[ONOS-4636]YANG Grouping linking bug fix + YANG Code review comment fix
Change-Id: I68ee8dd08266a02593e217cef1a9bb010037d673
(cherry picked from commit 2ee9e7e892456543e0e5532f7b0de3774d42e561)
diff --git a/utils/yangutils/src/test/resources/interfileietf/ietf-inet-types.yang b/utils/yangutils/src/test/resources/interfileietf/ietf-inet-types.yang
new file mode 100644
index 0000000..2b7ed38
--- /dev/null
+++ b/utils/yangutils/src/test/resources/interfileietf/ietf-inet-types.yang
@@ -0,0 +1,454 @@
+ module ietf-inet-types {
+
+ yang-version 1;
+
+ namespace
+ "urn:ietf:params:xml:ns:yang:ietf-inet-types";
+
+ prefix inet;
+
+ organization
+ "IETF NETMOD (NETCONF Data Modeling Language) Working Group";
+
+ contact
+ "WG Web: <http://tools.ietf.org/wg/netmod/>
+ WG List: <mailto:netmod@ietf.org>
+
+ WG Chair: David Kessens
+ <mailto:david.kessens@nsn.com>
+
+ WG Chair: Juergen Schoenwaelder
+ <mailto:j.schoenwaelder@jacobs-university.de>
+
+ Editor: Juergen Schoenwaelder
+ <mailto:j.schoenwaelder@jacobs-university.de>";
+
+ 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";
+
+ }
+
+
+ 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 <http://www.iana.org/>.
+
+ 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";
+
+ }
+
+ 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";
+
+ }
+
+ typedef ip-address {
+ type union {
+ type ipv4-address;
+ type 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 ipv4-address-no-zone;
+ type 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 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 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 ipv4-prefix;
+ type 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";
+
+ }
+
+ 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]\.?)|\.';
+ }
+ 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 ip-address;
+ type 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)";
+
+ }
+ } // module ietf-inet-types
diff --git a/utils/yangutils/src/test/resources/interfileietf/ietf-network-topology.yang b/utils/yangutils/src/test/resources/interfileietf/ietf-network-topology.yang
new file mode 100644
index 0000000..10c8fb9
--- /dev/null
+++ b/utils/yangutils/src/test/resources/interfileietf/ietf-network-topology.yang
@@ -0,0 +1,260 @@
+ module ietf-network-topology {
+ yang-version 1;
+ namespace "urn:ietf:params:xml:ns:yang:ietf-network-topology";
+ prefix lnk;
+
+ import ietf-inet-types {
+ prefix inet;
+ }
+ import ietf-network {
+ prefix nd;
+ }
+
+ organization
+ "IETF I2RS (Interface to the Routing System) Working Group";
+
+ contact
+ "WG Web: <http://tools.ietf.org/wg/i2rs/>
+ WG List: <mailto:i2rs@ietf.org>
+
+ WG Chair: Susan Hares
+ <mailto:shares@ndzh.com>
+
+ WG Chair: Jeffrey Haas
+ <mailto:jhaas@pfrc.org>
+
+ Editor: Alexander Clemm
+ <mailto:alex@cisco.com>
+
+ Editor: Jan Medved
+ <mailto:jmedved@cisco.com>
+
+ Editor: Robert Varga
+ <mailto:rovarga@cisco.com>
+
+ Editor: Tony Tkacik
+ <mailto:ttkacik@cisco.com>
+
+ Editor: Nitin Bahadur
+ <mailto:nitin_bahadur@yahoo.com>
+
+ Editor: Hariharan Ananthakrishnan
+ <mailto:hari@packetdesign.com>";
+
+ description
+ "This module defines a common base model for network topology,
+ augmenting the base network model with links to connect nodes,
+ as well as termination points to terminate links on nodes.
+
+ Copyright (c) 2015 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
+ draft-ietf-i2rs-yang-network-topo-02;
+ see the RFC itself for full legal notices.
+
+ NOTE TO RFC EDITOR: Please replace above reference to
+ draft-ietf-i2rs-yang-network-topo-02 with RFC
+ number when published (i.e. RFC xxxx).";
+
+ revision 2015-12-08 {
+ description
+ "Initial revision.
+ NOTE TO RFC EDITOR: Please replace the following reference
+ to draft-ietf-i2rs-yang-network-topo-02 with
+ RFC number when published (i.e. RFC xxxx).";
+ reference
+ "draft-ietf-i2rs-yang-network-topo-02.";
+ }
+
+ typedef link-id {
+ type inet:uri;
+ description
+ "An identifier for a link in a topology.
+ The identifier SHOULD be chosen such that the same link in a
+ real network topology will always be identified through the
+ same identifier, even if the model is instantiated in
+ separate datastores. An implementation MAY choose to capture
+ semantics in the identifier, for example to indicate the type
+ of link and/or the type of topology that the link is a part
+ of.";
+ }
+
+ typedef tp-id {
+ type inet:uri;
+ description
+ "An identifier for termination points on a node.
+ The identifier SHOULD be chosen such that the same TP in a
+ real network topology will always be identified through the
+ same identifier, even if the model is instantiated in
+ separate datastores. An implementation MAY choose to capture
+ semantics in the identifier, for example to indicate the type
+ of TP and/or the type of node and topology that the TP is a
+ part of.";
+ }
+ grouping link-ref {
+ description
+ "References a link in a specific network.";
+ leaf link-ref {
+ type link-id;
+ description
+ "A type for an absolute reference a link instance.
+ (This type should not be used for relative references.
+ In such a case, a relative path should be used instead.)";
+ }
+ uses nd:network-ref;
+ }
+
+ grouping tp-ref {
+ description
+ "References a termination point in a specific node.";
+ leaf tp-ref {
+ type tp-id;
+ description
+ "A type for an absolute reference to a termination point.
+ (This type should not be used for relative references.
+ In such a case, a relative path should be used instead.)";
+ }
+ uses nd:node-ref;
+ }
+
+ augment "/nd:networks/nd:network" {
+ description
+ "Add links to the network model.";
+ list link {
+ key "link-id";
+ description
+ "A Network Link connects a by Local (Source) node and
+ a Remote (Destination) Network Nodes via a set of the
+ nodes' termination points.
+ As it is possible to have several links between the same
+ source and destination nodes, and as a link could
+ potentially be re-homed between termination points, to
+ ensure that we would always know to distinguish between
+ links, every link is identified by a dedicated link
+ identifier.
+ Note that a link models a point-to-point link, not a
+ multipoint link.
+ Layering dependencies on links in underlay topologies are
+ not represented as the layering information of nodes and of
+ termination points is sufficient.";
+ container source {
+ description
+ "This container holds the logical source of a particular
+ link.";
+ leaf source-node {
+ type nd:node-id;
+ mandatory true;
+ description
+ "Source node identifier, must be in same topology.";
+ }
+ leaf source-tp {
+ type tp-id;
+ description
+ "Termination point within source node that terminates
+ the link.";
+ }
+ }
+ container destination {
+ description
+ "This container holds the logical destination of a
+ particular link.";
+ leaf dest-node {
+ type nd:node-id;
+ mandatory true;
+ description
+ "Destination node identifier, must be in the same
+ network.";
+ }
+ leaf dest-tp {
+ type tp-id;
+ description
+ "Termination point within destination node that
+ terminates the link.";
+ }
+ }
+ leaf link-id {
+ type link-id;
+ description
+ "The identifier of a link in the topology.
+ A link is specific to a topology to which it belongs.";
+ }
+ list supporting-link {
+ key "network-ref link-ref";
+ description
+ "Identifies the link, or links, that this link
+ is dependent on.";
+ leaf network-ref {
+ type nd:network-id;
+ description
+ "This leaf identifies in which underlay topology
+ supporting link is present.";
+ }
+ leaf link-ref {
+ type link-id;
+ description
+ "This leaf identifies a link which is a part
+ of this link's underlay. Reference loops, in which
+ a link identifies itself as its underlay, either
+ directly or transitively, are not allowed.";
+ }
+ }
+ }
+ }
+ augment "/nd:networks/nd:network/nd:node" {
+ description
+ "Augment termination points which terminate links.
+ Termination points can ultimately be mapped to interfaces.";
+ list termination-point {
+ key "tp-id";
+ description
+ "A termination point can terminate a link.
+ Depending on the type of topology, a termination point
+ could, for example, refer to a port or an interface.";
+ leaf tp-id {
+ type tp-id;
+ description
+ "Termination point identifier.";
+ }
+ list supporting-termination-point {
+ key "network-ref node-ref tp-ref";
+ description
+ "The leaf list identifies any termination points that
+ the termination point is dependent on, or maps onto.
+ Those termination points will themselves be contained
+ in a supporting node.
+ This dependency information can be inferred from
+ the dependencies between links. For this reason,
+ this item is not separately configurable. Hence no
+ corresponding constraint needs to be articulated.
+ The corresponding information is simply provided by the
+ implementing system.";
+ leaf network-ref {
+ type nd:network-id;
+ description
+ "This leaf identifies in which topology the
+ supporting termination point is present.";
+ }
+ leaf node-ref {
+ type nd:node-id;
+ description
+ "This leaf identifies in which node the supporting
+ termination point is present.";
+ }
+ leaf tp-ref {
+ type tp-id;
+ description
+ "Reference to the underlay node, must be in a
+ different topology";
+ }
+ }
+ }
+ }
+ }
diff --git a/utils/yangutils/src/test/resources/interfileietf/ietf-network.yang b/utils/yangutils/src/test/resources/interfileietf/ietf-network.yang
new file mode 100644
index 0000000..9dbe38f
--- /dev/null
+++ b/utils/yangutils/src/test/resources/interfileietf/ietf-network.yang
@@ -0,0 +1,200 @@
+ module ietf-network {
+ yang-version 1;
+ namespace "urn:ietf:params:xml:ns:yang:ietf-network";
+ prefix nd;
+
+ import ietf-inet-types {
+ prefix inet;
+ }
+
+ organization
+ "IETF I2RS (Interface to the Routing System) Working Group";
+
+ contact
+ "WG Web: <http://tools.ietf.org/wg/i2rs/>
+ WG List: <mailto:i2rs@ietf.org>
+
+ WG Chair: Susan Hares
+ <mailto:shares@ndzh.com>
+
+ WG Chair: Jeffrey Haas
+ <mailto:jhaas@pfrc.org>
+
+ Editor: Alexander Clemm
+ <mailto:alex@cisco.com>
+
+ Editor: Jan Medved
+ <mailto:jmedved@cisco.com>
+
+ Editor: Robert Varga
+ <mailto:rovarga@cisco.com>
+
+ Editor: Tony Tkacik
+ <mailto:ttkacik@cisco.com>
+
+ Editor: Nitin Bahadur
+ <mailto:nitin_bahadur@yahoo.com>
+
+ Editor: Hariharan Ananthakrishnan
+ <mailto:hari@packetdesign.com>";
+
+ description
+ "This module defines a common base model for a collection
+ of nodes in a network. Node definitions are further used
+ in network topologies and inventories.
+
+ Copyright (c) 2015 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
+ draft-ietf-i2rs-yang-network-topo-02;
+ see the RFC itself for full legal notices.
+
+ NOTE TO RFC EDITOR: Please replace above reference to
+ draft-ietf-i2rs-yang-network-topo-02 with RFC
+ number when published (i.e. RFC xxxx).";
+
+ revision 2015-12-08 {
+ description
+ "Initial revision.
+ NOTE TO RFC EDITOR: Please replace the following reference
+ to draft-ietf-i2rs-yang-network-topo-02 with
+ RFC number when published (i.e. RFC xxxx).";
+ reference
+ "draft-ietf-i2rs-yang-network-topo-02";
+ }
+
+ typedef node-id {
+ type inet:uri;
+ description
+ "Identifier for a node.";
+ }
+
+ typedef network-id {
+ type inet:uri;
+ description
+ "Identifier for a network.";
+ }
+ grouping network-ref {
+ description
+ "Contains the information necessary to reference a network,
+ for example an underlay network.";
+ leaf network-ref {
+ type network-id;
+ description
+ "Used to reference a network, for example an underlay
+ network.";
+ }
+ }
+
+ grouping node-ref {
+ description
+ "Contains the information necessary to reference a node.";
+ leaf node-ref {
+ type node-id;
+ description
+ "Used to reference a node.
