--- 1/draft-ietf-teas-yang-te-topo-00.txt 2015-07-06 12:15:25.857387021 -0700 +++ 2/draft-ietf-teas-yang-te-topo-01.txt 2015-07-06 12:15:26.013390639 -0700 @@ -1,390 +1,912 @@ -TEAS Working Group X. Liu -Internet-Draft Ericsson -Intended status: Standards Track I. Bryskin -Expires: November 08, 2015 ADVA Optical Networking - V. Beeram + TEAS Working Group Xufeng Liu + Internet Draft Ericsson + Intended status: Standards Track Igor Bryskin + ADVA Optical Networking + Vishnu Pavan Beeram Juniper Networks - T. Saad - Cisco Systems Inc. - H. Shah + Tarek Saad + Cisco Systems Inc + Himanshu Shah Ciena - May 08, 2015 - - YANG Data Model for TE Topologies - draft-ietf-teas-yang-te-topo-00 + Oscar Gonzalez De Dios + Telefonica -Abstract + Expires: January 6, 2016 July 6, 2015 - This document defines a YANG data model for representing and - manipulating TE Topologies. + YANG Data Model for TE Topologies + draft-ietf-teas-yang-te-topo-01 -Status of This Memo + 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/. + Task Force (IETF), its areas, and its working groups. Note that + other groups may also distribute working documents as Internet- + Drafts. - 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." + Internet-Drafts are draft documents valid for a maximum of six + months and may be updated, replaced, or obsoleted by other documents + at any time. It is inappropriate to use Internet-Drafts as + reference material or to cite them other than as "work in progress." - This Internet-Draft will expire on November 08, 2015. + The list of current Internet-Drafts can be accessed at + http://www.ietf.org/ietf/1id-abstracts.txt + + The list of Internet-Draft Shadow Directories can be accessed at + http://www.ietf.org/shadow.html + + This Internet-Draft will expire on January 6, 2016. 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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. + + Abstract + + This document defines a YANG data model for representing, retrieving + and manipulating TE Topologies. The model serves as a base model + that other technology specific TE Topology models can augment. + + Conventions used in this document + + The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", + "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this + document are to be interpreted as described in RFC-2119 [RFC2119]. Table of Contents - 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2 - 1.1. Tree Structure - Legend . . . . . . . . . . . . . . . . . 2 - 1.2. Prefixes in Data Node Names . . . . . . . . . . . . . . . 3 - 1.3. Terminology . . . . . . . . . . . . . . . . . . . . . . . 4 - 2. Design Considerations . . . . . . . . . . . . . . . . . . . . 4 - 2.1. Generic extensible Model . . . . . . . . . . . . . . . . 4 - 2.1.1. Generic TE Link Attributes . . . . . . . . . . . . . 4 - 2.1.2. Generic TE Node Attributes . . . . . . . . . . . . . 4 - 2.1.3. TED Information Sources . . . . . . . . . . . . . . . 4 - 2.2. Overlay/Underlay Relationship . . . . . . . . . . . . . . 5 - 2.3. Scheduling Parameters . . . . . . . . . . . . . . . . . . 5 - 2.4. Abstract TE Topologies . . . . . . . . . . . . . . . . . 5 - 2.5. Open Items . . . . . . . . . . . . . . . . . . . . . . . 6 - 3. Tree Structure . . . . . . . . . . . . . . . . . . . . . . . 6 - 3.1. TE Topology Yang Module . . . . . . . . . . . . . . . . . 29 - 4. Normative References . . . . . . . . . . . . . . . . . . . . 49 - Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 49 + 1. Introduction...................................................3 + 1.1. Terminology...............................................3 + 1.2. Tree Structure - Legend...................................4 + 1.3. Prefixes in Data Node Names...............................4 + 2. Characterizing TE Topologies...................................5 + 3. Model Applicability............................................6 + 3.1. Native TE Topologies......................................6 + 3.2. Customized TE Topologies..................................8 + 4. Modeling Considerations.......................................10 + 4.1. Generic extensible Model.................................10 + 4.2. Model Structure..........................................10 + 4.3. Topology Identifiers.....................................11 + 4.4. Generic TE Link Attributes...............................12 + 4.5. Generic TE Node Attributes...............................12 + 4.6. TED Information Sources..................................13 + 4.7. Overlay/Underlay Relationship............................14 + 4.8. Scheduling Parameters....................................15 + 4.9. Templates................................................15 + 4.10. Notifications...........................................16 + 4.11. Open Items..............................................17 + 5. Tree Structure................................................17 + 6. TE Topology Yang Module.......................................42 + 7. Security Considerations.......................................78 + 8. IANA Considerations...........................................78 + 9. References....................................................78 + 9.1. Normative References.....................................78 + 9.2. Informative References...................................79 + 10. Acknowledgments..............................................79 1. Introduction - YANG [RFC6020] 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 defines a YANG data model for representing and - manipulating TE Topologies. This model contains technology agnostic - TE Topology building blocks that can be augmented and used by other - technology-specific TE Topology models. + The Traffic Engineering Database (TED) is an essential component of + Traffic Engineered (TE) systems that are based on MPLS-TE [RFC2702] + and GMPLS [RFC3945]. The TED is a collection of all TE information + about all TE nodes and TE links in the network. The TE Topology is a + schematic arrangement of TE nodes and TE links present in a given + TED. There could be one or more TE Topologies present in a given + Traffic Engineered system. The TE Topology is the topology on which + path computational algorithms are run to compute Traffic Engineered + Paths (TE Paths). -1.1. Tree Structure - Legend + This document defines a YANG [RFC6020] data model for representing + and manipulating TE Topologies. This model contains technology + agnostic TE Topology building blocks that can be augmented and used + by other technology-specific TE Topology models. + + 1.1. Terminology + + TED: The Traffic Engineering Database is a collection of all TE + information about all TE nodes and TE links in a given network. + + TE-Topology: The TE Topology is a schematic arrangement of TE nodes + and TE links in a given TED. It forms the basis for a graph suitable + for TE path computations. + + Native TE Topology: Native TE Topology is a topology that is native + to a given provider network. This is the topology on which path + computational algorithms are run to compute TE Paths. + + Customized TE Topology: Customized TE Topology is a custom topology + that is produced by a provider for a given Client. This topology + typically augments the Client's Native TE Topology. Path + computational algorithms aren't typically run on the Customized TE + Topology; they are run on the Client's augmented Native TE Topology. + + 1.2. Tree Structure - Legend A simplified graphical representation of the data model is presented - in Section 3 of this document. The following notations are used for + in Section 5 of this document. The following notations are used for the YANG model data tree representation. 