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-module ietf-inet-types {
-
- namespace "urn:ietf:params:xml:ns:yang:ietf-inet-types";
- prefix "inet";
-
- organization
- "IETF NETMOD (NETCONF Data Modeling Language) Working Group";
-
- contact
- "WG Web:
- WG List:
-
- WG Chair: David Kessens
-
-
- WG Chair: Juergen Schoenwaelder
-
-
- Editor: Juergen Schoenwaelder
- ";
-
- description
- "This module contains a collection of generally useful derived
- YANG data types for Internet addresses and related things.
-
- Copyright (c) 2013 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 6991; see
- the RFC itself for full legal notices.";
-
- revision 2013-07-15 {
- description
- "This revision adds the following new data types:
- - ip-address-no-zone
- - ipv4-address-no-zone
- - ipv6-address-no-zone";
- reference
- "RFC 6991: Common YANG Data Types";
- }
-
- revision 2010-09-24 {
- description
- "Initial revision.";
- reference
- "RFC 6021: Common YANG Data Types";
- }
-
- /*** collection of types related to protocol fields ***/
-
- typedef ip-version {
- type enumeration {
- enum unknown {
- value "0";
- description
- "An unknown or unspecified version of the Internet
- protocol.";
- }
- enum ipv4 {
- value "1";
- description
- "The IPv4 protocol as defined in RFC 791.";
- }
- enum ipv6 {
- value "2";
- description
- "The IPv6 protocol as defined in RFC 2460.";
- }
- }
- description
- "This value represents the version of the IP protocol.
-
- In the value set and its semantics, this type is equivalent
- to the InetVersion textual convention of the SMIv2.";
- reference
- "RFC 791: Internet Protocol
- RFC 2460: Internet Protocol, Version 6 (IPv6) Specification
- RFC 4001: Textual Conventions for Internet Network Addresses";
- }
-
- typedef dscp {
- type uint8 {
- range "0..63";
- }
- description
- "The dscp type represents a Differentiated Services Code Point
- that may be used for marking packets in a traffic stream.
- In the value set and its semantics, this type is equivalent
- to the Dscp textual convention of the SMIv2.";
- reference
- "RFC 3289: Management Information Base for the Differentiated
- Services Architecture
- RFC 2474: Definition of the Differentiated Services Field
- (DS Field) in the IPv4 and IPv6 Headers
- RFC 2780: IANA Allocation Guidelines For Values In
- the Internet Protocol and Related Headers";
- }
-
- typedef ipv6-flow-label {
- type uint32 {
- range "0..1048575";
- }
- description
- "The ipv6-flow-label type represents the flow identifier or Flow
- Label in an IPv6 packet header that may be used to
- discriminate traffic flows.
-
- In the value set and its semantics, this type is equivalent
- to the IPv6FlowLabel textual convention of the SMIv2.";
- reference
- "RFC 3595: Textual Conventions for IPv6 Flow Label
- RFC 2460: Internet Protocol, Version 6 (IPv6) Specification";
- }
-
- typedef port-number {
- type uint16 {
- range "0..65535";
- }
- description
- "The port-number type represents a 16-bit port number of an
- Internet transport-layer protocol such as UDP, TCP, DCCP, or
- SCTP. Port numbers are assigned by IANA. A current list of
- all assignments is available from .
-
- Note that the port number value zero is reserved by IANA. In
- situations where the value zero does not make sense, it can
- be excluded by subtyping the port-number type.
- In the value set and its semantics, this type is equivalent
- to the InetPortNumber textual convention of the SMIv2.";
- reference
- "RFC 768: User Datagram Protocol
- RFC 793: Transmission Control Protocol
- RFC 4960: Stream Control Transmission Protocol
- RFC 4340: Datagram Congestion Control Protocol (DCCP)
- RFC 4001: Textual Conventions for Internet Network Addresses";
- }
-
- /*** collection of types related to autonomous systems ***/
-
- typedef as-number {
- type uint32;
- description
- "The as-number type represents autonomous system numbers
- which identify an Autonomous System (AS). An AS is a set
- of routers under a single technical administration, using
- an interior gateway protocol and common metrics to route
- packets within the AS, and using an exterior gateway
- protocol to route packets to other ASes. IANA maintains
- the AS number space and has delegated large parts to the
- regional registries.
-
- Autonomous system numbers were originally limited to 16
- bits. BGP extensions have enlarged the autonomous system
- number space to 32 bits. This type therefore uses an uint32
- base type without a range restriction in order to support
- a larger autonomous system number space.
