Internet Engineering Task Force M. Veillette, Ed.
Internet-Draft Trilliant Networks Inc.
Intended status: Standards Track A. Pelov, Ed.
Expires: September 26, 2019 Acklio
A. Somaraju
Tridonic GmbH & Co KG
R. Turner
Landis+Gyr
A. Minaburo
I. Petrov, Ed.
Acklio
March 25, 2019
CBOR Encoding of Data Modeled with YANG
draft-ietf-core-yang-cbor-08
Abstract
This document defines encoding rules for serializing configuration
data, state data, RPC input and RPC output, Action input, Action
output and notifications defined within YANG modules using the
Concise Binary Object Representation (CBOR) [RFC7049].
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 https://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 September 26, 2019.
Copyright Notice
Copyright (c) 2019 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
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(https://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 . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Terminology and Notation . . . . . . . . . . . . . . . . . . 3
2.1. YANG Schema Item iDentifier (SID) . . . . . . . . . . . . 5
2.2. CBOR diagnostic notation . . . . . . . . . . . . . . . . 5
3. Properties of the CBOR Encoding . . . . . . . . . . . . . . . 6
4. Encoding of YANG Schema Node Instances . . . . . . . . . . . 7
4.1. The 'leaf' . . . . . . . . . . . . . . . . . . . . . . . 7
4.2. The 'container' and other collections . . . . . . . . . . 8
4.2.1. SIDs as keys . . . . . . . . . . . . . . . . . . . . 8
4.2.2. Member names as keys . . . . . . . . . . . . . . . . 9
4.3. The 'leaf-list' . . . . . . . . . . . . . . . . . . . . . 11
4.4. The 'list' and 'list' instance(s) . . . . . . . . . . . . 11
4.4.1. SIDs as keys . . . . . . . . . . . . . . . . . . . . 12
4.4.2. Member names as keys . . . . . . . . . . . . . . . . 14
4.5. The 'anydata' . . . . . . . . . . . . . . . . . . . . . . 15
4.6. The 'anyxml' . . . . . . . . . . . . . . . . . . . . . . 17
5. Encoding of YANG data templates . . . . . . . . . . . . . . . 17
5.1. SIDs as keys . . . . . . . . . . . . . . . . . . . . . . 18
5.2. Member names as keys . . . . . . . . . . . . . . . . . . 19
6. Representing YANG Data Types in CBOR . . . . . . . . . . . . 20
6.1. The unsigned integer Types . . . . . . . . . . . . . . . 20
6.2. The integer Types . . . . . . . . . . . . . . . . . . . . 21
6.3. The 'decimal64' Type . . . . . . . . . . . . . . . . . . 21
6.4. The 'string' Type . . . . . . . . . . . . . . . . . . . . 22
6.5. The 'boolean' Type . . . . . . . . . . . . . . . . . . . 22
6.6. The 'enumeration' Type . . . . . . . . . . . . . . . . . 22
6.7. The 'bits' Type . . . . . . . . . . . . . . . . . . . . . 23
6.8. The 'binary' Type . . . . . . . . . . . . . . . . . . . . 24
6.9. The 'leafref' Type . . . . . . . . . . . . . . . . . . . 24
6.10. The 'identityref' Type . . . . . . . . . . . . . . . . . 25
6.10.1. SIDs as identityref . . . . . . . . . . . . . . . . 25
6.10.2. Name as identityref . . . . . . . . . . . . . . . . 26
6.11. The 'empty' Type . . . . . . . . . . . . . . . . . . . . 26
6.12. The 'union' Type . . . . . . . . . . . . . . . . . . . . 27
6.13. The 'instance-identifier' Type . . . . . . . . . . . . . 28
6.13.1. SIDs as instance-identifier . . . . . . . . . . . . 28
6.13.2. Names as instance-identifier . . . . . . . . . . . . 31
7. Security Considerations . . . . . . . . . . . . . . . . . . . 32
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8. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 32
8.1. Tags Registry . . . . . . . . . . . . . . . . . . . . . . 32
9. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . 33
10. References . . . . . . . . . . . . . . . . . . . . . . . . . 33
10.1. Normative References . . . . . . . . . . . . . . . . . . 33
10.2. Informative References . . . . . . . . . . . . . . . . . 34
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 34
1. Introduction
The specification of the YANG 1.1 data modelling language [RFC7950]
defines an XML encoding for data instances, i.e. contents of
configuration datastores, state data, RPC inputs and outputs, action
inputs and outputs, and event notifications.
A new set of encoding rules has been defined to allow the use of the
same data models in environments based on the JavaScript Object
Notation (JSON) Data Interchange Format [RFC7159]. This is
accomplished in the JSON Encoding of Data Modeled with YANG
specification [RFC7951].
The aim of this document is to define a set of encoding rules for the
Concise Binary Object Representation (CBOR) [RFC7049]. The resulting
encoding is more compact compared to XML and JSON and more suitable
for Constrained Nodes and/or Constrained Networks as defined by
[RFC7228].
2. Terminology and Notation
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 following terms are defined in [RFC7950]:
o action
o anydata
o anyxml
o data node
o data tree
o datastore
o feature
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o identity
o module
o notification
o RPC
o schema node
o schema tree
o submodule
The following terms are defined in [RFC7951]:
o member name
o name of an identity
o namespace-qualified
The following terms are defined in [RFC8040]:
o yang-data (YANG extension)
o YANG data template
This specification also makes use of the following terminology:
o child: A schema node defined within a collection such as a
container, a list, a case, a notification, an RPC input, an RPC
output, an action input, an action output.
o delta: Difference between the current SID and a reference SID. A
reference SID is defined for each context for which deltas are
used.
o item: A schema node, an identity, a module, a submodule or a
feature defined using the YANG modeling language.
o parent: The collection in which a schema node is defined.
o YANG Schema Item iDentifier (SID): Unsigned integer used to
identify different YANG items.