+ Nodes are identified relative to the network they are
+ contained in.";
+ }
+ uses network-ref;
+ }
+
+ container networks {
+ description
+ "Serves as top-level container for a list of networks.";
+ list network {
+ key "network-id";
+ description
+ "Describes a network.
+ A network typically contains an inventory of nodes,
+ topological information (augmented through
+ network-topology model), as well as layering
+ information.";
+ container network-types {
+ description
+ "Serves as an augmentation target.
+ The network type is indicated through corresponding
+ presence containers augmented into this container.";
+ }
+ leaf network-id {
+ type network-id;
+ description
+ "Identifies a network.";
+ }
+ list supporting-network {
+ key "network-ref";
+ description
+ "An underlay network, used to represent layered network
+ topologies.";
+ leaf network-ref {
+ type network-id;
+ description
+ "References the underlay network.";
+ }
+ }
+ list node {
+ key "node-id";
+ description
+ "The inventory of nodes of this network.";
+ leaf node-id {
+ type node-id;
+ description
+ "Identifies a node uniquely within the containing
+ network.";
+ }
+ list supporting-node {
+ key "network-ref node-ref";
+ description
+ "Represents another node, in an underlay network, that
+ this node is supported by. Used to represent layering
+ structure.";
+ leaf network-ref {
+ type network-id;
+ description
+ "References the underlay network that the
+ underlay node is part of.";
+ }
+ leaf node-ref {
+ type node-id;
+ description
+ "References the underlay node itself.";
+ }
+ }
+ }
+ }
+ }
+ container networks-state {
+ config false;
+ description
+ "Serves as top-level container for a list of state information
+ for networks";
+ list network {
+ key "network-ref";
+ description
+ "Data nodes representing operational data and state of
+ networks.
+ An instance is automatically created for every network
+ in the corresponding list under the networks container.";
+ uses network-ref;
+ leaf server-provided {
+ type boolean;
+ description
+ "Indicates whether the information concerning this
+ particular network is populated by the server
+ (server-provided true, the general case for network
+ information discovered from the server),
+ or whether it is configured by a client
+ (server-provided true, possible e.g. for
+ service overlays managed through a controller).";
+ }
+ }
+ }
+ }
diff --git a/utils/yangutils/src/test/resources/interfileietf/ietf-schedule.yang b/utils/yangutils/src/test/resources/interfileietf/ietf-schedule.yang
new file mode 100644
index 0000000..b9f7297
--- /dev/null
+++ b/utils/yangutils/src/test/resources/interfileietf/ietf-schedule.yang
@@ -0,0 +1,64 @@
+ module ietf-schedule {
+ yang-version 1;
+ namespace "urn:ietf:params:xml:ns:yang:ietf-schedule";
+ // replace with IANA namespace when assigned
+
+ prefix "sch";
+
+ import ietf-yang-types {
+ prefix "yang";
+ }
+
+ organization "TBD";
+ contact "TBD";
+ description
+ "The model allows time scheduling parameters to be specified.";
+
+ revision "2016-03-01" {
+ description "Initial revision";
+ reference "TBD";
+ }
+
+ /*
+ * Groupings
+ */
+
+ grouping schedules {
+ description
+ "A list of schedules defining when a particular
+ configuration takes effect.";
+ container schedules {
+ description
+ "Container of a schedule list defining when a particular
+ configuration takes effect.";
+ list schedule {
+ key "schedule-id";
+ description "A list of schedule elements.";
+
+ leaf schedule-id {
+ type uint32;
+ description "Identifies the schedule element.";
+ }
+ leaf start {
+ type yang:date-and-time;
+ description "Start time.";
+ }
+ leaf schedule-duration {
+ type string {
+ pattern
+ 'P(\d+Y)?(\d+M)?(\d+W)?(\d+D)?T(\d+H)?(\d+M)?(\d+S)?';
+ }
+ description "Schedule duration in ISO 8601 format.";
+ }
+ leaf repeat-interval {
+ type string {
+ pattern
+ 'R\d*/P(\d+Y)?(\d+M)?(\d+W)?(\d+D)?T(\d+H)?(\d+M)?'
+ + '(\d+S)?';
+ }
+ description "Repeat interval in ISO 8601 format.";
+ }
+ }
+ }
+ } // schedules
+ }
diff --git a/utils/yangutils/src/test/resources/interfileietf/ietf-te-topology.yang b/utils/yangutils/src/test/resources/interfileietf/ietf-te-topology.yang
new file mode 100644
index 0000000..849828f
--- /dev/null
+++ b/utils/yangutils/src/test/resources/interfileietf/ietf-te-topology.yang
@@ -0,0 +1,1730 @@
+ module ietf-te-topology {
+ yang-version 1;
+ namespace "urn:ietf:params:xml:ns:yang:ietf-te-topology";
+ // replace with IANA namespace when assigned
+
+ prefix "tet";
+
+ import ietf-inet-types {
+ prefix "inet";
+ }
+
+ import ietf-schedule {
+ prefix "sch";
+ }
+
+ import ietf-te-types {
+ prefix "te-types";
+ }
+
+ import ietf-network {
+ prefix "nw";
+ }
+
+ import ietf-network-topology {
+ prefix "nt";
+ }
+
+ organization
+ "Traffic Engineering Architecture and Signaling (TEAS)
+ Working Group";
+
+ contact
+ "WG Web: <http://tools.ietf.org/wg/teas/>
+ WG List: <mailto:teas@ietf.org>
+
+ WG Chair: Lou Berger
+ <mailto:lberger@labn.net>
+
+ WG Chair: Vishnu Pavan Beeram
+ <mailto:vbeeram@juniper.net>
+
+ Editor: Xufeng Liu
+ <mailto:xliu@kuatrotech.com>
+
+ Editor: Igor Bryskin
+ <mailto:Igor.Bryskin@huawei.com>
+
+ Editor: Vishnu Pavan Beeram
+ <mailto:vbeeram@juniper.net>
+
+ Editor: Tarek Saad
+ <mailto:tsaad@cisco.com>
+
+ Editor: Himanshu Shah
+ <mailto:hshah@ciena.com>
+
+ Editor: Oscar Gonzalez De Dios
+ <mailto:oscar.gonzalezdedios@telefonica.com>";
+
+ description "TE topology model";
+
+ revision "2016-03-17" {
+ description "Initial revision";
+ reference "TBD";
+ }
+
+ /*
+ * Features
+ */
+
+ /*feature configuration-schedule {
+ description
+ "This feature indicates that the system supports
+ configuration scheduling.";
+ }
+
+ feature te-topology-hierarchy {
+ description
+ "This feature indicates that the system allows underlay
+ and/or overlay TE topology hierarchy.";
+ }
+
+ feature te-performance-metric {
+ description
+ "This feature indicates that the system supports
+ TE performance metric defined in
+ RFC7471: OSPF Traffic Engineering (TE) Metric Extensions.";
+ }
+
+ feature template {
+ description
+ "This feature indicates that the system supports
+ template configuration.";
+ }*/
+
+ /*
+ * Typedefs
+ */
+ typedef performance-metric-normality {
+ type enumeration {
+ enum "unknown" {
+ value 0;
+ description
+ "Unknown.";
+ }
+ enum "normal" {
+ value 1;
+ description
+ "Normal.";
+ }
+ enum "abnormal" {
+ value 2;
+ description
+ "Abnormal. The anomalous bit is set.";
+ }
+ }
+ description
+ "Indicates whether a performance metric is normal, abnormal, or
+ unknown.";
+ reference
+ "RFC7471: OSPF Traffic Engineering (TE) Metric Extensions.";
+ }
+
+ typedef te-admin-status {
+ type enumeration {
+ enum up {
+ description
+ "Enabled.";
+ }
+ enum down {
+ description
+ "Disabled.";
+ }
+ enum testing {
+ description
+ "In some test mode.";
+ }
+ enum preparing-maintenance {
+ description
+ "Resource is disabled in the control plane to prepare for
+ graceful shutdown for maintenance purposes.";
+ reference
+ "RFC5817: Graceful Shutdown in MPLS and Generalized MPLS
+ Traffic Engineering Networks";
+ }
+ enum maintenance {
+ description
+ "Resource is disabled in the data plane for maintenance
+ purposes.";
+ }
+ }
+ description
+ "Defines a type representing the administrative status of
+ a TE resource.";
+ }
+ typedef te-global-id {
+ type uint32;
+ description
+ "An identifier to uniquely identify an operator, which can be
+ either a provider or a client.
+ The definition of this type is taken from RFC6370 and RFC5003.
+ This attribute type is used solely to provide a globally
+ unique context for TE topologies.";
+ }
+
+ typedef te-link-access-type {
+ type enumeration {
+ enum point-to-point {
+ description
+ "The link is point-to-point.";
+ }
+ enum multi-access {
+ description
+ "The link is multi-access, including broacast and NBMA.";
+ }
+ }
+ description
+ "Defines a type representing the access type of a TE link.";
+ reference
+ "RFC3630: Traffic Engineering (TE) Extensions to OSPF
+ Version 2.";
+ }
+
+ typedef te-node-id {
+ type inet:ip-address;
+ description
+ "An identifier for a node in a topology.
+ The identifier is represented as an IPv4 or IPv6 address.
+ This attribute is mapped to Router ID in
+ RFC3630, RFC5329, RFC5305, and RFC 6119.";
+ }
+
+ typedef te-oper-status {
+ type enumeration {
+ enum up {
+ description
+ "Operational up.";
+ }
+ enum down {
+ description
+ "Operational down.";
+ }
+ enum testing {
+ description
+ "In some test mode.";
+ }
+ enum unknown {
+ description
+ "Status cannot be determined for some reason.";
+ }
+ enum preparing-maintenance {
+ description
+ "Resource is disabled in the control plane to prepare for
+ graceful shutdown for maintenance purposes.";
+ reference
+ "RFC5817: Graceful Shutdown in MPLS and Generalized MPLS
+ Traffic Engineering Networks";
+ }
+ enum maintenance {
+ description
+ "Resource is disabled in the data plane for maintenance
+ purposes.";
+ }
+ }
+ description
+ "Defines a type representing the operational status of
+ a TE resource.";
+ }
+
+ typedef te-recovery-status {
+ type enumeration {
+ enum normal {
+ description
+ "Both the recovery and working spans are fully
+ allocated and active, data traffic is being
+ transported over (or selected from) the working
+ span, and no trigger events are reported.";
+ }
+ enum recovery-started {
+ description
+ "The recovery action has been started, but not completed.";
+ }
+ enum recovery-succeeded {
+ description
+ "The recovery action has succeeded. The working span has
+ reported a failure/degrade condition and the user traffic
+ is being transported (or selected) on the recovery span.";
+ }
+ enum recovery-failed {
+ description
+ "The recovery action has failed.";
+ }
+ enum reversion-started {
+ description
+ "The reversion has started.";
+ }
+ enum reversion-failed {
+ description
+ "The reversion has failed.";
+ }
+ enum recovery-unavailable {
+ description
+ "The recovery is unavailable -- either as a result of an
+ operator Lockout command or a failure condition detected
+ on the recovery span.";
+ }
+ enum recovery-admin {
+ description
+ "The operator has issued a command switching the user
+ traffic to the recovery span.";
+ }
+ enum wait-to-restore {
+ description
+ "The recovery domain is recovering from a failuer/degrade
+ condition on the working span that is being controlled by
+ the Wait-to-Restore (WTR) timer.";
+ }
+ }
+ description
+ "Defines the status of a recovery action.";
+ reference
+ "RFC4427: Recovery (Protection and Restoration) Terminology
+ for Generalized Multi-Protocol Label Switching (GMPLS).
