TEAS Working Group T. Saad, Ed. Internet-Draft R. Gandhi Intended status: Standards Track Cisco Systems Inc Expires: January 6, 2017 X. Liu Ericsson V. Beeram Juniper Networks H. Shah Ciena I. Bryskin X. Chen Huawei Technologies R. Jones Brocade B. Wen Comcast July 05, 2016 A YANG Data Model for Traffic Engineering Tunnels and Interfaces draft-ietf-teas-yang-te-04 Abstract This document defines a YANG data model for the configuration and management of Traffic Engineering (TE) interfaces, tunnels and Label Switched Paths (LSPs). The model is divided into YANG modules that classify data into generic, device-specific, technology agnostic, and technology-specific elements. The model also includes module(s) that contain reusable TE data types and data groupings. This model covers the configuration, operational state, remote procedural calls, and event notifications data. Status of This Memo This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79. Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet- Drafts is at http://datatracker.ietf.org/drafts/current/. Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress." Saad, et al. Expires January 6, 2017 [Page 1] Internet-Draft TE YANG Data Model July 2016 This Internet-Draft will expire on January 6, 2017. Copyright Notice Copyright (c) 2016 IETF Trust and the persons identified as the document authors. All rights reserved. This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3 1.1. Terminology . . . . . . . . . . . . . . . . . . . . . . . 3 1.2. Tree Diagram . . . . . . . . . . . . . . . . . . . . . . 3 1.3. Prefixes in Data Node Names . . . . . . . . . . . . . . . 4 1.4. Open Issues and Next Steps . . . . . . . . . . . . . . . 5 1.4.1. TE Technology Models . . . . . . . . . . . . . . . . 5 1.4.2. State Data Organization . . . . . . . . . . . . . . . 6 2. Model Overview . . . . . . . . . . . . . . . . . . . . . . . 6 2.1. Module(s) Relationship . . . . . . . . . . . . . . . . . 7 2.2. Design Considerations . . . . . . . . . . . . . . . . . . 9 2.3. Optional Features . . . . . . . . . . . . . . . . . . . . 10 2.4. Configuration Inheritance . . . . . . . . . . . . . . . . 10 2.5. Routing Instance Support . . . . . . . . . . . . . . . . 10 3. TE Generic Model Organization . . . . . . . . . . . . . . . . 10 3.1. Global Configuration and State Data . . . . . . . . . . . 12 3.2. Interfaces Configuration and State Data . . . . . . . . . 13 3.3. Tunnels Configuration and State Data . . . . . . . . . . 14 3.4. TE LSPs State Data . . . . . . . . . . . . . . . . . . . 15 3.5. Global RPC Data . . . . . . . . . . . . . . . . . . . . . 15 3.6. Interface RPC Data . . . . . . . . . . . . . . . . . . . 15 3.7. Tunnel RPC Data . . . . . . . . . . . . . . . . . . . . . 15 3.8. Global Notifications Data . . . . . . . . . . . . . . . . 15 3.9. Interfaces Notifications Data . . . . . . . . . . . . . . 16 3.10. Tunnel Notification Data . . . . . . . . . . . . . . . . 16 4. TE Generic and Helper YANG Modules . . . . . . . . . . . . . 31 5. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 100 6. Security Considerations . . . . . . . . . . . . . . . . . . . 101 7. Acknowledgement . . . . . . . . . . . . . . . . . . . . . . . 101 8. References . . . . . . . . . . . . . . . . . . . . . . . . . 102 Saad, et al. Expires January 6, 2017 [Page 2] Internet-Draft TE YANG Data Model July 2016 8.1. Normative References . . . . . . . . . . . . . . . . . . 102 8.2. Informative References . . . . . . . . . . . . . . . . . 103 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 103 1. Introduction YANG [RFC6020] is a data definition language that was introduced to define the contents of a conceptual data store that allows networked devices to be managed using NETCONF [RFC6241]. YANG is proving relevant beyond its initial confines, as bindings to other interfaces (e.g. ReST) and encoding other than XML (e.g. JSON) are being defined. Furthermore, YANG data models can be used as the basis of implementation for other interface, such as CLI and programmatic APIs. This document covers the YANG data model for the TE generic, TE device-specific, TE MPLS technology, TE Segment Routing (SR) data models. It also describes helper modules that define TE generic grouping(s) and data types that can be imported by other modules whenever necessary.. The document defines the high-level relationship between these modules and to other external protocol modules. It is expected that other data plane technology model(s) will augment the TE generic model. Also, the generic model does not include any signaling protocol specific data, and it is expected other TE signaling protocol modules (e.g. RSVP-TE ([RFC3209], [RFC3473]), and Segment- Routing TE (SR-TE)) will augment the TE generic model. 1.1. Terminology In this document, the key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" are to be interpreted as described in BCP 14, RFC 2119 [RFC2119]. 1.2. Tree Diagram A simplified graphical representation of the data model is presented in each section of the model. The following notations are used for the YANG model data tree representation. Saad, et al. Expires January 6, 2017 [Page 3] Internet-Draft TE YANG Data Model July 2016 is one of: + for current x for deprecated o for obsolete is one of: rw for read-write configuration data ro for read-only non-configuration data -x for execution rpcs -n for notifications is the name of the node If the node is augmented into the tree from another module, its name is printed as : is one of: ? for an optional leaf or node ! for a presence container * for a leaf-list or list Brackets [] for a list's keys Curly braces {} for optional feature that make node conditional Colon : for marking case nodes Ellipses ("...") subtree contents not shown Parentheses enclose choice and case nodes, and case nodes are also marked with a colon (":"). is the name of the type for leafs and leaf-lists. 1.3. Prefixes in Data Node Names In this document, names of data nodes and other data model objects are prefixed using the standard prefix associated with the corresponding YANG imported modules, as shown in Table 1. +--------+-----------------+-----------+ | Prefix | YANG module | Reference | +--------+-----------------+-----------+ | yang | ietf-yang-types | [RFC6991] | | inet | ietf-inet-types | [RFC6991] | +--------+-----------------+-----------+ Table 1: Prefixes and corresponding YANG modules Saad, et al. Expires January 6, 2017 [Page 4] Internet-Draft TE YANG Data Model July 2016 1.4. Open Issues and Next Steps This section describes the number of open issues that are under consideration. As issues are resolved, this section will be updated to reflect this and be left there for reference. It is expected that all the issues in this section will be addressed before the document will be ready for final publication. 1.4.1. TE Technology Models This document describes the generic TE YANG data model that is independent of any dataplane technology. One of the design objectives is to allow specific data plane technologies models to reuse the generic TE data model and possibly augment it with technology specific data model(s).There are multiple options being considered to achieve this: o The generic TE model, including the lists of TE tunnels, LSPs, and interfaces is defined and rooted at the top of the YANG tree. Specific leaf(s) under the TE tunnel, LSP, or interface identify the technology layer that it belongs to. This approach implies a single list for each of TE tunnel(s), LSP(s), and interface(s) in the model carries elements of different technology layers. o An instance of the generic TE YANG model can be mounted in the YANG tree once for each TE technology layer(s). This approach provides separation of elements belonging to different technology layers into separate lists per layer in the data model. For example, the proposal(s) in [I-D.bjorklund-netmod-structural-mount] and [I-D.clemm-netmod-mount] allow for this capability by "mounting" the YANG model at a specific target. o The generic TE data node(s) and TE list(s) for tunnels, LSPs, and interfaces are defined as grouping(s) in a separate module. The specific technology layer imports the generic TE groupings and uses them their respective technology specific module. The options above are currently under investigation to determine the best suited approach. Finally, the TE generic model does not include signaling protocol data. It is expected TE signaling protocol modules defined in other document(s) that cover RSVP-TE ([RFC3209], [RFC3473]), and Segment- Routing TE (SR-TE) will augment the TE generic model. Saad, et al. Expires January 6, 2017 [Page 5] Internet-Draft TE YANG Data Model July 2016 1.4.2. State Data Organization Pure state data (for example, ephemeral or protocol derived state objects) can be modeled using one of the options below: o Contained inside a read-write container, in a "state" sub- container, as shown in Figure 3 o Contained inside a separate read-only container, for example a lsps-state container The first option allows for placing configuration data in the read- write "config" sub-container, and by placing state data under the read-only "state" sub-container of the parent container. However, when using approach for ephemeral or purely derived state (e.g. auto tunnels), and since in this case the state sub-container hangs off a read-write parent container, it will be possible to delete or modify the parent container and subsequently the ephemeral read-only state contained within (see Figure 3). The second option entails defining a new read-only parent container in the model (e.g. neighbors-state) that holds the data. This revision of the draft adopts the first option for ephemeral or state derived tunnels. Further discussions on this topic are expected to close on the best choice to adopt. 2. Model Overview The data model defined in this document covers the core TE features that are commonly supported across different vendor implementations. The support of extended or vendor specific TE feature(s) are expected to be in augmentations to the data models defined in this document. Throughout the model, the approach described in [I-D.openconfig-netmod-opstate] is adopted to represent data pertaining to configuration intended state, applied state and derived state data elements. Each container in the model hold a "config" and "state" sub-container. The "config" sub-container is used to represent the intended configurable parameters, and the state sub- container is used to represent both the applied configurable parameters and any derived state, such as counters or statistics information. The decision to use this approach was made to better align with the MPLS consolidated model in [I-D.openconfig-mpls-consolidated-model] and maximize reusability of groupings defined in this document and allow for possible convergence between the two models. Saad, et al. Expires January 6, 2017 [Page 6] Internet-Draft TE YANG Data Model July 2016 2.1. Module(s) Relationship The TE generic model defined in "ietf-te.yang" covers the building blocks that are device independent and agnostic of any specific technology or control plane instances. The TE device model defined in "ietf-te-device.yang" augments the TE generic model and covers data that is specific to a device - for example, attributes of TE interfaces, or TE timers that are local to a TE node. The TE data relevant to a specific instantiations of data plane technology exists in a separate YANG module(s) that augment the TE generic model. For example, the MPLS-TE module "ietf-te-mpls.yang" is defined in Figure 10 and augments the TE generic model as shown in Figure 1. Similarly, the module "ietf-te-sr-mpls.yang" models the Segment Routing (SR) TE specific data and augments the TE generic and MPLS-TE model(s). The TE data relevant to a TE specific signaling protocol instantiation is outside the scope and is covered in other documents. For example, the RSVP-TE [RFC3209] YANG model augmentation of the TE model is covered in [I-D.ietf-teas-yang-rsvp], and other signaling protocol model(s) (e.g. for Segment-Routing TE) are expected to also augment the TE generic model. Saad, et al. Expires January 6, 2017 [Page 7] Internet-Draft TE YANG Data Model July 2016 ^: import TE generic +---------+ o: augment module | ietf-te |o-------------+ +---------+ \ | o \ \ | |\ \ \ | | \ V \ | | +----------------+ \ | | | ietf-te-device | TE device module | | +----------------+ \ | | o o \ | | / \ \ v | / V V +--------------+ +---------------+ RSVP-TE module | ietf-rsvp-te |o . | ietf-te-mpls | +--------------+ \ +---------------+ ^ \ o | \ +-----------------+ | \ | ietf-te-sr-mpls | | \ +-----------------+ | \ o +-------------------+ +-----------+ | ietf-rsvp-otn-te | RSVP module | ietf-rsvp | +-------------------+ +-----------+ RSVP-TE with OTN extensions (shown for illustration not in this document) Figure 1: Relationship of TE module(s) with other signaling protocol modules Saad, et al. Expires January 6, 2017 [Page 8] Internet-Draft TE YANG Data Model July 2016 +---------+ | ietf-te | ^: import +---------+ o: augment import ^ | | +---------------+ | ietf-te-types | +---------------+ o o | \ | \ +-------------------+ +-------------------+ | ietf-te-mpls-types | | ietf-te-otn-types | +-------------------+ +-------------------+ (shown for illustration not in this document) Figure 2: Relationship between generic and technology specific TE types modules 2.2. Design Considerations The following considerations with respect data organization are taken into account: o reusable data elements are grouped into separate TE types module(s) that can be readily imported by other modules whenever needed o reusable TE data types that are data plane independent are grouped in the TE generic types module "ietf-te-types.yang" o reusable TE data elements that are data plane specific (e.g. packet MPLS or switching technologies as defined in [RFC3473]) are expected to be grouped in a technology- specific types module, e.g. "ietf-te-mpls-types.yang". It is expected that technology specific types will augment TE generic types as shown in Figure 2 o The TE generic model contains device independent data and can be used to model data off a device (e.g. on a controller). The TE data that is device-specific are grouped in a separate module as shown in Figure 1. o In general, little information in the model is designated as "mandatory", to allow freedom to vendors to adapt the data model to their specific product implementation. Saad, et al. Expires January 6, 2017 [Page 9] Internet-Draft TE YANG Data Model July 2016 2.3. Optional Features Optional features that are beyond the base TE model and are left to the specific vendor to decide support using vendor model augmentation and/or using feature checks. This model declares a number of TE functions as features (such as P2MP-TE, soft-preemption etc.). 