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2.1. YANG Schema Item iDentifier (SID)
Some of the items defined in YANG [RFC7950] require the use of a
unique identifier. In both NETCONF [RFC6241] and RESTCONF [RFC8040],
these identifiers are implemented using names. To allow the
implementation of data models defined in YANG in constrained devices
and constrained networks, a more compact method to identify YANG
items is required. This compact identifier, called YANG Schema Item
iDentifier (SID), is encoded using an unsigned integer. The
following items are identified using SIDs:
o identities
o data nodes
o RPCs and associated input(s) and output(s)
o actions and associated input(s) and output(s)
o notifications and associated information
o YANG modules, submodules and features
To minimize its size, in certain positions, SIDs are represented
using a (signed) delta from a reference SID and the current SID.
Conversion from SIDs to deltas and back to SIDs are stateless
processes solely based on the data serialized or deserialized.
Mechanisms and processes used to assign SIDs to YANG items and to
guarantee their uniqueness is outside the scope of the present
specification. If SIDs are to be used, the present specification is
used in conjunction with a specification defining this management.
One example for such a specification is under development as
[I-D.ietf-core-sid].
2.2. CBOR diagnostic notation
Within this document, CBOR binary contents are represented using an
equivalent textual form called CBOR diagnostic notation as defined in
[RFC7049] section 6. This notation is used strictly for
documentation purposes and is never used in the data serialization.
Table 1 below provides a summary of this notation.
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+----------+------+--------------------------+-----------+----------+
| CBOR | CBOR | Diagnostic notation | Example | CBOR |
| content | type | | | encoding |
+----------+------+--------------------------+-----------+----------+
| Unsigned | 0 | Decimal digits | 123 | 18 7B |
| integer | | | | |
| Negative | 1 | Decimal digits prefixed | -123 | 38 7A |
| integer | | by a minus sign | | |
| Byte | 2 | Hexadecimal value | h'F15C' | 42 f15C |
| string | | enclosed between single | | |
| | | quotes and prefixed by | | |
| | | an 'h' | | |
| Text | 3 | String of Unicode | "txt" | 63 |
| string | | characters enclosed | | 747874 |
| | | between double quotes | | |
| Array | 4 | Comma-separated list of | [ 1, 2 ] | 82 01 02 |
| | | values within square | | |
| | | brackets | | |
| Map | 5 | Comma-separated list of | { 1: 123, | a2 |
| | | key : value pairs within | 2: 456 } | 01187B |
| | | curly braces | | 021901C8 |
| Boolean | 7/20 | false | false | F4 |
| | 7/21 | true | true | F5 |
| Null | 7/22 | null | null | F6 |
| Not | 7/23 | undefined | undefined | F7 |
| assigned | | | | |
+----------+------+--------------------------+-----------+----------+
Table 1: CBOR diagnostic notation summary
The following extensions to the CBOR diagnostic notation are
supported:
o Any text within and including a pair of slashes is considered a
comment.
o Deltas are visualized as numbers preceded by a '+' or '-' sign.
The use of the '+' sign for positive deltas represents an
extension to the CBOR diagnostic notation as defined by [RFC7049]
section 6.
3. Properties of the CBOR Encoding
This document defines CBOR encoding rules for YANG schema trees and
their subtrees.
A collection such as container, list instance, notification, RPC
input, RPC output, action input and action output is serialized using
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a CBOR map in which each child schema node is encoded using a key and
a value. This specification supports two type of CBOR keys; YANG
Schema Item iDentifier (SID) as defined in Section 2.1 and member
names as defined in [RFC7951]. Each of these key types is encoded
using a specific CBOR type which allows their interpretation during
the deserialization process. Protocols or mechanisms implementing
this specification can mandate the use of a specific key type.
In order to minimize the size of the encoded data, the proposed
mapping avoids any unnecessary meta-information beyond those natively
supported by CBOR. For instance, CBOR tags are used solely in the
case of anyxml schema nodes and the union datatype to distinguish
explicitly the use of different YANG datatypes encoded using the same
CBOR major type.
Unless specified otherwise by the protocol or mechanism implementing
this specification, the infinite lengths encoding as defined in
[RFC7049] section 2.2 SHALL be supported by CBOR decoders.
Data nodes implemented using a CBOR array, map, byte string, and text
string can be instantiated but empty. In this case, they are encoded
with a length of zero.
Application payloads carrying a value serialized using the rules
defined by this specification (e.g. CoAP Content-Format) SHOULD
include the identifier (e.g. SID, namespace-qualified member name,
instance-identifier) of this value. When SIDs are used as
identifiers, the reference SID SHALL be included in the payload to
allow stateless conversion of delta values to SIDs. Formats of these
application payloads are not defined by the current specification and
are not shown in the examples.
4. Encoding of YANG Schema Node Instances
Schema node instances defined using the YANG modeling language are
encoded using CBOR [RFC7049] based on the rules defined in this
section. We assume that the reader is already familiar with both
YANG [RFC7950] and CBOR [RFC7049].