+ RFC6378: MPLS Transport Profile (MPLS-TP) Linear Protection";
+ }
+
+ typedef te-template-name {
+ type string {
+ pattern '/?([a-zA-Z0-9\-_.]+)(/[a-zA-Z0-9\-_.]+)*';
+ }
+ description
+ "A type for the name of a TE node template or TE link
+ template.";
+ }
+
+ typedef te-topology-event-type {
+ type enumeration {
+ enum "add" {
+ value 0;
+ description
+ "A TE node or te-link has been added.";
+ }
+ enum "remove" {
+ value 1;
+ description
+ "A TE node or te-link has been removed.";
+ }
+ enum "update" {
+ value 2;
+ description
+ "A TE node or te-link has been updated.";
+ }
+ }
+ description "TE Event type for notifications";
+ } // te-topology-event-type
+ typedef te-topology-id {
+ type string {
+ pattern '/?([a-zA-Z0-9\-_.]+)(/[a-zA-Z0-9\-_.]+)*';
+ }
+ description
+ "An identifier for a topology.";
+ }
+
+ typedef te-tp-id {
+ type union {
+ type uint32; // Unnumbered
+ type inet:ip-address; // IPv4 or IPv6 address
+ }
+ description
+ "An identifier for a TE link endpoint on a node.
+ This attribute is mapped to local or remote link identifier in
+ RFC3630 and RFC5305.";
+ }
+
+ /*
+ * Identities
+ */
+
+ /*
+ * Groupings
+ */
+ grouping information-source-attributes {
+ description
+ "The attributes identifying source that has provided the
+ related information, and the source credibility.";
+ leaf information-source {
+ type enumeration {
+ enum "unknown" {
+ description "The source is unknown.";
+ }
+ enum "locally-configured" {
+ description "Configured entity.";
+ }
+ enum "ospfv2" {
+ description "OSPFv2.";
+ }
+ enum "ospfv3" {
+ description "OSPFv3.";
+ }
+ enum "isis" {
+ description "ISIS.";
+ }
+ enum "system-processed" {
+ description "System processed entity.";
+ }
+ enum "other" {
+ description "Other source.";
+ }
+ }
+ description
+ "Indicates the source of the information.";
+ }
+ container information-source-state {
+ description
+ "The container contains state attributes related to
+ the information source.";
+ leaf credibility-preference {
+ type uint16;
+ description
+ "The preference value to calculate the traffic
+ engineering database credibility value used for
+ tie-break selection between different
+ information-source values.
+ Higher value is more preferable.";
+ }
+ container topology {
+ description
+ "When the information is processed by the system,
+ the attributes in this container indicate which topology
+ is used to process to generate the result information.";
+ uses te-topology-ref;
+ } // topology
+ leaf routing-instance {
+ type string;
+ description
+ "When applicable, this is the name of a routing instance
+ from which the information is learned.";
+ } // routing-information
+ }
+ } // information-source-attributes
+
+ grouping performance-metric-attributes {
+ description
+ "Link performance information in real time.";
+ reference
+ "RFC7471: OSPF Traffic Engineering (TE) Metric Extensions.";
+ leaf unidirectional-delay {
+ type uint32 {
+ range 0..16777215;
+ }
+ description "Delay or latency in micro seconds.";
+ }
+ leaf unidirectional-min-delay {
+ type uint32 {
+ range 0..16777215;
+ }
+ description "Minimum delay or latency in micro seconds.";
+ }
+ leaf unidirectional-max-delay {
+ type uint32 {
+ range 0..16777215;
+ }
+ description "Maximum delay or latency in micro seconds.";
+ }
+ leaf unidirectional-delay-variation {
+ type uint32 {
+ range 0..16777215;
+ }
+ description "Delay variation in micro seconds.";
+ }
+ leaf unidirectional-packet-loss {
+ type decimal64 {
+ /*fraction-digits 6;
+ range "0 .. 50.331642";*/
+ }
+ description
+ "Packet loss as a percentage of the total traffic sent
+ over a configurable interval. The finest precision is
+ 0.000003%.";
+ }
+ leaf unidirectional-residual-bandwidth {
+ type decimal64 {
+ /*fraction-digits 2;*/
+ }
+ description
+ "Residual bandwidth that subtracts tunnel
+ reservations from Maximum Bandwidth (or link capacity)
+ [RFC3630] and provides an aggregated remainder across QoS
+ classes.";
+ }
+ leaf unidirectional-available-bandwidth {
+ type decimal64 {
+ /*fraction-digits 2;*/
+ }
+ description
+ "Available bandwidth that is defined to be residual
+ bandwidth minus the measured bandwidth used for the
+ actual forwarding of non-RSVP-TE LSP packets. For a
+ bundled link, available bandwidth is defined to be the
+ sum of the component link available bandwidths.";
+ }
+ leaf unidirectional-utilized-bandwidth {
+ type decimal64 {
+ /*fraction-digits 2;*/
+ }
+ description
+ "Bandwidth utilization that represents the actual
+ utilization of the link (i.e. as measured in the router).
+ For a bundled link, bandwidth utilization is defined to
+ be the sum of the component link bandwidth
+ utilizations.";
+ }
+ } // performance-metric-attributes
+ grouping performance-metric-normality-attributes {
+ description
+ "Link performance metric normality attributes.";
+ reference
+ "RFC7471: OSPF Traffic Engineering (TE) Metric Extensions.";
+ leaf unidirectional-delay {
+ type performance-metric-normality;
+ description "Delay normality.";
+ }
+ leaf unidirectional-min-delay {
+ type performance-metric-normality;
+ description "Minimum delay or latency normality.";
+ }
+ leaf unidirectional-max-delay {
+ type performance-metric-normality;
+ description "Maximum delay or latency normality.";
+ }
+ leaf unidirectional-delay-variation {
+ type performance-metric-normality;
+ description "Delay variation normality.";
+ }
+ leaf unidirectional-packet-loss {
+ type performance-metric-normality;
+ description "Packet loss normality.";
+ }
+ leaf unidirectional-residual-bandwidth {
+ type performance-metric-normality;
+ description "Residual bandwidth normality.";
+ }
+ leaf unidirectional-available-bandwidth {
+ type performance-metric-normality;
+ description "Available bandwidth normality.";
+ }
+ leaf unidirectional-utilized-bandwidth {
+ type performance-metric-normality;
+ description "Bandwidth utilization normality.";
+ }
+ } // performance-metric-normality-attributes
+
+ grouping performance-metric-throttle-container {
+ description
+ "A container controlling performance metric throttle.";
+ container performance-metric-throttle {
+ if-feature te-performance-metric;
+ /*must "suppression-interval >= measure-interval" {
+ error-message
+ "suppression-interval cannot be less then
+ measure-interval.";
+ description
+ "Constraint on suppression-interval and
+ measure-interval.";
+ }*/
+ description
+ "Link performance information in real time.";
+ reference
+ "RFC7471: OSPF Traffic Engineering (TE) Metric Extensions.";
+ leaf unidirectional-delay-offset {
+ type uint32 {
+ range 0..16777215;
+ }
+ description
+ "Offset value to be added to the measured delay value.";
+ }
+ leaf measure-interval {
+ type uint32;
+ default 30;
+ description
+ "Interval in seconds to measure the extended metric
+ values.";
+ }
+ leaf advertisement-interval {
+ type uint32;
+ description
+ "Interval in seconds to advertise the extended metric
+ values.";
+ }
+ leaf suppression-interval {
+ type uint32 {
+ range "1..max";
+ }
+ default 120;
+ description
+ "Interval in seconds to suppress advertising the extended
+ metric values.";
+ }
+ container threshold-out {
+ uses performance-metric-attributes;
+ description
+ "If the measured parameter falls outside an upper bound
+ for all but the min delay metric (or lower bound for
+ min-delay metric only) and the advertised value is not
+ already outside that bound, anomalous announcement will be
+ triggered.";
+ }
+ container threshold-in {
+ uses performance-metric-attributes;
+ description
+ "If the measured parameter falls inside an upper bound
+ for all but the min delay metric (or lower bound for
+ min-delay metric only) and the advertised value is not
+ already inside that bound, normal (anomalous-flag cleared)
+ announcement will be triggered.";
+ }
+ container threshold-accelerated-advertisement {
+ description
+ "When the difference between the last advertised value and
+ current measured value exceed this threshold, anomalous
+ announcement will be triggered.";
+ uses performance-metric-attributes;
+ }
+ }
+ } // performance-metric-throttle-container
+
+ grouping te-link-augment {
+ description
+ "Augmentation for TE link.";
+
+ container te {
+ presence "TE support.";
+ description
+ "Indicates TE support.";
+
+ container config {
+ description
+ "Configuration data.";
+ uses te-link-config;
+ } // config
+ container state {
+ config false;
+ description
+ "Operational state data.";
+ uses te-link-config;
+ uses te-link-state-derived;
+ } // state
+ } // te
+ } // te-link-augment
+
+ grouping te-link-config {
+ description
+ "TE link configuration grouping.";
+ choice bundle-stack-level {
+ description
+ "The TE link can be partitioned into bundled
+ links, or component links.";
+ case bundle {
+ container bundled-links {
+ description
+ "A set of bundled links.";
+ reference
+ "RFC4201: Link Bundling in MPLS Traffic Engineering
+ (TE).";
+ list bundled-link {
+ key "sequence";
+ description
+ "Specify a bundled interface that is
+ further partitioned.";
+ leaf sequence {
+ type uint32;
+ description
+ "Identify the sequence in the bundle.";
+ }
+ leaf src-tp-ref {
+ type nt:tp-id;
+ description
+ "Reference to another TE termination point on the
+ same souruce node.";
+ }
+ leaf des-tp-ref {
+ type nt:tp-id;
+ description
+ "Reference to another TE termination point on the
+ same destination node.";
+ }
+ } // list bundled-link
+ }
+ }
+ case component {
+ container component-links {
+ description
+ "A set of component links";
+ list component-link {
+ key "sequence";
+ description
+ "Specify a component interface that is
+ sufficient to unambiguously identify the
+ appropriate resources";
+
+ leaf sequence {
+ type uint32;
+ description
+ "Identify the sequence in the bundle.";
+ }
+ leaf src-interface-ref {
+ type string;
+ description
+ "Reference to component link interface on the
+ source node.";
+ }
+ leaf des-interface-ref {
+ type string;
+ description
+ "Reference to component link interface on the
+ destinatioin node.";
+ }
+ }
+ }
+ }
+ } // bundle-stack-level
+
+ leaf-list te-link-template {
+ if-feature template;
+ type te-template-name;
+ description
+ "The reference to a TE link template.";
+ }
+ uses te-link-config-attributes;
+ } // te-link-config
+
+ grouping te-link-config-attributes {
+ description
+ "Link configuration attributes in a TE topology.";
+ container te-link-attributes {
+ description "Link attributes in a TE topology.";
+ uses sch:schedules;
+ leaf access-type {
+ type te-link-access-type;
+ description
+ "Link access type, which can be point-to-point or
+ multi-access.";
+ }
+ leaf is-abstract {
+ type empty;
+ description "Present if the link is abstract.";
+ }
+ leaf name {
+ type string;
+ description "Link Name.";
+ }
+ container underlay {
+ if-feature te-topology-hierarchy;
+ presence
+ "Indicates the underlay exists for this link.";
+ description "Attributes of the te-link underlay.";
+ reference
+ "RFC4206: Label Switched Paths (LSP) Hierarchy with
+ Generalized Multi-Protocol Label Switching (GMPLS)
+ Traffic Engineering (TE)";
+
+ uses te-link-underlay-attributes;
+ } // underlay
+ leaf admin-status {
+ type te-admin-status;
+ description
+ "The administrative state of the link.";
+ }
+
+ uses performance-metric-throttle-container;
+ uses te-link-info-attributes;
+ } // te-link-attributes
+ } // te-link-config-attributes
+
+ grouping te-link-info-attributes {
+ description
+ "Advertised TE information attributes.";
+ leaf link-index {
+ type uint64;
+ description
+ "The link identifier. If OSPF is used, this represents an
+ ospfLsdbID. If IS-IS is used, this represents an isisLSPID.
+ If a locally configured link is used, this object represents
+ a unique value, which is locally defined in a router.";
+ }
+ leaf administrative-group {
+ type te-types:admin-groups;
+ description
+ "Administrative group or color of the link.