2.4. Configuration Inheritance The defined data model supports configuration inheritance for tunnels, paths, and interfaces. Data elements defined in the main container (e.g. that encompasses the list of tunnels, interfaces, or paths) are assumed to apply equally to all elements of the list, unless overridden explicitly for a certain element of a list (e.g. a tunnel, interface or path). 2.5. Routing Instance Support There two main popular types of routing protocol configuration that vendors may support: o protocol centric - all the protocol related configuration is contained within the protocol itself. Configuration belonging to multiple instances of the protocol running in different routing- instances (e.g. VRFs) are contained under the default routing instance [I-D.ietf-netmod-routing-cfg]: o VRF centric - all the protocol related configuration for a routing- instance is contained within this routing-instance. On-going discussions within the IETF community have converged on adopting the VRF centric approach. The proposed model in this document adheres to this conclusion. 3. TE Generic Model Organization This model covers configuration, state, RPC, and notifications data pertaining to TE global parameters, interfaces, and tunnels parameters. The container "te" is the top level container in this data model. The presence of this container is expected to enable TE function system wide. The approach described in [I-D.openconfig-netmod-opstate] allows for modeling the intended and respective applied and derived state. The Saad, et al. Expires January 6, 2017 [Page 10] Internet-Draft TE YANG Data Model July 2016 TE state data in this model falls into one of the following categories: o State corresponding to applied configuration o State corresponding to derived state, counters, stats, etc. o State corresponding to ephemeral data (e.g. LSPs, etc.) Data for the first two categories are contained under the respective "state" sub-container of the intended (e.g. tunnel). The last category falls under a separate - e.g. lsps-state- container that contains the attributes of a purely derived state data (e.g. ephemeral objects) that are not associated with any configuration as shown in Figure 3. module: ietf-te +--rw te! +--rw globals +-- rw config <> . +-- ro state <> <> . . +--rw tunnels +-- rw config <> . +-- ro state <> <> . . rpcs: +---x globals-rpc +---x tunnels-rpc notifications: +---n globals-notif +---n tunnels-notif Figure 3: TE generic highlevel model view Saad, et al. Expires January 6, 2017 [Page 11] Internet-Draft TE YANG Data Model July 2016 3.1. Global Configuration and State Data This branch of the data model covers configurations that control TE features behavior system-wide, and its respective state. Examples of such configuration data are: o Table of named SRLG mappings o Table of named (extended) administrative groups mappings o Table of named explicit paths to be referenced by TE tunnels o Table of named path-constraints sets o Auto-bandwidth global parameters o TE diff-serve TE-class maps o System-wide capabilities for LSP reoptimization (included in the TE device model) * Reoptimization timers (periodic interval, LSP installation and cleanup) o System-wide capabilities for TE state flooding (included in the TE device model) * Periodic flooding interval o Global capabilities that affect the originating, traversing and terminating LSPs. For example: * Path selection parameters (e.g. metric to optimize, etc.) * Path or segment protection parameters The approach described in [I-D.openconfig-netmod-opstate] is utilized to include the global state data under the global "state" sub- container as shown in Figure 3. Examples of such states are: o Global statistics (signaling, admission, preemption, flooding) o Global counters (number of tunnels/LSPs/interfaces) Saad, et al. Expires January 6, 2017 [Page 12] Internet-Draft TE YANG Data Model July 2016 3.2. Interfaces Configuration and State Data This branch of the model covers configuration and state data items, corresponding to TE interfaces that are present on a specific device. A new module is introduced that holds the TE device specific properties. Examples of TE interface properties are: o Maximum reservable bandwidth, bandwidth constraints (BC) o Flooding parameters * Flooding intervals and threshold values o Fast reroute backup tunnel properties (such as static, auto- tunnel) o interface attributes * (Extended) administrative groups * SRLG values * TE metric value The state corresponding to the TE interfaces applied configuration, protocol derived state, and stats and counters all fall under the interface "state" sub-container as shown in Figure 4 below: module: ietf-te +--rw te! +--rw interfaces . +-- rw te-attributes +-- rw config <> . +-- ro state <> <> Figure 4: TE interface state This covers state data for TE interfaces such as: o Bandwidth information: maximum bandwidth, available bandwidth at different priorities and for each class-type (CT) Saad, et al. Expires January 6, 2017 [Page 13] Internet-Draft TE YANG Data Model July 2016 o List of admitted LSPs * Name, bandwidth value and pool, time, priority o Statistics: state counters, flooding counters, admission counters (accepted/rejected), preemption counters o Adjacency information * Neighbor address * Metric value 3.3. Tunnels Configuration and State Data This branch of the model covers intended, and corresponding applied configuration for tunnels. As well, it holds possible derived state pertaining to TE tunnels. The approach described in [I-D.openconfig-netmod-opstate] is utilized for the inclusion of operational and statistical data as shown in Figure 5. module: ietf-te +--rw te! +--rw tunnels . +-- rw config <> . +-- ro state <> <> Figure 5: TE interface state tree Examples of tunnel configuration date for TE tunnels: o Name and type (e.g. P2P, P2MP) of the TE tunnel o Admin-state o Set of primary and corresponding secondary paths o Routing usage (auto-route announce, forwarding adjacency) o Policy based routing (PBR) parameters Saad, et al. Expires January 6, 2017 [Page 14] Internet-Draft TE YANG Data Model July 2016 3.4. TE LSPs State Data TE LSPs are derived state data that is usually instantiated via signaling protocols. TE LSPs exists on routers as ingress (starting point of LSP), transit (mid-point of LSP ), or egress (termination point of the LSP). TE LSPs are distinguished by the 5 tuple, and LSP type (P2P or P2MP). In the model, the nodes holding LSPs data exist in the read-only lsps-state list as show in Figure 6. 3.5. Global RPC Data This branch of the model covers system-wide RPC execution data to trigger actions and optionally expect responses. Examples of such TE commands are to: o Clear global TE statistics of various features 3.6. Interface RPC Data This collection of data in the model defines TE interface RPC execution commands. Examples of these are to: o Clear TE statistics for all or for individual TE interfaces o Trigger immediate flooding for one or all TE interfaces 3.7. Tunnel RPC Data This branch of the model covers TE tunnel RPC execution data to trigger actions and optionally expect responses. Examples of such TE commands are: o Clear statistics for all or for individual tunnels o Trigger the tear and setup of existing tunnels or LSPs. 3.8. Global Notifications Data This branch of the model covers system-wide notifications data. The node notifies the registered events to the server using the defined notification messages. Example of such global TE events are: o Backup tunnel FRR active and not-active state transition events Saad, et al. Expires January 6, 2017 [Page 15] Internet-Draft TE YANG Data Model July 2016 3.9. Interfaces Notifications Data This branch of the model covers TE interfaces related notifications data. The TE interface configuration is used for specific events registration. Notifications are sent for registered events to the server. Example events for TE interfaces are: o Interface creation and deletion o Interface state transitions o (Soft) preemption triggers o Fast reroute activation 3.10. Tunnel Notification Data This branch of the model covers TE tunnels related notifications data. The TE tunnels configuration is used for specific events registration. Notifications are sent for registered events to the server. Example events for TE tunnels are: o Tunnel creation and deletion events o Tunnel state up/down changes o Tunnel state reoptimization changes Figure Figure 6 below shows the tree diagram of the YANG model defined in modules: ietf-te.yang, ietf-te-device.yang, ietf-te- mpls.yang, and ietf-te-sr.yang. module: ietf-te +--rw te! +--rw globals | +--rw config | | +--rw named-admin-groups* [name] {te-types:extended-admin-groups, te-types:named-extended-admin-groups}? | | | +--rw name string | | | +--rw bit-position? uint32 | | +--rw named-srlgs* [name] {te-types:named-srlg-groups}? | | | +--rw name string | | | +--rw group? te-types:srlg | | +--rw named-explicit-paths* [name] | | | +--rw name string | | | +--rw explicit-route-objects* [index] | | | +--rw index uint8 Saad, et al. Expires January 6, 2017 [Page 16] Internet-Draft TE YANG Data Model July 2016 | | | +--rw explicit-route-usage? identityref | | | +--rw (type)? | | | +--:(ipv4-address) | | | | +--rw v4-address? inet:ipv4-address | | | | +--rw v4-prefix-length? uint8 | | | | +--rw v4-loose? boolean | | | +--:(ipv6-address) | | | | +--rw v6-address? inet:ipv6-address | | | | +--rw v6-prefix-length? uint8 | | | | +--rw v6-loose? boolean | | | +--:(as-number) | | | | +--rw as-number? uint16 | | | +--:(unnumbered-link) | | | | +--rw router-id? inet:ip-address | | | | +--rw interface-id? uint32 | | | +--:(label) | | | +--rw value? uint32 | | +--rw named-constraints* [name] {te-types:named-path-constraints}? | | | +--rw name string | | | +--rw path-selection | | | | +--rw topology-id? te-types:te-topology-id | | | | +--rw cost-limit? uint32 | | | | +--rw hop-limit? uint8 | | | | +--rw metric-type? identityref | | | | +--rw tiebreaker-type? identityref | | | | +--rw ignore-overload? boolean | | | | +--rw tunnel-path-affinities {named-path-affinities}? | | | | | +--rw (style)? | | | | | +--:(values) | | | | | | +--rw value? uint32 | | | | | | +--rw mask? uint32 | | | | | +--:(named) | | | | | +--rw constraints* [usage] | | | | | +--rw usage identityref | | | | | +--rw constraint | | | | | +--rw affinity-names* [name] | | | | | +--rw name string | | | | +--rw tunnel-path-srlgs | | | | +--rw (style)? | | | | +--:(values) | | | | | +--rw usage? identityref | | | | | +--rw values* te-types:srlg | | | | +--:(named) | | | | +--rw constraints* [usage] | | | | +--rw usage identityref | | | | +--rw constraint Saad, et al. Expires January 6, 2017 [Page 17] Internet-Draft TE YANG Data Model July 2016 | | | | +--rw srlg-names* [name] | | | | +--rw name string | | | +--rw te-sr-mpls:adjacency-protection? identityref | | +--rw te-dev:lsp-install-interval? uint32 | | +--rw te-dev:lsp-cleanup-interval? uint32 | | +--rw te-dev:lsp-invalidation-interval? uint32 | +--ro state | +--ro named-admin-groups* [name] {te-types:extended-admin-groups, te-types:named-extended-admin-groups}? | | +--ro name string | | +--ro bit-position? uint32 | +--ro named-srlgs* [name] {te-types:named-srlg-groups}? | | +--ro name string | | +--ro group? te-types:srlg | +--ro named-explicit-paths* [name] | | +--ro name