4.1. The 'leaf'
A 'leaf' MUST be encoded accordingly to its datatype using one of the
encoding rules specified in Section 6.
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4.2. The 'container' and other collections
Collections such as containers, list instances, notification
contents, rpc inputs, rpc outputs, action inputs and action outputs
MUST be encoded using a CBOR map data item (major type 5). A map is
comprised of pairs of data items, with each data item consisting of a
key and a value. Each key within the CBOR map is set to a schema
node identifier, each value is set to the value of this schema node
instance according to the instance datatype.
This specification supports two type of CBOR keys; SID as defined in
Section 2.1 and member names as defined in [RFC7951].
The following examples shows the encoding of a 'system-state'
container instance using SIDs or member names.
Definition example from [RFC7317]:
typedef date-and-time {
type string {
pattern '\d{4}-\d{2}-\d{2}T\d{2}:\d{2}:\d{2}(\.\d+)?(Z|[\+\-]
\d{2}:\d{2})';
}
}
container system-state {
container clock {
leaf current-datetime {
type date-and-time;
}
leaf boot-datetime {
type date-and-time;
}
}
}
4.2.1. SIDs as keys
CBOR map keys implemented using SIDs MUST be encoded using a CBOR
unsigned integer (major type 0) or CBOR negative integer (major type
1), depending on the actual delta value. Delta values are computed
as follows:
o In the case of a 'container', deltas are equal to the SID of the
current schema node minus the SID of the parent 'container'.
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o In the case of an 'rpc input' or 'rcp output', deltas are equal to
the SID of the current schema node minus the SID of the 'rpc'.
o In the case of an 'action input' or 'action output', deltas are
equal to the SID of the current schema node minus the SID of the
'action'.
CBOR diagnostic notation:
{ / system-state (SID 1720) /
+1 : { / clock (SID 1721) /
+2 : "2015-10-02T14:47:24Z-05:00", / current-datetime (SID 1723)/
+1 : "2015-09-15T09:12:58Z-05:00" / boot-datetime (SID 1722) /
}
}
CBOR encoding:
A1 # map(1)
01 # unsigned(1)
A2 # map(2)
02 # unsigned(2)
78 1A # text(26)
323031352d31302d30325431343a34373a32345a2d30353a3030
01 # unsigned(1)
78 1a # text(26)
323031352d30392d31355430393a31323a35385a2d30353a3030
4.2.2. Member names as keys
CBOR map keys implemented using member names MUST be encoded using a
CBOR text string data item (major type 3). A namespace-qualified
member name MUST be used each time the namespace of a schema node and
its parent differ. In all other cases, the simple form of the member
name MUST be used. Names and namespaces are defined in [RFC7951]
section 4.
The following example shows the encoding of a 'system' container
instance using names.
Definition example from [RFC7317]:
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typedef date-and-time {
type string {
pattern '\d{4}-\d{2}-\d{2}T\d{2}:\d{2}:\d{2}(\.\d+)?(Z|[\+\-]
\d{2}:\d{2})';
}
}
container system-state {
container clock {
leaf current-datetime {
type date-and-time;
}
leaf boot-datetime {
type date-and-time;
}
}
}
CBOR diagnostic notation:
{
"ietf-system:clock" : {
"current-datetime" : "2015-10-02T14:47:24Z-05:00",
"boot-datetime" : "2015-09-15T09:12:58Z-05:00"
}
}
CBOR encoding:
A1 # map(1)
71 # text(17)
696574662D73797374656D3A636C6F636B # "ietf-system:clock"
A2 # map(2)
70 # text(16)
63757272656E742D6461746574696D65 # "current-datetime"
78 1A # text(26)
323031352D31302D30325431343A34373A32345A2D30353A3030
6D # text(13)
626F6F742D6461746574696D65 # "boot-datetime"
78 1A # text(26)
323031352D30392D31355430393A31323A35385A2D30353A3030
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4.3. The 'leaf-list'
A leaf-list MUST be encoded using a CBOR array data item (major type
4). Each entry of this array MUST be encoded accordingly to its
datatype using one of the encoding rules specified in Section 6.
The following example shows the encoding of the 'search' leaf-list
instance containing two entries, "ietf.org" and "ieee.org".
Definition example [RFC7317]:
typedef domain-name {
type string {
length "1..253";
pattern '((([a-zA-Z0-9_]([a-zA-Z0-9\-_]){0,61})?[a-zA-Z0-9].)
*([a-zA-Z0-9_]([a-zA-Z0-9\-_]){0,61})?[a-zA-Z0-9]\.?
)|\.';
}
}
leaf-list search {
type domain-name;
ordered-by user;
}
CBOR diagnostic notation: [ "ietf.org", "ieee.org" ]
CBOR encoding: 82 68 696574662E6F7267 68 696565652E6F7267
4.4. The 'list' and 'list' instance(s)
A list or a subset of a list MUST be encoded using a CBOR array data
item (major type 4). Each list instance within this CBOR array is
encoded using a CBOR map data item (major type 5) based on the
encoding rules of a collection as defined in Section 4.2.
It is important to note that this encoding rule also apply to a
single 'list' instance.
The following examples show the encoding of a 'server' list using
SIDs or member names.