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 : + 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 + 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. -1.2. Prefixes in Data Node Names + 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 -1.3. Terminology + 2. Characterizing TE Topologies - 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]. + The data model proposed by this document takes the following + characteristics of TE Topologies into account: -2. Design Considerations + - TE Topology is an abstract control-plane representation of the + data-plane topology. Hence attributes specific to the data-plane + must make their way into the corresponding TE Topology modeling. + The TE Topology comprises of dynamic auto-discovered data (data + that may change frequently - example: unreserved bandwidth + available on data-plane links) as well as fairly static data (data + that rarely changes- examples: layer network identification, + switching and adaptation capabilities and limitations, fate + sharing, administrative colors) associated with data-plane nodes + and links. It is possible for a single TE Topology to encompass TE + information at multiple switching layers. -2.1. Generic extensible Model + - TE Topologies are protocol independent. Information about + topological elements may be learnt via link-state protocols, but + the topology can exist without being dependent on any particular + protocol. + + - TE Topology may not be congruent to the routing topology (topology + constructed based on routing adjacencies) in a given TE System. + There isn't always a one-to-one association between a TE-link and + a routing adjacency. For example, the presence of a TE link + between a pair of nodes doesn't necessarily imply the existence of + a routing-adjacency between these nodes. + + - Each TE Topological element has an information source associated + with it. In some scenarios, there could be more than one + information source associated with each topological element. + + - TE Topologies can be hierarchical. Each node and link of a given + TE Topology can be associated with respective underlay topology. + This means that each node and link of a given TE Topology can be + associated with an independent stack of supporting TE Topologies. + + - TE Topologies can be customized. TE topologies of a given network + presented by the network provider to its client could be + customized on per-client request basis. This customization could + be performed by provider, by client or by provider/client + negotiation. The relationship between a customized topology (as + presented to the client) and provider's native topology (as known + in its entirety to the provider itself) could be captured as + hierarchical (overlay-underlay), but otherwise the two topologies + are decoupled from each other. + + 3. Model Applicability + + 3.1. Native TE Topologies + + The model discussed in this draft can be used to represent and + retrieve native TE topologies on a given TE system. + + +---+ +---+ +---+ +---+ +---+ + | R1|-------| R2|--------| R3|---------| R4|---------| R5| + +---+ +---+ +---+ +---+ +---+ + | / \ / \ / + | / \ / \ / + | / \ / \ / + | / \ / \ / + | / \ / \ / + +---+ +---+ +---+ +---+ + | R6|-------------| R7| | R8|---------| R9| + +---+ +---+ +---+ +---+ + + Figure 1a: Example Network Topology + + --------------- + | Native | | [ ] TE Node + | TE-Topology | | +++ TE Link + --------------- o-------------- + __________________ + [R1] ++++ [R2] ++++ [R3] ++++ [R4] ++++ [R5] + + + + + + + + + + + + + + + + + ++ ++ + [R6] +++++++++ [R7] [R8] ++++ [R9] + + Figure 1b: Native TE Topology as seen on Node R3 + + Consider the network topology depicted in Figure 1a (R1 .. R9 are + nodes representing routers). An implementation MAY choose to + construct a native TE Topology using all nodes and links present in + the given TED as depicted in Figure 1b. The data model proposed in + this document can be used to retrieve/represent this TE topology. + + : + TE info distributed via ISIS-TE : TE info distributed via OSPF-TE + : + +---+ +---+ +---+ +---+ +---+ + | R1|-------| R2|--------| R3|---------| R4|---------| R5| + +---+ +---+ +---+ +---+ +---+ + | / : \ / \ / + | / : \ / \ / + | / : \ / \ / + | / : \ / \ / + | / : \ / \ / + +---+ +---+ : +---+ +---+ + | R6|-------------| R7| : | R8|---------| R9| + +---+ +---+ : +---+ +---+ + : + + Figure 2a: Example Network Topology + + ----------------------- : ----------------------- + |Native TE Topology | : |Native TE Topology | + |Info-Source: ISIS-TE | : |Info-Source: OSPF-TE | + ----------------------- : ----------------------- + : + [R1] ++++ [R2] ++++ [R3] : [R3'] ++++ [R4] ++++ [R5] + + + : + + + + + + + : + + + + + + + : ++ ++ + [R6] +++++++++ [R7] : [R8] ++++ [R9] + + Figure 2b: Native TE Topologies as seen on Node R3 + + Consider the case of the topology being split in a way that some + nodes participate in OSPF-TE while others participate in ISIS-TE + (Figure 2a). An implementation MAY choose to construct separate TE + Topologies based on the information source. The native TE Topologies + constructed using only nodes and links that were learnt via a + specific information source are depicted in Figure 2b. The data + model proposed in this document can be used to retrieve/represent + these TE topologies. + + Similarly, the data model can be used to represent/retrieve a TE + Topology that is constructed using only nodes and links that belong + to a particular technology layer. The data model is flexible enough + to retrieve and represent many such native TE Topologies. + + 3.2. Customized TE Topologies + + The model discussed in this draft can be used to represent, retrieve + and manipulate customized TE Topologies. The model allows the + provider to present the network in abstract TE Terms on a per client + basis. These customized topologies contain sufficient information + for the path computing client to select paths according to its + policies. + + | +---+ /-\ + | | | Router ( ) WDM + | +---+ Node \-/ node + | + o----------------------------_____ + __ + +---+ /-\ /-\ /-\ +---+ + | R1|-------( A )--------( C )---------( E )---------| R3| + +---+ \-/ \-/ \-/ +---+ + / \ / \ + / \ / \ + / \ / \ + / \ / \ + / \ / \ + +---+ /-\ /-\ /-\ +---+ + | R2|---------( B )---------( D )---------( F )---------| R4| + +---+ \-/ \-/ \-/ +---+ + + Figure 3: Example packet optical topology + + Consider the network topology depicted in Figure 3. This is a + typical packet optical transport deployment scenario where the WDM + layer network domain serves as a Server Network Domain providing + transport connectivity to the packet layer network Domain (Client + Network Domain). Nodes R1, R2, R3 and R4 are IP routers that are + connected to an Optical WDM transport network. A, B, C, D, E and F + are WDM nodes that constitute the Server Network Domain. + + | ***** B-F WDM Path + | @@@@@ B-E WDM Path + | $$$$$ A-E WDM Path + o--------------------_ + + +---+ /-\ $$$$$$$$ /-\ $$$$$$$$$ /-\ +---+ + | R1|-------( A )--------( C )---------( E )---------| R3| + +---+ \-/ @\-/ @@@@@@@@@ \-/ +---+ + @/ \ / \ + @/ \ / \ + @/ \ / \ + @/ \ / \ + @/ \ / \ + +---+ /-\ ********* /-\ ********* /-\ +---+ + | R2|---------( B )---------( D )---------( F )---------| R4| + +---+ \-/ \-/ \-/ +---+ + + Figure 4a: Paths within the provider domain + + ++++++++ [A] ++++++++++++++++++++ [E] +++++++++ + +++++ + ++++ + ++++ + ++++ + ++++ + ++++++++ [B] ++++++++++++++++++++ [F] +++++++++ + + Figure 4b: Customized TE Topology provided to the Client + + [R1] ++++++++ [A] ++++++++++++++++++++ [E] +++++++++ [R3] + +++++ + ++++ + ++++ + ++++ + ++++ + [R2] ++++++++ [B] ++++++++++++++++++++ [F] +++++++++ [R4] + + Figure 4c: Customized TE Topology merged with the Client's Native TE + Topology + + The goal here is to augment the Client TE Topology with a customized + TE Topology provided by the WDM network. Given the availability of + the paths A-E, B-F and B-E (Figure 4a), a customized TE Topology as + depicted in Figure 4b is provided to the Client. This customized TE + Topology is merged with the Client's Native TE Topology and the + resulting topology is depicted in Figure 4c. + + The data model proposed in this document can be used to + retrieve/represent/manipulate the customized TE Topology depicted in + Figure 4b. + + 4. Modeling Considerations + + 4.1. Generic extensible Model The TE Topology model proposed in this document is meant to be technology agnostic. Other technology specific TE Topology models can augment and use the building blocks provided by the proposed model. -2.1.1. Generic TE Link Attributes + +-------------------+ + | Generic | + | TE Topology Model | + +-------------------+ + | + +-------------+-------------+-------------+ + | | | | + V V V V + +------------+ +------------+ + | Technology | | Technology | + | Specific | ...................... | Specific | + | TE Topology| | TE Topology| + | Model 1 | | Model n | + +------------+ +------------+ + + Figure 5: Extending the generic model + + 4.2. Model Structure + + The high-level model structure proposed by this document is as shown + below: + + +--rw te-topologies + | +--rw topology* [provider-id client-id te-topology-id] + | | .......... + | | +--rw node* [te-node-id] + | | | .......... + | | | +--rw te-link* [te-link-id] + | | | .......... + | | +--rw link* [source-te-node-id source-te-link-id dest-te- + node-id dest-te-link-id] + | | | .......... + | +--rw node-template* [name] {template}? + | | .......... + | +--rw link-template* [name] {template}? + | | .......... + +--ro te-topologies-state + +--ro topology* [provider-id client-id te-topology-id] + | .......... + +--ro node* [te-node-id] + | | .......... + | +--ro te-node-state + | .......... + +--ro link* [source-te-node-id source-te-link-id dest-te- + node-id dest-te-link-id] + | | .......... + | +--ro te-link-state + | .......... + + notifications: + +---n te-node-event + | .......... + +---n te-link-event + .......... + + 4.3. Topology Identifiers + + The TE-Topology is uniquely identified by a key that has 3 + constituents - te-topology-id, provider-id and client-id. The + combination of provider-id and te-topology-id uniquely identifies a + native TE Topology on a given provider. The client-id is used only + when Customized TE Topologies come into play; a value of "0" is used + as the client-id for native TE Topologies. + + +--rw topology* [provider-id client-id te-topology-id] + | +--rw provider-id te-global-id + | +--rw client-id te-global-id + | +--rw te-topology-id te-topology-id + + 4.4. Generic TE Link Attributes The model covers the definitions for generic TE Link attributes - bandwidth, admin groups, SRLGs, switching capabilities, TE metric extensions etc. -2.1.2. Generic TE Node Attributes + +--rw te-link-attributes + | .......... + | +--rw performance-metric-throttle {te-performance-metric}? + | | .......... + | +--rw administrative-group? te-types:admin-groups + | +--rw max-link-bandwidth? decimal64 + | +--rw max-resv-link-bandwidth? decimal64 + | +--rw unreserved-bandwidth* [priority] + | | .......... + | +--rw te-default-metric? uint32 + | +--rw performance-metric {te-performance-metric}? + | | .......... + | +--rw link-protection-type? enumeration + | +--rw interface-switching-capabilities* [switching-capability] + | | .......... + | +--rw te-srlgs + | | .......... - The model covers the definitions for generic TE Node attributes like - connectivity matrix. + 4.5. Generic TE Node Attributes - +--rw connectivity-matrix* [id] - +--rw id uint32 - +--rw from-link - +--rw topo-ref? leafref - +--rw node-ref? leafref - +--rw link-end-ref? leafref - +--rw to-link - +--rw topo-ref? leafref - +--rw node-ref? leafref - +--rw link-end-ref? leafref - +--rw is-allowed? Boolean + The model covers the definitions for generic TE Node attributes. The + definition of a generic connectivity matrix is shown below: -2.1.3. TED Information Sources + +--rw te-node-attributes + | .......... + | +--rw connectivity-matrix* [id] + | +--rw id uint32 + | +--rw from-link + | | +--rw provider-id-ref? leafref + | | +--rw client-id-ref? leafref + | | +--rw topology-id-ref? leafref + | | +--rw node-ref? leafref + | | +--rw link-end-ref? leafref + | +--rw to-link + | | +--rw provider-id-ref? leafref + | | +--rw client-id-ref? leafref + | | +--rw topology-id-ref? leafref + | | +--rw node-ref? leafref + | | +--rw link-end-ref? leafref + | +--rw is-allowed? Boolean + + 4.6. TED Information Sources The model allows each TE topological element to have multiple TE information sources (OSPF-TE, ISIS-TE, BGP-LS, User-Configured, - Other). Each information source is associated with a credibility - preference to indicate precedence. + System-Processed, Other). Each information source is associated with + a credibility preference to indicate precedence. In scenarios where + a customized TE Topology is merged into a Client's native TE + Topology, the merged topological elements would point to the + corresponding customized TE Topology as its information source. - The model captures overlay and underlay relationship for TE nodes/ - links. For example - in networks where multiple TE Topologies are - built hierarchically, this model allows the user to start from a + +--ro te-topologies-state + +--ro topology* [provider-id client-id te-topology-id] + | .......... + +--ro node* [te-node-id] + | .......... + | +--ro te-node-state + | +--ro information-source? enumeration + | +--ro information-source-state + | +--ro credibility-preference? uint16 + | +--ro topology + | | +--ro provider-id-ref? leafref + | | +--ro client-id-ref? leafref + | | +--ro topology-id-ref? leafref + | +--ro routing-instance? string + + +--ro te-topologies-state + +--ro topology* [provider-id client-id te-topology-id] + | .......... + +--ro link* [source-te-node-id source-te-link-id dest-te- + node-id dest-te-link-id] + | .......... + | +--ro te-link-state + | +--ro information-source? enumeration + | +--ro information-source-state + | | +--ro credibility-preference? uint16 + | | +--ro topology + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | +--ro routing-instance? string + | +--ro alt-information-sources* [information-source] + | +--ro