Softwire Working Group Q. Sun
Internet-Draft H. Wang
Intended status: Standards Track Y. Cui
Expires: October 9, 2015 Tsinghua University
I. Farrer
Deutsche Telekom AG
M. Boucadair
France Telecom
R. Asati
Cisco Systems, Inc.
April 7, 2015
YANG Data Model for IPv4-in-IPv6 Softwire
draft-sun-softwire-yang-03
Abstract
This document defines a YANG data model for the configuration and
management of IPv4-in-IPv6 Softwire Border Routers and Customer
Premises Equipment. It covers Lightweight 4over6, MAP-E and MAP-T
Softwire mechanisms.
Requirements Language
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in [RFC2119].
Status of This Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
working documents as Internet-Drafts. The list of current Internet-
Drafts is at http://datatracker.ietf.org/drafts/current/.
Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."
This Internet-Draft will expire on October 9, 2015.
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Copyright Notice
Copyright (c) 2015 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
Provisions Relating to IETF Documents
(http://trustee.ietf.org/license-info) in effect on the date of
publication of this document. Please review these documents
carefully, as they describe your rights and restrictions with respect
to this document. Code Components extracted from this document must
include Simplified BSD License text as described in Section 4.e of
the Trust Legal Provisions and are provided without warranty as
described in the Simplified BSD License.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
1.1. Terminology . . . . . . . . . . . . . . . . . . . . . . . 3
1.2. YANG Tree Diagrams . . . . . . . . . . . . . . . . . . . 4
1.3. YANG Modelling of NAT44 Functionality . . . . . . . . . . 4
2. Objectives . . . . . . . . . . . . . . . . . . . . . . . . . 4
2.1. Common . . . . . . . . . . . . . . . . . . . . . . . . . 4
2.2. Lightweight 4over6 . . . . . . . . . . . . . . . . . . . 5
2.3. MAP-E . . . . . . . . . . . . . . . . . . . . . . . . . . 5
2.4. MAP-T . . . . . . . . . . . . . . . . . . . . . . . . . . 5
3. Softwire YANG Tree Diagrams . . . . . . . . . . . . . . . . . 5
3.1. Common Tree Diagrams . . . . . . . . . . . . . . . . . . 5
3.2. Lightweight 4over6 Tree Diagrams . . . . . . . . . . . . 6
3.3. MAP-E Tree Diagrams . . . . . . . . . . . . . . . . . . . 9
3.4. MAP-T Tree Diagrams . . . . . . . . . . . . . . . . . . . 10
3.5. Notifications for Softwire YANG . . . . . . . . . . . . . 12
4. Softwire YANG Model . . . . . . . . . . . . . . . . . . . . . 14
5. Example of Configure Lw4over6 Binding-Table . . . . . . . . . 30
6. Security Considerations . . . . . . . . . . . . . . . . . . . 31
7. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 32
8. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 32
9. References . . . . . . . . . . . . . . . . . . . . . . . . . 32
9.1. Normative References . . . . . . . . . . . . . . . . . . 32
9.2. Informative References . . . . . . . . . . . . . . . . . 33
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 33
1. Introduction
The IETF Softwire Working Group has developed several IPv4-in-IPv6
Softwire mechanisms to address various deployment contexts and
constraints. As a companion to the architectural specification
documents, this document focuses on the provisioning aspects for
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softwire functional elements that are: Border Routers (BRs) and
Customer Premises Equipment (CEs).
This document defines a YANG data model that can be used to configure
and manage IPv4-in-IPv6 Softwire BRs and/or CEs via NETCONF
protocol[RFC6241]. To ensure interoperability in mixed vendor
environments, it is important that the models can be easily reused
between different vendors and implementations.
There are three different mechanisms in this YANG model. Each
specific mechanism has their separate YANG modules respectively:
o Lightweight 4over6 [I-D.ietf-softwire-lw4over6]
o MAP-E [I-D.ietf-softwire-map]
o MAP-T [I-D.ietf-softwire-map-t]
This model is structured into two root containers:
1. Container "softwire-config" holds the collection of YANG
definitions common to all softwire configuration of BRs and CEs.
2. Container "softwire-state" holds YANG definitions for the
operational state of the Softwire BRs and CEs.
The model also includes a notification module. The aim is to notify
the client that a specific status has been changed.
This approach has been taken so that the model can be easily extended
in the future to support additional softwire mechanism, should this
be necessary.
1.1. Terminology
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in [RFC2119].
The reader should be familiar with the terms defined in
[I-D.ietf-softwire-lw4over6] [I-D.ietf-softwire-map]
[I-D.ietf-softwire-map-t] , and the YANG data modelling language
[RFC6020].
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1.2. YANG Tree Diagrams
Softwire YANG tree diagrams provide a concise representation of a
YANG module to help readers understand the module structure. The
meaning if the symbols in these diagrams is as follows:
o Brackets "[" and "]" enclose list keys.
o Braces "{" and "}" enclose feature content.
o Parentheses "(" and ")" enclose choice and case nodes, and case
nodes are also marked with a colon (":").
o Symbols after data node names: "?" means an optional node, and "*"
denotes a list and leaf-list.
o Abbreviations before data node names: "rw" means configuration
data (read-write), and "ro" means state data (read-only).
1.3. YANG Modelling of NAT44 Functionality
This documented model does not include NAT-specific provisioning
parameters other than the external IP address and port set which a
softwire client may use for NAT44. Additional NAT-specific
considerations are out of scope.