string | | +--ro explicit-route-objects* [index] | | +--ro index uint8 | | +--ro explicit-route-usage? identityref | | +--ro (type)? | | +--:(ipv4-address) | | | +--ro v4-address? inet:ipv4-address | | | +--ro v4-prefix-length? uint8 | | | +--ro v4-loose? boolean | | +--:(ipv6-address) | | | +--ro v6-address? inet:ipv6-address | | | +--ro v6-prefix-length? uint8 | | | +--ro v6-loose? boolean | | +--:(as-number) | | | +--ro as-number? uint16 | | +--:(unnumbered-link) | | | +--ro router-id? inet:ip-address | | | +--ro interface-id? uint32 | | +--:(label) | | +--ro value? uint32 | +--ro named-constraints* [name] {te-types:named-path-constraints}? | | +--ro name string | | +--ro path-selection | | | +--ro topology-id? te-types:te-topology-id | | | +--ro cost-limit? uint32 | | | +--ro hop-limit? uint8 | | | +--ro metric-type? identityref | | | +--ro tiebreaker-type? identityref | | | +--ro ignore-overload? boolean | | | +--ro tunnel-path-affinities {named-path-affinities}? Saad, et al. Expires January 6, 2017 [Page 18] Internet-Draft TE YANG Data Model July 2016 | | | | +--ro (style)? | | | | +--:(values) | | | | | +--ro value? uint32 | | | | | +--ro mask? uint32 | | | | +--:(named) | | | | +--ro constraints* [usage] | | | | +--ro usage identityref | | | | +--ro constraint | | | | +--ro affinity-names* [name] | | | | +--ro name string | | | +--ro tunnel-path-srlgs | | | +--ro (style)? | | | +--:(values) | | | | +--ro usage? identityref | | | | +--ro values* te-types:srlg | | | +--:(named) | | | +--ro constraints* [usage] | | | +--ro usage identityref | | | +--ro constraint | | | +--ro srlg-names* [name] | | | +--ro name string | | +--ro te-sr-mpls:adjacency-protection? identityref | +--ro te-dev:lsp-install-interval? uint32 | +--ro te-dev:lsp-cleanup-interval? uint32 | +--ro te-dev:lsp-invalidation-interval? uint32 | +--ro te-dev:tunnels-counter? uint32 | +--ro te-dev:lsps-counter? uint32 +--rw tunnels | +--rw tunnel* [name type] | +--rw name -> ../config/name | +--rw type -> ../config/type | +--rw identifier? -> ../config/identifier | +--rw config | | +--rw name? string | | +--rw type? identityref | | +--rw identifier? uint16 | | +--rw description? string | | +--rw lsp-priority-setup? uint8 | | +--rw lsp-priority-hold? uint8 | | +--rw lsp-protection-type? identityref | | +--rw admin-status? identityref | | +--rw source? inet:ip-address | | +--rw destination? inet:ip-address | | +--rw src-tp-id? binary | | +--rw dst-tp-id? binary | | +--rw hierarchical-link-id | | | +--rw local-te-node-id? te-types:te-node-id | | | +--rw local-te-link-tp-id? te-types:te-tp-id Saad, et al. Expires January 6, 2017 [Page 19] Internet-Draft TE YANG Data Model July 2016 | | | +--rw remote-te-node-id? te-types:te-node-id | | | +--rw te-topology-id? te-types:te-topology-id | | +--rw bidirectional | | | +--rw association | | | +--rw id? uint16 | | | +--rw source? inet:ip-address | | | +--rw global-source? inet:ip-address | | | +--rw type? identityref | | | +--rw provisioing? identityref | | +--rw te-dev:lsp-install-interval? uint32 | | +--rw te-dev:lsp-cleanup-interval? uint32 | | +--rw te-dev:lsp-invalidation-interval? uint32 | | +--rw (te-mpls:routing-choice)? | | | +--:(te-mpls:autoroute) | | | | +--rw te-mpls:autoroute-announce! | | | | +--rw te-mpls:routing-afs* inet:ip-version | | | | +--rw (te-mpls:metric-type)? | | | | +--:(te-mpls:metric) | | | | | +--rw te-mpls:metric? uint32 | | | | +--:(te-mpls:relative-metric) | | | | | +--rw te-mpls:relative-metric? int32 | | | | +--:(te-mpls:absolute-metric) | | | | +--rw te-mpls:absolute-metric? uint32 | | | +--:(te-mpls:forwarding-adjacency) | | | +--rw te-mpls:forwarding-adjacency! | | | +--rw te-mpls:holdtime? uint32 | | | +--rw te-mpls:routing-afs* inet:ip-version | | +--rw te-mpls:forwarding | | +--rw te-mpls:binding-label? mpls:mpls-label | | +--rw te-mpls:load-share? uint32 | | +--rw (te-mpls:policy-type)? | | +--:(te-mpls:class) | | | +--rw te-mpls:class | | | +--rw te-mpls:class? uint8 | | +--:(te-mpls:group) | | +--rw te-mpls:group | | +--rw te-mpls:classes* uint8 | +--ro state | | +--ro name? string | | +--ro type? identityref | | +--ro identifier? uint16 | | +--ro description? string | | +--ro lsp-priority-setup? uint8 | | +--ro lsp-priority-hold? uint8 | | +--ro lsp-protection-type? identityref | | +--ro admin-status? identityref | | +--ro source? inet:ip-address | | +--ro destination? inet:ip-address Saad, et al. Expires January 6, 2017 [Page 20] Internet-Draft TE YANG Data Model July 2016 | | +--ro src-tp-id? binary | | +--ro dst-tp-id? binary | | +--ro hierarchical-link-id | | | +--ro local-te-node-id? te-types:te-node-id | | | +--ro local-te-link-tp-id? te-types:te-tp-id | | | +--ro remote-te-node-id? te-types:te-node-id | | | +--ro te-topology-id? te-types:te-topology-id | | +--ro bidirectional | | | +--ro association | | | +--ro id? uint16 | | | +--ro source? inet:ip-address | | | +--ro global-source? inet:ip-address | | | +--ro type? identityref | | | +--ro provisioing? identityref | | +--ro oper-status? identityref | | +--ro te-dev:lsp-install-interval? uint32 | | +--ro te-dev:lsp-cleanup-interval? uint32 | | +--ro te-dev:lsp-invalidation-interval? uint32 | | +--ro (te-mpls:routing-choice)? | | | +--:(te-mpls:autoroute) | | | | +--ro te-mpls:autoroute-announce! | | | | +--ro te-mpls:routing-afs* inet:ip-version | | | | +--ro (te-mpls:metric-type)? | | | | +--:(te-mpls:metric) | | | | | +--ro te-mpls:metric? uint32 | | | | +--:(te-mpls:relative-metric) | | | | | +--ro te-mpls:relative-metric? int32 | | | | +--:(te-mpls:absolute-metric) | | | | +--ro te-mpls:absolute-metric? uint32 | | | +--:(te-mpls:forwarding-adjacency) | | | +--ro te-mpls:forwarding-adjacency! | | | +--ro te-mpls:holdtime? uint32 | | | +--ro te-mpls:routing-afs* inet:ip-version | | +--ro te-mpls:forwarding | | +--ro te-mpls:binding-label? mpls:mpls-label | | +--ro te-mpls:load-share? uint32 | | +--ro (te-mpls:policy-type)? | | +--:(te-mpls:class) | | | +--ro te-mpls:class | | | +--ro te-mpls:class? uint8 | | +--:(te-mpls:group) | | +--ro te-mpls:group | | +--ro te-mpls:classes* uint8 | +--rw primary-paths* [name] | +--rw name -> ../config/name | +--rw preference? -> ../config/preference | +--rw config | | +--rw name? string Saad, et al. Expires January 6, 2017 [Page 21] Internet-Draft TE YANG Data Model July 2016 | | +--rw preference? uint8 | | +--rw path-named-constraint? string {te-types:named-path-constraints}? | | +--rw path-selection | | | +--rw topology-id? te-types:te-topology-id | | | +--rw cost-limit? uint32 | | | +--rw hop-limit? uint8 | | | +--rw metric-type? identityref | | | +--rw tiebreaker-type? identityref | | | +--rw ignore-overload? boolean | | | +--rw tunnel-path-affinities {named-path-affinities}? | | | | +--rw (style)? | | | | +--:(values) | | | | | +--rw value? uint32 | | | | | +--rw mask? uint32 | | | | +--:(named) | | | | +--rw constraints* [usage] | | | | +--rw usage identityref | | | | +--rw constraint | | | | +--rw affinity-names* [name] | | | | +--rw name string | | | +--rw tunnel-path-srlgs | | | +--rw (style)? | | | +--:(values) | | | | +--rw usage? identityref | | | | +--rw values* te-types:srlg | | | +--:(named) | | | +--rw constraints* [usage] | | | +--rw usage identityref | | | +--rw constraint | | | +--rw srlg-names* [name] | | | +--rw name string | | +--rw (type)? | | | +--:(dynamic) | | | | +--rw dynamic? empty | | | +--:(explicit) | | | +--rw explicit-path-name? string | | | +--rw explicit-route-objects* [index] | | | +--rw index uint8 | | | +--rw explicit-route-usage? identityref | | | +--rw (type)? | | | +--:(ipv4-address) | | | | +--rw v4-address? inet:ipv4-address | | | | +--rw v4-prefix-length? uint8 | | | | +--rw v4-loose? boolean | | | +--:(ipv6-address) | | | | +--rw v6-address? inet:ipv6-address Saad, et al. Expires January 6, 2017 [Page 22] Internet-Draft TE YANG Data Model July 2016 | | | | +--rw v6-prefix-length? uint8 | | | | +--rw v6-loose? boolean | | | +--:(as-number) | | | | +--rw as-number? uint16 | | | +--:(unnumbered-link) | | | | +--rw router-id? inet:ip-address | | | | +--rw interface-id? uint32 | | | +--:(label) | | | +--rw value? uint32 | | +--rw no-cspf? empty | | +--rw lockdown? empty | +--ro state | | +--ro path-named-constraint? string {te-types:named-path-constraints}? | | +--ro path-selection | | | +--ro topology-id? te-types:te-topology-id | | | +--ro cost-limit? uint32 | | | +--ro hop-limit? uint8 | | | +--ro metric-type? identityref | | | +--ro tiebreaker-type? identityref | | | +--ro ignore-overload? boolean | | | +--ro tunnel-path-affinities {named-path-affinities}? | | | | +--ro (style)? | | | | +--:(values) | | | | | +--ro value? uint32 | | | | | +--ro mask? uint32 | | | | +--:(named) | | | | +--ro constraints* [usage] | | | | +--ro usage identityref | | | | +--ro constraint | | | | +--ro affinity-names* [name] | | | | +--ro name string | | | +--ro tunnel-path-srlgs | | | +--ro (style)? | | | +--:(values) | | | | +--ro usage? identityref | | | | +--ro values* te-types:srlg | | | +--:(named) | | | +--ro constraints* [usage] | | | +--ro usage identityref | | | +--ro constraint | | | +--ro srlg-names* [name] | | | +--ro name string | | +--ro (type)? | | | +--:(dynamic) | | | | +--ro dynamic? empty | | | +--:(explicit) Saad, et al. Expires January 6, 2017 [Page 23] Internet-Draft TE YANG Data Model July 2016 | | | +--ro explicit-path-name? string | | | +--ro explicit-route-objects* [index] | | | +--ro index uint8 | | | +--ro explicit-route-usage? identityref | | | +--ro (type)? | | | +--:(ipv4-address) | | | | +--ro v4-address? inet:ipv4-address | | | | +--ro v4-prefix-length? uint8 | | | | +--ro v4-loose? boolean | | | +--:(ipv6-address) | | | | +--ro v6-address? inet:ipv6-address | | | | +--ro v6-prefix-length? uint8 | | | | +--ro v6-loose? boolean | | | +--:(as-number) | | | | +--ro as-number? uint16 | | | +--:(unnumbered-link) | | | | +--ro router-id? inet:ip-address | | | | +--ro interface-id? uint32 | | | +--:(label) | | | +--ro value? uint32 | | +--ro no-cspf? empty | | +--ro lockdown? empty | | +--ro lsp* [source destination tunnel-id lsp-id extended-tunnel-id type] | | +--ro source -> ../../../../../../lsps-state/lsp/source | | +--ro destination -> ../../../../../../lsps-state/lsp/destination | | +--ro tunnel-id -> ../../../../../../lsps-state/lsp/tunnel-id | | +--ro lsp-id -> ../../../../../../lsps-state/lsp/lsp-id | | +--ro extended-tunnel-id -> ../../../../../../lsps-state/lsp/extended-tunnel-id | | +--ro type -> ../../../../../../lsps-state/lsp/type | +--rw secondary-paths* [name] | | +--rw name -> ../config/name | | +--rw preference? -> ../config/preference | | +--rw config | | | +--rw name? string | | | +--rw preference? uint8 | | | +--rw path-named-constraint? string {te-types:named-path-constraints}? | | | +--rw path-selection | | | | +--rw topology-id? te-types:te-topology-id | | | | +--rw cost-limit? uint32 Saad, et al. Expires January 6, 2017 [Page 24] Internet-Draft TE YANG Data Model July 2016 | | | | +--rw hop-limit? uint8 | | | | +--rw metric-type? identityref | | | | +--rw tiebreaker-type? identityref | | | | +--rw ignore-overload? boolean | | | | +--rw tunnel-path-affinities {named-path-affinities}? | | | | | +--rw (style)? | | | | | +--:(values) | | | | | | +--rw value? uint32 | | | | | | +--rw mask? uint32 | | | | | +--:(named) | | | | | +--rw constraints* [usage] | | | | | +--rw usage identityref | | | | | +--rw constraint | | | | | +--rw affinity-names* [name] | | | | | +--rw name string | | | | +--rw tunnel-path-srlgs | | | | +--rw (style)? | | | | +--:(values) | | | | | +--rw usage? identityref | | | | | +--rw values* te-types:srlg | | | | +--:(named) | | | | +--rw constraints* [usage] | | | | +--rw usage identityref | | | | +--rw constraint | | | | +--rw srlg-names* [name] | | | | +--rw name string | | | +--rw (type)? | | | | +--:(dynamic) | | | | | +--rw dynamic? empty | | | | +--:(explicit) | | | | +--rw explicit-path-name? string | | | | +--rw explicit-route-objects* [index] | | | | +--rw index uint8 | | | | +--rw explicit-route-usage? identityref | | | | +--rw (type)? | | | | +--:(ipv4-address) | | | | | +--rw v4-address? inet:ipv4-address | | | | | +--rw v4-prefix-length? uint8 | | | | | +--rw v4-loose? boolean | | | | +--:(ipv6-address) | | | | | +--rw v6-address? inet:ipv6-address | | | | | +--rw v6-prefix-length? uint8 | | | | | +--rw v6-loose? boolean | | | | +--:(as-number) | | | | | +--rw as-number? uint16 | | | | +--:(unnumbered-link) | | | | | +--rw router-id? inet:ip-address Saad, et al. Expires January 6, 2017 [Page 25] Internet-Draft TE YANG Data Model July 2016 | | | | | +--rw interface-id? uint32 | | | | +--:(label) | | | | +--rw value? uint32 | | | +--rw no-cspf? empty | | | +--rw lockdown? empty | | +--ro state | | | +--ro name? string | | | +--ro preference? uint8 | | | +--ro path-named-constraint? string {te-types:named-path-constraints}? | | | +--ro path-selection | | | | +--ro topology-id? te-types:te-topology-id | | | | +--ro cost-limit? uint32 | | | | +--ro hop-limit? uint8 | | | | +--ro metric-type? identityref | | | | +--ro tiebreaker-type? identityref | | | | +--ro ignore-overload? boolean | | | | +--ro tunnel-path-affinities {named-path-affinities}? | | | | | +--ro (style)? | | | | | +--:(values) | | | | | | +--ro value? uint32 | | | | | | +--ro mask? uint32 | | | | | +--:(named) | | | | | +--ro constraints* [usage] | | | | | +--ro usage identityref | | | | | +--ro constraint | | | | | +--ro affinity-names* [name] | | | | | +--ro name string | | | | +--ro tunnel-path-srlgs | | | | +--ro (style)? | | | | +--:(values) | | | | | +--ro usage? identityref | | | | | +--ro values* te-types:srlg | | | | +--:(named) | | | | +--ro constraints* [usage] | | | | +--ro usage identityref | | | | +--ro constraint | | | | +--ro srlg-names* [name] | | | | +--ro name string | | | +--ro (type)? | | | | +--:(dynamic) | | | | | +--ro dynamic? empty | | | | +--:(explicit) | | | | +--ro explicit-path-name? string | | | | +--ro explicit-route-objects* [index] | | | | +--ro index uint8 | | | | +--ro explicit-route-usage? identityref Saad, et al. Expires January 6, 2017 [Page 26] Internet-Draft TE YANG Data Model July 2016 | | | | +--ro (type)? | | | | +--:(ipv4-address) | | | | | +--ro v4-address? inet:ipv4-address | | | | | +--ro v4-prefix-length? uint8 | | | | | +--ro v4-loose? boolean | | | | +--:(ipv6-address) | | | | | +--ro v6-address? inet:ipv6-address | | | | | +--ro v6-prefix-length? uint8 | | | | | +--ro v6-loose? boolean | | | | +--:(as-number) | | | | | +--ro as-number? uint16 | | | | +--:(unnumbered-link) | | | | | +--ro router-id? inet:ip-address | | | | | +--ro interface-id? uint32 | | | | +--:(label) | | | | +--ro value? uint32 | | | +--ro no-cspf? empty | | | +--ro lockdown? empty | | | +--ro lsp* [source] | | | +--ro source -> ../../../../../../../lsps-state/lsp/source | | | +--ro destination? -> ../../../../../../../lsps-state/lsp/destination | | | +--ro tunnel-id? -> ../../../../../../../lsps-state/lsp/tunnel-id | | | +--ro lsp-id? -> ../../../../../../../lsps-state/lsp/lsp-id | | | +--ro extended-tunnel-id? -> ../../../../../../../lsps-state/lsp/extended-tunnel-id | | | +--ro type? -> ../../../../../../../lsps-state/lsp/type | | +--rw te-sr-mpls:path-signaling-type? identityref | +--rw te-sr-mpls:path-signaling-type? identityref +--ro lsps-state | +--ro lsp* [source destination tunnel-id lsp-id extended-tunnel-id type] | +--ro source inet:ip-address | +--ro destination inet:ip-address | +--ro tunnel-id uint16 | +--ro lsp-id uint16 | +--ro extended-tunnel-id inet:ip-address | +--ro type identityref | +--ro oper-status? identityref | +--ro origin-type? enumeration | +--ro lsp-resource-status? enumeration | +--ro lsp-protection-role? enumeration | +--ro lsp-operational-status? empty | +--ro lsp-record-route Saad, et al. Expires January 6, 2017 [Page 27] Internet-Draft TE YANG Data Model July 2016 | | +--ro record-route-subobjects* [subobject-index] | | +--ro subobject-index uint32 | | +--ro (type)? | | +--:(ipv4-address) | | | +--ro v4-address? inet:ipv4-address | | | +--ro v4-prefix-length? uint8 | | | +--ro v4-flags? uint8 | | +--:(ipv6-address) | | | +--ro v6-address? inet:ipv6-address | | | +--ro v6-prefix-length? uint8 | | | +--ro v6-flags? uint8 | | +--:(unnumbered-link) | | | +--ro router-id? inet:ip-address | | | +--ro interface-id? uint32 | | +--:(label) | | +--ro value? uint32 | | +--ro flags? uint8 | +--ro te-dev:lsp-timers | | +--ro te-dev:life-time? uint32 | | +--ro te-dev:time-to-install? uint32 | | +--ro te-dev:time-to-die? uint32 | +--ro te-dev:downstream-info | | +--ro te-dev:nhop? inet:ip-address | | +--ro te-dev:outgoing-interface? if:interface-ref | | +--ro te-dev:neighbor? inet:ip-address | | +--ro te-dev:label? uint32 | +--ro te-dev:upstream-info | +--ro te-dev:phop? inet:ip-address | +--ro te-dev:neighbor? inet:ip-address | +--ro te-dev:label? uint32 +--rw te-dev:interfaces +--rw te-dev:config | +--rw te-dev:thresholds | +--rw (te-dev:type)? | +--:(te-dev:equal-steps) | | +--rw (te-dev:equal-step-type)? | | +--:(te-dev:up-down-different-step) | | | +--rw te-dev:up-step? uint8 | | | +--rw te-dev:down-step? uint8 | | +--:(te-dev:up-down-same-step) | | +--rw te-dev:step? uint8 | +--:(te-dev:unequal-steps) | +--rw te-dev:up-steps* [value] | | +--rw te-dev:value uint8 | +--rw te-dev:down-steps* [value] | +--rw te-dev:value uint8 +--ro te-dev:state | +--ro te-dev:thresholds Saad, et al. Expires January 6, 2017 [Page 28] Internet-Draft TE YANG Data Model July 2016 | +--ro (te-dev:type)? | +--:(te-dev:equal-steps) | | +--ro (te-dev:equal-step-type)? | | +--:(te-dev:up-down-different-step) | | | +--ro te-dev:up-step? uint8 | | | +--ro te-dev:down-step? uint8 | | +--:(te-dev:up-down-same-step) | | +--ro te-dev:step? uint8 | +--:(te-dev:unequal-steps) | +--ro te-dev:up-steps* [value] | | +--ro te-dev:value uint8 | +--ro te-dev:down-steps* [value] | +--ro te-dev:value uint8 +--rw te-dev:interface* [interface] +--rw te-dev:interface if:interface-ref +--rw te-dev:config | +--rw te-dev:te-metric? te-types:te-metric | +--rw (te-dev:admin-group-type)? | | +--:(te-dev:value-admin-groups) | | | +--rw (te-dev:value-admin-group-type)? | | | +--:(te-dev:admin-groups) | | | | +--rw te-dev:admin-group?te-types:admin-group | | | +--:(te-dev:extended-admin-groups) {te-types:extended-admin-groups}? | | | +--rw te-dev:extended-admin-group? te-types:extended-admin-group | | +--:(te-dev:named-admin-groups) | | +--rw te-dev:named-admin-groups*[named-admin-group] {te-types:extended-admin-groups, te-types:named-extended-admin-groups}? | | +--rw te-dev:named-admin-group -> ../../../../../te:globals/config/named-admin-groups/name | +--rw (te-dev:srlg-type)? | | +--:(te-dev:value-srlgs) | | | +--rw te-dev:values* [value] | | | +--rw te-dev:value uint32 | | +--:(te-dev:named-srlgs) | | +--rw te-dev:named-srlgs* [named-srlg] {te-types:named-srlg-groups}? | | +--rw te-dev:named-srlg -> ../../../../../te:globals/config/named-srlgs/name | +--rw te-dev:switching-capabilities* [switching-capability] | | +--rw te-dev:switching-capability identityref | | +--rw te-dev:encoding? identityref | +--rw te-dev:thresholds | +--rw (te-dev:type)? | +--:(te-dev:equal-steps) Saad, et al. Expires January 6, 2017 [Page 29] Internet-Draft TE YANG Data Model July 2016 | | +--rw (te-dev:equal-step-type)? | | +--:(te-dev:up-down-different-step) | | | +--rw te-dev:up-step? uint8 | | | +--rw te-dev:down-step? uint8 | | +--:(te-dev:up-down-same-step) | | +--rw te-dev:step? uint8 | +--:(te-dev:unequal-steps) | +--rw te-dev:up-steps* [value] | | +--rw te-dev:value uint8 | +--rw te-dev:down-steps* [value] | +--rw te-dev:value uint8 +--ro te-dev:state +--ro te-dev:te-metric? te-types:te-metric +--ro (te-dev:admin-group-type)? | +--:(te-dev:value-admin-groups) | | +--ro (te-dev:value-admin-group-type)? | | +--:(te-dev:admin-groups) | | | +--ro te-dev:admin-group?te-types:admin-group | | +--:(te-dev:extended-admin-groups) {te-types:extended-admin-groups}? | | +--ro te-dev:extended-admin-group? te-types:extended-admin-group | +--:(te-dev:named-admin-groups) | +--ro te-dev:named-admin-groups*[named-admin-group] {te-types:extended-admin-groups, te-types:named-extended-admin-groups}? | +--ro te-dev:named-admin-group -> ../../../../../te:globals/config/named-admin-groups/na +--ro (te-dev:srlg-type)? | +--:(te-dev:value-srlgs) | | +--ro te-dev:values* [value] | | +--ro te-dev:value uint32 | +--:(te-dev:named-srlgs) | +--ro te-dev:named-srlgs* [named-srlg] {te-types:named-srlg-groups}? | +--ro te-dev:named-srlg -> ../../../../../te:globals/config/named-srlgs/name +--ro te-dev:switching-capabilities*[switching-capability | +--ro te-dev:switching-capability identityref | +--ro te-dev:encoding? identityref +--ro te-dev:thresholds | +--ro (te-dev:type)? | +--:(te-dev:equal-steps) | | +--ro (te-dev:equal-step-type)? | | +--:(te-dev:up-down-different-step) | | | +--ro te-dev:up-step? uint8 | | | +--ro te-dev:down-step? uint8 | | +--:(te-dev:up-down-same-step) Saad, et al. Expires January 6, 2017 [Page 30] Internet-Draft TE YANG Data Model July 2016 | | +--ro te-dev:step? uint8 | +--:(te-dev:unequal-steps) | +--ro te-dev:up-steps* [value] | | +--ro te-dev:value uint8 | +--ro te-dev:down-steps* [value] | +--ro te-dev:value uint8 +--ro te-dev:te-advertisements_state +--ro te-dev:flood-interval? uint32 +--ro te-dev:last-flooded-time? uint32 +--ro te-dev:next-flooded-time? uint32 +--ro te-dev:last-flooded-trigger? enumeration +--ro te-dev:advertized-level-areas* [level-area] +--ro te-dev:level-area uint32 rpcs: +---x globals-rpc +---x interfaces-rpc +---x tunnels-rpc notifications: +---n globals-notif +---n tunnels-notif module: ietf-te-device rpcs: +---x interfaces-rpc notifications: +---n interfaces-notif Figure 6: TE globals configuration and state tree 4. TE Generic and Helper YANG Modules file "ietf-te-types@2016-07-05.yang" 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; } import ietf-yang-types { prefix "yang"; } organization "IETF Traffic Engineering Architecture and Signaling (TEAS) Saad, et al. Expires January 6, 2017 [Page 31] Internet-Draft TE YANG Data Model July 2016 Working Group"; contact "WG Web: WG List: WG Chair: Lou Berger WG Chair: Vishnu Pavan Beeram Editor: Tarek Saad Editor: Rakesh Gandhi Editor: Vishnu Pavan Beeram Editor: Himanshu Shah Editor: Xufeng Liu Editor: Xia Chen Editor: Raqib Jones Editor: Bin Wen "; description "This module contains a collection of generally useful TE specific YANG data type defintions."; revision "2016-07-05" { description "Latest revision of TE basic types"; reference "RFC3209"; } /* * Identities */ Saad, et al. Expires January 6, 2017 [Page 32] Internet-Draft TE YANG Data Model July 2016 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 path-invalidation-action-type { description "Base identity for TE path invalidation action types"; } identity tunnel-invalidation-action-drop-type { base path-invalidation-action-type; description "TE path invalidation action drop"; } identity tunnel-invalidation-action-drop-tear { base path-invalidation-action-type; Saad, et al. Expires January 6, 2017 [Page 33] Internet-Draft TE YANG Data Model July 2016 description "TE path invalidation action tear"; } identity lsp-prot-type { description "Base identity from which LSP protection types are derived."; } identity lsp-prot-unprotected { base lsp-prot-type; description "LSP protection 'Unprotected'"; reference "RFC4872"; } identity lsp-prot-reroute-extra { base lsp-prot-type; description "LSP protection '(Full) Rerouting'"; reference "RFC4872"; } identity lsp-prot-reroute { base lsp-prot-type; description "LSP protection 'Rerouting without Extra-Traffic'"; reference "RFC4872"; } identity lsp-prot-1-for-n { base lsp-prot-type; description "LSP protection '1:N Protection with Extra-Traffic'"; reference "RFC4872"; } identity lsp-prot-unidir-1-to-1 { base lsp-prot-type; description "LSP protection '1+1 Unidirectional Protection'"; reference "RFC4872"; } identity lsp-prot-bidir-1-to-1 { base lsp-prot-type; description Saad, et al. Expires January 6, 2017 [Page 34] Internet-Draft TE YANG Data Model July 2016 "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 Saad, et al. Expires January 6, 2017 [Page 35] Internet-Draft TE YANG Data Model July 2016 "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"; Saad, et al. Expires January 6, 2017 [Page 36] Internet-Draft TE YANG Data Model July 2016 } 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"; } identity path-signaling-type { description "Base identity from which specific path signaling types are derived."; } identity path-signaling-rsvpte { base tunnel-type; description "RSVP-TE path signaling type"; } identity path-signaling-sr { base tunnel-type; description "Segment-routing path signaling type"; Saad, et al. Expires January 6, 2017 [Page 37] Internet-Draft TE YANG Data Model July 2016 } /* 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"; Saad, et al. Expires January 6, 2017 [Page 38] Internet-Draft TE YANG Data Model July 2016 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 { Saad, et al. Expires January 6, 2017 [Page 39] Internet-Draft TE YANG Data Model July 2016 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 Saad, et al. Expires January 6, 2017 [Page 40] Internet-Draft TE YANG Data Model July 2016 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 unnumbered-link { leaf router-id { type inet:ip-address; description "A router-id address"; } leaf interface-id { type uint32; description "The interface identifier"; } description Saad, et al. Expires January 6, 2017 [Page 41] Internet-Draft TE YANG Data Model July 2016 "Unnumbered link record route subobject"; reference "RFC3477: Signalling Unnumbered Links in RSVP-TE"; } 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"; Saad, et al. Expires January 6, 2017 [Page 42] Internet-Draft TE YANG Data Model July 2016 } 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"; } Saad, et al. Expires January 6, 2017 [Page 43] Internet-Draft TE YANG Data Model July 2016 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 Saad, et al. Expires January 6, 2017 [Page 44] Internet-Draft TE YANG Data Model July 2016 tunnel any of which renders a link unacceptable"; } identity te-optimization-criterion { description "Base identity for