information-source + enumeration + | +--ro information-source-state + | | +--ro credibility-preference? uint16 + | | +--ro topology + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | +--ro routing-instance? string + | | .......... + + 4.7. Overlay/Underlay Relationship + + The model captures overlay and underlay relationship for TE + nodes/links. For example - in networks where multiple TE Topologies + are built hierarchically, this model allows the user to start from a specific topological element in the top most topology and traverse - all the way down to the supporting topological elements in the bottom - most topology. + all the way down to the supporting topological elements in the + bottom most topology. -2.2. Overlay/Underlay Relationship + This relationship is captured via the "underlay-topology" field for + the node and via the "underlay" field for the link. The use of these + fields is optional and this functionality is tagged as a "feature" + ("te-topology-hierarchy"). +--rw node* [te-node-id] - : - +--rw te-node-attributes - : - +--rw underlay-topology? leafref {te-topology-hierarchy}? + | .......... + | +--rw te-node-attributes + | | .......... + | | +--rw underlay-topology {te-topology-hierarchy}? + | | | +--rw provider-id-ref? leafref + | | | +--rw client-id-ref? leafref + | | | +--rw topology-id-ref? leafref +--rw link* [source-te-node-id source-te-link-id dest-te-node-id dest-te-link-id] - : - +--rw te-link-attributes - +--rw underlay! {te-topology-hierarchy}? - +--rw underlay-path - : - +--rw underlay-backup-path - : - +--rw underlay-protection-type? uint16 - +--rw underlay-trail-src - : - +--rw underlay-trail-des - : + | .......... + | +--rw te-link-attributes + | | ....... + | | +--rw underlay! {te-topology-hierarchy}? + | | | +--rw underlay-primary-path + | | | | +--rw provider-id-ref? leafref + | | | | +--rw client-id-ref? leafref + | | | | +--rw topology-id-ref? leafref + | | | | +--rw path-element* [path-element-id] + | | | | .......... + | | | +--rw underlay-backup-path* [index] + | | | | +--rw index uint32 + | | | | +--rw provider-id-ref? leafref + | | | | +--rw client-id-ref? leafref + | | | | +--rw topology-id-ref? leafref + | | | | +--rw path-element* [path-element-id] + | | | | .......... + | | | +--rw underlay-protection-type? uint16 + | | | +--rw underlay-trail-src + | | | .......... + | | | +--rw underlay-trail-des + | | | .......... -2.3. Scheduling Parameters + 4.8. Scheduling Parameters The model allows time scheduling parameters to be specified for each - topological element. These parameters allow the provider to present - different topological views to the client at different time slots. + topological element or for the topology as a whole. These parameters + allow the provider to present different topological views to the + client at different time slots. The use of "scheduling parameters" + is optional and this functionality is tagged as a "feature" + ("configuration-schedule"). [Editor's Note: The notion of + "scheduling parameters" has wider applicability. The expectation is + that this will eventually be discussed in a separate document.] - +--rw schedules* [schedule-id] + +--rw schedules* [schedule-id] {configuration-schedule}? | +--rw schedule-id uint32 | +--rw start? yang:date-and-time | +--rw schedule-duration? string | +--rw repeat-interval? string -2.4. Abstract TE Topologies + 4.9. Templates - The model allows the provider to present the network in abstract - terms on per client basis and facilitates the notion of "TE Topology - as a service". These topologies are typically decoupled from the - actual network topology and are supposed to be fully comprehensible - by the clients and contain sufficient information for the client path - computers to select service paths according to the client policies. - The model also allows the client to request changes to the abstract - TE Topology that is presented to it and thus manipulate it. + The data model provides the users with the ability to define + templates and apply them to link and node configurations. The use of + "template" configuration is optional and this functionality is + tagged as a "feature" ("template"). -2.5. Open Items + +--rw topology* [provider-id client-id te-topology-id] + | ........... + | +--rw node* [te-node-id] + | | +--rw te-node-template? leafref {template}? + | | .......... + | +--rw link* [source-te-node-id source-te-link-id dest-te-node- + id dest-te-link-id] + | +--rw te-link-template? leafref {template}? + | .......... - o Relationship with "generic network topology" model: The generic - network topology building blocks are discussed in [YANG-NET-TOPO]. - This version of the document does not use any of those building - blocks. The authors would like to explore the possibility of - doing that in future revisions of this document. + | + +--rw node-template* [name] {template}? + | +--rw name te-template-name + | +--rw priority? uint16 + | +--rw reference-change-policy? enumeration + | +--rw te-node-template* leafref + | +--rw te-node-attributes + | .......... + +--rw link-template* [name] {template}? + +--rw name te-template-name + +--rw priority? uint16 + +--rw reference-change-policy? enumeration + +--rw te-link-template* leafref + +--rw te-link-attributes + .......... - o Incremental notifications: The model proposed in this version does - not cover incremental notifications. The authors intend to add - this in future revisions of the document. + A template can be constructed using multiple other templates. When + two or more templates specify values for the same configuration + field, the value from the template with the highest priority is + used. The reference-change-policy specifies the action that needs to + be taken when the template changes on a configuration node that has + a reference to this template. The choices of action include taking + no action, rejecting the change to the template and applying the + change to the corresponding configuration. [Editor's Note: The + notion of "templates" has wider applicability. It is possible for + this to be discussed in a separate document.] -3. Tree Structure + 4.10. Notifications + + Notifications are a key component of any topology data model. + + [YANG-PUSH] defines a subscription and push mechanism for YANG + datastores. This mechanism currently allows the user to: + + - Subscribe notifications on a per client basis + - Specify subtree filters or xpath filters so that only interested + contents will be sent. + - Specify either periodic or on-demand notifications. + + The authors would like to recommend the use of this mechanism for + the TE-Topology notifications. They would also like to suggest the + following extensions to [YANG-PUSH] + + - Specify specific entities that will trigger the push + notifications. These entities can be specified by xpath, like the + way a filter is specified. + + - Specify or limit the triggering event type, e.g. "add", "delete", + "modify", or "all". The system sends the push notifications only + when such events happen on the triggering entities. + + - Have an option to request either "incremental" or "full" + notifications for an entity. For "incremental", the notification + will contain only the changed attributes. + + 4.11. Open Items + + - Augmenting [YANG-NET-TOPO]: The generic network topology building + blocks are discussed in [YANG-NET-TOPO]. This version of the + document does not use any of those constructs. The next revision + of this document should augment these constructs. + + - Coordinating changes to [YANG-PUSH]: The changes to [YANG-PUSH] + discussed in Section 4.10 will need to be coordinated with the + authors of that draft. + + 5. Tree Structure module: ietf-te-topology +--rw te-topologies - | +--rw topology* [te-topology-id] + | +--rw topology* [provider-id client-id te-topology-id] + | | +--rw provider-id te-global-id + | | +--rw client-id te-global-id | | +--rw te-topology-id te-topology-id + | | +--rw schedules* [schedule-id] {configuration-schedule}? + | | | +--rw schedule-id uint32 + | | | +--rw start? yang:date-and-time + | | | +--rw schedule-duration? string + | | | +--rw repeat-interval? string | | +--rw topology-types | | | +--rw te-topology! | | +--rw node* [te-node-id] | | | +--rw te-node-id te-node-id - | | | +--rw te-node-template? leafref + | | | +--rw te-node-template? leafref {template}? | | | +--rw te-node-attributes - | | | +--rw schedules* [schedule-id] - | | | | +--rw schedule-id uint32 - | | | | +--rw start? yang:date-and-time - | | | | +--rw schedule-duration? string - | | | | +--rw repeat-interval? string - | | | +--rw name? inet:domain-name - | | | +--rw signaling-address* inet:ip-address - | | | +--rw flag* flag-type - | | | +--rw is-abstract? boolean - | | | +--rw underlay-topology? leafref - {te-topology-hierarchy}? - | | | +--rw te-link* [te-link-id] - | | | | +--rw te-link-id te-link-id - | | | | +--rw (stack-level)? - | | | | +--:(bundle) - | | | | | +--rw bundled-links - | | | | | +--rw bundled-link* [sequence] - | | | | | +--rw sequence uint32 - | | | | | +--rw te-link-ref? leafref - | | | | +--:(component) - | | | | +--rw component-links - | | | | +--rw component-link* [sequence] - | | | | +--rw sequence uint32 - | | | | +--rw component-link-ref? leafref - | | | +--rw connectivity-matrix* [id] + | | | | +--rw schedules* [schedule-id] {configuration- + schedule}? + | | | | | +--rw schedule-id uint32 + | | | | | +--rw start? yang:date-and-time + | | | | | +--rw schedule-duration? string + | | | | | +--rw repeat-interval? string + | | | | +--rw name? inet:domain-name + | | | | +--rw signaling-address* inet:ip-address + | | | | +--rw flag* flag-type + | | | | +--rw is-abstract? boolean + | | | | +--rw underlay-topology {te-topology-hierarchy}? + | | | | | +--rw provider-id-ref? leafref + | | | | | +--rw client-id-ref? leafref + | | | | | +--rw topology-id-ref? leafref + | | | | +--rw connectivity-matrix* [id] | | | | +--rw id uint32 | | | | +--rw from-link - | | | | | +--rw topo-ref? leafref + | | | | | +--rw provider-id-ref? leafref + | | | | | +--rw client-id-ref? leafref + | | | | | +--rw topology-id-ref? leafref | | | | | +--rw node-ref? leafref | | | | | +--rw link-end-ref? leafref | | | | +--rw to-link - | | | | | +--rw topo-ref? leafref + | | | | | +--rw provider-id-ref? leafref + | | | | | +--rw client-id-ref? leafref + | | | | | +--rw topology-id-ref? leafref | | | | | +--rw node-ref? leafref | | | | | +--rw link-end-ref? leafref | | | | +--rw is-allowed? boolean - | | | +--rw ted - | | | +--rw te-router-id-ipv4? inet:ipv4-address - | | | +--rw te-router-id-ipv6? inet:ipv6-address - | | | +--rw ipv4-local-address* [ipv4-prefix] - | | | | +--rw ipv4-prefix inet:ipv4-prefix - | | | +--rw ipv6-local-address* [ipv6-prefix] - | | | | +--rw ipv6-prefix inet:ipv6-prefix - | | | | +--rw prefix-option? uint8 - | | | +--rw pcc-capabilities? pcc-capabilities - | | +--rw link* [source-te-node-id source-te-link-id - dest-te-node-id dest-te-link-id] + | | | +--rw te-link* [te-link-id] + | | | +--rw te-link-id te-link-id + | | | +--rw (stack-level)? + | | | +--:(bundle) + | | | | +--rw bundled-links + | | | | +--rw bundled-link* [sequence] + | | | | +--rw sequence uint32 + | | | | +--rw te-link-ref? leafref + | | | +--:(component) + | | | +--rw component-links + | | | +--rw component-link* [sequence] + | | | +--rw sequence uint32 + | | | +--rw component-link-ref? leafref + | | +--rw link* [source-te-node-id source-te-link-id dest-te- + node-id dest-te-link-id] | | +--rw source-te-node-id leafref | | +--rw source-te-link-id leafref | | +--rw dest-te-node-id leafref | | +--rw dest-te-link-id leafref - | | +--rw te-link-template? leafref + | | +--rw te-link-template? leafref {template}? | | +--rw te-link-attributes - | | +--rw schedules* [schedule-id] + | | +--rw schedules* [schedule-id] {configuration- + schedule}? | | | +--rw schedule-id uint32 | | | +--rw start? yang:date-and-time | | | +--rw schedule-duration? string | | | +--rw repeat-interval? string | | +--rw name? string | | +--rw flag* flag-type | | +--rw is-abstract? boolean | | +--rw underlay! {te-topology-hierarchy}? - | | | +--rw underlay-path - | | | | +--rw topology-id? leafref + | | | +--rw underlay-primary-path + | | | | +--rw provider-id-ref? leafref + | | | | +--rw client-id-ref? leafref + | | | | +--rw topology-id-ref? leafref | | | | +--rw path-element* [path-element-id] | | | | +--rw path-element-id uint32 - | | | | +--rw loose? boolean - | | | | +--rw (element-type)? - | | | | +--:(numbered-link) - | | | | | +--rw link-ip-address? inet:ip-address + | | | | +--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 link-node-id? uint32 - | | | | | +--rw te-link-id? uint32 - | | | | +--:(node) - | | | | | +--rw te-node-id? uint32 + | | | | | +--rw router-id? inet:ip- + address + | | | | | +--rw interface-id? uint32 | | | | +--:(label) - | | | | +--rw label? uint32 - | | | +--rw underlay-backup-path - | | | | +--rw topology-id? leafref + | | | | +--rw value? uint32 + | | | +--rw underlay-backup-path* [index] + | | | | +--rw index uint32 + | | | | +--rw provider-id-ref? leafref + | | | | +--rw client-id-ref? leafref + | | | | +--rw topology-id-ref? leafref | | | | +--rw path-element* [path-element-id] | | | | +--rw path-element-id uint32 - | | | | +--rw loose? boolean - | | | | +--rw (element-type)? - | | | | +--:(numbered-link) - | | | | | +--rw link-ip-address? inet:ip-address + | | | | +--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 link-node-id? uint32 - | | | | | +--rw te-link-id? uint32 - | | | | +--:(node) - | | | | | +--rw te-node-id? uint32 + | | | | | +--rw router-id? inet:ip- + address + | | | | | +--rw interface-id? uint32 | | | | +--:(label) - | | | | +--rw label? uint32 + | | | | +--rw value? uint32 | | | +--rw underlay-protection-type? uint16 | | | +--rw underlay-trail-src - | | | | +--rw topo-ref? leafref + | | | | +--rw provider-id-ref? leafref + | | | | +--rw client-id-ref? leafref + | | | | +--rw topology-id-ref? leafref | | | | +--rw node-ref? leafref | | | | +--rw link-end-ref? leafref | | | +--rw underlay-trail-des - | | | +--rw topo-ref? leafref + | | | +--rw provider-id-ref? leafref + | | | +--rw client-id-ref? leafref + | | | +--rw topology-id-ref? leafref | | | +--rw node-ref? leafref | | | +--rw link-end-ref? leafref - | | +--rw ted | | +--rw admin-status? enumeration - | | +--rw oper-status? enumeration - | | +--rw area-id? binary - | | +--rw performance-metric-throttle -{te-performance-metric}? - | | | +--rw unidirectional-delay-offset? uint32 - | | | +--rw measure-interval? uint32 - | | | +--rw