2. Objectives
This document defines a YANG data model that can be used to configure
and manage BRs and CEs for the following IPv4-in-IPv6 Softwire
mechanisms: Lightweight 4over6, MAP-E and MAP-T.
For the Lightweight 4over6, the configuration and management
information of lwB4 and lwAFTR are different. The Lightweight 4over6
AFTRs needs to maintain the binding table of lwB4s. The Lightweight
4over6 B4s need to maintain the NAPT table of hosts.
For the MAP-T and MAP-T, CE and BR both need to maintain the map-rule
table. Thus, there is no need to distinguish BR and CE.
2.1. Common
This common model abstracts the shared features of different BRs and
CEs. The model defined a single node softwire description for common
feature now.
The following sections of the document are structured with the root
of the softwire YANG model (common to all mechanisms) described
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first. The subsequent sections describe the models relevant to the
different softwire mechanisms. All functions are listed, but the
YANG models use the "feature" statement to distinguish among the
different softwire mechanisms.
2.2. Lightweight 4over6
Lightweight 4over6 include two elements: lwAFTR and lwB4. The lwAFTR
holds configuration for IPv4-IPv6 address bindings which used for the
forwarding of traffic originating from lwB4s. And the lwB4 is
configured with the relevant parameters for establishing the IPv4 in
IPv6 tunnel including an IPv6 address for the lwAFTR and the IPv4
configuration for NAPT44.
2.3. MAP-E
MAP-E elements (BR and CE) are provisioned with the MAP rules
necessary for defining MAP domains and forwarding rules.
2.4. MAP-T
MAP-E elements (BR and CE) are provisioned with the MAP rules
necessary for defining MAP domains and forwarding rules. MAP-T CEs
an additional "ipv6-prefix" parameter is also configured.
3. Softwire YANG Tree Diagrams
3.1. Common Tree Diagrams
Figure 1 describes the softwire data model which is common to all of
the different softwire mechanisms listed in Section 1:
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+--rw softwire-config
| +--rw description? string
| +--rw lw4over6 {lw4over6}?
| | +--rw lwaftr {lwaftr}?
| | +--rw lwb4 {lwb4}?
| +--rw map-e {map-e}?
| +--rw map-t {map-t}?
|
+--ro softwire-state
+--ro description? string
+--ro lw4over6 {lw4over6}?
| +--ro lwaftr {lwaftr}?
| +--ro lwb4 {lwb4}?
+--ro map-e {map-e}?
+--ro map-t {map-t}?
Figure 1: Softwire Common Data Model Structure
The mechanism specific models for lw4over6, MAP-E and MAP-T are
described in detail in the following sections.
3.2. Lightweight 4over6 Tree Diagrams
Figure 2 defines the softwire data model for Lightweight 4over6 which
include lwAFR and lwB4:
+--rw softwire-config
| +--...
| +--rw lw4over6 {lw4over6}?
| | +--rw lwaftr {lwaftr}?
| | | +--rw enable? boolean
| | | +--rw lwaftr-instances
| | | +--rw lwaftr-instance* [id]
| | | +--rw id uint32
| | | +--rw name? string
| | | +--rw binding-table
| | | | +--rw binding-entry* [binding-ipv6-addr]
| | | | +--rw binding-ipv6-addr inet:ipv6-address
| | | | +--rw binding-ipv4-addr inet:ipv4-address
| | | | +--rw port-set
| | | | | +--rw offset uint8
| | | | | +--rw psid uint16
| | | | | +--rw psid-len uint8
| | | | +--rw lwaftr-ipv6-addr? inet:ipv6-prefix
| | | | +--rw lifetime? uint32
| | | +--rw tunnels
| | | | +--rw tunnel* [tunnel-id]
| | | | +--rw tunnel-id uint8
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| | | | +--rw tunnel-mtu uint32
| | | | +--rw fragment-mru uint16
| | | +--rw tunnel-num-threshold uint32
| | +--rw lwb4 {lwb4}?
| | +--rw enable? boolean
| | +--rw lwb4-instances
| | +--rw lwb4-instance* [binding-ipv6info]
| | +--rw name? string
| | +--rw b4-ipv6-addr-format boolean
| | +--rw binding-ipv6info union
| | +--rw binding-ipv4-addr inet:ipv4-address
| | +--rw port-set
| | | +--rw offset uint8
| | | +--rw psid uint16
| | | +--rw psid-len uint8
| | +--rw lwaftr-ipv6-addr? inet:ipv6-prefix
| | +--rw tunnels
| | +--rw tunnel* [tunnel-id]
| | +--rw tunnel-id uint8
| | +--rw tunnel-mtu uint32
| | +--rw fragment-mru uint16
| +--...
+--ro softwire-state
+--...
+--ro lw4over6 {lw4over6}?
| +--ro lwaftr {lwaftr}?
| | +--ro lwaftr-instances
| | +--ro lwaftr-instance* [id]
| | +--ro id uint32
| | +--ro name? string
| | +--ro active-tunnel-num? uint32
| | +--ro binding-table
| | | +--ro binding-entry* [binding-ipv6-addr]
| | | +--ro binding-ipv6-addr inet:ipv6-address
| | | +--ro active? boolean
| | +--ro traffic-stat
| | +--ro sentPacket? yang:zero-based-counter64
| | +--ro sentByte? yang:zero-based-counter64
| | +--ro rcvdPacket? yang:zero-based-counter64
| | +--ro rcvdByte? yang:zero-based-counter64
| | +--ro droppedPacket? yang:zero-based-counter64
| | +--ro droppedByte? yang:zero-based-counter64
| +--ro lwb4 {lwb4}?
| +--ro lwb4-instances
| +--ro lwb4-instance* [binding-ipv6info]
| +--ro name? string
| +--ro binding-ipv6info union
| +--ro traffic-stat
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| +--ro sentPacket? yang:zero-based-counter64
| +--ro sentByte? yang:zero-based-counter64
| +--ro rcvdPacket? yang:zero-based-counter64
| +--ro rcvdByte? yang:zero-based-counter64
| +--ro droppedPacket? yang:zero-based-counter64
| +--ro droppedByte? yang:zero-based-counter64
+--...