Definition example from [RFC7317]:
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list server {
key name;
leaf name {
type string;
}
choice transport {
case udp {
container udp {
leaf address {
type host;
mandatory true;
}
leaf port {
type port-number;
}
}
}
}
leaf association-type {
type enumeration {
enum server;
enum peer;
enum pool;
}
default server;
}
leaf iburst {
type boolean;
default false;
}
leaf prefer {
type boolean;
default false;
}
}
4.4.1. SIDs as keys
The encoding rules of each 'list' instance are defined in
Section 4.2.1. Deltas of list members are equal to the SID of the
current schema node minus the SID of the 'list'.
CBOR diagnostic notation:
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[ / server (SID 1756) /
{
+3 : "NRC TIC server", / name (SID 1759) /
+5 : { / udp (SID 1761) /
+1 : "tic.nrc.ca", / address (SID 1762) /
+2 : 123 / port (SID 1763) /
},
+1 : 0, / association-type (SID 1757) /
+2 : false, / iburst (SID 1758) /
+4 : true / prefer (SID 1760) /
},
{
+3 : "NRC TAC server", / name (SID 1759) /
+5 : { / udp (SID 1761) /
+1 : "tac.nrc.ca" / address (SID 1762) /
}
}
]
CBOR encoding:
82 # array(2)
A5 # map(5)
03 # unsigned(3)
6E # text(14)
4E52432054494320736572766572 # "NRC TIC server"
05 # unsigned(5)
A2 # map(2)
01 # unsigned(1)
6A # text(10)
7469632E6E72632E6361 # "tic.nrc.ca"
02 # unsigned(2)
18 7B # unsigned(123)
01 # unsigned(1)
00 # unsigned(0)
02 # unsigned(2)
F4 # primitive(20)
04 # unsigned(4)
F5 # primitive(21)
A2 # map(2)
03 # unsigned(3)
6E # text(14)
4E52432054414320736572766572 # "NRC TAC server"
05 # unsigned(5)
A1 # map(1)
01 # unsigned(1)
6A # text(10)
7461632E6E72632E6361 # "tac.nrc.ca"
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4.4.2. Member names as keys
The encoding rules of each 'list' instance are defined in
Section 4.2.2.
CBOR diagnostic notation:
[
{
"ietf-system:name" : "NRC TIC server",
"ietf-system:udp" : {
"address" : "tic.nrc.ca",
"port" : 123
},
"ietf-system:association-type" : 0,
"ietf-system:iburst" : false,
"ietf-system:prefer" : true
},
{
"ietf-system:name" : "NRC TAC server",
"ietf-system:udp" : {
"address" : "tac.nrc.ca"
}
}
]
CBOR encoding:
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82 # array(2)
A5 # map(5)
70 # text(16)
696574662D73797374656D3A6E616D65 # "ietf-system:name"
6E # text(14)
4E52432054494320736572766572 # "NRC TIC server"
6F # text(15)
696574662D73797374656D3A756470 # "ietf-system:udp"
A2 # map(2)
67 # text(7)
61646472657373 # "address"
6A # text(10)
7469632E6E72632E6361 # "tic.nrc.ca"
64 # text(4)
706F7274 # "port"
18 7B # unsigned(123)
78 1C # text(28)
696574662D73797374656D3A6173736F63696174696F6E2D74797065
00 # unsigned(0)
72 # text(18)
696574662D73797374656D3A696275727374 # "ietf-system:iburst"
F4 # primitive(20)
72 # text(18)
696574662D73797374656D3A707265666572 # "ietf-system:prefer"
F5 # primitive(21)
A2 # map(2)
70 # text(16)
696574662D73797374656D3A6E616D65 # "ietf-system:name"
6E # text(14)
4E52432054414320736572766572 # "NRC TAC server"
6F # text(15)
696574662D73797374656D3A756470 # "ietf-system:udp"
A1 # map(1)
67 # text(7)
61646472657373 # "address"
6A # text(10)
7461632E6E72632E6361 # "tac.nrc.ca"
4.5. The 'anydata'
An anydata serves as a container for an arbitrary set of schema nodes
that otherwise appear as normal YANG-modeled data. An anydata
instance is encoded using the same rules as a container, i.e., CBOR
map. The requirement that anydata content can be modeled by YANG
implies the following:
o CBOR map keys of any inner schema nodes MUST be set to valid
deltas or member names.
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o The CBOR array MUST contain either unique scalar values (as a
leaf-list, see Section 4.3), or maps (as a list, see Section 4.4).
o CBOR map values MUST follow the encoding rules of one of the
datatypes listed in Section 4.
The following example shows a possible use of an anydata. In this
example, an anydata is used to define a schema node containing a
notification event, this schema node can be part of a YANG list to
create an event logger.
Definition example:
module event-log {
...
anydata event; # SID 60123
This example also assumes the assistance of the following
notification.
module example-port {
...
notification example-port-fault { # SID 60200
leaf port-name { # SID 60201
type string;
}
leaf port-fault { # SID 60202
type string;
}
}
}
CBOR diagnostic notation:
{ / event (SID=60123) /
+78 : "0/4/21", / port-name (SID=60201) /
+79 : "Open pin 2" / port-fault (SID=60202) /
}
CBOR encoding:
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A2 # map(2)
18 4E # unsigned(78)
66 # text(6)
302F342F3231 # "0/4/21"
18 4F # unsigned(79)
6A # text(10)
4F70656E2070696E2032 # "Open pin 2"
4.6. The 'anyxml'
An anyxml schema node is used to serialize an arbitrary CBOR content,
i.e., its value can be any CBOR binary object. anyxml value MAY
contain CBOR data items tagged with one of the tag listed in
Section 8.1, these tags shall be supported.