-
- In the value set and its semantics, this type is equivalent
- to the InetAutonomousSystemNumber textual convention of
- the SMIv2.";
- reference
- "RFC 1930: Guidelines for creation, selection, and registration
- of an Autonomous System (AS)
- RFC 4271: A Border Gateway Protocol 4 (BGP-4)
- RFC 4001: Textual Conventions for Internet Network Addresses
- RFC 6793: BGP Support for Four-Octet Autonomous System (AS)
- Number Space";
- }
-
- /*** collection of types related to IP addresses and hostnames ***/
-
- typedef ip-address {
- type union {
- type inet:ipv4-address;
- type inet:ipv6-address;
- }
- description
- "The ip-address type represents an IP address and is IP
- version neutral. The format of the textual representation
- implies the IP version. This type supports scoped addresses
- by allowing zone identifiers in the address format.";
- reference
- "RFC 4007: IPv6 Scoped Address Architecture";
- }
-
- 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}]+)?';
- }
- description
- "The ipv4-address type represents an IPv4 address in
- dotted-quad notation. The IPv4 address may include a zone
- index, separated by a % sign.
-
- The zone index is used to disambiguate identical address
- values. For link-local addresses, the zone index will
- typically be the interface index number or the name of an
- interface. If the zone index is not present, the default
- zone of the device will be used.
-
- The canonical format for the zone index is the numerical
- format";
- }
-
- 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}(([^:]+:[^:]+)|(.*\..*)))|'
- + '((([^:]+:)*[^:]+)?::(([^:]+:)*[^:]+)?)'
- + '(%.+)?';
- }
- description
- "The ipv6-address type represents an IPv6 address in full,
- mixed, shortened, and shortened-mixed notation. The IPv6
- address may include a zone index, separated by a % sign.
-
- The zone index is used to disambiguate identical address
- values. For link-local addresses, the zone index will
- typically be the interface index number or the name of an
- interface. If the zone index is not present, the default
- zone of the device will be used.
-
- The canonical format of IPv6 addresses uses the textual
- representation defined in Section 4 of RFC 5952. The
- canonical format for the zone index is the numerical
- format as described in Section 11.2 of RFC 4007.";
- reference
- "RFC 4291: IP Version 6 Addressing Architecture
- RFC 4007: IPv6 Scoped Address Architecture
- RFC 5952: A Recommendation for IPv6 Address Text
- Representation";
- }
-
- typedef ip-address-no-zone {
- type union {
- type inet:ipv4-address-no-zone;
- type inet:ipv6-address-no-zone;
- }
- description
- "The ip-address-no-zone type represents an IP address and is
- IP version neutral. The format of the textual representation
- implies the IP version. This type does not support scoped
- addresses since it does not allow zone identifiers in the
- address format.";
- reference
- "RFC 4007: IPv6 Scoped Address Architecture";
- }
-
- typedef ipv4-address-no-zone {
- type inet:ipv4-address {
- pattern '[0-9\.]*';
- }
- description
- "An IPv4 address without a zone index. This type, derived from
- ipv4-address, may be used in situations where the zone is
- known from the context and hence no zone index is needed.";
- }
-
- typedef ipv6-address-no-zone {
- type inet:ipv6-address {
- pattern '[0-9a-fA-F:\.]*';
- }
- description
- "An IPv6 address without a zone index. This type, derived from
- ipv6-address, may be used in situations where the zone is
- known from the context and hence no zone index is needed.";
- reference
- "RFC 4291: IP Version 6 Addressing Architecture
- RFC 4007: IPv6 Scoped Address Architecture
- RFC 5952: A Recommendation for IPv6 Address Text
- Representation";
- }
-
- typedef ip-prefix {
- type union {
- type inet:ipv4-prefix;
- type inet:ipv6-prefix;
- }
- description
- "The ip-prefix type represents an IP prefix and is IP
- version neutral. The format of the textual representations
- implies the IP version.";
- }
-
- typedef ipv4-prefix {
- 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])'
- + '/(([0-9])|([1-2][0-9])|(3[0-2]))';
- }
- description
- "The ipv4-prefix type represents an IPv4 address prefix.
- The prefix length is given by the number following the
- slash character and must be less than or equal to 32.
-
- A prefix length value of n corresponds to an IP address
- mask that has n contiguous 1-bits from the most
- significant bit (MSB) and all other bits set to 0.
-
- The canonical format of an IPv4 prefix has all bits of
- the IPv4 address set to zero that are not part of the
- IPv4 prefix.";
- }
-
- typedef ipv6-prefix {
- 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])))'
- + '(/(([0-9])|([0-9]{2})|(1[0-1][0-9])|(12[0-8])))';
- pattern '(([^:]+:){6}(([^:]+:[^:]+)|(.*\..*)))|'
- + '((([^:]+:)*[^:]+)?::(([^:]+:)*[^:]+)?)'