Figure 2: Softwire Lightweight 4over6 Data Model Structure
Introduction of important lwAFTR nodes:
o binding-entry: used to define the binding relationship between
3-tuples, which contains the lwB4's IPv6 address, the allocated
IPv4 address and restricted port-set. For detail information,
please refer to [I-D.ietf-softwire-lw4over6].
o tunnel-mtu: used to set the value of MTU for Lightweight 4over6
tunnel.
o fragment-mru: used to the value of fragment for Lightweight 4over6
tunnel.
o tunnel-num-threshold: used to set the maximum number of tunnels
that can be created on the lw4over6 device simultaneously.
o active-tunnel-num (ro): used to present the number of tunnels
currently provisioned on the device.
o active (ro): used to show the status of particular binding-entry.
o stat-count (ro): use to show the numbers of packets and bytes
information of specific device respectively.
Introduction of important lwB4 nodes:
o b4-ipv6-addr-format: indicates the format of lwB4 IPv6 address.
If set to true, it indicates that the IPv6 source address of the
lwB4 is constructed according to the description in
[I-D.ietf-softwire-lw4over6]; if set to false, the lwB4 can use
any /128 address from the assigned IPv6 prefix.
o binding-ipv6info: used to set the IPv6 address type which is
combined in a binding entry, for a complete address or a prefix.
o stat-count (ro): use to show the numbers of packets and bytes
information of specific device respectively.
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3.3. MAP-E Tree Diagrams
Figure 3 defines the softwire data model for MAP-E:
module: ietf-softwire
+--rw softwire-config
| +--...
| +--rw map-e {map-e}?
| | +--rw enable? boolean
| | +--rw map-e-instances
| | +--rw map-e-instance* [id]
| | +--rw id uint32
| | +--rw name? string
| | +--rw map-rules
| | | +--rw map-rule* [id]
| | | +--rw id uint8
| | | +--rw map-rule-type enumeration
| | | +--rw rule-ipv6-prefix inet:ipv6-prefix
| | | +--rw rule-ipv4-prefix inet:ipv4-prefix
| | | +--rw port-set
| | | | +--rw offset uint8
| | | | +--rw psid uint16
| | | | +--rw psid-len uint8
| | | +--rw ea-len uint8
| | +--rw br-ipv6-addr? inet:ipv6-address
| | +--rw tunnels
| | +--rw tunnel* [tunnel-id]
| | +--rw tunnel-id uint8
| | +--rw tunnel-mtu uint32
| | +--rw fragment-mru uint16
| +--...
+--ro softwire-state
+--...
+--ro map-e {map-e}?
| +--ro map-e-instances
| +--ro map-e-instance* [id]
| +--ro id uint32
| +--ro name? string
| +--ro traffic-stat
| +--ro sentPacket? yang:zero-based-counter64
| +--ro sentByte? yang:zero-based-counter64
| +--ro rcvdPacket? yang:zero-based-counter64
| +--ro rcvdByte? yang:zero-based-counter64
| +--ro droppedPacket? yang:zero-based-counter64
| +--ro droppedByte? yang:zero-based-counter64
+--...
Figure 3: Softwire MAP-E Data Model Structure
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Introduction of important MAP-E nodes:
o map-rule-type: used to define the type of map rule. The data type
is enumeration, which are "BMR" and "FMR".
o offset: used to set the number of offset bits.
o psid: used to algorithmically identify a set of ports exclusively
for a specific softwire.
o ea-len: used to set the length of the Embedded-Address (EA), which
defined in the mapping rule for a MAP domain.
o tunnel-mtu: used to set the value of MTU for MAP-E tunnel.
o fragment-mru: used to the value of fragment for MAP-E tunnel.
o stat-count (ro): use to show the numbers of packets and bytes
information of specific device respectively.
3.4. MAP-T Tree Diagrams
Figure 4 defines the softwire data model for MAP-T:
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module: ietf-softwire
+--rw softwire-config
| +--...
| +--rw map-t {map-t}?
| +--rw enable? boolean
| +--rw map-t-instances
| +--rw map-t-instance* [id]
| +--rw id uint32
| +--rw name? string
| +--rw map-rules
| | +--rw map-rule* [id]
| | +--rw id uint8
| | +--rw map-rule-type enumeration
| | +--rw rule-ipv6-prefix inet:ipv6-prefix
| | +--rw rule-ipv4-prefix inet:ipv4-prefix
| | +--rw port-set
| | | +--rw offset uint8
| | | +--rw psid uint16
| | | +--rw psid-len uint8
| | +--rw ea-len uint8
| +--rw dmr-ipv6-prefix? inet:ipv6-prefix
+--ro softwire-state
+--...
+--ro map-t {map-t}?
