B. Cain, "Source-Specific Multicast for
IP", RFC 4607, August 2006.
[RFC6020] Bjorklund, M., Ed., "YANG - A Data Modeling Language for
the Network Configuration Protocol (NETCONF)", RFC 6020,
October 2010.
[RFC6241] Enns, R., Ed., Bjorklund, M., Ed., Schoenwaelder, J., Ed.,
and A. Bierman, Ed., "Network Configuration Protocol
(NETCONF)", RFC 6241, June 2011.
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[RFC6242] Wasserman, M., "Using the NETCONF Protocol over Secure
Shell (SSH)", RFC 6242, June 2011.
[RFC6991] Schoenwaelder, J., Ed., "Common YANG Data Types",
RFC 6991, July 2013.
[RFC7950] Bjorklund, M., Ed., "The YANG 1.1 Data Modeling Language",
RFC 7950, August 2016.
[RFC8040] Bierman, A., Bjorklund, M., and K. Watsen, "RESTCONF
Protocol", RFC 8040, January 2017.
[RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
2119 Key Words", BCP 14, RFC 8174, May 2017.
[RFC8294] Liu, X., Qu, Y., Lindem, A., Hopps, C., and L. Berger,
"Common YANG Data Types for the Routing Area", RFC 8294,
December 2017.
[RFC8341] Bierman, A. and M. Bjorklund, "Network Configuration
Access Control Model", STD 91, RFC 8341, March 2018.
[RFC8342] Bjorklund, M., Schoenwaelder, J., Shafer, P., Watsen, K.,
and R. Wilton, "Network Management Datastore Architecture
(NMDA)", RFC 8342, March 2018.
[RFC8343] Bjorklund, M., "A YANG Data Model for Interface
Management", RFC 8343, March 2018.
[RFC8344] M. Bjorklund, "A YANG Data Model for IP Management",
RFC8344, March 2018.
[RFC8349] Lhotka, L., Lindem, A., and Y. Qu, "A YANG Data Model for
Routing Management (NMDA Version)", RFC 8349, March 2018.
[RFC8446] Rescorla, E., "The Transport Layer Security (TLS) Protocol
Version 1.3", RFC 8446, August 2018.
[RFC8519] M. Jethanandani, S. Agarwal, L. Huang and D. Blair, "YANG
Data Model for Network Access Control Lists (ACLs)", RFC
8519, March 2019.
9.2. Informative References
[RFC3569] Bhattacharyya, S., Ed., "An Overview of Source-Specific
Multicast (SSM)", RFC 3569, July 2003.
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[RFC4541] M. Christensen, K. Kimball and F. Solensky,
"Considerations for Internet Group Management Protocol
(IGMP) and Multicast Listener Discovery (MLD) Snooping
Switches", RFC 4541, May 2006.
[RFC4605] B. Fenner, H. He, B. Haberman, and H. Sandick, "Internet
Group Management Protocol (IGMP) / Multicast Listener
Discovery (MLD)-Based Multicast Forwarding ("IGMP/MLD
Proxying")", RFC 4605, August 2006.
[RFC5790] H. Liu, W. Cao and H. Asaeda, "Lightweight Internet Group
Management Protocol Version 3 (IGMPv3) and Multicast
Listener Discovery Version 2 (MLDv2) Protocols", RFC 5790,
February 2010.
[RFC8340] Bjorklund, M. and L. Berger, Ed., "YANG Tree Diagrams",
BCP 215, RFC 8340, March 2018.
[RFC8407] Bierman, A., "Guidelines for Authors and Reviewers of
Documents Containing YANG Data Models", RFC 8407, October
2018.
[I-D.ietf-netconf-subscribed-notifications]
Voit, E., Clemm, A., Prieto, A., Nilsen-Nygaard, E., and
A. Tripathy, "Customized Subscriptions to a Publisher's
Event Streams", draft-ietf-netconf-subscribed-
notifications-26 (work in progress), May 2019.
[I-D.ietf-netconf-yang-push]
Clemm, A., Voit, E., Prieto, A., Tripathy, A., Nilsen-
Nygaard, E., Bierman, A., and B. Lengyel, "YANG Datastore
Subscription", draft-ietf-netconf-yang-push-25 (work in
progress), May 2019.
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Authors' Addresses
Xufeng Liu
Volta Networks
Email: xufeng.liu.ietf@gmail.com
Feng Guo
Huawei Technologies
Huawei Bldg., No.156 Beiqing Rd.
Beijing 100095
China
Email: guofeng@huawei.com
Mahesh Sivakumar
Juniper Networks
1133 Innovation Way
Sunnyvale, California
USA
Email: sivakumar.mahesh@gmail.com
Pete McAllister
Metaswitch Networks
100 Church Street
Enfield EN2 6BQ
UK
Email: pete.mcallister@metaswitch.com
Anish Peter
Individual
Email: anish.ietf@gmail.com
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