The following example shows a valid CBOR encoded instance consisting
of a CBOR array containing the CBOR simple values 'true', 'null' and
'true'.
Definition example from [RFC7951]:
anyxml bar;
CBOR diagnostic notation: [true, null, true]
CBOR encoding: 83 f5 f6 f5
5. Encoding of YANG data templates
YANG data templates are data structures defined in YANG but not
intended to be implemented as part of a datastore. YANG data
templates are defined using the 'yang-data' extension as described by
RFC 8040.
YANG data templates SHOULD be encoded using the encoding rules of a
collection as defined in Section 4.2.
Just like YANG containers, YANG data templates can be encoded using
either SIDs or names.
Definition example from [I-D.ietf-core-comi]:
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import ietf-restconf {
prefix rc;
}
rc:yang-data yang-errors {
container error {
leaf error-tag {
type identityref {
base error-tag;
}
}
leaf error-app-tag {
type identityref {
base error-app-tag;
}
}
leaf error-data-node {
type instance-identifier;
}
leaf error-message {
type string;
}
}
}
5.1. SIDs as keys
This example shows a serialization example of the yang-errors
template using SIDs as CBOR map key. The reference SID of a YANG
data template is zero, this imply that the CBOR map keys of the top
level members of the template are set to SIDs.
CBOR diagnostic notation:
{
1024 : { / error (SID 1024) /
+4 : 1011, / error-tag (SID 1028) /
/ = invalid-value (SID 1011) /
+1 : 1018, / error-app-tag (SID 1025) /
/ = not-in-range (SID 1018) /
+2 : 1740, / error-data-node (SID 1026) /
/ = timezone-utc-offset (SID 1740) /
+3 : "Maximum exceeded" / error-message (SID 1027) /
}
}
CBOR encoding:
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A1 # map(1)
19 0400 # unsigned(1024)
A4 # map(4)
04 # unsigned(4)
19 03F3 # unsigned(1011)
01 # unsigned(1)
19 03FA # unsigned(1018)
02 # unsigned(2)
19 06CC # unsigned(1740)
03 # unsigned(3)
70 # text(16)
4D6178696D756D206578636565646564
5.2. Member names as keys
This example shows a serialization example of the yang-errors
template using member names as CBOR map key.
CBOR diagnostic notation:
{
"ietf-comi:error" : {
"error-tag" : "invalid-value",
"error-app-tag" : "not-in-range",
"error-data-node" : "timezone-utc-offset",
"error-message" : "Maximum exceeded"
}
}
CBOR encoding:
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A1 # map(1)
6F # text(15)
696574662D636F6D693A6572726F72 # "ietf-comi:error"
A4 # map(4)
69 # text(9)
6572726F722D746167 # "error-tag"
6D # text(13)
696E76616C69642D76616C7565 # "invalid-value"
6D # text(13)
6572726F722D6170702D746167 # "error-app-tag"
6C # text(12)
6E6F742D696E2D72616E6765 # "not-in-range"
6F # text(15)
6572726F722D646174612D6E6F6465 # "error-data-node"
73 # text(19)
74696D657A6F6E652D7574632D6F6666736574 # "timezone-utc-offset"
6D # text(13)
6572726F722D6D657373616765 # "error-message"
70 # text(16)
4D6178696D756D206578636565646564
6. Representing YANG Data Types in CBOR
The CBOR encoding of an instance of a leaf or leaf-list schema node
depends on the built-in type of that schema node. The following sub-
section defined the CBOR encoding of each built-in type supported by
YANG as listed in [RFC7950] section 4.2.4. Each subsection shows an
example value assigned to a schema node instance of the discussed
built-in type.
6.1. The unsigned integer Types
Leafs of type uint8, uint16, uint32 and uint64 MUST be encoded using
a CBOR unsigned integer data item (major type 0).
The following example shows the encoding of a 'mtu' leaf instance set
to 1280 bytes.
Definition example from [RFC7277]:
leaf mtu {
type uint16 {
range "68..max";
}
}
CBOR diagnostic notation: 1280
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CBOR encoding: 19 0500
6.2. The integer Types
Leafs of type int8, int16, int32 and int64 MUST be encoded using
either CBOR unsigned integer (major type 0) or CBOR negative integer
(major type 1), depending on the actual value.
The following example shows the encoding of a 'timezone-utc-offset'
leaf instance set to -300 minutes.
Definition example from [RFC7317]:
leaf timezone-utc-offset {
type int16 {
range "-1500 .. 1500";
}
}
CBOR diagnostic notation: -300
CBOR encoding: 39 012B
6.3. The 'decimal64' Type
Leafs of type decimal64 MUST be encoded using a decimal fraction as
defined in [RFC7049] section 2.4.3.
The following example shows the encoding of a 'my-decimal' leaf
instance set to 2.57.
Definition example from [RFC7317]:
leaf my-decimal {
type decimal64 {
fraction-digits 2;
range "1 .. 3.14 | 10 | 20..max";
}
}
CBOR diagnostic notation: 4([-2, 257])
CBOR encoding: C4 82 21 19 0101
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6.4. The 'string' Type
Leafs of type string MUST be encoded using a CBOR text string data
item (major type 3).
The following example shows the encoding of a 'name' leaf instance
set to "eth0".
Definition example from [RFC7223]:
leaf name {
type string;
}
CBOR diagnostic notation: "eth0"
CBOR encoding: 64 65746830
6.5. The 'boolean' Type
Leafs of type boolean MUST be encoded using a CBOR simple value
'true' (major type 7, additional information 21) or 'false' (major
type 7, additional information 20).