+--ro map-t-instances
+--ro map-t-instance* [id]
+--ro id uint32
+--ro name? string
+--ro traffic-stat
+--ro sentPacket? yang:zero-based-counter64
+--ro sentByte? yang:zero-based-counter64
+--ro rcvdPacket? yang:zero-based-counter64
+--ro rcvdByte? yang:zero-based-counter64
+--ro droppedPacket? yang:zero-based-counter64
+--ro droppedByte? yang:zero-based-counter64
Figure 4: Softwire MAP-T Data Model Structure
Introduction of important MAP-T nodes:
o map-rule-type: is used to define the type of map rule. The data
type is enumeration, which are "BMR" and "FMR".
o offset: is used to set the number of offset bits.
o psid: is used to algorithmically identify a set of ports
exclusively for a specific softwire.
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o ea-len: is used to set the length of the Embedded-Address (EA),
which defined in the mapping rule for a MAP domain.
o dmr-ipv6-prefix: defines the DMR in MAP-T.
o stat-count (ro): use to show the numbers of packets and bytes
information of specific device respectively.
3.5. Notifications for Softwire YANG
This section describes the diagram tree for the notifications. These
notifications pertain to configuration and monitoring portions of
specific Softwire mechanisms. The logic is that, the softwire
instance notifies the NETCONF client with the index for a mapping
entry and then the NETCONF client retrieves the related information
from the operational datastore of that instance.
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module: ietf-softwire
notifications:
+---n softwire-lwaftr-event {lwaftr}?
| +--ro lwaftr-id -> /softwire-state/lwaftr/lwaftr-instances/
| | lwaftr-instance/id
| +--ro invalid-entry* -> /softwire-config/lwaftr/lwaftr-instances/
| | lwaftr-instance[id=current()/../lwaftr-id]/
| | binding-table/binding-entry/binding-ipv6-addr
| +--ro added-entry* inet:ipv6-address
| +--ro modified-entry* -> /softwire-config/lwaftr/lwaftr-instances/
| lwaftr-instance[id=current()/../lwaftr-id]/
| binding-table/binding-entry/binding-ipv6-addr
+---n softwire-lwb4-event {lwb4}?
| +--ro lwb4-binding-ipv6-addr-change inet:ipv6-address
+---n softwire-map-e-event {map-e}?
| +--ro map-e-id -> /softwire-config/map-e/map-e-instances/
| | map-e-instance/id
| +--ro invalid-entry-id* -> /softwire-config/map-e/map-e-instances/
| | map-e-instance[id=current()/../map-e-id]/
| | map-rules/map-rule/id
| +--ro added-entry* uint32
| +--ro modified-entry* -> /softwire-config/map-e/map-e-instances/
| | map-e-instance[id=current()/../map-e-id]/
| | map-rules/map-rule/id
+---n softwire-map-t-event {map-t}?
+--ro map-t-id -> /softwire-config/map-t/map-t-instances/
| map-t-instance/id
+--ro invalid-entry-id* -> /softwire-config/map-t/map-t-instances/
| map-t-instance[id=current()/../map-t-id]/
| map-rules/map-rule/id
+--ro added-entry* uint32
+--ro modified-entry* -> /softwire-config/map-t/map-t-instances/
map-t-instance[id=current()/../map-t-id]/
map-rules/map-rule/id
Figure 5: Softwire Notifications Data Model Structure
Introduction of important notification nodes:
o invalid-entry, added-entry, modified-entry: use to notify the
client that a specific binding entry has been expired/invalid,
added, or modified respectively. Same meaning for map rule list.
o lwb4-binding-ipv6-addr-change: use to present the lwB4's binding-
ipv6-address has been changed or the value of the 'b4-ipv6-addr-
format' is "false".
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4. Softwire YANG Model
This module imports typedefs from [RFC6991].
<CODE BEGINS> file "ietf-softwire@2015-04-07.yang"
module ietf-softwire {
namespace "urn:ietf:params:xml:ns:yang:softwire";
prefix "softwire";
import ietf-inet-types {prefix inet; }
import ietf-yang-types {prefix yang; }
organization "Softwire Working Group";
contact
"
Qi Sun sunqi@csnet1.cs.tsinghua.edu.cn
Hao Wang wangh13@mails.tsinghua.edu.cn
Yong Cui yong@csnet1.cs.tsinghua.edu.cn
Ian Farrer ian.farrer@telekom.de
Mohamed Boucadair mohamed.boucadair@orange.com
Rajiv Asati rajiva@cisco.com
";
description
"This document defines a YANG data model for the configuration and
management of IPv4-in-IPv6 Softwire Border Routers and Customer
Premises Equipment. It covers Lightweight 4over6, MAP-E and MAP-T
Softwire mechanisms.
Copyright (c) 2014 IETF Trust and the persons identified
as authors of the code. All rights reserved.
This version of this YANG module is part of RFC XXX; see the RFC
itself for full legal notices.";
revision 2015-04-07 {
description
"Version-03: Integrate lw4over6; Updata state nodes; Correct
grammar errors; Reuse groupings; Update descriptions.