TE optimization criterion."; reference "RFC3272: Overview and Principles of Internet Traffic Engineering."; } identity not-optimized { base te-optimization-criterion; description "Optimization is not applied."; } identity cost { base te-optimization-criterion; description "Optimized on cost."; } identity delay { base te-optimization-criterion; description "Optimized on delay."; } /* * 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 Saad, et al. Expires January 6, 2017 [Page 45] Internet-Draft TE YANG Data Model July 2016 "Indicates whether a performance metric is normal, abnormal, or unknown."; reference "RFC7471: OSPF Traffic Engineering (TE) Metric Extensions. RFC7810: IS-IS Traffic Engineering (TE) Metric Extensions. RFC7823: Performance-Based Path Selection for Explicitly Routed Label Switched Paths (LSPs) Using 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. Saad, et al. Expires January 6, 2017 [Page 46] Internet-Draft TE YANG Data Model July 2016 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 yang:dotted-quad; description "An identifier for a node in a topology. The identifier is represented as 32-bit unsigned integer in the dotted-quad notation. This attribute is mapped to Router ID in RFC3630, RFC5329, RFC5305, and RFC6119."; } 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 { Saad, et al. Expires January 6, 2017 [Page 47] Internet-Draft TE YANG Data Model July 2016 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."; Saad, et al. Expires January 6, 2017 [Page 48] Internet-Draft TE YANG Data Model July 2016 } 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" { Saad, et al. Expires January 6, 2017 [Page 49] Internet-Draft TE YANG Data Model July 2016 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."; } typedef generalized-label { type binary; description "Generalized label. Nodes sending and receiving the Generalized Label know what kinds of link they are using, the Generalized Label does not identify its type. Instead, nodes are expected to know from the context what type of label to expect."; reference "rfc3471: section 3.2"; } typedef admin-group { type binary { length 32; } description Saad, et al. Expires January 6, 2017 [Page 50] Internet-Draft TE YANG Data Model July 2016 "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 Saad, et al. Expires January 6, 2017 [Page 51] Internet-Draft TE YANG Data Model July 2016 "Include weighted SRLG check in path computation"; } typedef te-metric { type uint32; description "TE link metric"; } /** * 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-id { type te-types:te-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 identityref { base path-metric-type; } default path-metric-te; description "The tunnel path metric type."; } Saad, et al. Expires January 6, 2017 [Page 52] Internet-Draft TE YANG Data Model July 2016 leaf tiebreaker-type { type identityref { base path-tiebreaker-type; } default path-tiebreaker-maxfill; 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 { Saad, et al. Expires January 6, 2017 [Page 53] Internet-Draft TE YANG Data Model July 2016 type identityref { base resource-affinities-type; } 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 identityref { base route-exclude-srlg; } description "SRLG usage"; } leaf-list values { type te-types:srlg; description "SRLG value"; } } Saad, et al. Expires January 6, 2017 [Page 54] Internet-Draft TE YANG Data Model July 2016 case named { list constraints { key "usage"; leaf usage { type identityref { base route-exclude-srlg; } 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; Saad, et al. Expires January 6, 2017 [Page 55] Internet-Draft TE YANG Data Model July 2016 description "The TE tunnel association source."; } leaf global-source { type inet:ip-address; description "The TE tunnel association global source."; } leaf type { type identityref { base bidir-association-type; } default bidir-assoc-non-corouted; description "The TE tunnel association type."; } leaf provisioing { type identityref { base bidir-provisioning-mode; } 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 **/ } Figure 7: TE basic types YANG module file "ietf-te@2016-07-05.yang" module ietf-te { namespace "urn:ietf:params:xml:ns:yang:ietf-te"; /* Replace with IANA when assigned */ prefix "te"; Saad, et al. Expires January 6, 2017 [Page 56] Internet-Draft TE YANG Data Model July 2016 /* Import TE generic types */ import ietf-te-types { prefix te-types; } import ietf-inet-types { prefix inet; } organization "IETF Traffic Engineering Architecture and Signaling (TEAS) Working Group"; contact "WG Web: WG List: WG Chair: Lou Berger WG Chair: Vishnu Pavan Beeram Editor: Tarek Saad Editor: Rakesh Gandhi Editor: Vishnu Pavan Beeram Editor: Himanshu Shah Editor: Xufeng Liu Editor: Xia Chen Editor: Raqib Jones Editor: Bin Wen "; description Saad, et al. Expires January 6, 2017 [Page 57] Internet-Draft TE YANG Data Model July 2016 "YANG data module for TE configuration, state, RPC and notifications."; revision "2016-07-05" { description "Latest update to TE generic YANG module."; reference "TBD"; } typedef tunnel-ref { type leafref { path "/te:te/te:tunnels/te:tunnel/te:name"; } description "This type is used by data models that need to reference configured TE tunnel."; } /** * TE tunnel generic groupings */ grouping p2p-secondary-path-params { description "tunnel path properties."; container config { description "Configuration parameters relating to tunnel properties"; uses path-properties_config; uses path-params_config; } container state { config false; description "State information associated with tunnel properties"; uses path-properties_config; uses path-params_config; uses p2p-secondary-path-params_state; } } grouping p2p-primary-path-params { description "TE tunnel primary path properties grouping"; container config { description "Configuration parameters relating to Saad, et al. Expires January 6, 2017 [Page 58] Internet-Draft TE YANG Data Model July 2016 tunnel properties"; uses path-properties_config; uses path-params_config; } container state { config false; description "State information associated with tunnel properties"; uses path-params_config; uses p2p-primary-path-params_state; } } grouping p2p-primary-path-params_state { description "TE primary path state parameters"; list lsp { key "source destination tunnel-id lsp-id "+ "extended-tunnel-id type"; description "List of LSPs associated with the tunnel."; leaf source { type leafref { path "../../../../../../lsps-state/lsp/source"; } description "Tunnel sender address extracted from SENDER_TEMPLATE object"; reference "RFC3209"; } leaf destination { type leafref { path "../../../../../../lsps-state/lsp/destination"; } description "Tunnel endpoint address extracted from SESSION object"; reference "RFC3209"; } leaf tunnel-id { type leafref { path "../../../../../../lsps-state/lsp/tunnel-id"; } description "Tunnel identifier used in the SESSION that remains constant over the life of the tunnel."; Saad, et al. Expires January 6, 2017 [Page 59] Internet-Draft TE YANG Data Model July 2016 reference "RFC3209"; } leaf lsp-id { type leafref { path "../../../../../../lsps-state/lsp/lsp-id"; } description "Identifier used in the SENDER_TEMPLATE and the FILTER_SPEC that can be changed to allow a sender to share resources with itself."; reference "RFC3209"; } leaf extended-tunnel-id { type leafref { path "../../../../../../lsps-state/lsp/extended-tunnel-id"; } description "Extended Tunnel ID of the LSP."; reference "RFC3209"; } leaf type { type leafref { path "../../../../../../lsps-state/lsp/type"; } description "LSP type P2P or P2MP"; } } } grouping p2p-secondary-path-params_state { description "TE secondary path state parameters"; list lsp { key "source"; description "List of LSPs associated with the tunnel."; leaf source { type leafref { path "../../../../../../../lsps-state/lsp/source"; } description "Tunnel sender address extracted from SENDER_TEMPLATE object"; reference "RFC3209"; } leaf destination { type leafref { path "../../../../../../../lsps-state/lsp/destination"; Saad, et al. Expires January 6, 2017 [Page 60] Internet-Draft TE YANG Data Model July 2016 } description "Tunnel endpoint address extracted from SESSION object"; reference "RFC3209"; } leaf tunnel-id { type leafref { path "../../../../../../../lsps-state/lsp/tunnel-id"; } description "Tunnel identifier used in the SESSION that remains constant over the life of the tunnel."; reference "RFC3209"; } leaf lsp-id { type leafref { path "../../../../../../../lsps-state/lsp/lsp-id"; } description "Identifier used in the SENDER_TEMPLATE and the FILTER_SPEC that can be changed to allow a sender to share resources with itself."; reference "RFC3209"; } leaf extended-tunnel-id { type leafref { path "../../../../../../../lsps-state/lsp/extended-tunnel-id"; } description "Extended Tunnel ID of the LSP."; reference "RFC3209"; } leaf type { type leafref { path "../../../../../../../lsps-state/lsp/type"; } description "LSP type P2P or P2MP"; } } } grouping path-params_config { description "TE tunnel path parameters configuration grouping"; leaf path-named-constraint { Saad, et al. Expires January 6, 2017 [Page 61] Internet-Draft TE YANG Data Model July 2016 if-feature te-types:named-path-constraints; type string; description "Reference to a globally defined named path constraint set"; } uses te-types:tunnel-path-selection; choice type { description "Describes the path type"; case dynamic { leaf dynamic { type empty; description "A CSPF dynamically computed path"; } } case explicit { leaf explicit-path-name { type string; description "The explicit-path name"; } list explicit-route-objects { key "index"; description "List of explicit route objects"; leaf index { type uint8 { range "0..255"; } description "Index of this explicit route object"; } leaf explicit-route-usage { type identityref { base te-types:route-usage-type; } description "An explicit-route hop action."; } uses te-types:explicit-route-subobject; } } } leaf no-cspf { type empty; description Saad, et al. Expires January 6, 2017 [Page 62] Internet-Draft TE YANG Data Model July 2016 "Indicates no CSPF is to be attempted on this path."; } leaf lockdown { type empty; description "Indicates no reoptimization to be attempted for this path."; } } /* TE tunnel configuration data */ grouping tunnel-params_config { description "Configuration parameters relating to TE tunnel"; leaf name { type string; description "TE tunnel name."; } leaf type { type identityref { base te-types:tunnel-type; } description "TE tunnel type."; } leaf identifier { type uint16; description "TE tunnel Identifier."; } leaf description { type string; description "Textual description for this TE tunnel"; } leaf lsp-priority-setup { type uint8 { range "0..7"; } description "TE LSP setup priority"; } leaf lsp-priority-hold { type uint8 { range "0..7"; } description "TE LSP hold priority"; Saad, et al. Expires January 6, 2017 [Page 63] Internet-Draft TE YANG Data Model July 2016 } leaf lsp-protection-type { type identityref { base te-types:lsp-prot-type; } description "LSP protection type."; } leaf admin-status { type identityref { base te-types:state-type; } default te-types:state-up; description "TE tunnel administrative state."; } leaf source { type inet:ip-address; description "TE tunnel source address."; } leaf destination { /* Add when check */ type inet:ip-address; description "P2P tunnel destination address"; } leaf src-tp-id { type binary; description "TE tunnel source termination point identifier."; } leaf dst-tp-id { /* Add when check */ type binary; description "TE tunnel destination termination point identifier."; } container hierarchical-link-id { description "Identifies a hierarchical link (in server layer) that this tunnel is associated with."; leaf local-te-node-id { type te-types:te-node-id; description "Local TE node identifier"; } leaf local-te-link-tp-id { type te-types:te-tp-id; description Saad, et al. Expires January 6, 2017 [Page 64] Internet-Draft TE YANG Data Model July 2016 "Local TE link termination point identifier"; } leaf remote-te-node-id { type te-types:te-node-id; description "Remote TE node identifier"; } leaf te-topology-id { type te-types:te-topology-id; description "It is presumed that a datastore will contain many topologies. To distinguish between topologies it is vital to have UNIQUE topology identifiers."; } } uses te-types:tunnel-bidir-assoc-properties; } grouping tunnel-params_state { description "State parameters relating to TE tunnel"; leaf oper-status { type identityref { base te-types:state-type; } description "TE tunnel operational state."; } } grouping path-properties_config { description "TE path properties grouping"; leaf name { type string; description "TE path name"; } leaf preference { type uint8 { range "1..255"; } description "Specifies a preference for this path. The lower the number higher the preference"; } } /* TE tunnel configuration/state grouping */ grouping tunnel-properties { description Saad, et al. Expires January 6, 2017 [Page 65] Internet-Draft TE YANG Data Model July 2016 "Top level grouping for tunnel