The following example shows the encoding of an 'enabled' leaf
instance set to 'true'.
Definition example from [RFC7317]:
leaf enabled {
type boolean;
}
CBOR diagnostic notation: true
CBOR encoding: F5
6.6. The 'enumeration' Type
Leafs of type enumeration MUST be encoded using a CBOR unsigned
integer (major type 0) or CBOR negative integer (major type 1),
depending on the actual value. Enumeration values are either
explicitly assigned using the YANG statement 'value' or automatically
assigned based on the algorithm defined in [RFC7950] section 9.6.4.2.
The following example shows the encoding of an 'oper-status' leaf
instance set to 'testing'.
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Definition example from [RFC7317]:
leaf oper-status {
type enumeration {
enum up { value 1; }
enum down { value 2; }
enum testing { value 3; }
enum unknown { value 4; }
enum dormant { value 5; }
enum not-present { value 6; }
enum lower-layer-down { value 7; }
}
}
CBOR diagnostic notation: 3
CBOR encoding: 03
6.7. The 'bits' Type
Leafs of type bits MUST be encoded using a CBOR byte string data item
(major type 2). Bits position are either explicitly assigned using
the YANG statement 'position' or automatically assigned based on the
algorithm defined in [RFC7950] section 9.7.4.2.
Bits position 0 to 7 are assigned to the first byte within the byte
string, bits 8 to 15 to the second byte, and subsequent bytes are
assigned similarly. Within each byte, bits are assigned from least
to most significant.
The following example shows the encoding of a 'mybits' leaf instance
with the 'disable-nagle' and '10-Mb-only' flags set.
Definition example from [RFC7950]:
leaf mybits {
type bits {
bit disable-nagle {
position 0;
}
bit auto-sense-speed {
position 1;
}
bit 10-Mb-only {
position 2;
}
}
}
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CBOR diagnostic notation: h'05'
CBOR encoding: 41 05
6.8. The 'binary' Type
Leafs of type binary MUST be encoded using a CBOR byte string data
item (major type 2).
The following example shows the encoding of an 'aes128-key' leaf
instance set to 0x1f1ce6a3f42660d888d92a4d8030476e.
Definition example:
leaf aes128-key {
type binary {
length 16;
}
}
CBOR diagnostic notation: h'1F1CE6A3F42660D888D92A4D8030476E'
CBOR encoding: 50 1F1CE6A3F42660D888D92A4D8030476E
6.9. The 'leafref' Type
Leafs of type leafref MUST be encoded using the rules of the schema
node referenced by the 'path' YANG statement.
The following example shows the encoding of an 'interface-state-ref'
leaf instance set to "eth1".
Definition example from [RFC7223]:
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typedef interface-state-ref {
type leafref {
path "/interfaces-state/interface/name";
}
}
container interfaces-state {
list interface {
key "name";
leaf name {
type string;
}
leaf-list higher-layer-if {
type interface-state-ref;
}
}
}
CBOR diagnostic notation: "eth1"
CBOR encoding: 64 65746831
6.10. The 'identityref' Type
This specification supports two approaches for encoding identityref,
a YANG Schema Item iDentifier (SID) as defined in Section 2.1 or a
name as defined in [RFC7951] section 6.8.
6.10.1. SIDs as identityref
When schema nodes of type identityref are implemented using SIDs,
they MUST be encoded using a CBOR unsigned integer data item (major
type 0). (Note that no delta mechanism is employed for SIDs as
identityref.)
The following example shows the encoding of a 'type' leaf instance
set to the value 'iana-if-type:ethernetCsmacd' (SID 1880).
Definition example from [RFC7317]:
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identity interface-type {
}
identity iana-interface-type {
base interface-type;
}
identity ethernetCsmacd {
base iana-interface-type;
}
leaf type {
type identityref {
base interface-type;
}
}
CBOR diagnostic notation: 1880
CBOR encoding: 19 0758
6.10.2. Name as identityref
Alternatively, an identityref MAY be encoded using a name as defined
in [RFC7951] section 6.8. When names are used, identityref MUST be
encoded using a CBOR text string data item (major type 3). If the
identity is defined in different module than the leaf node containing
the identityref value, the namespace-qualified form MUST be used.
Otherwise, both the simple and namespace-qualified forms are
permitted. Names and namespaces are defined in [RFC7951] section 4.
The following example shows the encoding of the identity 'iana-if-
type:ethernetCsmacd' using its name. This example is described in
Section 6.10.1.
CBOR diagnostic notation: "iana-if-type:ethernetCsmacd"
CBOR encoding: 78 1b
69616E612D69662D747970653A65746865726E657443736D616364
6.11. The 'empty' Type
Leafs of type empty MUST be encoded using the CBOR null value (major
type 7, additional information 22).
The following example shows the encoding of a 'is-router' leaf
instance when present.
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Definition example from [RFC7277]:
leaf is-router {
type empty;
}
CBOR diagnostic notation: null
CBOR encoding: F6
6.12. The 'union' Type
Leafs of type union MUST be encoded using the rules associated with
one of the types listed. When used in a union, the following YANG
datatypes are prefixed by CBOR tag to avoid confusion between
different YANG datatypes encoded using the same CBOR major type.
o bits
o enumeration
o identityref
o instance-identifier
See Section 8.1 for the assigned value of these CBOR tags.
The following example shows the encoding of an 'ip-address' leaf
instance when set to "2001:db8:a0b:12f0::1".