Simplify the model.";
}
revision 2015-02-10 {
description
"Version-02: Add notifications.";
}
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revision 2015-02-06 {
description
"Version-01: Correct grammar errors; Reuse groupings; Update
descriptions.";
}
revision 2015-02-02 {
description
"Initial revision.";
}
/*
* Features
*/
feature lw4over6 {
description
"Lightweight 4over6 (lw4over6) is an IPv4-over-IPv6 tunnelling
transition mechanism. Lightweight 4over6 is a solution designed
specifically for complete independence between IPv6 subnet prefix
(and /128 IPv6 address) and IPv4 address with or without IPv4
address sharing. This is accomplished by maintaining state for
each softwire (per-subscriber state) in the central lwAFTR and a
hub-and-spoke forwarding architecture. In order to delegate the
NAPT function and achieve IPv4 address sharing, port-restricted
IPv4 addresses needs to be allocated to CEs.";
reference
"I-D.ietf-softwire-lw4over6";
}
feature lwaftr {
if-feature lw4over6;
description
"The AFTRs (BRs) for Lightweight 4over6, so-called lwAFTR. This
feature indicates that a instance functions as a lwAFTR. A lwAFTR
is an IPv4-in-IPv6 tunnel concentrator that maintains
per-subscriber IPv4-IPv6 address binding.";
}
feature lwb4 {
if-feature lw4over6;
description
"The B4s (CEs) for Lightweight 4over6, so-called lwB4. This
feature indicates that a instance functions as a lwB4. A lwB4 is
an IPv4-in-IPv6 tunnel initiator. It is dual-stack capable node,
either a directly connected end-host or a CE. It sources IPv4
conncections using the configured port-set and the public IPv4
address.";
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}
feature map-e {
description
"MAP-E is an IPv6 transition mechanism for transporting IPv4
packets across an IPv6 network using IP encapsulation. MAP-E
allows for a reduction of the amount of centralized state using
rules to express IPv4/IPv6 address mappings. This introduces an
algorithmic relationship between the IPv6 subnet and IPv4 address.
This relationship also allows the option of direct, meshed
connectivity between users. Alternatively, MAP-E can be configured
to support IPv4/IPv6 indepent binding. This feature indicates the
instance functions as a MAP-E instance.";
reference
"I-D.ietf-softwire-map";
}
feature map-t {
description
"The Mapping of Address and Port - Translation (MAP-T)
architecture is a double stateless NAT64 based solution. It uses
the stateless algorithmic address & transport layer port mapping
scheme defined in MAP-E. The MAP-T solution differs from MAP-E in
the use of IPv4-IPv6 translation, rather than encapsulation, as
the form of IPv6 domain transport. This feature indicates the
instance functions as a MAP-T instance. ";
reference
"I-D.ietf-softwire-map-t";
}
/*
* Grouping
*/
grouping port-set {
description
"Use the PSID algorithm to represent a range of transport layer
ports.";
leaf offset {
mandatory true;
type uint8 {
range 0..16;
}
description
"The number of offset bits. In Lightweight 4over6, the defaul
value is 0 for assigning one contiguous port range. In MAP-E/T,
the default value is 6, which excludes system ports by default
and assigns distributed port ranges. If the this parameter is
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larger than 0, the value of offset MUST be greater than 0.";
}
leaf psid {
mandatory true;
type uint16;
description
"Port Set Identifier (PSID) value, which identifies a set of
ports algorithmically.";
}
leaf psid-len {
mandatory true;
type uint8 {
range 0..16;
}
description
"The length of PSID, representing the sharing ratio for a IPv4
address.";
}
}
grouping binding-entry {
description
"The lwAFTR maintains an address binding table that contains the
binding between the lwB4's IPv6 address, the allocated IPv4
address and restricted port-set.";
/*
choice binding-ipv6info {
description
"Allow for the binding table to be specified in one of two ways,
either with an explicit /128 or a /64 with the IID automatically
constructed from the IPv4 address and port set.";
case ipv6addr {
leaf binding-ipv6-addr {
mandatory true;
type inet:ipv6-address;
description
"The /128 IPv6 address of the lwB4, which is used to bind
the address and port-set and source the tunnel.";
}
}
case ipv6pref {
leaf binding-ipv6-prefix {
mandatory true;
type inet:ipv6-prefix;
description
"The operator-assigned IPv6 prefix of the lwB4. The lwAFTR
uses the prefix to construct the /128 IPv6 address to complete
the binding entry. ";
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reference
"http://tools.ietf.org/html/draft-ietf-softwire-lw4over6-13#section-5.1,
Figure 3";
}
}
}
*/
leaf binding-ipv6info {
mandatory true;
type union {
type inet:ipv6-address;
type inet:ipv6-prefix;
}
description
"The IPv6 information for a binding entry. If it's an IPv6 prefix,
it indicates that the IPv6 source address of the lwB4 is constructed
according to the description in [I-D.ietf-softwire-lw4over6];
if it's an IPv6 address, it means the lwB4 uses any /128 address
from the assigned IPv6 prefix.