- + '(/.+)';
- }
- description
- "The ipv6-prefix type represents an IPv6 address prefix.
- The prefix length is given by the number following the
- slash character and must be less than or equal to 128.
-
- A prefix length value of n corresponds to an IP address
- mask that has n contiguous 1-bits from the most
- significant bit (MSB) and all other bits set to 0.
-
- The IPv6 address should have all bits that do not belong
- to the prefix set to zero.
-
- The canonical format of an IPv6 prefix has all bits of
- the IPv6 address set to zero that are not part of the
- IPv6 prefix. Furthermore, the IPv6 address is represented
- as defined in Section 4 of RFC 5952.";
- reference
- "RFC 5952: A Recommendation for IPv6 Address Text
- Representation";
- }
-
- /*** collection of domain name and URI types ***/
-
- typedef domain-name {
- type string {
- 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]\.?)'
- + '|\.';
- length "1..253";
- }
- description
- "The domain-name type represents a DNS domain name. The
- name SHOULD be fully qualified whenever possible.
-
- Internet domain names are only loosely specified. Section
- 3.5 of RFC 1034 recommends a syntax (modified in Section
- 2.1 of RFC 1123). The pattern above is intended to allow
- for current practice in domain name use, and some possible
- future expansion. It is designed to hold various types of
- domain names, including names used for A or AAAA records
- (host names) and other records, such as SRV records. Note
- that Internet host names have a stricter syntax (described
- in RFC 952) than the DNS recommendations in RFCs 1034 and
- 1123, and that systems that want to store host names in
- schema nodes using the domain-name type are recommended to
- adhere to this stricter standard to ensure interoperability.
-
- The encoding of DNS names in the DNS protocol is limited
- to 255 characters. Since the encoding consists of labels
- prefixed by a length bytes and there is a trailing NULL
- byte, only 253 characters can appear in the textual dotted
- notation.
-
- The description clause of schema nodes using the domain-name
- type MUST describe when and how these names are resolved to
- IP addresses. Note that the resolution of a domain-name value
- may require to query multiple DNS records (e.g., A for IPv4
- and AAAA for IPv6). The order of the resolution process and
- which DNS record takes precedence can either be defined
- explicitly or may depend on the configuration of the
- resolver.
-
- Domain-name values use the US-ASCII encoding. Their canonical
- format uses lowercase US-ASCII characters. Internationalized
- domain names MUST be A-labels as per RFC 5890.";
- reference
- "RFC 952: DoD Internet Host Table Specification
- RFC 1034: Domain Names - Concepts and Facilities
- RFC 1123: Requirements for Internet Hosts -- Application
- and Support
- RFC 2782: A DNS RR for specifying the location of services
- (DNS SRV)
- RFC 5890: Internationalized Domain Names in Applications
- (IDNA): Definitions and Document Framework";
- }
-
- typedef host {
- type union {
- type inet:ip-address;
- type inet:domain-name;
- }
- description
- "The host type represents either an IP address or a DNS
- domain name.";
- }
-
- typedef uri {
- type string;
- description
- "The uri type represents a Uniform Resource Identifier
- (URI) as defined by STD 66.
-
- Objects using the uri type MUST be in US-ASCII encoding,
- and MUST be normalized as described by RFC 3986 Sections
- 6.2.1, 6.2.2.1, and 6.2.2.2. All unnecessary
- percent-encoding is removed, and all case-insensitive
- characters are set to lowercase except for hexadecimal
- digits, which are normalized to uppercase as described in
- Section 6.2.2.1.
-
- The purpose of this normalization is to help provide
- unique URIs. Note that this normalization is not
- sufficient to provide uniqueness. Two URIs that are
- textually distinct after this normalization may still be
- equivalent.
-
- Objects using the uri type may restrict the schemes that
- they permit. For example, 'data:' and 'urn:' schemes
- might not be appropriate.
-
- A zero-length URI is not a valid URI. This can be used to
- express 'URI absent' where required.
-
- In the value set and its semantics, this type is equivalent
- to the Uri SMIv2 textual convention defined in RFC 5017.";
- reference
- "RFC 3986: Uniform Resource Identifier (URI): Generic Syntax
- RFC 3305: Report from the Joint W3C/IETF URI Planning Interest
- Group: Uniform Resource Identifiers (URIs), URLs,
- and Uniform Resource Names (URNs): Clarifications
- and Recommendations
- RFC 5017: MIB Textual Conventions for Uniform Resource
- Identifiers (URIs)";
- }
-
-}
\ No newline at end of file