advertisement-interval? uint32 - | | | +--rw suppression-interval? uint32 + | | +--rw performance-metric-throttle {te-performance- + metric}? + | | | +--rw unidirectional-delay-offset? + uint32 + | | | +--rw measure-interval? + uint32 + | | | +--rw advertisement-interval? + uint32 + | | | +--rw suppression-interval? + uint32 | | | +--rw threshold-out - | | | | +--rw unidirectional-delay? uint32 - | | | | +--rw unidirectional-min-delay? uint32 - | | | | +--rw unidirectional-max-delay? uint32 - | | | | +--rw unidirectional-delay-variation? uint32 - | | | | +--rw unidirectional-packet-loss? decimal64 + | | | | +--rw unidirectional-delay? + uint32 + | | | | +--rw unidirectional-min-delay? + uint32 + | | | | +--rw unidirectional-max-delay? + uint32 + | | | | +--rw unidirectional-delay-variation? + uint32 + | | | | +--rw unidirectional-packet-loss? + decimal64 | | | | +--rw unidirectional-residual-bandwidth? decimal64 | | | | +--rw unidirectional-available-bandwidth? decimal64 | | | | +--rw unidirectional-utilized-bandwidth? decimal64 | | | +--rw threshold-in | | | | +--rw unidirectional-delay? uint32 | | | | +--rw unidirectional-min-delay? @@ -395,112 +917,53 @@ uint32 | | | | +--rw unidirectional-packet-loss? decimal64 | | | | +--rw unidirectional-residual-bandwidth? decimal64 | | | | +--rw unidirectional-available-bandwidth? decimal64 | | | | +--rw unidirectional-utilized-bandwidth? decimal64 | | | +--rw threshold-accelerated-advertisement - | | | +--rw unidirectional-delay? uint32 - | | | +--rw unidirectional-min-delay? uint32 - | | | +--rw unidirectional-max-delay? uint32 - | | | +--rw unidirectional-delay-variation? uint32 - | | | +--rw unidirectional-packet-loss? decimal64 - | | | +--rw unidirectional-residual-bandwidth? -decimal64 - | | | +--rw unidirectional-available-bandwidth? -decimal64 - | | | +--rw unidirectional-utilized-bandwidth? -decimal64 - | | +--rw information-source? enumeration - | | +--rw credibility-preference? uint16 - | | +--rw link-index? uint64 - | | +--rw administrative-group* [sequence] - | | | +--rw sequence uint32 - | | | +--rw ag-element? uint32 - | | +--rw max-link-bandwidth? decimal64 - | | +--rw max-resv-link-bandwidth? decimal64 - | | +--rw unreserved-bandwidth* [priority] - | | | +--rw priority uint8 - | | | +--rw bandwidth? decimal64 - | | +--rw te-default-metric? uint32 - | | +--rw performance-metric {te-performance-metric}? - | | | +--rw measurement - | | | | +--rw unidirectional-delay? uint32 - | | | | +--rw unidirectional-min-delay? uint32 - | | | | +--rw unidirectional-max-delay? uint32 - | | | | +--rw unidirectional-delay-variation? uint32 - | | | | +--rw unidirectional-packet-loss? decimal64 - | | | | +--rw unidirectional-residual-bandwidth? -decimal64 - | | | | +--rw unidirectional-available-bandwidth? -decimal64 - | | | | +--rw unidirectional-utilized-bandwidth? -decimal64 - | | | +--rw normality | | | +--rw unidirectional-delay? -performance-metric-normality + uint32 | | | +--rw unidirectional-min-delay? -performance-metric-normality + uint32 | | | +--rw unidirectional-max-delay? -performance-metric-normality + uint32 | | | +--rw unidirectional-delay-variation? -performance-metric-normality + uint32 | | | +--rw unidirectional-packet-loss? -performance-metric-normality + decimal64 | | | +--rw unidirectional-residual-bandwidth? -performance-metric-normality + decimal64 | | | +--rw unidirectional-available-bandwidth? -performance-metric-normality + decimal64 | | | +--rw unidirectional-utilized-bandwidth? -performance-metric-normality - | | +--rw link-protection-type? -enumeration - | | +--rw interface-switching-capabilities* -[switching-capability] - | | | +--rw switching-capability -ted:switching-capabilities - | | | +--rw encoding? -ted:encoding-type - | | | +--rw max-lsp-bandwidth* [priority] - | | | | +--rw priority uint8 - | | | | +--rw bandwidth? decimal64 - | | | +--rw packet-switch-capable - | | | | +--rw minimum-lsp-bandwidth? decimal64 - | | | | +--rw interface-mtu? uint16 - | | | +--rw time-division-multiplex-capable - | | | +--rw minimum-lsp-bandwidth? decimal64 - | | | +--rw indication? enumeration - | | +--rw srlg - | | | +--rw srlg-values* [srlg-value] - | | | +--rw srlg-value uint32 - | | +--rw alt-information-sources* [information-source] - | | +--rw information-source enumeration - | | +--rw credibility-preference? uint16 + decimal64 | | +--rw link-index? uint64 - | | +--rw administrative-group* [sequence] - | | | +--rw sequence uint32 - | | | +--rw ag-element? uint32 + | | +--rw administrative-group? te- + types:admin-groups | | +--rw max-link-bandwidth? decimal64 | | +--rw max-resv-link-bandwidth? decimal64 | | +--rw unreserved-bandwidth* [priority] | | | +--rw priority uint8 | | | +--rw bandwidth? decimal64 | | +--rw te-default-metric? uint32 - | | +--rw performance-metric - {te-performance-metric}? + | | +--rw performance-metric {te-performance-metric}? | | | +--rw measurement - | | | | +--rw unidirectional-delay? uint32 - | | | | +--rw unidirectional-min-delay? uint32 - | | | | +--rw unidirectional-max-delay? uint32 + | | | | +--rw unidirectional-delay? + uint32 + | | | | +--rw unidirectional-min-delay? + uint32 + | | | | +--rw unidirectional-max-delay? + uint32 | | | | +--rw unidirectional-delay-variation? uint32 | | | | +--rw unidirectional-packet-loss? decimal64 | | | | +--rw unidirectional-residual-bandwidth? decimal64 | | | | +--rw unidirectional-available-bandwidth? decimal64 | | | | +--rw unidirectional-utilized-bandwidth? decimal64 @@ -514,266 +977,225 @@ | | | +--rw unidirectional-delay-variation? performance-metric-normality | | | +--rw unidirectional-packet-loss? performance-metric-normality | | | +--rw unidirectional-residual-bandwidth? performance-metric-normality | | | +--rw unidirectional-available-bandwidth? performance-metric-normality | | | +--rw unidirectional-utilized-bandwidth? performance-metric-normality - | | +--rw link-protection-type? - -enumeration - | | +--rw interface-switching-capabilities* -[switching-capability] + | | +--rw link-protection-type? enumeration + | | +--rw interface-switching-capabilities* [switching- + capability] | | | +--rw switching-capability -ted:switching-capabilities + identityref | | | +--rw encoding? -ted:encoding-type + identityref | | | +--rw max-lsp-bandwidth* [priority] | | | | +--rw priority uint8 | | | | +--rw bandwidth? decimal64 | | | +--rw packet-switch-capable | | | | +--rw minimum-lsp-bandwidth? decimal64 | | | | +--rw interface-mtu? uint16 | | | +--rw time-division-multiplex-capable | | | +--rw minimum-lsp-bandwidth? decimal64 | | | +--rw indication? enumeration - | | +--rw srlg - | | +--rw srlg-values* [srlg-value] - | | +--rw srlg-value uint32 - | +--rw node-template* [name] + | | +--rw te-srlgs + | | +--rw values* te-types:srlg + | +--rw node-template* [name] {template}? | | +--rw name te-template-name + | | +--rw priority? uint16 + | | +--rw reference-change-policy? enumeration + | | +--rw te-node-template* leafref | | +--rw te-node-attributes - | | +--rw schedules* [schedule-id] - | | | +--rw schedule-id uint32 - | | | +--rw start? yang:date-and-time - | | | +--rw schedule-duration? string - | | | +--rw repeat-interval? string - | | +--rw name? inet:domain-name - | | +--rw signaling-address* inet:ip-address - | | +--rw flag* flag-type - | | +--rw