";
}
leaf binding-ipv4-addr {
mandatory true;
type inet:ipv4-address;
description
"The IPv4 address assigned to the lwB4, which is used as the
IPv4 External Address for lwB4 local NAPT44.";
}
container port-set {
uses port-set {
refine offset {
default "0";
}
}
}
leaf lwaftr-ipv6-addr {
type inet:ipv6-prefix;
description
"The IPv6 address for lwaftr. Optional for the binding entry.";
}
leaf lifetime {
type uint32;
units seconds;
}
}
/*
grouping nat-table {
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description
"Grouping 'nat-table' is not extended. The current mechanism is
focusing on the provisioning of external IP address and port set;
other NAT-specific considerations are out of scope for this
model.";
}
*/
grouping map-instance {
leaf id {
mandatory true;
type uint32;
}
leaf name {
type string;
}
container map-rules {
list map-rule {
description
"A set of parameters describing the mapping between an IPv4
prefix, IPv4 address or shared IPv4 address and an IPv6 prefix
or address. Each domain uses a differe mapping rule set.";
key "id";
leaf id {
type uint8;
}
leaf map-rule-type {
mandatory true;
type enumeration {
enum "BMR";
enum "FMR";
}
description
"The BMR and FMR share the rule format. BMR is used for a node
to configure itself with IPv4 information retrived from the
rule. FMR is designed for the in-domain 4-in-6 routing, used
in mesh mode. A BMR can be FMR in some case. The DMR for map-t
is defined separately.";
}
leaf rule-ipv6-prefix {
type inet:ipv6-prefix;
mandatory true;
description
"The Rule IPv6 prefix defined in the mapping rule.";
}
leaf rule-ipv4-prefix {
type inet:ipv4-prefix;
mandatory true;
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description
"The Rule IPv4 prefix defined in the mapping rule.";
}
container port-set {
uses port-set {
refine offset {
default "6";
}
}
}
leaf ea-len {
mandatory true;
type uint8;
description
"Embedded Address (EA) bits are the IPv4 EA-bits in the IPv6
address identify an IPv4 prefix/address (or part thereof) or
a shared IPv4 address (or part thereof) and a port-set
identifier. The length of the EA-bits is defined as part of a
MAP rule for a MAP domain.";
}
}
}
}
grouping traffic-stat {
leaf sentPacket {
type yang:zero-based-counter64;
}
leaf sentByte {
type yang:zero-based-counter64;
}
leaf rcvdPacket {
type yang:zero-based-counter64;
}
leaf rcvdByte {
type yang:zero-based-counter64;
}
leaf droppedPacket {
type yang:zero-based-counter64;
}
leaf droppedByte {
type yang:zero-based-counter64;
}
}
/*
* Configuration Data Nodes
*/
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container softwire-config {
description
"The configuration data for Softwire instances. And the shared
data describes the softwire data model which is common to all of
the different softwire mechanisms, such as description.";
leaf description {
type string;
description
"A textual description of Softwire.";
}
container lwaftr {
if-feature lwaftr;
description
"Indicate this instance supports the lwAFTR function. The
instances advertise the lwaftr feature through the
capability exchange mechanism when a NETCONF session is
established.";
leaf enable {
type boolean;
description
"Enable/disable the lwAFTR function.";
}
container lwaftr-instances {
description
"A set of lwAFTRs to be configured.";
list lwaftr-instance {
key "id";
leaf id {
type uint32;
}
leaf name {
type string;
description "The name for the lwaftr.";
}
leaf softwire-num-threshold {
mandatory true;
type uint32;
description
"The maximum number of tunnels that can be created on
the lwAFTR.";
}
leaf tunnel-mtu {
mandatory true;
type uint32;
description
"The MTU for Lightweight 4over6 tunnel.";
}
leaf fragment-mru {
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mandatory true;
type uint16;
description
"The fragmentation MRU for Lightweight 4over6 tunnel.";
}
container binding-table {
list binding-entry {
key "binding-ipv6info";
uses binding-entry;
}
}
}
}
}
container lwb4 {
if-feature lwb4;
description
"Indicate this instance supports the lwB4 function. The
instances advertise the lwb4 feature through the
capability exchange mechanism when a NETCONF session is
established.";
leaf enable {
type boolean;
description
"Enable/disable the lwB4 function.";
}
container lwb4-instances {
description
"A set of lwB4s to be configured.";
list lwb4-instance {
key "binding-ipv6info";
leaf name {
type string;
description "The lwb4 name.";
}
leaf tunnel-mtu {
mandatory true;
type uint32;
description
"The MTU for Lightweight 4over6 tunnel.";
}
leaf fragment-mru {
mandatory true;
type uint16;
description
"The fragment MRU for Lightweight 4over6 tunnel.";
}
leaf b4-ipv6-addr-format {
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type boolean;
mandatory true;
description
"The format of lwB4 IPv6 address. If set to true, it
indicates that the IPv6 source address of the lwB4 is
constructed according to the description in
[I-D.ietf-softwire-lw4over6]; if set to false, the lwB4
can use any /128 address from the assigned IPv6 prefix.