properties."; container config { description "Configuration parameters relating to tunnel properties"; uses tunnel-params_config; } container state { config false; description "State information associated with tunnel properties"; uses tunnel-params_config; uses tunnel-params_state; } list primary-paths { key "name"; description "List of primary paths for this tunnel."; leaf name { type leafref { path "../config/name"; } description "TE path name"; } leaf preference { type leafref { path "../config/preference"; } description "Specifies a preference for this path. The lower the number higher the preference"; } uses p2p-primary-path-params; list secondary-paths { key "name"; description "List of secondary paths for this tunnel."; leaf name { type leafref { path "../config/name"; } description "TE path name"; } leaf preference { type leafref { path "../config/preference"; } Saad, et al. Expires January 6, 2017 [Page 66] Internet-Draft TE YANG Data Model July 2016 description "Specifies a preference for this path. The lower the number higher the preference"; } uses p2p-secondary-path-params; } } } /*** End of TE tunnel groupings ***/ /** * LSP related generic groupings */ grouping lsp-record-route-information_state { description "recorded route information grouping"; container lsp-record-route { description "RSVP recorded route object information"; list record-route-subobjects { when "../origin-type != 'ingress'" { description "Applicable on non-ingress LSPs only"; } key "subobject-index"; description ""; leaf subobject-index { type uint32; description "RRO subobject index"; } uses te-types:record-route-subobject; } } } grouping lsp-properties_state { description "State parameters relating to LSP"; leaf oper-status { type identityref { base te-types:state-type; } description "LSP operational state."; } leaf origin-type { type enumeration { enum ingress { description "Origin ingress"; } Saad, et al. Expires January 6, 2017 [Page 67] Internet-Draft TE YANG Data Model July 2016 enum egress { description "Origin egress"; } enum transit { description "transit"; } } description "Origin type of LSP relative to the location of the local switch in the path."; } leaf lsp-resource-status { type enumeration { enum primary { description "A primary LSP is a fully established LSP for which the resource allocation has been committed at the data plane"; } enum secondary { description "A secondary LSP is an LSP that has been provisioned in the control plane only; e.g. resource allocation has not been committed at the data plane"; } } description "LSP resource allocation type"; reference "rfc4872, section 4.2.1"; } leaf lsp-protection-role { type enumeration { enum working { description "A working LSP must be a primary LSP whilst a protecting LSP can be either a primary or a secondary LSP. Also, known as protected LSPs when working LSPs are associated with protecting LSPs."; } enum protecting { description "A secondary LSP is an LSP that has been provisioned in the control plane only; e.g. resource allocation has not been committed at the data plane"; } Saad, et al. Expires January 6, 2017 [Page 68] Internet-Draft TE YANG Data Model July 2016 } description "LSP role type"; reference "rfc4872, section 4.2.1"; } leaf lsp-operational-status { type empty; description "This bit is set when a protecting LSP is carrying the normal traffic after protection switching"; } } /*** End of TE LSP groupings ***/ /** * TE global generic groupings */ /* Global named admin-groups configuration data */ grouping named-admin-groups_config { description "Global named administrative groups configuration grouping"; list named-admin-groups { if-feature te-types:extended-admin-groups; if-feature te-types:named-extended-admin-groups; key "name"; description "List of named TE admin-groups"; leaf name { type string; description "A string name that uniquely identifies a TE interface named admin-group"; } leaf bit-position { type uint32; description "Bit position representing the administrative group"; } } } /* Global named admin-srlgs configuration data */ grouping named-srlgs_config { description "Global named SRLGs configuration grouping"; Saad, et al. Expires January 6, 2017 [Page 69] Internet-Draft TE YANG Data Model July 2016 list named-srlgs { if-feature te-types:named-srlg-groups; key "name"; description "A list of named SRLG groups"; leaf name { type string; description "A string name that uniquely identifies a TE interface named srlg"; } leaf group { type te-types:srlg; description "An SRLG value"; } } } /* Global named explicit-paths configuration data */ grouping named-explicit-paths_config { description "Global explicit path configuration grouping"; list named-explicit-paths { key "name"; description "A list of explicit paths"; leaf name { type string; description "A string name that uniquely identifies an explicit path"; } list explicit-route-objects { key "index"; description "List of explicit route objects"; leaf index { type uint8 { range "0..255"; } description "Index of this explicit route object"; } leaf explicit-route-usage { type identityref { base te-types:route-usage-type; } Saad, et al. Expires January 6, 2017 [Page 70] Internet-Draft TE YANG Data Model July 2016 description "An explicit-route hop action."; } uses te-types:explicit-route-subobject; } } } /* Global named paths constraints configuration data */ grouping named-path-constraints_config { description "Global named path constraints configuration grouping"; list named-constraints { if-feature te-types:named-path-constraints; key "name"; description "A list of named path constraints"; leaf name { type string; description "A string name that uniquely identifies a path constraint set"; } uses te-types:tunnel-path-selection; } } /* TE globals container data */ grouping globals-grouping { description "Globals TE system-wide configuration data grouping"; container globals { description "Globals TE system-wide configuration data container"; container config { description "Configuration parameters for system-wide parameters"; uses named-admin-groups_config; uses named-srlgs_config; uses named-explicit-paths_config; uses named-path-constraints_config; } container state { config false; description "State for system-wide parameters"; uses named-admin-groups_config; Saad, et al. Expires January 6, 2017 [Page 71] Internet-Draft TE YANG Data Model July 2016 uses named-srlgs_config; uses named-explicit-paths_config; uses named-path-constraints_config; } } } /* TE tunnels container data */ grouping tunnels-grouping { description "Tunnels TE configuration data grouping"; container tunnels { description "Tunnels TE configuration data container"; list tunnel { key "name type"; unique "identifier"; description "TE tunnel."; leaf name { type leafref { path "../config/name"; } description "TE tunnel name."; } leaf type { type leafref { path "../config/type"; } description "TE tunnel type."; } leaf identifier { type leafref { path "../config/identifier"; } description "TE tunnel Identifier."; } uses tunnel-properties; } } } /* TE LSPs ephemeral state container data */ grouping lsps-state-grouping { description "LSPs state operational data grouping"; container lsps-state { Saad, et al. Expires January 6, 2017 [Page 72] Internet-Draft TE YANG Data Model July 2016 config "false"; description "LSPs operational state data."; list lsp { key "source destination tunnel-id lsp-id "+ "extended-tunnel-id type"; description "List of LSPs associated with the tunnel."; leaf source { type inet:ip-address; description "Tunnel sender address extracted from SENDER_TEMPLATE object"; reference "RFC3209"; } leaf destination { type inet:ip-address; description "Tunnel endpoint address extracted from SESSION object"; reference "RFC3209"; } leaf tunnel-id { type uint16; description "Tunnel identifier used in the SESSION that remains constant over the life of the tunnel."; reference "RFC3209"; } leaf lsp-id { type uint16; description "Identifier used in the SENDER_TEMPLATE and the FILTER_SPEC that can be changed to allow a sender to share resources with itself."; reference "RFC3209"; } leaf extended-tunnel-id { type inet:ip-address; description "Extended Tunnel ID of the LSP."; reference "RFC3209"; } leaf type { type identityref { Saad, et al. Expires January 6, 2017 [Page 73] Internet-Draft TE YANG Data Model July 2016 base te-types:tunnel-type; } description "The LSP type P2P or P2MP"; } uses lsp-properties_state; uses lsp-record-route-information_state; } } } /*** End of TE global groupings ***/ /** * TE configurations container */ container te { presence "Enable TE feature."; description "TE global container."; /* TE Global Configuration Data */ uses globals-grouping; /* TE Tunnel Configuration Data */ uses tunnels-grouping; /* TE LSPs State Data */ uses lsps-state-grouping; } /* TE Global RPCs/execution Data */ rpc globals-rpc { description "Execution data for TE global."; } /* TE interfaces RPCs/execution Data */ rpc interfaces-rpc { description "Execution data for TE interfaces."; } /* TE Tunnel RPCs/execution Data */ rpc tunnels-rpc { description "TE tunnels RPC nodes"; } /* TE Global Notification Data */ Saad, et al. Expires January 6, 2017 [Page 74] Internet-Draft TE YANG Data Model July 2016 notification globals-notif { description "Notification messages for Global TE."; } /* TE Tunnel Notification Data */ notification tunnels-notif { description "Notification messages for TE tunnels."; } } Figure 8: TE generic YANG module file "ietf-te-device@2016-07-05.yang" module ietf-te-device { namespace "urn:ietf:params:xml:ns:yang:ietf-te-device"; /* Replace with IANA when assigned */ prefix "te-dev"; /* Import TE generic types */ import ietf-te { prefix te; } /* Import TE generic types */ import ietf-te-types { prefix te-types; } import ietf-interfaces { prefix if; } import ietf-inet-types { prefix inet; } organization "IETF Traffic Engineering Architecture and Signaling (TEAS) Working Group"; contact "WG Web: WG List: Saad, et al. Expires January 6, 2017 [Page 75] Internet-Draft TE YANG Data Model July 2016 WG Chair: Lou Berger WG Chair: Vishnu Pavan Beeram Editor: Tarek Saad Editor: Rakesh Gandhi Editor: Vishnu Pavan Beeram Editor: Himanshu Shah Editor: Xufeng Liu Editor: Xia Chen Editor: Raqib Jones Editor: Bin Wen "; description "YANG data module for TE device configurations, state, RPC and notifications."; revision "2016-07-05" { description "Latest update to TE device YANG module."; reference "TBD"; } /** * TE LSP device state grouping */ grouping lsps-device_state { description "TE LSP device state grouping"; container lsp-timers { when "../origin-type = 'ingress'" { description "Applicable to ingress LSPs only"; Saad, et al. Expires January 6, 2017 [Page 76] Internet-Draft TE YANG Data Model July 2016 } description "Ingress LSP timers"; leaf life-time { type uint32; units seconds; description "lsp life time"; } leaf time-to-install { type uint32; units seconds; description "lsp installation delay time"; } leaf time-to-die { type uint32; units seconds; description "lsp expire delay time"; } } container downstream-info { when "../../origin-type != 'egress'" { description "Applicable to ingress LSPs only"; } description "downstream information"; leaf nhop { type inet:ip-address; description "downstream nexthop."; } leaf outgoing-interface { type if:interface-ref; description "downstream interface."; } leaf neighbor { type inet:ip-address; description "downstream neighbor."; } Saad, et al. Expires January 6, 2017 [Page 77] Internet-Draft TE YANG Data Model July 2016 leaf label { type uint32; description "downstream label."; } } container upstream-info { when "../../origin-type != 'ingress'" { description "Applicable to non-ingress LSPs only"; } description "upstream information"; leaf phop { type inet:ip-address; description "upstream nexthop or previous-hop."; } leaf neighbor { type inet:ip-address; description "upstream neighbor."; } leaf label { type uint32; description "upstream label."; } } } /** * Device general groupings. */ grouping tunnel-device_config { description "Device TE tunnel configs"; leaf path-invalidation-action { type identityref { base te-types:path-invalidation-action-type; } description "Tunnel path invalidtion action"; } } grouping lsp-device-timers_config { Saad, et al. Expires January 6, 2017 [Page 78] Internet-Draft TE YANG Data Model July 2016 description "Device TE LSP timers configs"; leaf lsp-install-interval { type uint32; units seconds; description "lsp installation delay time"; } leaf lsp-cleanup-interval { type uint32; units seconds; description "lsp cleanup delay time"; } leaf lsp-invalidation-interval { type uint32; units seconds; description "lsp path invalidation before taking action delay time"; } } /** * TE global device generic groupings */ /* Global device specific configuration data */ grouping globals-device_config { description "Device globals configs"; uses lsp-device-timers_config; } /* Global device specific state data */ grouping globals-device_state { description "Top level grouping for global state data."; leaf tunnels-counter { type uint32; description "Tunnels count"; } leaf lsps-counter { type