+ This attribute covers both administrative group (defined in
+ RFC3630, RFC5329, and RFC5305), and extended administrative
+ group (defined in RFC7308).";
+ }
+ leaf max-link-bandwidth {
+ type decimal64 {
+ /*fraction-digits 2;*/
+ }
+ description
+ "Maximum bandwidth that can be seen on this link in this
+ direction. Units in bytes per second.";
+ reference
+ "RFC3630: Traffic Engineering (TE) Extensions to OSPF
+ Version 2.
+ RFC5305: IS-IS Extensions for Traffic Engineering.";
+ }
+ leaf max-resv-link-bandwidth {
+ type decimal64 {
+ /*fraction-digits 2;*/
+ }
+ description
+ "Maximum amount of bandwidth that can be reserved in this
+ direction in this link. Units in bytes per second.";
+ reference
+ "RFC3630: Traffic Engineering (TE) Extensions to OSPF
+ Version 2.
+ RFC5305: IS-IS Extensions for Traffic Engineering.";
+ }
+ list unreserved-bandwidth {
+ key "priority";
+ max-elements "8";
+ description
+ "Unreserved bandwidth for 0-7 priority levels. Units in
+ bytes per second.";
+ reference
+ "RFC3630: Traffic Engineering (TE) Extensions to OSPF
+ Version 2.
+ RFC5305: IS-IS Extensions for Traffic Engineering.";
+ leaf priority {
+ type uint8 {
+ range "0..7";
+ }
+ description "Priority.";
+ }
+ leaf bandwidth {
+ type decimal64 {
+ /*fraction-digits 2;*/
+ }
+ description
+ "Unreserved bandwidth for this level.";
+ }
+ }
+ leaf te-default-metric {
+ type uint32;
+ description
+ "Traffic Engineering Metric.";
+ }
+ container performance-metric {
+ if-feature te-performance-metric;
+ description
+ "Link performance information in real time.";
+ reference
+ "RFC7471: OSPF Traffic Engineering (TE) Metric Extensions.";
+ container measurement {
+ description
+ "Measured performance metric values. Static configuration
+ and manual overrides of these measurements are also
+ allowed.";
+ uses performance-metric-attributes;
+ }
+ container normality
+ {
+ description
+ "Performance metric normality values.";
+ uses performance-metric-normality-attributes;
+ }
+ }
+ leaf link-protection-type {
+ type enumeration {
+ enum "unprotected" {
+ description "Unprotected.";
+ }
+ enum "extra-traffic" {
+ description "Extra traffic.";
+ }
+ enum "shared" {
+ description "Shared.";
+ }
+ enum "1-for-1" {
+ description "One for one protection.";
+ }
+ enum "1-plus-1" {
+ description "One plus one protection.";
+ }
+ enum "enhanced" {
+ description "Enhanced protection.";
+ }
+ }
+ description
+ "Link Protection Type desired for this link.";
+ reference
+ "RFC4202: Routing Extensions in Support of
+ Generalized Multi-Protocol Label Switching (GMPLS).";
+ }
+ list interface-switching-capability {
+ key "switching-capability";
+ description
+ "List of Interface Switching Capabilities Descriptors (ISCD)
+ for this link.";
+ reference
+ "RFC3471: Generalized Multi-Protocol Label Switching (GMPLS)
+ Signaling Functional Description.
+ RFC4203: OSPF Extensions in Support of Generalized
+ Multi-Protocol Label Switching (GMPLS).";
+ leaf switching-capability {
+ type string;
+ description
+ "Switching Capability for this interface.";
+ }
+ leaf encoding {
+ type string;
+ description
+ "Encoding supported by this interface.";
+ }
+ list max-lsp-bandwidth {
+ key "priority";
+ max-elements "8";
+ description
+ "Maximum LSP Bandwidth at priorities 0-7.";
+ leaf priority {
+ type uint8 {
+ range "0..7";
+ }
+ description "Priority.";
+ }
+ leaf bandwidth {
+ type decimal64 {
+ /*fraction-digits 2;*/
+ }
+ description
+ "Max LSP Bandwidth for this level";
+ }
+ }
+ container time-division-multiplex-capable {
+ when "../switching-capability = 'TDM'" {
+ description "Valid only for TDM";
+ }
+ description
+ "Interface has time-division multiplex capabilities.";
+
+ leaf minimum-lsp-bandwidth {
+ type decimal64 {
+ /*fraction-digits 2;*/
+ }
+ description
+ "Minimum LSP Bandwidth. Units in bytes per second.";
+ }
+ leaf indication {
+ type enumeration {
+ enum "standard" {
+ description
+ "Indicates support of standard SONET/SDH.";
+ }
+ enum "arbitrary" {
+ description
+ "Indicates support of arbitrary SONET/SDH.";
+ }
+ }
+ description
+ "Indication whether the interface supports Standard or
+ Arbitrary SONET/SDH";
+ }
+ }
+ list interface-adjustment-capability {
+ key "upper-sc";
+ description
+ "List of Interface Adjustment Capability Descriptors (IACD)
+ for this link.";
+ reference
+ "RFC6001: Generalized MPLS (GMPLS) Protocol Extensions
+ for Multi-Layer and Multi-Region Networks (MLN/MRN).";
+ leaf upper-sc {
+ type string;
+ description
+ "Switching Capability for this interface.";
+ }
+ leaf upper-encoding {
+ type string;
+ description
+ "Encoding supported by this interface.";
+ }
+ list max-lsp-bandwidth {
+ key "priority";
+ max-elements "8";
+ description
+ "Maximum LSP Bandwidth at priorities 0-7.";
+ leaf priority {
+ type uint8 {
+ range "0..7";
+ }
+ description "Priority.";
+ }
+ leaf bandwidth {
+ type decimal64 {
+ /*fraction-digits 2;*/
+ }
+ description
+ "Max LSP Bandwidth for this level.";
+ }
+ }
+ } // interface-adjustment-capability
+ } // interface-switching-capability
+ container te-srlgs {
+ description
+ "A list of SLRGs.";
+ leaf-list values {
+ type te-types:srlg;
+ description "SRLG value.";
+ reference
+ "RFC4202: Routing Extensions in Support of
+ Generalized Multi-Protocol Label Switching (GMPLS).";
+ }
+ }
+ } // te-link-info-attributes
+
+ grouping te-link-state-derived {
+ description
+ "Link state attributes in a TE topology.";
+ leaf oper-status {
+ type te-oper-status;
+ description
+ "The current operational state of the link.";
+ }
+ uses information-source-attributes;
+ list alt-information-sources {
+ key "information-source";
+ description
+ "A list of information sources learned but not used.";
+ uses information-source-attributes;
+ uses te-link-info-attributes;
+ }
+ container recovery {
+ description
+ "Status of the recovery process.";
+ leaf restoration-status {
+ type te-recovery-status;
+ description
+ "Restoration status.";
+ }
+ leaf protection-status {
+ type te-recovery-status;
+ description
+ "Protection status.";
+ }
+ }
+ container underlay {
+ if-feature te-topology-hierarchy;
+ description "State attributes for te-link underlay.";
+ uses te-link-state-underlay-attributes;
+ }
+ } // te-link-state-derived
+ grouping te-link-state-underlay-attributes {
+ description "State attributes for te-link underlay.";
+ leaf dynamic {
+ type boolean;
+ description
+ "true if the underlay is dynamically created.";
+ }
+ leaf committed {
+ type boolean;
+ description
+ "true if the underlay is committed.";
+ }
+ } // te-link-state-underlay-attributes
+
+ grouping te-link-underlay-attributes {
+ description "Attributes for te-link underlay.";
+ reference
+ "RFC4206: Label Switched Paths (LSP) Hierarchy with
+ Generalized Multi-Protocol Label Switching (GMPLS)
+ Traffic Engineering (TE)";
+ container underlay-primary-path {
+ description
+ "The service path on the underlay topology that
+ supports this link.";
+ uses te-topology-ref;
+ list path-element {
+ key "path-element-id";
+ description
+ "A list of path elements describing the service path.";
+ leaf path-element-id {
+ type uint32;
+ description "To identify the element in a path.";
+ }
+ uses te-path-element;
+ }
+ } // underlay-primary-path
+ list underlay-backup-path {
+ key "index";
+ description
+ "A list of backup service paths on the underlay topology that
+ protect the underlay primary path. If the primary path is
+ not protected, the list contains zero elements. If the
+ primary path is protected, the list contains one or more
+ elements.";
+ leaf index {
+ type uint32;
+ description
+ "A sequence number to identify a backup path.";
+ }
+ uses te-topology-ref;
+ list path-element {
+ key "path-element-id";
+ description
+ "A list of path elements describing the backup service
+ path";
+ leaf path-element-id {
+ type uint32;
+ description "To identify the element in a path.";
+ }
+ uses te-path-element;
+ }
+ } // underlay-backup-path
+ leaf underlay-protection-type {
+ type uint16;
+ description
+ "Underlay protection type desired for this link";
+ }
+ container underlay-trail-src {
+ uses nt:tp-ref;
+ description
+ "Source TE link of the underlay trail.";
+ }
+ container underlay-trail-des {
+ uses nt:tp-ref;
+ description
+ "Destination TE link of the underlay trail.";
+ }
+ } // te-link-underlay-attributes
+
+ grouping te-node-augment {
+ description
+ "Augmentation for TE node.";
+
+ container te {
+ presence "TE support.";
+ description
+ "Indicates TE support.";
+
+ leaf te-node-id {
+ type te-node-id;
+ mandatory true;
+ description
+ "The identifier of a node in the TE topology.
+ A node is specific to a topology to which it belongs.";
+ }
+
+ container config {
+ description
+ "Configuration data.";
+ uses te-node-config;
+ } // config
+ container state {
+ config false;
+ description
+ "Operational state data.";
+
+ uses te-node-config;
+ uses te-node-state-derived;
+ } // state
+
+ list tunnel-termination-point {
+ key "tunnel-tp-id";
+ description
+ "A termination point can terminate a tunnel.";
+ leaf tunnel-tp-id {
+ type binary;
+ description
+ "Tunnel termination point identifier.";
+ }
+ container config {
+ description
+ "Configuration data.";
+ uses te-node-tunnel-termination-capability;
+ }
+
+ container state {
+ config false;
+ description
+ "Operational state data.";
+
+ uses te-node-tunnel-termination-capability;
+ leaf switching-capability {
+ type string;
+ mandatory true;
+ description
+ "Switching Capability.";
+ }
+ leaf encoding {
+ type string;
+ mandatory true;
+ description
+ "Encoding type.";
+ }
+ } // state
+
+ } // tunnel-termination-point
+ } // te
+ } // te-node-augment
+
+ grouping te-node-config {
+ description "TE node configuration grouping.";
+
+ leaf-list te-node-template {
+ if-feature template;
+ type te-template-name;
+ description
+ "The reference to a TE node template.";
+ }
+ uses te-node-config-attributes;
+ } // te-node-config
+
+ grouping te-node-config-attributes {
+ description "Configuration node attributes in a TE topology.";
+ container te-node-attributes {
+ description "Containing node attributes in a TE topology.";
+ uses sch:schedules;
+ leaf admin-status {
+ type te-admin-status;
+ description
+ "The administrative state of the link.";
+ }
+ uses te-node-connectivity-matrix;
+ uses te-node-info-attributes;
+ } // te-node-attributes
+ } // te-node-config-attributes
+
+ grouping te-node-config-attributes-notification {
+ description
+ "Configuration node attributes for template in a TE topology.";
+ container te-node-attributes {
+ description "Containing node attributes in a TE topology.";
+ uses sch:schedules;
+ leaf admin-status {
+ type te-admin-status;
+ description
+ "The administrative state of the link.";
+ }
+ uses te-node-connectivity-matrix-abs;
+ uses te-node-info-attributes;
+ } // te-node-attributes
+ } // te-node-config-attributes-notification
+
+ grouping te-node-config-attributes-template {
+ description
+ "Configuration node attributes for template in a TE topology.";
+ container te-node-attributes {
+ description "Containing node attributes in a TE topology.";
+ uses sch:schedules;
+ leaf admin-status {
+ type te-admin-status;
+ description
+ "The administrative state of the link.";
+ }
+ uses te-node-info-attributes;
+ } // te-node-attributes
+ } // te-node-config-attributes-template
+
+ grouping te-node-connectivity-matrix {
+ description "Connectivity matrix on a TE node.";
+ list connectivity-matrix {
+ key "id";
+ description
+ "Represents node's switching limitations, i.e. limitations
+ in interconnecting network TE links across the node.";
+ reference
+ "RFC7579: General Network Element Constraint Encoding
+ for GMPLS-Controlled Networks.";
+ leaf id {
+ type uint32;
+ description "Identifies the connectivity-matrix entry.";
+ }
+ container from {
+ leaf tp-ref {
+ type nt:tp-id;
+ description
+ "Relative reference to source termination point.";
+ }
+ description
+ "Reference to source NTP.";
+ }
+ container to {
+ leaf tp-ref {
+ type nt:tp-id;
+ description
+ "Relative reference to destination termination point.";
+ }
+ description
+ "Reference to destination NTP.";
+ }
+ leaf is-allowed {
+ type boolean;
+ description
+ "true - switching is allowed,
+ false - switching is disallowed.";
+ }
+ }
+ } // te-node-connectivity-matrix
+
+ grouping te-node-connectivity-matrix-abs {
+ description
+ "Connectivity matrix on a TE node, using absolute
+ paths to reference termination points.";
+ list connectivity-matrix {
+ key "id";
+ description
+ "Represents node's switching limitations, i.e. limitations
+ in interconnecting network TE links across the node.";
+ reference
+ "RFC7579: General Network Element Constraint Encoding
+ for GMPLS-Controlled Networks.";
+ leaf id {
+ type uint32;
+ description "Identifies the connectivity-matrix entry.";
+ }
+ container from {
+ uses nt:tp-ref;
+ description
+ "Reference to source NTP.";
+ }
+ container to {
+ uses nt:tp-ref;
+ description
+ "Reference to destination NTP.";
+ }
+ leaf is-allowed {
+ type boolean;
+ description
+ "true - switching is allowed,
+ false - switching is disallowed.";
+ }
+ }
+ } // te-node-connectivity-matrix-abs
+
+ grouping te-node-info-attributes {
+ description
+ "Advertised TE information attributes.";
+ leaf domain-id {
+ type uint32;
+ description
+ "Identifies the domain that this node belongs.