is-abstract? boolean - | | +--rw underlay-topology? leafref -{te-topology-hierarchy}? - | | +--rw te-link* [te-link-id] - | | | +--rw te-link-id te-link-id - | | | +--rw (stack-level)? - | | | +--:(bundle) - | | | | +--rw bundled-links - | | | | +--rw bundled-link* [sequence] - | | | | +--rw sequence uint32 - | | | | +--rw te-link-ref? leafref - | | | +--:(component) - | | | +--rw component-links - | | | +--rw component-link* [sequence] - | | | +--rw sequence uint32 - | | | +--rw component-link-ref? leafref - | | +--rw connectivity-matrix* [id] + | | | +--rw schedules* [schedule-id] {configuration-schedule}? + | | | | +--rw schedule-id uint32 + | | | | +--rw start? yang:date-and-time + | | | | +--rw schedule-duration? string + | | | | +--rw repeat-interval? string + | | | +--rw name? inet:domain-name + | | | +--rw signaling-address* inet:ip-address + | | | +--rw flag* flag-type + | | | +--rw is-abstract? boolean + | | | +--rw underlay-topology {te-topology-hierarchy}? + | | | | +--rw provider-id-ref? leafref + | | | | +--rw client-id-ref? leafref + | | | | +--rw topology-id-ref? leafref + | | | +--rw connectivity-matrix* [id] | | | +--rw id uint32 | | | +--rw from-link - | | | | +--rw topo-ref? leafref + | | | | +--rw provider-id-ref? leafref + | | | | +--rw client-id-ref? leafref + | | | | +--rw topology-id-ref? leafref | | | | +--rw node-ref? leafref | | | | +--rw link-end-ref? leafref | | | +--rw to-link - | | | | +--rw topo-ref? leafref + | | | | +--rw provider-id-ref? leafref + | | | | +--rw client-id-ref? leafref + | | | | +--rw topology-id-ref? leafref | | | | +--rw node-ref? leafref | | | | +--rw link-end-ref? leafref | | | +--rw is-allowed? boolean - | | +--rw ted - | | +--rw te-router-id-ipv4? inet:ipv4-address - | | +--rw te-router-id-ipv6? inet:ipv6-address - | | +--rw ipv4-local-address* [ipv4-prefix] - | | | +--rw ipv4-prefix inet:ipv4-prefix - | | +--rw ipv6-local-address* [ipv6-prefix] - | | | +--rw ipv6-prefix inet:ipv6-prefix - | | | +--rw prefix-option? uint8 - | | +--rw pcc-capabilities? pcc-capabilities - | +--rw link-template* [name] + | | +--rw te-link* [te-link-id] + | | +--rw te-link-id te-link-id + | | +--rw (stack-level)? + | | +--:(bundle) + | | | +--rw bundled-links + | | | +--rw bundled-link* [sequence] + | | | +--rw sequence uint32 + | | | +--rw te-link-ref? leafref + | | +--:(component) + | | +--rw component-links + | | +--rw component-link* [sequence] + | | +--rw sequence uint32 + | | +--rw component-link-ref? leafref + | +--rw link-template* [name] {template}? | +--rw name te-template-name + | +--rw priority? uint16 + | +--rw reference-change-policy? enumeration + | +--rw te-link-template* leafref | +--rw te-link-attributes - | +--rw schedules* [schedule-id] + | +--rw schedules* [schedule-id] {configuration-schedule}? | | +--rw schedule-id uint32 | | +--rw start? yang:date-and-time | | +--rw schedule-duration? string | | +--rw repeat-interval? string | +--rw name? string | +--rw flag* flag-type | +--rw is-abstract? boolean | +--rw underlay! {te-topology-hierarchy}? - | | +--rw underlay-path - | | | +--rw topology-id? leafref + | | +--rw underlay-primary-path + | | | +--rw provider-id-ref? leafref + | | | +--rw client-id-ref? leafref + | | | +--rw topology-id-ref? leafref | | | +--rw path-element* [path-element-id] | | | +--rw path-element-id uint32 - | | | +--rw loose? boolean - | | | +--rw (element-type)? - | | | +--:(numbered-link) - | | | | +--rw link-ip-address? inet:ip-address + | | | +--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 link-node-id? uint32 - | | | | +--rw te-link-id? uint32 - | | | +--:(node) - | | | | +--rw te-node-id? uint32 + | | | | +--rw router-id? inet:ip-address + | | | | +--rw interface-id? uint32 | | | +--:(label) - | | | +--rw label? uint32 - | | +--rw underlay-backup-path - | | | +--rw topology-id? leafref + | | | +--rw value? uint32 + | | +--rw underlay-backup-path* [index] + | | | +--rw index uint32 + | | | +--rw provider-id-ref? leafref + | | | +--rw client-id-ref? leafref + | | | +--rw topology-id-ref? leafref | | | +--rw path-element* [path-element-id] | | | +--rw path-element-id uint32 - | | | +--rw loose? boolean - | | | +--rw (element-type)? - | | | +--:(numbered-link) - | | | | +--rw link-ip-address? inet:ip-address + | | | +--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 link-node-id? uint32 - | | | | +--rw te-link-id? uint32 - | | | +--:(node) - | | | | +--rw te-node-id? uint32 + | | | | +--rw router-id? inet:ip-address + | | | | +--rw interface-id? uint32 | | | +--:(label) - | | | +--rw label? uint32 + | | | +--rw value? uint32 | | +--rw underlay-protection-type? uint16 | | +--rw underlay-trail-src - | | | +--rw topo-ref? leafref + | | | +--rw provider-id-ref? leafref + | | | +--rw client-id-ref? leafref + | | | +--rw topology-id-ref? leafref | | | +--rw node-ref? leafref | | | +--rw link-end-ref? leafref | | +--rw underlay-trail-des - | | +--rw topo-ref? leafref + | | +--rw provider-id-ref? leafref + | | +--rw client-id-ref? leafref + | | +--rw topology-id-ref? leafref | | +--rw node-ref? leafref | | +--rw link-end-ref? leafref - | +--rw ted | +--rw admin-status? enumeration - | +--rw oper-status? enumeration - | +--rw area-id? binary - | +--rw performance-metric-throttle -{te-performance-metric}? + | +--rw performance-metric-throttle {te-performance- + metric}? | | +--rw unidirectional-delay-offset? uint32 | | +--rw measure-interval? uint32 | | +--rw advertisement-interval? uint32 | | +--rw suppression-interval? uint32 | | +--rw threshold-out | | | +--rw unidirectional-delay? uint32 | | | +--rw unidirectional-min-delay? uint32 | | | +--rw unidirectional-max-delay? uint32 | | | +--rw unidirectional-delay-variation? uint32 - | | | +--rw unidirectional-packet-loss? decimal64 + | | | +--rw unidirectional-packet-loss? + decimal64 | | | +--rw unidirectional-residual-bandwidth? decimal64 | | | +--rw unidirectional-available-bandwidth? decimal64 | | | +--rw unidirectional-utilized-bandwidth? decimal64 | | +--rw threshold-in | | | +--rw unidirectional-delay? uint32 | | | +--rw unidirectional-min-delay? uint32 | | | +--rw unidirectional-max-delay? uint32 | | | +--rw unidirectional-delay-variation? uint32 - | | | +--rw unidirectional-packet-loss? decimal64 + | | | +--rw unidirectional-packet-loss? + decimal64 | | | +--rw unidirectional-residual-bandwidth? decimal64 | | | +--rw unidirectional-available-bandwidth? decimal64 | | | +--rw unidirectional-utilized-bandwidth? decimal64 | | +--rw threshold-accelerated-advertisement | | +--rw unidirectional-delay? uint32 | | +--rw unidirectional-min-delay? uint32 | | +--rw unidirectional-max-delay? uint32 | | +--rw unidirectional-delay-variation? uint32 - | | +--rw unidirectional-packet-loss? decimal64 + | | +--rw unidirectional-packet-loss? + decimal64 | | +--rw unidirectional-residual-bandwidth? decimal64 | | +--rw unidirectional-available-bandwidth? decimal64 | | +--rw unidirectional-utilized-bandwidth? decimal64 - | +--rw information-source? enumeration - | +--rw credibility-preference? uint16 | +--rw link-index? uint64 - | +--rw administrative-group* [sequence] - | | +--rw sequence uint32 - | | +--rw ag-element? uint32 + | +--rw administrative-group? te- + types:admin-groups | +--rw max-link-bandwidth? decimal64 | +--rw max-resv-link-bandwidth? decimal64 | +--rw