Definition example from [RFC7317]:
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typedef ipv4-address {
type string {
pattern '(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\.){3}
([0-9][1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])(%[\p{N}
\p{L}]+)?';
}
}
typedef ipv6-address {
type string {
pattern '((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}((([0-9a
-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|(((25[0-5]|2[0-4][0
-9]|[01]?[0-9]?[0-9])\.){3}(25[0-5]|2[0-4][0-9]|[01]?[0
-9]?[0-9])))(%[\p{N}\p{L}]+)?';
pattern '(([^:]+:){6}(([^:]+:[^:]+)|(.*\..*)))|((([^:]+:)*[^:]+)
?::(([^:]+:)*[^:]+)?)(%.+)?';
}
}
typedef ip-address {
type union {
type ipv4-address;
type ipv6-address;
}
}
leaf address {
type inet:ip-address;
}
CBOR diagnostic notation: "2001:db8:a0b:12f0::1"
CBOR encoding: 74 323030313A6462383A6130623A313266303A3A31
6.13. The 'instance-identifier' Type
This specification supports two approaches for encoding an instance-
identifier, one based on YANG Schema Item iDentifier (SID) as defined
in Section 2.1 and one based on names as defined in [RFC7951] section
6.11.
6.13.1. SIDs as instance-identifier
SIDs uniquely identify a schema node. In the case of a single
instance schema node, i.e. a schema node defined at the root of a
YANG module or submodule or schema nodes defined within a container,
the SID is sufficient to identify this instance.
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In the case of a schema node member of a YANG list, a SID is combined
with the list key(s) to identify each instance within the YANG
list(s).
Single instance schema nodes MUST be encoded using a CBOR unsigned
integer data item (major type 0) and set to the targeted schema node
SID.
Schema nodes member of a YANG list MUST be encoded using a CBOR array
data item (major type 4) containing the following entries:
o The first entry MUST be encoded as a CBOR unsigned integer data
item (major type 0) and set to the targeted schema node SID.
o The following entries MUST contain the value of each key required
to identify the instance of the targeted schema node. These keys
MUST be ordered as defined in the 'key' YANG statement, starting
from top level list, and follow by each of the subordinate
list(s).
Examples within this section assume the definition of a schema node
of type 'instance-identifier':
Definition example from [RFC7950]:
container system {
...
leaf reporting-entity {
type instance-identifier;
}
leaf contact { type string; }
leaf hostname { type inet:domain-name; } } ~~~~
*First example:*
The following example shows the encoding of the 'reporting-entity'
value referencing data node instance "/system/contact" (SID 1741).
Definition example from [RFC7317]:
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container system {
leaf contact {
type string;
}
leaf hostname {
type inet:domain-name;
}
}
CBOR diagnostic notation: 1741
CBOR encoding: 19 06CD
*Second example:*
The following example shows the encoding of the 'reporting-entity'
value referencing list instance "/system/authentication/user/
authorized-key/key-data" (SID 1734) for user name "bob" and
authorized-key "admin".
Definition example from [RFC7317]:
list user {
key name;
leaf name {
type string;
}
leaf password {
type ianach:crypt-hash;
}
list authorized-key {
key name;
leaf name {
type string;
}
leaf algorithm {
type string;
}
leaf key-data {
type binary;
}
}
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CBOR diagnostic notation: [1734, "bob", "admin"]
CBOR encoding:
83 # array(3)
19 06C6 # unsigned(1734)
63 # text(3)
626F62 # "bob"
65 # text(5)
61646D696E # "admin"
*Third example:*
The following example shows the encoding of the 'reporting-entity'
value referencing the list instance "/system/authentication/user"
(SID 1730) corresponding to user name "jack".
CBOR diagnostic notation: [1730, "jack"]
CBOR encoding:
82 # array(2)
19 06C2 # unsigned(1730)
64 # text(4)
6A61636B # "jack"
6.13.2. Names as instance-identifier
The use of names as instance-identifier is defined in [RFC7951]
section 6.11. The resulting xpath MUST be encoded using a CBOR text
string data item (major type 3).
*First example:*
This example is described in Section 6.13.1.
CBOR diagnostic notation: "/ietf-system:system/contact"
CBOR encoding:
78 1c 2F696574662D73797374656D3A73797374656D2F636F6E74616374
*Second example:*
This example is described in Section 6.13.1.
CBOR diagnostic notation:
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"/ietf-system:system/authentication/user[name='bob']/authorized-key
[name='admin']/key-data"
CBOR encoding:
78 59
2F696574662D73797374656D3A73797374656D2F61757468656E74696361
74696F6E2F757365725B6E616D653D27626F62275D2F617574686F72697A
65642D6B65790D0A5B6E616D653D2761646D696E275D2F6B65792D64617461
*Third example:*
This example is described in Section 6.13.1.
CBOR diagnostic notation:
"/ietf-system:system/authentication/user[name='bob']"
CBOR encoding:
78 33
2F696574662D73797374656D3A73797374656D2F61757468656E74696361
74696F6E2F757365725B6E616D653D27626F62275D
7. Security Considerations
The security considerations of [RFC7049] and [RFC7950] apply.
This document defines an alternative encoding for data modeled in the
YANG data modeling language. As such, this encoding does not
contribute any new security issues in addition of those identified
for the specific protocol or context for which it is used.
To minimize security risks, software on the receiving side SHOULD
reject all messages that do not comply to the rules of this document
and reply with an appropriate error message to the sender.