[DISCUSS] Is this redudant? ";
}
uses binding-entry;
}
}
}
container map-e {
if-feature map-e;
description
"Indicate the instances support the MAP-E function. The
instances advertise the map-e feature through the capability
exchange mechanism when a NETCONF session is established.";
leaf enable {
type boolean;
default "true";
description
"Enable/disable the MAP-E function.";
}
container map-e-instances {
description
"A set of MAP-E instances to be configured, applying to BRs and
CEs.";
list map-e-instance {
key "id";
uses map-instance;
leaf tunnel-mtu {
mandatory true;
type uint32;
description
"The MTU for MAP-E tunnel.";
}
leaf fragment-mru {
mandatory true;
type uint16;
description
"The fragment MRU for MAP-E tunnel.";
}
leaf br-ipv6-addr {
type inet:ipv6-address;
description
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"The IPv6 address of the MAP-E BR.";
}
}
}
}
container map-t {
if-feature map-t;
description
"Indicate the instances support the MAP-T function. The
instances advertise the map-t feature through the capability
exchange mechanism when a NETCONF session is established.";
leaf enable {
type boolean;
default "true";
description
"Enable/disable the MAP-T function.";
}
container map-t-instances {
description
"A set of the MAP-T instances to be configured, applying to BRs
and CEs.";
list map-t-instance {
key "id";
uses map-instance;
leaf dmr-ipv6-prefix {
type inet:ipv6-prefix;
description
"The IPv6 prefix of the MAP-T BR. ";
}
}
}
}
}
/*
* Operational state Data Nodes
*/
container softwire-state {
config false;
description
"The operational state data for Softwire instances. ";
leaf description {
type string;
description
"A textual description of the softwire instances.";
}
container lwaftr {
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if-feature lwaftr;
config false;
description
"Indicate this instance supports the lwAFTR function. The
instances advertise the lwaftr feature through the
capability exchange mechanism when a NETCONF session is
established.";
container lwaftr-instances {
description
"A set of lwAFTRs.";
list lwaftr-instance {
key "id";
leaf id {
type uint32;
}
leaf name {
type string;
description "The name for this lwaftr.";
}
uses traffic-stat;
leaf active-softwire-num {
type uint32;
description
"The number of currently active tunnels on the lw4over6
instance.";
}
container binding-table {
list binding-entry {
key "binding-ipv6info";
leaf binding-ipv6info {
mandatory true;
type union {
type inet:ipv6-address;
type inet:ipv6-prefix;
}
description
"The IPv6 information used to identify a binding entry. ";
}
leaf active {
type boolean;
description
"Status of a specific tunnel.";
}
}
}
}
}
}
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container lwb4 {
if-feature lwb4;
config false;
description
"Indicate this instance supports the lwB4 function. The
instances advertise the lwb4 feature through the
capability exchange mechanism when a NETCONF session is
established.";
container lwb4-instances {
description
"Status of the configured lwB4s.";
list lwb4-instance {
key "binding-ipv6info";
leaf name {
type string;
description "The lwb4 name.";
}
leaf binding-ipv6info {
mandatory true;
type union {
type inet:ipv6-address;
type inet:ipv6-prefix;
}
description
"The IPv6 information used to identify a binding entry. ";
}
uses traffic-stat;
}
}
}
container map-e {
if-feature map-e;
config false;
description
"Indicate the instances support the MAP-E function. The
instances advertise the map-e feature through the capability
exchange mechanism when a NETCONF session is established.";
container map-e-instances {
description
"Status of MAP-E instance(s).";
list map-e-instance {
key "id";
leaf id {
type int32;
}
leaf name {
type string;
description "The map-e instance name.";
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}
uses traffic-stat;
}
}
}
container map-t {
if-feature map-t;
config false;
description
"Indicate the instances support the MAP-T function. The
instances advertise the map-t feature through the capability
exchange mechanism when a NETCONF session is established.";
container map-t-instances {
description
"Status of MAP-T instances.";
list map-t-instance {
key "id";
leaf id {
type int32;
}
leaf name {
type string;
description "The map-t instance name.";
}
uses traffic-stat;
}
}
}
}
/*
* Notifications
*/
notification softwire-lwaftr-event {
if-feature lwaftr;
leaf lwaftr-id {
mandatory true;
type leafref {
path
"/softwire-state/lwaftr/lwaftr-instances/"
+ "lwaftr-instance/id";
}
}
leaf-list invalid-entry {
type leafref {
path
"/softwire-config/lwaftr/lwaftr-instances/"
+ "lwaftr-instance[id=current()/../lwaftr-id]/"
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+ "binding-table/binding-entry/binding-ipv6info";
}
description
"Notify the client that a specific binding entry has been
expired/invalid. The binding-ipv6info identifies an entry.";
}
leaf-list added-entry {
type inet:ipv6-address;
description
"Notify the client that a binding entry has been added.
The ipv6 address of that entry is the index. The client
get other information from the lwaftr about the entry
indexed by that ipv6 address.
";
}
leaf-list modified-entry {
type leafref {
path
"/softwire-config/lwaftr/lwaftr-instances/"
+ "lwaftr-instance[id=current()/../lwaftr-id]/"
+ "binding-table/binding-entry/binding-ipv6info";
}
}
}
notification softwire-lwb4-event {
if-feature lwb4;
leaf lwb4-binding-ipv6-addr-change {
mandatory true;
type inet:ipv6-address;
description
"The source tunnel IPv6 address of the lwB4. If 'b4-ipv6-addr-format'
is false, or the lwb4's binding-ipv6-address changes for any reason,
it SHOULD notify the NETCONF client.";
}
}
notification softwire-map-e-event {
if-feature map-e;
leaf map-e-id {
mandatory true;
type leafref {
path
"/softwire-config/map-e/map-e-instances/map-e-instance/id";
}
}
leaf-list invalid-entry-id {
type leafref {
path
"/softwire-config/map-e/map-e-instances/"
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+ "map-e-instance[id=current()/../map-e-id]/map-rules/"
+ "map-rule/id";
}
}
leaf-list added-entry {
type uint32;
}
leaf-list modified-entry {
type leafref {
path
"/softwire-config/map-e/map-e-instances/"
+ "map-e-instance[id=current()/../map-e-id]/map-rules/"
+ "map-rule/id";
}
}
}
notification softwire-map-t-event {
if-feature map-t;
leaf map-t-id {
mandatory true;
type leafref {
path
"/softwire-config/map-t/map-t-instances/map-t-instance/id";
}
}
leaf-list invalid-entry-id {
type leafref {
path
"/softwire-config/map-t/map-t-instances/"
+ "map-t-instance[id=current()/../map-t-id]/map-rules/"
+ "map-rule/id";
}
}
leaf-list added-entry {
type uint32;
}
leaf-list modified-entry {
type leafref {
path
"/softwire-config/map-t/map-t-instances/"
+ "map-t-instance[id=current()/../map-t-id]/map-rules/"
+ "map-rule/id";
}
}
}
}
<CODE ENDS>
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5. Example of Configure Lw4over6 Binding-Table
The lwAFTR maintains an address binding table which contains the
following 3-tuples:
o IPv6 Address for a single lwB4
o Public IPv4 Address
o Restricted port-set
The entry has two functions: the IPv6 encapsulation of inbound IPv4
packets destined to the lwB4 and the validation of outbound IPv4-in-
IPv6 packets received from the lwB4 for de-capsulation.