uint32; description "Tunnels count"; } } /* TE interface container data */ grouping interfaces-grouping { description Saad, et al. Expires January 6, 2017 [Page 79] Internet-Draft TE YANG Data Model July 2016 "Interface TE configuration data grouping"; container interfaces { description "Configuration data model for TE interfaces."; uses te-all-attributes; list interface { key "interface"; description "TE interfaces."; leaf interface { type if:interface-ref; description "TE interface name."; } /* TE interface parameters */ uses te-attributes; } } } /** * TE interface device generic groupings */ grouping te-admin-groups_config { description "TE interface affinities grouping"; choice admin-group-type { description "TE interface administrative groups representation type"; case value-admin-groups { choice value-admin-group-type { description "choice of admin-groups"; case admin-groups { description "Administrative group/Resource class/Color."; leaf admin-group { type te-types:admin-group; description "TE interface administrative group"; } } case extended-admin-groups { if-feature te-types:extended-admin-groups; description "Extended administrative group/Resource class/Color."; leaf extended-admin-group { Saad, et al. Expires January 6, 2017 [Page 80] Internet-Draft TE YANG Data Model July 2016 type te-types:extended-admin-group; description "TE interface extended administrativei group"; } } } } case named-admin-groups { list named-admin-groups { if-feature te-types:extended-admin-groups; if-feature te-types:named-extended-admin-groups; key named-admin-group; description "A list of named admin-group entries"; leaf named-admin-group { type leafref { path "../../../../../te:globals/te:config/" + "te:named-admin-groups/te:name"; } description "A named admin-group entry"; } } } } } /* TE interface SRLGs */ grouping te-srlgs_config { description "TE interface SRLG grouping"; choice srlg-type { description "Choice of SRLG configuration"; case value-srlgs { list values { key "value"; description "List of SRLG values that this link is part of."; leaf value { type uint32 { range "0..4294967295"; } description "Value of the SRLG"; } } } case named-srlgs { list named-srlgs { Saad, et al. Expires January 6, 2017 [Page 81] Internet-Draft TE YANG Data Model July 2016 if-feature te-types:named-srlg-groups; key named-srlg; description "A list of named SRLG entries"; leaf named-srlg { type leafref { path "../../../../../te:globals/te:config/" + "te:named-srlgs/te:name"; } description "A named SRLG entry"; } } } } } /* TE interface flooding parameters */ grouping te-flooding-parameters_config { description "Interface TE flooding properties."; container thresholds { description "Flooding threshold values in percentages."; choice type { description "Describes the flooding threshold step method"; case equal-steps { choice equal-step-type { description "Describes whether up and down equal step size are same or different"; case up-down-different-step { leaf up-step { type uint8 { range "0..100"; } description "Set single percentage threshold for increasing resource allocation"; } leaf down-step { type uint8 { range "0..100"; } description "Set single percentage threshold for decreasing resource allocation"; Saad, et al. Expires January 6, 2017 [Page 82] Internet-Draft TE YANG Data Model July 2016 } } case up-down-same-step { leaf step { type uint8 { range "0..100"; } description "Set single percentage threshold for increasing and decreasing resource allocation"; } } } } case unequal-steps { list up-steps { key "value"; description "Set nultuple percentage thresholds for increasing resource allocation"; leaf value { type uint8 { range "0..100"; } description "Percentage value"; } } list down-steps { key "value"; description "Set nultuple percentage thresholds for decreasing resource allocation"; leaf value { type uint8 { range "0..100"; } description "Percentage value"; } } } } } } /* TE interface metric */ Saad, et al. Expires January 6, 2017 [Page 83] Internet-Draft TE YANG Data Model July 2016 grouping te-metric_config { description "Interface TE metric grouping"; leaf te-metric { type te-types:te-metric; description "Interface TE metric."; } } /* TE interface switching capabilities */ grouping te-switching-cap_config { description "TE interface switching capabilities"; list switching-capabilities { key "switching-capability"; description "List of interface capabilities for this interface"; leaf switching-capability { type identityref { base te-types:switching-capabilities; } description "Switching Capability for this interface"; } leaf encoding { type identityref { base te-types:lsp-encoding-types; } description "Encoding supported by this interface"; } } } grouping te-advertisements_state { description "TE interface advertisements state grouping"; container te-advertisements_state { description "TE interface advertisements state container"; leaf flood-interval { type uint32; description "The periodic flooding interval"; } leaf last-flooded-time { type uint32; units seconds; description Saad, et al. Expires January 6, 2017 [Page 84] Internet-Draft TE YANG Data Model July 2016 "Time elapsed since last flooding in seconds"; } leaf next-flooded-time { type uint32; units seconds; description "Time remained for next flooding in seconds"; } leaf last-flooded-trigger { type enumeration { enum link-up { description "Link-up flooding trigger"; } enum link-down { description "Link-up flooding trigger"; } enum threshold-up { description "Bandwidth reservation up threshold"; } enum threshold-down { description "Bandwidth reservation down threshold"; } enum bandwidth-change { description "Banwidth capacity change"; } enum user-initiated { description "Initiated by user"; } enum srlg-change { description "SRLG property change"; } enum periodic-timer { description "Periodic timer expired"; } } description "Trigger for the last flood"; } list advertized-level-areas { key level-area; description "List of areas the TE interface is advertised in"; leaf level-area { type uint32; description "The IGP area or level where the TE Saad, et al. Expires January 6, 2017 [Page 85] Internet-Draft TE YANG Data Model July 2016 interface state is advertised in"; } } } } /* TE interface attributes grouping */ grouping te-attributes { description "TE attributes configuration grouping"; container config { description "Configuration parameters for interface TE attributes"; uses te-metric_config; uses te-admin-groups_config; uses te-srlgs_config; uses te-switching-cap_config; uses te-flooding-parameters_config; } container state { config false; description "State parameters for interface TE metric"; uses te-metric_config; uses te-admin-groups_config; uses te-srlgs_config; uses te-switching-cap_config; uses te-flooding-parameters_config; uses te-advertisements_state; } } grouping te-all-attributes { description "TE attributes configuration grouping for all interfaces"; container config { description "Configuration parameters for all interface TE attributes"; uses te-flooding-parameters_config; } container state { config false; description "State parameters for all interface TE metric"; uses te-flooding-parameters_config; } Saad, et al. Expires January 6, 2017 [Page 86] Internet-Draft TE YANG Data Model July 2016 } /*** End of TE interfaces device groupings ***/ /** * TE device augmentations */ augment "/te:te" { description "TE global container."; /* TE Interface Configuration Data */ uses interfaces-grouping; } /* TE globals device augmentation */ augment "/te:te/te:globals/te:config" { description "Global TE device specific configuration parameters"; uses globals-device_config; } augment "/te:te/te:globals/te:state" { description "Global TE device specific state parameters"; uses globals-device_config; uses globals-device_state; } /* TE tunnels device configuration augmentation */ augment "/te:te/te:tunnels/te:tunnel/te:config" { description "Tunnel device dependent augmentation"; uses lsp-device-timers_config; } augment "/te:te/te:tunnels/te:tunnel/te:state" { description "Tunnel device dependent augmentation"; uses lsp-device-timers_config; } /* TE LSPs device state augmentation */ augment "/te:te/te:lsps-state/te:lsp" { description "LSP device dependent augmentation"; uses lsps-device_state; } /* TE interfaces RPCs/execution Data */ rpc interfaces-rpc { description Saad, et al. Expires January 6, 2017 [Page 87] Internet-Draft TE YANG Data Model July 2016 "Execution data for TE interfaces."; } /* TE Interfaces Notification Data */ notification interfaces-notif { description "Notification messages for TE interfaces."; } } Figure 9: TE MPLS specific types YANG module file "ietf-te-mpls@2016-07-05.yang" module ietf-te-mpls { namespace "urn:ietf:params:xml:ns:yang:ietf-te-mpls"; /* Replace with IANA when assigned */ prefix "te-mpls"; /* Import TE generic types */ import ietf-te { prefix te; } /* Import MPLS TE specific types */ import ietf-te-mpls-types { prefix te-mpls-type; } organization "IETF Traffic Engineering Architecture and Signaling (TEAS) Working Group"; contact "WG Web: WG List: WG Chair: Lou Berger WG Chair: Vishnu Pavan Beeram Editor: Tarek Saad Saad, et al. Expires January 6, 2017 [Page 88] Internet-Draft TE YANG Data Model July 2016 Editor: Rakesh Gandhi Editor: Vishnu Pavan Beeram Editor: Himanshu Shah Editor: Xufeng Liu Editor: Xia Chen Editor: Raqib Jones Editor: Bin Wen "; description "YANG data module for MPLS TE configurations, state, RPC and notifications."; revision "2016-07-05" { description "Latest update to MPLS TE YANG module."; reference "TBD"; } /* MPLS TE tunnel properties*/ grouping tunnel-mpls-properties_config { description "MPLS TE tunnel properties"; uses te-mpls-type:tunnel-routing-properties; uses te-mpls-type:tunnel-forwarding-properties; } /*** End of MPLS TE tunnel configuration/state */ /** * MPLS TE augmentations */ /* MPLS TE tunnel augmentations */ augment "/te:te/te:tunnels/te:tunnel/te:config" { description "MPLS TE tunnel config augmentations"; uses tunnel-mpls-properties_config; Saad, et al. Expires January 6, 2017 [Page 89] Internet-Draft TE YANG Data Model July 2016 } augment "/te:te/te:tunnels/te:tunnel/te:state" { description "MPLS TE tunnel state augmentations"; uses tunnel-mpls-properties_config; } /* MPLS TE LSPs augmentations */ } Figure 10: TE MPLS YANG module file "ietf-te-mpls-types@2016-07-05.yang" module ietf-te-mpls-types { namespace "urn:ietf:params:xml:ns:yang:ietf-te-mpls-types"; /* Replace with IANA when assigned */ prefix "te-mpls-types"; import ietf-inet-types { prefix inet; } import ietf-mpls { prefix mpls; } organization "IETF TEAS Working Group"; contact "Fill me"; description "This module contains a collection of generally useful TE specific YANG data type defintions."; revision "2016-07-05" { description "Latest revision of TE MPLS types"; reference "RFC3209"; } identity backup-protection-type { description "Base identity for backup protection type"; } identity backup-protection-link { Saad, et al. Expires January 6, 2017 [Page 90] Internet-Draft TE YANG Data Model July 2016 base backup-protection-type; description "backup provides link protection only"; } identity backup-protection-node-link { base backup-protection-type; description "backup offers node (preferred) or link protection"; } identity bc-model-type { description "Base identity for Diffserv-TE bandwidth constraint model type"; } identity bc-model-rdm { base bc-model-type; description "Russian Doll bandwidth constraint model type."; } identity bc-model-mam { base bc-model-type; description "Maximum Allocation bandwidth constraint model type."; } identity bc-model-mar { base bc-model-type; description "Maximum Allocation with Reservation bandwidth constraint model type."; } grouping bandwidth-constraint-values { description "Packet bandwidth contraints values"; choice value-type { description "Value representation"; case percentages { container perc-values { uses bandwidth-mpls-constraints; description "Percentage values"; Saad, et al. Expires January 6, 2017 [Page 91] Internet-Draft TE YANG Data Model July 2016 } } case absolutes { container abs-values { uses bandwidth-mpls-constraints; description "Absolute values"; } } } } grouping bandwidth-mpls-reservable { description "Packet reservable bandwidth"; choice bandwidth-value { description "Reservable bandwidth configuraiton choice"; case absolute { leaf absolute-value { type uint32; description "Absolute value of the bandwidth"; } } case precentage { leaf percent-value { type uint32 { range "0..4294967295"; } description "Percentage reservable bandwidth"; } description "The maximum reservable bandwidth on the interface"; } } choice bc-model-type { description "Reservable bandwidth percentage capacity values."; case bc-model-rdm { container bc-model-rdm { description "Russian Doll Model Bandwidth Constraints."; uses bandwidth-mpls-constraints; } } case bc-model-mam { container bc-model-mam { Saad, et al. Expires January 6, 2017 [Page 92] Internet-Draft TE YANG Data Model July 2016 uses bandwidth-mpls-constraints; description "Maximum Allocation Model Bandwidth Constraints."; } } case bc-model-mar { container