+ This attribute is used to support inter-domain links.";
+ reference
+ "RFC5152: A Per-Domain Path Computation Method for
+ Establishing Inter-Domain Traffic Engineering (TE)
+ Label Switched Paths (LSPs).
+ RFC5392: OSPF Extensions in Support of Inter-Autonomous
+ System (AS) MPLS and GMPLS Traffic Engineering.
+ RFC5316: ISIS Extensions in Support of Inter-Autonomous
+ System (AS) MPLS and GMPLS Traffic Engineering.";
+ }
+ leaf is-abstract {
+ type empty;
+ description
+ "Present if the node is abstract, not present if the node
+ is actual.";
+ }
+ leaf name {
+ type inet:domain-name;
+ description "Node name.";
+ }
+ leaf-list signaling-address {
+ type inet:ip-address;
+ description "Node signaling address.";
+ }
+ container underlay-topology {
+ if-feature te-topology-hierarchy;
+ description
+ "When an abstract node encapsulates a topology,
+ the attributes in this container point to said topology.";
+ uses te-topology-ref;
+ }
+ } // te-node-info-attributes
+
+ grouping te-node-state-derived {
+ description "Node state attributes in a TE topology.";
+ leaf oper-status {
+ type te-oper-status;
+ description
+ "The current operational state of the node.";
+ }
+ leaf is-multi-access-dr {
+ type empty;
+ description
+ "The presence of this attribute indicates that this TE node
+ is a pseudonode elected as a designated router.";
+ reference
+ "RFC3630: Traffic Engineering (TE) Extensions to OSPF
+ Version 2.
+ RFC1195: Use of OSI IS-IS for Routing in TCP/IP and Dual
+ Environments.";
+ }
+ uses information-source-attributes;
+ list alt-information-sources {
+ key "information-source";
+ description
+ "A list of information sources learned but not used.";
+ uses information-source-attributes;
+ uses te-node-connectivity-matrix;
+ uses te-node-info-attributes;
+ }
+ } // te-node-state-derived
+
+ grouping te-node-state-derived-notification {
+ description "Node state attributes in a TE topology.";
+ leaf oper-status {
+ type te-oper-status;
+ description
+ "The current operational state of the node.";
+ }
+ leaf is-multi-access-dr {
+ type empty;
+ description
+ "The presence of this attribute indicates that this TE node
+ is a pseudonode elected as a designated router.";
+ reference
+ "RFC3630: Traffic Engineering (TE) Extensions to OSPF
+ Version 2.
+ RFC1195: Use of OSI IS-IS for Routing in TCP/IP and Dual
+ Environments.";
+ }
+ uses information-source-attributes;
+ list alt-information-sources {
+ key "information-source";
+ description
+ "A list of information sources learned but not used.";
+ uses information-source-attributes;
+ uses te-node-connectivity-matrix-abs;
+ uses te-node-info-attributes;
+ }
+ } // te-node-state-derived-notification
+
+ grouping te-node-tunnel-termination-capability {
+ description
+ "Termination capability of a tunnel termination point on a
+ TE node.";
+
+ list termination-capability {
+ key "link-tp";
+ description
+ "The termination capabilities between
+ tunnel-termination-point and link termination-point.
+ The capability information can be used to compute
+ the tunnel path.";
+ leaf link-tp {
+ type nt:tp-id;
+ description
+ "Link termination point.";
+ }
+ } // termination-capability
+ } // te-node-tunnel-termination-capability
+
+ grouping te-path-element {
+ description
+ "A group of attributes defining an element in a TE path
+ such as TE node, TE link, TE atomic resource or label.";
+ uses te-types:explicit-route-subobject;
+ } // te-path-element
+
+ grouping te-termination-point-augment {
+ description
+ "Augmentation for TE termination point.";
+
+ container te {
+ presence "TE support.";
+ description
+ "Indicates TE support.";
+
+ leaf te-tp-id {
+ type te-tp-id;
+ mandatory true;
+ description
+ "An identifier to uniquely identify a TE termination
+ point.";
+ }
+
+ container config {
+ description
+ "Configuration data.";
+ uses te-termination-point-config;
+ } // config
+ container state {
+ config false;
+ description
+ "Operational state data.";
+ uses te-termination-point-config;
+ } // state
+ } // te
+ } // te-termination-point-augment
+
+ grouping te-termination-point-config {
+ description
+ "TE termination point configuration grouping.";
+ uses sch:schedules;
+ } // te-termination-point-config
+
+ grouping te-topologies-augment {
+ description
+ "Augmentation for TE topologies.";
+
+ container te {
+ presence "TE support.";
+ description
+ "Indicates TE support.";
+
+ container templates {
+ description
+ "Configuration parameters for templates used for TE
+ topology.";
+
+ list node-template {
+ if-feature template;
+ key "name";
+ leaf name {
+ type te-template-name;
+ description
+ "The name to identify a TE node template.";
+ }
+ description
+ "The list of TE node templates used to define sharable
+ and reusable TE node attributes.";
+ uses template-attributes;
+ uses te-node-config-attributes-template;
+ } // node-template
+
+ list link-template {
+ if-feature template;
+ key "name";
+ leaf name {
+ type te-template-name;
+ description
+ "The name to identify a TE link template.";
+ }
+ description
+ "The list of TE link templates used to define sharable
+ and reusable TE link attributes.";
+ uses template-attributes;
+ uses te-link-config-attributes;
+ } // link-template
+ } // templates
+ } // te
+ } // te-topologies-augment
+
+ grouping te-topology-augment {
+ description
+ "Augmentation for TE topology.";
+
+ container te {
+ presence "TE support.";
+ description
+ "Indicates TE support.";
+
+ leaf provider-id {
+ type te-global-id;
+ mandatory true;
+ description
+ "An identifier to uniquely identify a provider.";
+ }
+ leaf client-id {
+ type te-global-id;
+ mandatory true;
+ description
+ "An identifier to uniquely identify a client.";
+ }
+ leaf te-topology-id {
+ type te-topology-id;
+ mandatory true;
+ description
+ "It is presumed that a datastore will contain many
+ topologies. To distinguish between topologies it is
+ vital to have UNIQUE topology identifiers.";
+ }
+
+ container config {
+ description
+ "Configuration data.";
+ uses te-topology-config;
+ } // config
+ container state {
+ config false;
+ description
+ "Operational state data.";
+ uses te-topology-config;
+ } // state
+ } // te
+ } // te-topology-augment
+
+ grouping te-topology-config {
+ description
+ "TE topology configuration grouping.";
+ uses sch:schedules;
+ leaf preference {
+ type uint8 {
+ range "1..255";
+ }
+ description
+ "Specifies a preference for this topology. A lower number
+ indicates a higher preference.";
+ }
+ } // te-topology-config
+
+ grouping te-topology-ref {
+ description
+ "References a TE topology.";
+ leaf provider-id-ref {
+ type te-global-id;
+ description
+ "A reference to a provider-id.";
+ }
+ leaf client-id-ref {
+ type te-global-id;
+ description
+ "A reference to a client-id.";
+ }
+ leaf te-topology-id-ref {
+ type tet:te-topology-id;
+ description
+ "A reference to a te-topology-id.";
+ }
+ leaf network-id-ref {
+ type nw:network-id;
+ description
+ "A reference to a network-id in base ietf-network module.";
+ }
+ } // te-topology-ref
+
+ grouping te-topology-type {
+ description
+ "Identifies the TE topology type.";
+ container te-topology {
+ presence "Indicates TE topology.";
+ description
+ "Its presence identifies the TE topology type.";
+ }
+ } // te-topology-type
+
+ grouping template-attributes {
+ description
+ "Common attributes for all templates.";
+
+ leaf priority {
+ type uint16;
+ description
+ "The preference value to resolve conflicts between different
+ templates. When two or more templates specify values for
+ one configuration attribute, the value from the template
+ with the highest priority is used.";
+ }
+ leaf reference-change-policy {
+ type enumeration {
+ enum no-action {
+ description
+ "When an attribute changes in this template, the
+ configuration node referring to this template does
+ not take any action.";
+ }
+ enum not-allowed {
+ description
+ "When any configuration object has a reference to this
+ template, changing this template is not allowed.";
+ }
+ enum cascade {
+ description
+ "When an attribute changes in this template, the
+ configuration object referring to this template applies
+ the new attribute value to the corresponding
+ configuration.";
+ }
+ }
+ description
+ "This attribute specifies the action taken to a configuration
+ node that has a reference to this template.";
+ }
+ } // template-attributes
+
+ /*
+ * Configuration data nodes
+ */
+ augment "/nw:networks/nw:network/nw:network-types" {
+ description
+ "Introduce new network type for TE topology.";
+ uses te-topology-type;
+ }
+
+ augment "/nw:networks" {
+ description
+ "Augmentation parameters for TE topologies.";
+ uses te-topologies-augment;
+ }
+
+ augment "/nw:networks/nw:network" {
+ when "nw:network-types/te-topology" {
+ description
+ "Augmentation parameters apply only for networks with
+ TE topology type.";
+ }
+ description
+ "Configuration parameters for TE topology.";
+ uses te-topology-augment;
+ }
+
+ augment "/nw:networks/nw:network/nw:node" {
+ when "../nw:network-types/te-topology" {
+ description
+ "Augmentation parameters apply only for networks with
+ TE topology type.";
+ }
+ description
+ "Configuration parameters for TE at node level.";
+ uses te-node-augment;
+ }
+
+ augment "/nw:networks/nw:network/nt:link" {
+ when "../nw:network-types/te-topology" {
+ description
+ "Augmentation parameters apply only for networks with
+ TE topology type.";
+ }
+ description
+ "Configuration parameters for TE at link level";
+ uses te-link-augment;
+ }
+
+ augment "/nw:networks/nw:network/nw:node/"
+ + "nt:termination-point" {
+ when "../../nw:network-types/te-topology" {
+ description
+ "Augmentation parameters apply only for networks with
+ TE topology type.";
+ }
+ description
+ "Configuration parameters for TE at termination point level";
+ uses te-termination-point-augment;
+ }
+
+ /*
+ * Operational state data nodes
+ */
+
+ /*
+ * Notifications
+ */
+ notification te-node-event {
+ description "Notification event for TE node.";
+ leaf event-type {
+ type te-topology-event-type;
+ description "Event type.";
+ }
+ uses nw:node-ref;
+ uses te-topology-type;
+ uses tet:te-node-config-attributes-notification;
+ uses tet:te-node-state-derived-notification;
+ }
+
+ notification te-link-event {
+ description "Notification event for TE link.";
+ leaf event-type {
+ type te-topology-event-type;
+ description "Event type";
+ }
+ uses nt:link-ref;
+ uses te-topology-type;