Requirement: Add an entry that maintain the relationship between
3-tuples of lwB4 (2001::1) in binding-table, which on the lwAFTR
(2001::2). The data value of this 3-tuples are '2001::1',
'123.1.1.1' and '1234' respectively.
Here is the example binding-table configuration xml:
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<rpc message-id="101"
xmlns:nc="urn:params:xml:ns:yang:ietf-softwire:1.0">
// replace with IANA namespace when assigned.
<edit-config>
<target>
<running/>
</target>
<softwire-config>
<lw4over6-aftr>
<lw4over6-aftr-instances>
<lw4over6-aftr-instance>
<aftr-ipv6-addr>2001::2</aftr-ipv6-addr>
<binding-table>
<binding-entry>
<binding-ipv4-addr>123.1.1.1</binding-ipv4-addr>
<port-set>
<psid>1234</psid>
</port-set>
<binding-ipv6-addr>2001::1</binding-ipv6-addr>
<active>1</active>
</binding-entry>
</binding-table>
</lw4over6-aftr-instance>
</lw4over6-aftr-instances>
</lw4over6-aftr>
</softwire-config>
Figure 6: Lw4over6 Binding-Table Configuration XML
6. Security Considerations
The YANG module defined in this memo is designed to be accessed via
the NETCONF protocol [RFC6241]. The lowest NETCONF layer is the
secure transport layer and the mandatory to implement secure
transport is SSH [RFC6242]. The NETCONF access control model
[RFC6536] provides the means to restrict access for particular
NETCONF users to a pre-configured subset of all available NETCONF
protocol operations and content.
There are a number of data nodes defined in this YANG module which
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:
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subtrees and data nodes and state why they are sensitive
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:
subtrees and data nodes and state why they are sensitive
7. IANA Considerations
A registry for standard YANG modules shall be set up. This document
registers one URI for the YANG XML namespace in the IETF XML registry
[RFC3688].
URI: urn:ietf:params:xml:ns:yang:softwire
8. Acknowledgements
The authors would like to thank Lishan Li, Bert Wijnen and Giles
Heron for their contributions to this work.
9. References
9.1. Normative References
[I-D.ietf-softwire-lw4over6]
Cui, Y., Qiong, Q., Boucadair, M., Tsou, T., Lee, Y., and
I. Farrer, "Lightweight 4over6: An Extension to the DS-
Lite Architecture", draft-ietf-softwire-lw4over6-13 (work
in progress), November 2014.
[I-D.ietf-softwire-map]
Troan, O., Dec, W., Li, X., Bao, C., Matsushima, S.,
Murakami, T., and T. Taylor, "Mapping of Address and Port
with Encapsulation (MAP)", draft-ietf-softwire-map-13
(work in progress), March 2015.
[I-D.ietf-softwire-map-t]
Li, X., Bao, C., Dec, W., Troan, O., Matsushima, S., and
T. Murakami, "Mapping of Address and Port using
Translation (MAP-T)", draft-ietf-softwire-map-t-08 (work
in progress), December 2014.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
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[RFC3688] Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688,
January 2004.
[RFC6020] Bjorklund, M., "YANG - A Data Modeling Language for the
Network Configuration Protocol (NETCONF)", RFC 6020,
October 2010.
[RFC6241] Enns, R., Bjorklund, M., Schoenwaelder, J., and A.
Bierman, "Network Configuration Protocol (NETCONF)", RFC
6241, June 2011.
[RFC6242] Wasserman, M., "Using the NETCONF Protocol over Secure
Shell (SSH)", RFC 6242, June 2011.
[RFC6536] Bierman, A. and M. Bjorklund, "Network Configuration
Protocol (NETCONF) Access Control Model", RFC 6536, March
2012.
9.2. Informative References
[RFC6991] Schoenwaelder, J., "Common YANG Data Types", RFC 6991,
July 2013.
Authors' Addresses
Qi Sun
Tsinghua University
Beijing 100084
P.R. China
Phone: +86-10-6278-5822
Email: sunqi@csnet1.cs.tsinghua.edu.cn
Hao Wang
Tsinghua University
Beijing 100084
P.R. China
Phone: +86-10-6278-5822
Email: wangh13@mails.tsinghua.edu.cn
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Yong Cui
Tsinghua University
Beijing 100084
P.R. China
Phone: +86-10-6260-3059
Email: yong@csnet1.cs.tsinghua.edu.cn
Ian Farrer
Deutsche Telekom AG
CTO-ATI,Landgrabenweg 151
Bonn, NRW 53227
Germany
Email: ian.farrer@telekom.de
Mohamed Boucadair
France Telecom
Rennes 35000
France
Email: mohamed.boucadair@orange.com
Rajiv Asati
Cisco Systems, Inc.
7025 Kit Creek Rd.
RTP, NC 27709
USA
Email: Rajiva@cisco.com
Sun, et al. Expires October 9, 2015 [Page 34]