bc-model-mar { uses bandwidth-mpls-constraints; description "Maximum Allocation with Reservation Model Bandwidth Constraints."; } } } } typedef bfd-type { type enumeration { enum classical { description "BFD classical session type."; } enum seamless { description "BFD seamless session type."; } } default "classical"; description "Type of BFD session"; } typedef bfd-encap-mode-type { type enumeration { enum gal { description "BFD with GAL mode"; } enum ip { description "BFD with IP mode"; } } default ip; description "Possible BFD transport modes when running over TE LSPs."; } Saad, et al. Expires January 6, 2017 [Page 93] Internet-Draft TE YANG Data Model July 2016 grouping bandwidth-mpls-constraints { description "Bandwidth constraints."; container bandwidth-mpls-constraints { description "Holds the bandwidth contraints properties"; leaf maximum-reservable { type uint32 { range "0..4294967295"; } description "The maximum reservable bandwidth on the interface"; } leaf-list bc-value { type uint32 { range "0..4294967295"; } max-elements 8; description "The bandwidth contraint type"; } } } grouping tunnel-forwarding-properties { description "Properties for using tunnel in forwarding."; container forwarding { description "Tunnel forwarding properties container"; leaf binding-label { type mpls:mpls-label; description "MPLS tunnel binding label"; } leaf load-share { type uint32 { range "1..4294967295"; } description "ECMP tunnel forwarding load-share factor."; } choice policy-type { description "Tunnel policy type"; container class { description "Tunnel forwarding per class properties"; leaf class { type uint8 { Saad, et al. Expires January 6, 2017 [Page 94] Internet-Draft TE YANG Data Model July 2016 range "1..7"; } description "The class associated with this tunnel"; } } container group { description "Tunnel frowarding per group properties"; leaf-list classes { type uint8 { range "1..7"; } description "The forwarding class"; } } } } } grouping tunnel-routing-properties { description "TE tunnel routing properties"; choice routing-choice { description "Announces the tunnel to IGP as either autoroute or forwarding adjacency."; case autoroute { container autoroute-announce { presence "Enable autoroute announce."; description "Announce the TE tunnel as autoroute to IGP for use as IGP shortcut."; leaf-list routing-afs { type inet:ip-version; description "Address families"; } choice metric-type { description "Type of metric to use when announcing the tunnel as shortcut"; leaf metric { type uint32 { range "1..2147483647"; } description Saad, et al. Expires January 6, 2017 [Page 95] Internet-Draft TE YANG Data Model July 2016 "Describes the metric to use when announcing the tunnel as shortcut"; } leaf relative-metric { type int32 { range "-10..10"; } description "Relative TE metric to use when announcing the tunnel as shortcut"; } leaf absolute-metric { type uint32 { range "1..2147483647"; } description "Absolute TE metric to use when announcing the tunnel as shortcut"; } } } } case forwarding-adjacency { container forwarding-adjacency { presence "Enable forwarding adjacency on the tunnel."; description "Announce the TE tunnel as forwarding adjacency."; leaf holdtime { type uint32 { range "0..4294967295"; } description "Holdtime in seconds after tunnel becomes UP."; } leaf-list routing-afs { type inet:ip-version; description "Address families"; } } } } } } Saad, et al. Expires January 6, 2017 [Page 96] Internet-Draft TE YANG Data Model July 2016 Figure 11: TE MPLS types YANG module file "ietf-te-sr-mpls@2016-07-05.yang" module ietf-te-sr-mpls { namespace "urn:ietf:params:xml:ns:yang:ietf-te-sr-mpls"; /* Replace with IANA when assigned */ prefix "te-sr-mpls"; /* Import TE generic types */ import ietf-te { prefix te; } /* Import TE generic types */ import ietf-te-types { prefix te-types; } organization "IETF Traffic Engineering Architecture and Signaling (TEAS) Working Group"; contact "WG Web: WG List: WG Chair: Lou Berger WG Chair: Vishnu Pavan Beeram Editor: Tarek Saad Editor: Rakesh Gandhi Editor: Vishnu Pavan Beeram Editor: Himanshu Shah Editor: Xufeng Liu Saad, et al. Expires January 6, 2017 [Page 97] Internet-Draft TE YANG Data Model July 2016 Editor: Xia Chen Editor: Raqib Jones Editor: Bin Wen "; description "YANG data module for MPLS TE configurations, state, RPC and notifications."; revision "2016-07-05" { description "Latest update to MPLS TE YANG module."; reference "TBD"; } identity sr-adjacency-protection-type { description "The Adj-SID base protection types"; } identity sr-adjacency-protection-type-protected { base sr-adjacency-protection-type; description "The Adj-SID is eligible for protection (e.g.: using IPFRR or MPLS-FRR)"; } identity sr-adjacency-protection-type-unprotected { base sr-adjacency-protection-type; description "The Adj-SID is not eligible for protection (e.g.: using IPFRR or MPLS-FRR)"; } /* MPLS SR-TE tunnel properties*/ grouping tunnel-sr-mpls-properties_config { description "MPLS TE SR tunnel properties"; leaf path-signaling-type { type identityref { base te-types:path-signaling-type; } description "TE tunnel path signaling type"; } } Saad, et al. Expires January 6, 2017 [Page 98] Internet-Draft TE YANG Data Model July 2016 grouping named-sr-path-constraints_config { description "foo"; leaf adjacency-protection { type identityref { base sr-adjacency-protection-type; } description "foo"; } } /*** End of MPLS SR-TE tunnel configuration/state */ /** * MPLS TE augmentations */ /* MPLS TE global augmentations */ augment "/te:te/te:globals/te:config/te:named-constraints" { description "foo"; uses named-sr-path-constraints_config; } augment "/te:te/te:globals/te:state/te:named-constraints" { description "foo"; uses named-sr-path-constraints_config; } /* MPLS TE tunnel augmentations */ augment "/te:te/te:tunnels/te:tunnel/te:primary-paths" { description "MPLS TE tunnel config augmentations"; uses tunnel-sr-mpls-properties_config; } augment "/te:te/te:tunnels/te:tunnel/te:primary-paths/" + "te:secondary-paths" { description "MPLS TE tunnel state augmentations"; uses tunnel-sr-mpls-properties_config; } /* MPLS TE LSPs augmentations */ } Figure 12: SR TE MPLS YANG module Saad, et al. Expires January 6, 2017 [Page 99] Internet-Draft TE YANG Data Model July 2016 5. IANA Considerations This document registers the following URIs in the IETF XML registry [RFC3688]. Following the format in [RFC3688], the following registration is requested to be made. URI: urn:ietf:params:xml:ns:yang:ietf-te XML: N/A, the requested URI is an XML namespace. URI: urn:ietf:params:xml:ns:yang:ietf-te-device XML: N/A, the requested URI is an XML namespace. URI: urn:ietf:params:xml:ns:yang:ietf-te-mpls XML: N/A, the requested URI is an XML namespace. URI: urn:ietf:params:xml:ns:yang:ietf-te-sr-mpls XML: N/A, the requested URI is an XML namespace. URI: urn:ietf:params:xml:ns:yang:ietf-te-types XML: N/A, the requested URI is an XML namespace. URI: urn:ietf:params:xml:ns:yang:ietf-te-mpls-types XML: N/A, the requested URI is an XML namespace. This document registers a YANG module in the YANG Module Names registry [RFC6020]. name: ietf-te namespace: urn:ietf:params:xml:ns:yang:ietf-te prefix: ietf-te reference: RFC3209 name: ietf-te-device namespace: urn:ietf:params:xml:ns:yang:ietf-te prefix: ietf-te-device reference: RFC3209 name: ietf-te-mpls namespace: urn:ietf:params:xml:ns:yang:ietf-te- mpls prefix: ietf-te-mpls reference: RFC3209 name: ietf-te-sr-mpls namespace: urn:ietf:params:xml:ns:yang:ietf-te- sr-mpls prefix: ietf-te-sr-mpls name: ietf-te-types namespace: urn:ietf:params:xml:ns:yang:ietf-te- types prefix: ietf-te-types reference: RFC3209 name: ietf-te-mpls-types namespace: urn:ietf:params:xml:ns:yang:ietf- te-mpls-types prefix: ietf-te-mpls-types reference: RFC3209 Saad, et al. Expires January 6, 2017 [Page 100] Internet-Draft TE YANG Data Model July 2016 6. Security Considerations The YANG module defined in this memo is designed to be accessed via the NETCONF protocol [RFC6241]. The lowest NETCONF layer is the secure transport layer and the mandatory-to-implement secure transport is SSH [RFC6242]. The NETCONF access control model [RFC6536] provides means to restrict access for particular NETCONF users to a pre-configured subset of all available NETCONF protocol operations and content. There are a number of data nodes defined in the YANG module which are writable/creatable/deletable (i.e., config true, which is the default). These data nodes may be considered sensitive or vulnerable in some network environments. Write operations (e.g., ) to these data nodes without proper protection can have a negative effect on network operations. Following are the subtrees and data nodes and their sensitivity/vulnerability: "/te/globals": This module specifies the global TE configurations on a device. Unauthorized access to this container could cause the device to ignore packets it should receive and process. "/te/tunnels": This list specifies the configured TE tunnels on a device. Unauthorized access to this list could cause the device to ignore packets it should receive and process. "/te/lsps-state": This list specifies the state derived LSPs. Unauthorized access to this list could cause the device to ignore packets it should receive and process. "/te/interfaces": This list specifies the configured TE interfaces on a device. Unauthorized access to this list could cause the device to ignore packets it should receive and process. 7. Acknowledgement The authors would like to thank the members of the multi-vendor YANG design team who are involved in the definition of this model. The authors would also like to thank Loa Andersson, Lou Berger, Aihua Guo, Dhruv Dhody, Anurag Sharma, and Xian Zhang for their comments and providing valuable feedback on this document. Saad, et al. Expires January 6, 2017 [Page 101] Internet-Draft TE YANG Data Model July 2016 8. References 8.1. Normative References [I-D.bjorklund-netmod-structural-mount] Bjorklund, M., "YANG Structural Mount", draft-bjorklund- netmod-structural-mount-02 (work in progress), February 2016. [I-D.ietf-netmod-routing-cfg] Lhotka, L. and A. Lindem, "A YANG Data Model for Routing Management", draft-ietf-netmod-routing-cfg-22 (work in progress), July 2016. [I-D.ietf-teas-yang-rsvp] Beeram, V., Saad, T., Gandhi, R., Liu, X., Shah, H., Chen, X., Jones, R., and B. Wen, "A YANG Data Model for Resource Reservation Protocol (RSVP)", draft-ietf-teas-yang-rsvp-03 (work in progress), March 2016. [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/ RFC2119, March 1997, . [RFC3209] Awduche, D., Berger, L., Gan, D., Li, T., Srinivasan, V., and G. Swallow, "RSVP-TE: Extensions to RSVP for LSP Tunnels", RFC 3209, DOI 10.17487/RFC3209, December 2001, . [RFC3473] Berger, L., Ed., "Generalized Multi-Protocol Label Switching (GMPLS) Signaling Resource ReserVation Protocol- Traffic Engineering (RSVP-TE) Extensions", RFC 3473, DOI 10.17487/RFC3473, January 2003, . [RFC3688] Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688, DOI 10.17487/RFC3688, January 2004, . [RFC6020] Bjorklund, M., Ed., "YANG - A Data Modeling Language for the Network Configuration Protocol (NETCONF)", RFC 6020, DOI 10.17487/RFC6020, October 2010, . Saad, et al. Expires January 6, 2017 [Page 102] Internet-Draft TE YANG Data Model July 2016 [RFC6241] Enns, R., Ed., Bjorklund, M., Ed., Schoenwaelder, J., Ed., and A. Bierman, Ed., "Network Configuration Protocol (NETCONF)", RFC 6241, DOI 10.17487/RFC6241, June 2011, . [RFC6242] Wasserman, M., "Using the NETCONF Protocol over Secure Shell (SSH)", RFC 6242, DOI 10.17487/RFC6242, June 2011, . [RFC6536] Bierman, A. and M. Bjorklund, "Network Configuration Protocol (NETCONF) Access Control Model", RFC 6536, DOI 10.17487/RFC6536, March 2012, . [RFC6991] Schoenwaelder, J., Ed., "Common YANG Data Types", RFC 6991, DOI 10.17487/RFC6991, July 2013, . 8.2. Informative References [I-D.clemm-netmod-mount] Clemm, A., Medved, J., and E. Voit, "Mounting YANG-Defined Information from Remote Datastores", draft-clemm-netmod- mount-04 (work in progress), March 2016. [I-D.openconfig-mpls-consolidated-model] George, J., Fang, L., eric.osborne@level3.com, e., and R. Shakir, "MPLS / TE Model for Service Provider Networks", draft-openconfig-mpls-consolidated-model-02 (work in progress), October 2015. [I-D.openconfig-netmod-opstate] Shakir, R., Shaikh, A., and M. Hines, "Consistent Modeling of Operational State Data in YANG", draft-openconfig- netmod-opstate-01 (work in progress), July 2015. Authors' Addresses Tarek Saad (editor) Cisco Systems Inc Email: tsaad@cisco.com Rakesh Gandhi Cisco Systems Inc Email: rgandhi@cisco.com Saad, et al. Expires January 6, 2017 [Page 103] Internet-Draft TE YANG Data Model July 2016 Xufeng Liu Ericsson Email: xufeng.liu@ericsson.com Vishnu Pavan Beeram Juniper Networks Email: vbeeram@juniper.net Himanshu Shah Ciena Email: hshah@ciena.com Igor Bryskin Huawei Technologies Email: Igor.Bryskin@huawei.com Xia Chen Huawei Technologies Email: jescia.chenxia@huawei.com Raqib Jones Brocade Email: raqib@Brocade.com Bin Wen Comcast Email: Bin_Wen@cable.comcast.com Saad, et al. Expires January 6, 2017 [Page 104]