+ uses tet:te-link-config-attributes;
+ uses tet:te-link-state-derived;
+ }
+
+ augment "/te-link-event/te-link-attributes/underlay" {
+ description "Add state attributes to te-link underlay.";
+ uses te-link-state-underlay-attributes;
+ }
+ }
diff --git a/utils/yangutils/src/test/resources/interfileietf/ietf-te-types.yang b/utils/yangutils/src/test/resources/interfileietf/ietf-te-types.yang
new file mode 100644
index 0000000..0962720
--- /dev/null
+++ b/utils/yangutils/src/test/resources/interfileietf/ietf-te-types.yang
@@ -0,0 +1,853 @@
+ module ietf-te-types {
+
+ namespace "urn:ietf:params:xml:ns:yang:ietf-te-types";
+
+ /* Replace with IANA when assigned */
+ prefix "te-types";
+
+ import ietf-inet-types {
+ prefix inet;
+ }
+
+ organization
+ "IETF Traffic Engineering Architecture and Signaling (TEAS)
+ Working Group";
+
+ contact
+ "WG Web: <http://tools.ietf.org/wg/teas/>
+ WG List: <mailto:teas@ietf.org>
+
+ WG Chair: Lou Berger
+ <mailto:lberger@labn.net>
+
+ WG Chair: Vishnu Pavan Beeram
+ <mailto:vbeeram@juniper.net>
+
+ Editor: Tarek Saad
+ <mailto:tsaad@cisco.com>
+
+ Editor: Rakesh Gandhi
+ <mailto:rgandhi@cisco.com>
+
+ Editor: Vishnu Pavan Beeram
+ <mailto:vbeeram@juniper.net>
+
+ Editor: Himanshu Shah
+ <mailto:hshah@ciena.com>
+
+ Editor: Xufeng Liu
+ <mailto:xufeng.liu@ericsson.com>
+
+ Editor: Xia Chen
+ <mailto:jescia.chenxia@huawei.com>
+
+ Editor: Raqib Jones
+ <mailto:raqib@Brocade.com>
+
+ Editor: Bin Wen
+ <mailto:Bin_Wen@cable.comcast.com>";
+
+ description
+ "This module contains a collection of generally
+ useful TE specific YANG data type defintions.";
+
+ revision 2016-03-20 {
+ description "Latest revision of TE generic types";
+ reference "RFC3209";
+ }
+
+ /*identity tunnel-type {
+ description
+ "Base identity from which specific tunnel types are
+ derived.";
+ }
+
+ identity tunnel-p2p {
+ base tunnel-type;
+ description
+ "TE point-to-point tunnel type.";
+ }
+
+ identity tunnel-p2mp {
+ base tunnel-type;
+ description
+ "TE point-to-multipoint tunnel type.";
+ }
+
+ identity state-type {
+ description
+ "Base identity for TE states";
+ }
+
+ identity state-up {
+ base state-type;
+ description
+ "State up";
+ }
+
+ identity state-down {
+ base state-type;
+ description
+ "State down";
+ }
+
+ identity lsp-prot-type {
+ description
+ "Base identity from which LSP protection types are
+ derived.";
+ }
+
+ identity lsp-prot-unprotected {
+ description
+ "LSP protection 'Unprotected'";
+ reference "RFC4872";
+ }
+
+ identity lsp-prot-reroute-extra {
+ description
+ "LSP protection '(Full) Rerouting'";
+ reference "RFC4872";
+ }
+
+ identity lsp-prot-reroute {
+ description
+ "LSP protection 'Rerouting without Extra-Traffic'";
+ reference "RFC4872";
+ }
+
+ identity lsp-prot-1-for-n {
+ description
+ "LSP protection '1:N Protection with Extra-Traffic'";
+ reference "RFC4872";
+ }
+
+ identity lsp-prot-unidir-1-to-1 {
+ description
+ "LSP protection '1+1 Unidirectional Protection'";
+ reference "RFC4872";
+ }
+
+ identity lsp-prot-bidir-1-to-1 {
+ description
+ "LSP protection '1+1 Bidirectional Protection'";
+ reference "RFC4872";
+ }
+
+ identity switching-capabilities {
+ description
+ "Base identity for interface switching capabilities";
+ }
+
+ identity switching-psc1 {
+ base switching-capabilities;
+ description
+ "Packet-Switch Capable-1 (PSC-1)";
+ }
+
+ identity switching-evpl {
+ base switching-capabilities;
+ description
+ "Ethernet Virtual Private Line (EVPL)";
+ }
+
+ identity switching-l2sc {
+ base switching-capabilities;
+ description
+ "Layer-2 Switch Capable (L2SC)";
+ }
+
+ identity switching-tdm {
+ base switching-capabilities;
+ description
+ "Time-Division-Multiplex Capable (TDM)";
+ }
+
+ identity switching-otn {
+ base switching-capabilities;
+ description
+ "OTN-TDM capable";
+ }
+
+ identity switching-dcsc {
+ base switching-capabilities;
+ description
+ "Data Channel Switching Capable (DCSC)";
+ }
+ identity switching-lsc {
+ base switching-capabilities;
+ description
+ "Lambda-Switch Capable (LSC)";
+ }
+
+ identity switching-fsc {
+ base switching-capabilities;
+ description
+ "Fiber-Switch Capable (FSC)";
+ }
+
+ identity lsp-encoding-types {
+ description
+ "Base identity for encoding types";
+ }
+
+ identity lsp-encoding-packet {
+ base lsp-encoding-types;
+ description
+ "Packet LSP encoding";
+ }
+
+ identity lsp-encoding-ethernet {
+ base lsp-encoding-types;
+ description
+ "Ethernet LSP encoding";
+ }
+
+ identity lsp-encoding-pdh {
+ base lsp-encoding-types;
+ description
+ "ANSI/ETSI LSP encoding";
+ }
+
+ identity lsp-encoding-sdh {
+ base lsp-encoding-types;
+ description
+ "SDH ITU-T G.707 / SONET ANSI T1.105 LSP encoding";
+ }
+
+ identity lsp-encoding-digital-wrapper {
+ base lsp-encoding-types;
+ description
+ "Digital Wrapper LSP encoding";
+ }
+
+ identity lsp-encoding-lambda {
+ base lsp-encoding-types;
+ description
+ "Lambda (photonic) LSP encoding";
+ }
+
+ identity lsp-encoding-fiber {
+ base lsp-encoding-types;
+ description
+ "Fiber LSP encoding";
+ }
+
+ identity lsp-encoding-fiber-channel {
+ base lsp-encoding-types;
+ description
+ "FiberChannel LSP encoding";
+ }
+
+ identity lsp-encoding-oduk {
+ base lsp-encoding-types;
+ description
+ "G.709 ODUk (Digital Path)LSP encoding";
+ }
+
+ identity lsp-encoding-optical-channel {
+ base lsp-encoding-types;
+ description
+ "Line (e.g., 8B/10B) LSP encoding";
+ }
+
+ identity lsp-encoding-line {
+ base lsp-encoding-types;
+ description
+ "Line (e.g., 8B/10B) LSP encoding";
+ }*/
+
+ /* TE basic features */
+ /*feature p2mp-te {
+ description
+ "Indicates support for P2MP-TE";
+ }
+
+ feature frr-te {
+ description
+ "Indicates support for TE FastReroute (FRR)";
+ }
+
+ feature extended-admin-groups {
+ description
+ "Indicates support for TE link extended admin
+ groups.";
+ }
+
+ feature named-path-affinities {
+ description
+ "Indicates support for named path affinities";
+ }
+
+ feature named-extended-admin-groups {
+ description
+ "Indicates support for named extended admin groups";
+ }
+
+ feature named-srlg-groups {
+ description
+ "Indicates support for named SRLG groups";
+ }
+
+ feature named-path-constraints {
+ description
+ "Indicates support for named path constraints";
+ }*/
+
+ grouping explicit-route-subobject {
+ description
+ "The explicit route subobject grouping";
+ choice type {
+ description
+ "The explicit route subobject type";
+ case ipv4-address {
+ description
+ "IPv4 address explicit route subobject";
+ leaf v4-address {
+ type inet:ipv4-address;
+ description
+ "An IPv4 address. This address is
+ treated as a prefix based on the
+ prefix length value below. Bits beyond
+ the prefix are ignored on receipt and
+ SHOULD be set to zero on transmission.";
+ }
+ leaf v4-prefix-length {
+ type uint8;
+ description
+ "Length in bits of the IPv4 prefix";
+ }
+ leaf v4-loose {
+ type boolean;
+ description
+ "Describes whether the object is loose
+ if set, or otherwise strict";
+ }
+ }
+ case ipv6-address {
+ description
+ "IPv6 address Explicit Route Object";
+ leaf v6-address {
+ type inet:ipv6-address;
+ description
+ "An IPv6 address. This address is
+ treated as a prefix based on the
+ prefix length value below. Bits
+ beyond the prefix are ignored on
+ receipt and SHOULD be set to zero
+ on transmission.";
+ }
+ leaf v6-prefix-length {
+ type uint8;
+ description
+ "Length in bits of the IPv4 prefix";
+ }
+ leaf v6-loose {
+ type boolean;
+ description
+ "Describes whether the object is loose
+ if set, or otherwise strict";
+ }
+ }
+ case as-number {
+ leaf as-number {
+ type uint16;
+ description "AS number";
+ }
+ description
+ "Autonomous System explicit route subobject";
+ }
+ case unnumbered-link {
+ leaf router-id {
+ type inet:ip-address;
+ description
+ "A router-id address";
+ }
+ leaf interface-id {
+ type uint32;
+ description "The interface identifier";
+ }
+ description
+ "Unnumbered link explicit route subobject";
+ reference
+ "RFC3477: Signalling Unnumbered Links in
+ RSVP-TE";
+ }
+ case label {
+ leaf value {
+ type uint32;
+ description "the label value";
+ }
+ description
+ "The Label ERO subobject";
+ }
+ /* AS domain sequence..? */
+ }
+ }
+
+ grouping record-route-subobject {
+ description
+ "The record route subobject grouping";
+ choice type {
+ description
+ "The record route subobject type";
+ case ipv4-address {
+ leaf v4-address {
+ type inet:ipv4-address;
+ description
+ "An IPv4 address. This address is
+ treated as a prefix based on the prefix
+ length value below. Bits beyond the
+ prefix are ignored on receipt and
+ SHOULD be set to zero on transmission.";
+ }
+ leaf v4-prefix-length {
+ type uint8;
+ description
+ "Length in bits of the IPv4 prefix";
+ }
+ leaf v4-flags {
+ type uint8;
+ description
+ "IPv4 address sub-object flags";
+ reference "RFC3209";
+ }
+ }
+ case ipv6-address {
+ leaf v6-address {
+ type inet:ipv6-address;
+ description
+ "An IPv6 address. This address is
+ treated as a prefix based on the
+ prefix length value below. Bits
+ beyond the prefix are ignored on
+ receipt and SHOULD be set to zero
+ on transmission.";
+ }
+ leaf v6-prefix-length {
+ type uint8;
+ description
+ "Length in bits of the IPv4 prefix";
+ }
+ leaf v6-flags {
+ type uint8;
+ description
+ "IPv6 address sub-object flags";
+ reference "RFC3209";
+ }
+ }
+ case label {
+ leaf value {
+ type uint32;
+ description "the label value";
+ }
+ leaf flags {
+ type uint8;
+ description
+ "Label sub-object flags";
+ reference "RFC3209";
+ }
+ description
+ "The Label ERO subobject";
+ }
+ }
+ }
+
+ /*identity route-usage-type {
+ description
+ "Base identity for route usage";
+ }
+
+ identity route-include-ero {
+ base route-usage-type;
+ description
+ "Include ERO from route";
+ }
+
+ identity route-exclude-ero {
+ base route-usage-type;
+ description
+ "Exclude ERO from route";
+ }
+
+ identity route-exclude-srlg {
+ base route-usage-type;
+ description
+ "Exclude SRLG from route";
+ }
+
+ identity path-metric-type {
+ description
+ "Base identity for path metric type";
+ }
+
+ identity path-metric-te {
+ base path-metric-type;
+ description
+ "TE path metric";
+ }
+
+ identity path-metric-igp {
+ base path-metric-type;
+ description
+ "IGP path metric";
+ }
+
+ identity path-tiebreaker-type {
+ description
+ "Base identity for path tie-breaker type";
+ }
+
+ identity path-tiebreaker-minfill {
+ base path-tiebreaker-type;
+ description
+ "Min-Fill LSP path placement";
+ }
+
+ identity path-tiebreaker-maxfill {