8. IANA Considerations
8.1. Tags Registry
This specification requires the assignment of CBOR tags for the
following YANG datatypes. These tags are added to the Tags Registry
as defined in section 7.2 of [RFC7049].
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+-----+---------------------+---------------------------+-----------+
| Tag | Data Item | Semantics | Reference |
+-----+---------------------+---------------------------+-----------+
| xx | bits | YANG bits datatype | RFC XXXX |
| xx | enumeration | YANG enumeration datatype | RFC XXXX |
| xx | identityref | YANG identityref datatype | RFC XXXX |
| xx | instance-identifier | YANG instance-identifier | RFC XXXX |
| | | datatype | |
+-----+---------------------+---------------------------+-----------+
// RFC Ed.: update Tag values using allocated tags and remove this
note // RFC Ed.: replace XXXX with RFC number and remove this note
9. Acknowledgments
This document has been largely inspired by the extensive works done
by Andy Bierman and Peter van der Stok on [I-D.ietf-core-comi].
[RFC7951] has also been a critical input to this work. The authors
would like to thank the authors and contributors to these two drafts.
The authors would also like to acknowledge the review, feedback, and
comments from Ladislav Lhotka and Juergen Schoenwaelder.
10. References
10.1. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119,
DOI 10.17487/RFC2119, March 1997,
<https://www.rfc-editor.org/info/rfc2119>.
[RFC6241] Enns, R., Ed., Bjorklund, M., Ed., Schoenwaelder, J., Ed.,
and A. Bierman, Ed., "Network Configuration Protocol
(NETCONF)", RFC 6241, DOI 10.17487/RFC6241, June 2011,
<https://www.rfc-editor.org/info/rfc6241>.
[RFC7049] Bormann, C. and P. Hoffman, "Concise Binary Object
Representation (CBOR)", RFC 7049, DOI 10.17487/RFC7049,
October 2013, <https://www.rfc-editor.org/info/rfc7049>.
[RFC7950] Bjorklund, M., Ed., "The YANG 1.1 Data Modeling Language",
RFC 7950, DOI 10.17487/RFC7950, August 2016,
<https://www.rfc-editor.org/info/rfc7950>.
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10.2. Informative References
[I-D.ietf-core-comi]
Veillette, M., Stok, P., Pelov, A., and A. Bierman, "CoAP
Management Interface", draft-ietf-core-comi-04 (work in
progress), November 2018.
[I-D.ietf-core-sid]
Veillette, M., Pelov, A., and I. Petrov, "YANG Schema Item
iDentifier (SID)", draft-ietf-core-sid-05 (work in
progress), December 2018.
[RFC7159] Bray, T., Ed., "The JavaScript Object Notation (JSON) Data
Interchange Format", RFC 7159, DOI 10.17487/RFC7159, March
2014, <https://www.rfc-editor.org/info/rfc7159>.
[RFC7223] Bjorklund, M., "A YANG Data Model for Interface
Management", RFC 7223, DOI 10.17487/RFC7223, May 2014,
<https://www.rfc-editor.org/info/rfc7223>.
[RFC7228] Bormann, C., Ersue, M., and A. Keranen, "Terminology for
Constrained-Node Networks", RFC 7228,
DOI 10.17487/RFC7228, May 2014,
<https://www.rfc-editor.org/info/rfc7228>.
[RFC7277] Bjorklund, M., "A YANG Data Model for IP Management",
RFC 7277, DOI 10.17487/RFC7277, June 2014,
<https://www.rfc-editor.org/info/rfc7277>.
[RFC7317] Bierman, A. and M. Bjorklund, "A YANG Data Model for
System Management", RFC 7317, DOI 10.17487/RFC7317, August
2014, <https://www.rfc-editor.org/info/rfc7317>.
[RFC7951] Lhotka, L., "JSON Encoding of Data Modeled with YANG",
RFC 7951, DOI 10.17487/RFC7951, August 2016,
<https://www.rfc-editor.org/info/rfc7951>.
[RFC8040] Bierman, A., Bjorklund, M., and K. Watsen, "RESTCONF
Protocol", RFC 8040, DOI 10.17487/RFC8040, January 2017,
<https://www.rfc-editor.org/info/rfc8040>.
Authors' Addresses
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Michel Veillette (editor)
Trilliant Networks Inc.
610 Rue du Luxembourg
Granby, Quebec J2J 2V2
Canada
Phone: +14503750556
Email: michel.veillette@trilliantinc.com
Alexander Pelov (editor)
Acklio
1137A avenue des Champs Blancs
Cesson-Sevigne, Bretagne 35510
France
Email: a@ackl.io
Abhinav Somaraju
Tridonic GmbH & Co KG
Farbergasse 15
Dornbirn, Vorarlberg 6850
Austria
Phone: +43664808926169
Email: abhinav.somaraju@tridonic.com
Randy Turner
Landis+Gyr
30000 Mill Creek Ave
Suite 100
Alpharetta, GA 30022
US
Phone: ++16782581292
Email: randy.turner@landisgyr.com
URI: http://www.landisgyr.com/
Ana Minaburo
Acklio
1137A avenue des Champs Blancs
Cesson-Sevigne, Bretagne 35510
France
Email: ana@ackl.io
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Ivaylo Petrov (editor)
Acklio
1137A avenue des Champs Blancs
Cesson-Sevigne, Bretagne 35510
France
Email: ivaylo@ackl.io
Veillette, et al. Expires September 26, 2019 [Page 36]