+ base path-tiebreaker-type;
+ description
+ "Max-Fill LSP path placement";
+ }
+
+ identity path-tiebreaker-randoom {
+ base path-tiebreaker-type;
+ description
+ "Random LSP path placement";
+ }
+
+ identity bidir-provisioning-mode {
+ description
+ "Base identity for bidirectional provisioning
+ mode.";
+ }
+
+ identity bidir-provisioning-single-sided {
+ base bidir-provisioning-mode;
+ description
+ "Single-sided bidirectional provioning mode";
+ }
+
+ identity bidir-provisioning-double-sided {
+ base bidir-provisioning-mode;
+ description
+ "Double-sided bidirectional provioning mode";
+ }
+
+ identity bidir-association-type {
+ description
+ "Base identity for bidirectional association type";
+ }
+
+ identity bidir-assoc-corouted {
+ base bidir-association-type;
+ description
+ "Co-routed bidirectional association type";
+ }
+
+ identity bidir-assoc-non-corouted {
+ base bidir-association-type;
+ description
+ "Non co-routed bidirectional association type";
+ }
+
+ identity resource-affinities-type {
+ description
+ "Base identity for resource affinities";
+ }
+
+ identity resource-aff-include-all {
+ base resource-affinities-type;
+ description
+ "The set of attribute filters associated with a
+ tunnel all of which must be present for a link
+ to be acceptable";
+ }
+
+ identity resource-aff-include-any {
+ base resource-affinities-type;
+ description
+ "The set of attribute filters associated with a
+ tunnel any of which must be present for a link
+ to be acceptable";
+ }
+
+ identity resource-aff-exclude-any {
+ base resource-affinities-type;
+ description
+ "The set of attribute filters associated with a
+ tunnel any of which renders a link unacceptable";
+ }*/
+
+ typedef admin-group {
+ type binary {
+// length 32;
+ }
+ description
+ "Administrative group/Resource class/Color.";
+ }
+
+ typedef extended-admin-group {
+ type binary;
+ description
+ "Extended administrative group/Resource class/Color.";
+ }
+
+ typedef admin-groups {
+ type union {
+ type admin-group;
+ type extended-admin-group;
+ }
+ description "TE administrative group derived type";
+ }
+
+ typedef srlg {
+ type uint32;
+ description "SRLG type";
+ }
+
+ /*identity path-computation-srlg-type {
+ description
+ "Base identity for SRLG path computation";
+ }
+
+ identity srlg-ignore {
+ base path-computation-srlg-type;
+ description
+ "Ignores SRLGs in path computation";
+ }
+
+ identity srlg-strict {
+ base path-computation-srlg-type;
+ description
+ "Include strict SRLG check in path computation";
+ }
+
+ identity srlg-preferred {
+ base path-computation-srlg-type;
+ description
+ "Include preferred SRLG check in path computation";
+ }
+
+ identity srlg-weighted {
+ base path-computation-srlg-type;
+ description
+ "Include weighted SRLG check in path computation";
+ }*/
+
+ typedef te-metric {
+ type uint32;
+ description
+ "TE link metric";
+ }
+
+ typedef topology-id {
+ type string {
+ pattern '/?([a-zA-Z0-9\-_.]+)(/[a-zA-Z0-9\-_.]+)*';
+ }
+ description
+ "An identifier for a topology.";
+ }
+
+ /**
+ * TE tunnel generic groupings
+ **/
+
+ /* Tunnel path selection parameters */
+ grouping tunnel-path-selection {
+ description
+ "Tunnel path selection properties grouping";
+ container path-selection {
+ description
+ "Tunnel path selection properties container";
+ leaf topology {
+ type te-types:topology-id;
+ description
+ "The tunnel path is computed using the specific
+ topology identified by this identifier";
+ }
+ leaf cost-limit {
+ type uint32 {
+ range "1..4294967295";
+ }
+ description
+ "The tunnel path cost limit.";
+ }
+ leaf hop-limit {
+ type uint8 {
+ range "1..255";
+ }
+ description
+ "The tunnel path hop limit.";
+ }
+ leaf metric-type {
+ type string;
+ description
+ "The tunnel path metric type.";
+ }
+ leaf tiebreaker-type {
+ type string;
+ description
+ "The tunnel path computation tie breakers.";
+ }
+ leaf ignore-overload {
+ type boolean;
+ description
+ "The tunnel path can traverse overloaded node.";
+ }
+ uses tunnel-path-affinities;
+ uses tunnel-path-srlgs;
+ }
+ }
+
+ grouping tunnel-path-affinities {
+ description
+ "Path affinities grouping";
+ container tunnel-path-affinities {
+ if-feature named-path-affinities;
+ description
+ "Path affinities container";
+ choice style {
+ description
+ "Path affinities representation style";
+ case values {
+ leaf value {
+ type uint32 {
+ range "0..4294967295";
+ }
+ description
+ "Affinity value";
+ }
+ leaf mask {
+ type uint32 {
+ range "0..4294967295";
+ }
+ description
+ "Affinity mask";
+ }
+ }
+ case named {
+ list constraints {
+ key "usage";
+ leaf usage {
+ type string;
+ description "Affinities usage";
+ }
+ container constraint {
+ description
+ "Container for named affinities";
+ list affinity-names {
+ key "name";
+ leaf name {
+ type string;
+ description
+ "Affinity name";
+ }
+ description
+ "List of named affinities";
+ }
+ }
+ description
+ "List of named affinity constraints";
+ }
+ }
+ }
+ }
+ }
+
+ grouping tunnel-path-srlgs {
+ description
+ "Path SRLG properties grouping";
+ container tunnel-path-srlgs {
+ description
+ "Path SRLG properties container";
+ choice style {
+ description
+ "Type of SRLG representation";
+ case values {
+ leaf usage {
+ type string;
+ description "SRLG usage";
+ }
+ leaf-list values {
+ type te-types:srlg;
+ description "SRLG value";
+ }
+ }
+ case named {
+ list constraints {
+ key "usage";
+ leaf usage {
+ type string;
+ description "SRLG usage";
+ }
+ container constraint {
+ description
+ "Container for named SRLG list";
+ list srlg-names {
+ key "name";
+ leaf name {
+ type string;
+ description
+ "The SRLG name";
+ }
+ description
+ "List named SRLGs";
+ }
+ }
+ description
+ "List of named SRLG constraints";
+ }
+ }
+ }
+ }
+ }
+
+ grouping tunnel-bidir-assoc-properties {
+ description
+ "TE tunnel associated bidirectional properties
+ grouping";
+ container bidirectional {
+ description
+ "TE tunnel associated bidirectional attributes.";
+ container association {
+ description
+ "Tunnel bidirectional association properties";
+ leaf id {
+ type uint16;
+ description
+ "The TE tunnel association identifier.";
+ }
+ leaf source {
+ type inet:ip-address;
+ description
+ "The TE tunnel association source.";
+ }
+ leaf global-source {
+ type inet:ip-address;
+ description
+ "The TE tunnel association global
+ source.";
+ }
+ leaf type {
+ type string;
+ description
+ "The TE tunnel association type.";
+ }
+ leaf provisioing {
+ type string;
+ description
+ "Describes the provisioning model of the
+ associated bidirectional LSP";
+ reference
+ "draft-ietf-teas-mpls-tp-rsvpte-ext-
+ associated-lsp, section-3.2";
+ }
+ }
+ }
+ }
+ /*** End of TE tunnel groupings ***/
+
+ /**
+ * TE interface generic groupings
+ **/
+ }
diff --git a/utils/yangutils/src/test/resources/interfileietf/ietf-yang-types.yang b/utils/yangutils/src/test/resources/interfileietf/ietf-yang-types.yang
new file mode 100644
index 0000000..9a543fa
--- /dev/null
+++ b/utils/yangutils/src/test/resources/interfileietf/ietf-yang-types.yang
@@ -0,0 +1,490 @@
+ module ietf-yang-types {
+
+ yang-version 1;
+
+ namespace
+ "urn:ietf:params:xml:ns:yang:ietf-yang-types";
+
+ prefix yang;
+
+ organization
+ "IETF NETMOD (NETCONF Data Modeling Language) Working Group";
+
+ contact
+ "WG Web: <http://tools.ietf.org/wg/netmod/>
+ WG List: <mailto:netmod@ietf.org>
+
+ WG Chair: David Kessens
+ <mailto:david.kessens@nsn.com>
+
+ WG Chair: Juergen Schoenwaelder
+ <mailto:j.schoenwaelder@jacobs-university.de>
+
+ Editor: Juergen Schoenwaelder
+ <mailto:j.schoenwaelder@jacobs-university.de>";
+
+ description
+ "This module contains a collection of generally useful derived
+ YANG data types.
+
+ 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:
+ - yang-identifier
+ - hex-string
+ - uuid
+ - dotted-quad";
+ reference
+ "RFC 6991: Common YANG Data Types";
+
+ }
+
+ revision "2010-09-24" {
+ description "Initial revision.";
+ reference
+ "RFC 6021: Common YANG Data Types";
+
+ }
+
+
+ typedef counter32 {
+ type uint32;
+ description
+ "The counter32 type represents a non-negative integer
+ that monotonically increases until it reaches a
+ maximum value of 2^32-1 (4294967295 decimal), when it
+ wraps around and starts increasing again from zero.
+
+ Counters have no defined 'initial' value, and thus, a
+ single value of a counter has (in general) no information
+ content. Discontinuities in the monotonically increasing
+ value normally occur at re-initialization of the
+ management system, and at other times as specified in the
+ description of a schema node using this type. If such
+ other times can occur, for example, the creation of
+ a schema node of type counter32 at times other than
+ re-initialization, then a corresponding schema node
+ should be defined, with an appropriate type, to indicate
+ the last discontinuity.
+
+ The counter32 type should not be used for configuration
+ schema nodes. A default statement SHOULD NOT be used in
+ combination with the type counter32.
+
+ In the value set and its semantics, this type is equivalent
+ to the Counter32 type of the SMIv2.";
+ reference
+ "RFC 2578: Structure of Management Information Version 2
+ (SMIv2)";
+
+ }
+
+ typedef zero-based-counter32 {
+ type counter32;
+ default "0";
+ description
+ "The zero-based-counter32 type represents a counter32
+ that has the defined 'initial' value zero.
+
+ A schema node of this type will be set to zero (0) on creation
+ and will thereafter increase monotonically until it reaches
+ a maximum value of 2^32-1 (4294967295 decimal), when it
+ wraps around and starts increasing again from zero.
+
+ Provided that an application discovers a new schema node
+ of this type within the minimum time to wrap, it can use the
+ 'initial' value as a delta. It is important for a management
+ station to be aware of this minimum time and the actual time
+ between polls, and to discard data if the actual time is too
+ long or there is no defined minimum time.
+
+ In the value set and its semantics, this type is equivalent
+ to the ZeroBasedCounter32 textual convention of the SMIv2.";
+ reference
+ "RFC 4502: Remote Network Monitoring Management Information
+ Base Version 2";
+
+ }
+
+ typedef counter64 {
+ type uint64;
+ description
+ "The counter64 type represents a non-negative integer
+ that monotonically increases until it reaches a
+ maximum value of 2^64-1 (18446744073709551615 decimal),
+ when it wraps around and starts increasing again from zero.
+
+ Counters have no defined 'initial' value, and thus, a
+ single value of a counter has (in general) no information
+ content. Discontinuities in the monotonically increasing
+ value normally occur at re-initialization of the
+ management system, and at other times as specified in the
+ description of a schema node using this type. If such
+ other times can occur, for example, the creation of
+ a schema node of type counter64 at times other than
+ re-initialization, then a corresponding schema node
+ should be defined, with an appropriate type, to indicate
+ the last discontinuity.
+
+ The counter64 type should not be used for configuration
+ schema nodes. A default statement SHOULD NOT be used in
+ combination with the type counter64.
+
+ In the value set and its semantics, this type is equivalent
+ to the Counter64 type of the SMIv2.";
+ reference
+ "RFC 2578: Structure of Management Information Version 2
+ (SMIv2)";
+
+ }
+
+ typedef zero-based-counter64 {
+ type counter64;
+ default "0";
+ description
+ "The zero-based-counter64 type represents a counter64 that
+ has the defined 'initial' value zero.
+
+
+
+
+ A schema node of this type will be set to zero (0) on creation
+ and will thereafter increase monotonically until it reaches
+ a maximum value of 2^64-1 (18446744073709551615 decimal),
+ when it wraps around and starts increasing again from zero.
+
+ Provided that an application discovers a new schema node
+ of this type within the minimum time to wrap, it can use the
+ 'initial' value as a delta. It is important for a management
+ station to be aware of this minimum time and the actual time
+ between polls, and to discard data if the actual time is too
+ long or there is no defined minimum time.
+
+ In the value set and its semantics, this type is equivalent
+ to the ZeroBasedCounter64 textual convention of the SMIv2.";
+ reference
+ "RFC 2856: Textual Conventions for Additional High Capacity
+ Data Types";
+
+ }
+
+ typedef gauge32 {
+ type uint32;
+ description
+ "The gauge32 type represents a non-negative integer, which
+ may increase or decrease, but shall never exceed a maximum
+ value, nor fall below a minimum value. The maximum value
+ cannot be greater than 2^32-1 (4294967295 decimal), and
+ the minimum value cannot be smaller than 0. The value of
+ a gauge32 has its maximum value whenever the information
+ being modeled is greater than or equal to its maximum
+ value, and has its minimum value whenever the information
+ being modeled is smaller than or equal to its minimum value.
+ If the information being modeled subsequently decreases
+ below (increases above) the maximum (minimum) value, the
+ gauge32 also decreases (increases).
+
+ In the value set and its semantics, this type is equivalent
+ to the Gauge32 type of the SMIv2.";
+ reference
+ "RFC 2578: Structure of Management Information Version 2
+ (SMIv2)";
+
+ }
+
+ typedef gauge64 {
+ type uint64;
+ description
+ "The gauge64 type represents a non-negative integer, which
+ may increase or decrease, but shall never exceed a maximum
+ value, nor fall below a minimum value. The maximum value
+ cannot be greater than 2^64-1 (18446744073709551615), and
+ the minimum value cannot be smaller than 0. The value of
+ a gauge64 has its maximum value whenever the information
+ being modeled is greater than or equal to its maximum
+ value, and has its minimum value whenever the information
+ being modeled is smaller than or equal to its minimum value.
+ If the information being modeled subsequently decreases
+ below (increases above) the maximum (minimum) value, the
+ gauge64 also decreases (increases).
+
+ In the value set and its semantics, this type is equivalent
+ to the CounterBasedGauge64 SMIv2 textual convention defined
+ in RFC 2856";
+ reference
+ "RFC 2856: Textual Conventions for Additional High Capacity
+ Data Types";
+
+ }
+
+ typedef object-identifier {
+ type string {
+ pattern
+ '(([0-1](\.[1-3]?[0-9]))|(2\.(0|([1-9]\d*))))(\.(0|([1-9]\d*)))*';
+ }
+ description
+ "The object-identifier type represents administratively
+ assigned names in a registration-hierarchical-name tree.
+
+ Values of this type are denoted as a sequence of numerical
+ non-negative sub-identifier values. Each sub-identifier
+ value MUST NOT exceed 2^32-1 (4294967295). Sub-identifiers
+ are separated by single dots and without any intermediate
+ whitespace.
+
+ The ASN.1 standard restricts the value space of the first
+ sub-identifier to 0, 1, or 2. Furthermore, the value space
+ of the second sub-identifier is restricted to the range
+ 0 to 39 if the first sub-identifier is 0 or 1. Finally,
+ the ASN.1 standard requires that an object identifier
+ has always at least two sub-identifiers. The pattern
+ captures these restrictions.
+
+ Although the number of sub-identifiers is not limited,
+ module designers should realize that there may be
+ implementations that stick with the SMIv2 limit of 128
+ sub-identifiers.
+
+ This type is a superset of the SMIv2 OBJECT IDENTIFIER type
+ since it is not restricted to 128 sub-identifiers. Hence,
+ this type SHOULD NOT be used to represent the SMIv2 OBJECT
+ IDENTIFIER type; the object-identifier-128 type SHOULD be
+ used instead.";
+ reference
+ "ISO9834-1: Information technology -- Open Systems
+ Interconnection -- Procedures for the operation of OSI
+ Registration Authorities: General procedures and top
+ arcs of the ASN.1 Object Identifier tree";
+
+ }
+
+ typedef object-identifier-128 {
+ type object-identifier {
+ pattern '\d*(\.\d*){1,127}';
+ }
+ description
+ "This type represents object-identifiers restricted to 128
+ sub-identifiers.
+
+ In the value set and its semantics, this type is equivalent
+ to the OBJECT IDENTIFIER type of the SMIv2.";
+ reference
+ "RFC 2578: Structure of Management Information Version 2
+ (SMIv2)";
+
+ }
+
+ typedef yang-identifier {
+ type string {
+ length "1..max";
+ pattern '[a-zA-Z_][a-zA-Z0-9\-_.]*';
+ pattern
+ '.|..|[^xX].*|.[^mM].*|..[^lL].*';
+ }
+ description
+ "A YANG identifier string as defined by the 'identifier'
+ rule in Section 12 of RFC 6020. An identifier must
+ start with an alphabetic character or an underscore
+ followed by an arbitrary sequence of alphabetic or
+ numeric characters, underscores, hyphens, or dots.
+
+ A YANG identifier MUST NOT start with any possible
+ combination of the lowercase or uppercase character
+ sequence 'xml'.";
+ reference
+ "RFC 6020: YANG - A Data Modeling Language for the Network
+ Configuration Protocol (NETCONF)";
+
+ }
+
+ 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})';
+ }
+ description
+ "The date-and-time type is a profile of the ISO 8601
+ standard for representation of dates and times using the
+ Gregorian calendar. The profile is defined by the
+ date-time production in Section 5.6 of RFC 3339.
+
+ The date-and-time type is compatible with the dateTime XML
+ schema type with the following notable exceptions:
+
+ (a) The date-and-time type does not allow negative years.
+
+ (b) The date-and-time time-offset -00:00 indicates an unknown
+ time zone (see RFC 3339) while -00:00 and +00:00 and Z
+ all represent the same time zone in dateTime.
+
+ (c) The canonical format (see below) of data-and-time values
+ differs from the canonical format used by the dateTime XML
+ schema type, which requires all times to be in UTC using
+ the time-offset 'Z'.
+
+ This type is not equivalent to the DateAndTime textual
+ convention of the SMIv2 since RFC 3339 uses a different
+ separator between full-date and full-time and provides
+ higher resolution of time-secfrac.
+
+ The canonical format for date-and-time values with a known time
+ zone uses a numeric time zone offset that is calculated using
+ the device's configured known offset to UTC time. A change of
+ the device's offset to UTC time will cause date-and-time values
+ to change accordingly. Such changes might happen periodically
+ in case a server follows automatically daylight saving time
+ (DST) time zone offset changes. The canonical format for
+ date-and-time values with an unknown time zone (usually
+ referring to the notion of local time) uses the time-offset
+ -00:00.";
+ reference
+ "RFC 3339: Date and Time on the Internet: Timestamps
+ RFC 2579: Textual Conventions for SMIv2
+ XSD-TYPES: XML Schema Part 2: Datatypes Second Edition";
+
+ }
+
+ typedef timeticks {
+ type uint32;
+ description
+ "The timeticks type represents a non-negative integer that
+ represents the time, modulo 2^32 (4294967296 decimal), in
+ hundredths of a second between two epochs. When a schema
+ node is defined that uses this type, the description of
+ the schema node identifies both of the reference epochs.
+
+ In the value set and its semantics, this type is equivalent
+ to the TimeTicks type of the SMIv2.";
+ reference
+ "RFC 2578: Structure of Management Information Version 2
+ (SMIv2)";
+
+ }
+
+ typedef timestamp {
+ type timeticks;
+ description
+ "The timestamp type represents the value of an associated
+ timeticks schema node at which a specific occurrence
+ happened. The specific occurrence must be defined in the
+ description of any schema node defined using this type. When
+ the specific occurrence occurred prior to the last time the
+ associated timeticks attribute was zero, then the timestamp
+ value is zero. Note that this requires all timestamp values
+ to be reset to zero when the value of the associated timeticks
+ attribute reaches 497+ days and wraps around to zero.
+
+ The associated timeticks schema node must be specified
+ in the description of any schema node using this type.
+
+ In the value set and its semantics, this type is equivalent
+ to the TimeStamp textual convention of the SMIv2.";
+ reference
+ "RFC 2579: Textual Conventions for SMIv2";
+
+ }
+
+ typedef phys-address {
+ type string {
+ pattern
+ '([0-9a-fA-F]{2}(:[0-9a-fA-F]{2})*)?';
+ }
+ description
+ "Represents media- or physical-level addresses represented
+ as a sequence octets, each octet represented by two hexadecimal
+ numbers. Octets are separated by colons. The canonical
+ representation uses lowercase characters.
+
+ In the value set and its semantics, this type is equivalent
+ to the PhysAddress textual convention of the SMIv2.";
+ reference
+ "RFC 2579: Textual Conventions for SMIv2";
+
+ }
+
+ typedef mac-address {
+ type string {
+ pattern
+ '[0-9a-fA-F]{2}(:[0-9a-fA-F]{2}){5}';
+ }
+ description
+ "The mac-address type represents an IEEE 802 MAC address.
+ The canonical representation uses lowercase characters.
+
+ In the value set and its semantics, this type is equivalent
+ to the MacAddress textual convention of the SMIv2.";
+ reference
+ "IEEE 802: IEEE Standard for Local and Metropolitan Area
+ Networks: Overview and Architecture
+ RFC 2579: Textual Conventions for SMIv2";
+
+ }
+
+ typedef xpath1.0 {
+ type string;
+ description
+ "This type represents an XPATH 1.0 expression.
+
+ When a schema node is defined that uses this type, the
+ description of the schema node MUST specify the XPath
+ context in which the XPath expression is evaluated.";
+ reference
+ "XPATH: XML Path Language (XPath) Version 1.0";
+
+ }
+
+ typedef hex-string {
+ type string {
+ pattern
+ '([0-9a-fA-F]{2}(:[0-9a-fA-F]{2})*)?';
+ }
+ description
+ "A hexadecimal string with octets represented as hex digits
+ separated by colons. The canonical representation uses
+ lowercase characters.";
+ }
+
+ typedef uuid {
+ type string {
+ pattern
+ '[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}';
+ }
+ description
+ "A Universally Unique IDentifier in the string representation
+ defined in RFC 4122. The canonical representation uses
+ lowercase characters.
+
+ The following is an example of a UUID in string representation:
+ f81d4fae-7dec-11d0-a765-00a0c91e6bf6
+ ";
+ reference
+ "RFC 4122: A Universally Unique IDentifier (UUID) URN
+ Namespace";
+
+ }
+
+ typedef dotted-quad {
+ 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])';
+ }
+ description
+ "An unsigned 32-bit number expressed in the dotted-quad
+ notation, i.e., four octets written as decimal numbers
+ and separated with the '.' (full stop) character.";
+ }
+ } // module ietf-yang-types
+