unreserved-bandwidth* [priority] | | +--rw priority uint8 | | +--rw bandwidth? decimal64 | +--rw te-default-metric? uint32 | +--rw performance-metric {te-performance-metric}? | | +--rw measurement | | | +--rw unidirectional-delay? uint32 | | | +--rw unidirectional-min-delay? uint32 | | | +--rw unidirectional-max-delay? uint32 | | | +--rw unidirectional-delay-variation? uint32 - | | | +--rw unidirectional-packet-loss? decimal64 - | | | +--rw unidirectional-residual-bandwidth? -decimal64 - | | | +--rw unidirectional-available-bandwidth? -decimal64 - | | | +--rw unidirectional-utilized-bandwidth? + | | | +--rw unidirectional-packet-loss? decimal64 - | | +--rw normality - | | +--rw unidirectional-delay? -performance-metric-normality - | | +--rw unidirectional-min-delay? - -performance-metric-normality - | | +--rw unidirectional-max-delay? -performance-metric-normality - | | +--rw unidirectional-delay-variation? -performance-metric-normality - | | +--rw unidirectional-packet-loss? -performance-metric-normality - | | +--rw unidirectional-residual-bandwidth? -performance-metric-normality - | | +--rw unidirectional-available-bandwidth? -performance-metric-normality - | | +--rw unidirectional-utilized-bandwidth? -performance-metric-normality - | +--rw link-protection-type? enumeration - | +--rw interface-switching-capabilities* -[switching-capability] - | | +--rw switching-capability -ted:switching-capabilities - | | +--rw encoding? ted:encoding-type - | | +--rw max-lsp-bandwidth* [priority] - | | | +--rw priority uint8 - | | | +--rw bandwidth? decimal64 - | | +--rw packet-switch-capable - | | | +--rw minimum-lsp-bandwidth? decimal64 - | | | +--rw interface-mtu? uint16 - | | +--rw time-division-multiplex-capable - | | +--rw minimum-lsp-bandwidth? decimal64 - | | +--rw indication? enumeration - | +--rw srlg - | | +--rw srlg-values* [srlg-value] - | | +--rw srlg-value uint32 - | +--rw alt-information-sources* [information-source] - | +--rw information-source enumeration - | +--rw credibility-preference? uint16 - | +--rw link-index? uint64 - | +--rw administrative-group* [sequence] - | | +--rw sequence uint32 - | | +--rw ag-element? uint32 - | +--rw max-link-bandwidth? decimal64 - | +--rw max-resv-link-bandwidth? decimal64 - | +--rw unreserved-bandwidth* [priority] - | | +--rw priority uint8 - | | +--rw bandwidth? decimal64 - | +--rw te-default-metric? uint32 - | +--rw performance-metric {te-performance-metric}? - | | +--rw measurement - | | | +--rw unidirectional-delay? uint32 - | | | +--rw unidirectional-min-delay? uint32 - | | | +--rw unidirectional-max-delay? uint32 - | | | +--rw unidirectional-delay-variation? uint32 - | | | +--rw unidirectional-packet-loss? decimal64 | | | +--rw unidirectional-residual-bandwidth? decimal64 | | | +--rw unidirectional-available-bandwidth? decimal64 | | | +--rw unidirectional-utilized-bandwidth? decimal64 | | +--rw normality | | +--rw unidirectional-delay? performance-metric-normality | | +--rw unidirectional-min-delay? @@ -784,218 +1206,265 @@ performance-metric-normality | | +--rw unidirectional-packet-loss? performance-metric-normality | | +--rw unidirectional-residual-bandwidth? performance-metric-normality | | +--rw unidirectional-available-bandwidth? performance-metric-normality | | +--rw unidirectional-utilized-bandwidth? performance-metric-normality | +--rw link-protection-type? enumeration - | +--rw interface-switching-capabilities* -[switching-capability] - | | +--rw switching-capability -ted:switching-capabilities - | | +--rw encoding? ted:encoding-type + | +--rw interface-switching-capabilities* [switching- + capability] + | | +--rw switching-capability identityref + | | +--rw encoding? identityref | | +--rw max-lsp-bandwidth* [priority] | | | +--rw priority uint8 | | | +--rw bandwidth? decimal64 | | +--rw packet-switch-capable | | | +--rw minimum-lsp-bandwidth? decimal64 | | | +--rw interface-mtu? uint16 | | +--rw time-division-multiplex-capable | | +--rw minimum-lsp-bandwidth? decimal64 | | +--rw indication? enumeration - | +--rw srlg - | +--rw srlg-values* [srlg-value] - | +--rw srlg-value uint32 + | +--rw te-srlgs + | +--rw values* te-types:srlg +--ro te-topologies-state - +--ro topology* [te-topology-id] + +--ro topology* [provider-id client-id te-topology-id] + +--ro provider-id te-global-id + +--ro client-id te-global-id +--ro te-topology-id te-topology-id +--ro server-provided? boolean +--ro topology-types | +--ro te-topology! +--ro node* [te-node-id] | +--ro te-node-id te-node-id - | +--ro te-node-template? leafref + | +--ro te-node-template? leafref {template}? | +--ro te-node-attributes - | | +--ro schedules* [schedule-id] + | | +--ro schedules* [schedule-id] {configuration- + schedule}? | | | +--ro schedule-id uint32 | | | +--ro start? yang:date-and-time | | | +--ro schedule-duration? string | | | +--ro repeat-interval? string | | +--ro name? inet:domain-name | | +--ro signaling-address* inet:ip-address | | +--ro flag* flag-type | | +--ro is-abstract? boolean - | | +--ro underlay-topology? leafref -{te-topology-hierarchy}? - | | +--ro te-link* [te-link-id] - | | | +--ro te-link-id te-link-id - | | | +--ro (stack-level)? - | | | +--:(bundle) - | | | | +--ro bundled-links - | | | | +--ro bundled-link* [sequence] - | | | | +--ro sequence uint32 - | | | | +--ro te-link-ref? leafref - | | | +--:(component) - | | | +--ro component-links - | | | +--ro component-link* [sequence] - | | | +--ro sequence uint32 - | | | +--ro component-link-ref? leafref + | | +--ro underlay-topology {te-topology-hierarchy}? + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref | | +--ro connectivity-matrix* [id] - | | | +--ro id uint32 - | | | +--ro from-link - | | | | +--ro topo-ref? leafref - | | | | +--ro node-ref? leafref - | | | | +--ro link-end-ref? leafref - | | | +--ro to-link - | | | | +--ro topo-ref? leafref - | | | | +--ro node-ref? leafref - | | | | +--ro link-end-ref? leafref - | | | +--ro is-allowed? boolean - | | +--ro ted - | | +--ro te-router-id-ipv4? inet:ipv4-address - | | +--ro te-router-id-ipv6? inet:ipv6-address - | | +--ro ipv4-local-address* [ipv4-prefix] - | | | +--ro ipv4-prefix inet:ipv4-prefix - | | +--ro ipv6-local-address* [ipv6-prefix] - | | | +--ro ipv6-prefix inet:ipv6-prefix - | | | +--ro prefix-option? uint8 - | | +--ro pcc-capabilities? pcc-capabilities - | +--ro te-node-state-attributes + | | +--ro id uint32 + | | +--ro from-link + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | | +--ro node-ref? leafref + | | | +--ro link-end-ref? leafref + | | +--ro to-link + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | | +--ro node-ref? leafref + | | | +--ro link-end-ref? leafref + | | +--ro is-allowed? boolean + | +--ro te-link* [te-link-id] + | | +--ro te-link-id te-link-id + | | +--ro (stack-level)? + | | +--:(bundle) + | | | +--ro bundled-links + | | | +--ro bundled-link* [sequence] + | | | +--ro sequence uint32 + | | | +--ro te-link-ref? leafref + | | +--:(component) + | | +--ro component-links + | | +--ro component-link* [sequence] + | | +--ro sequence uint32 + | | +--ro component-link-ref? leafref + | +--ro te-node-state | +--ro information-source? enumeration + | +--ro information-source-state | +--ro credibility-preference? uint16 - +--ro link* [source-te-node-id source-te-link-id - dest-te-node-id dest-te-link-id] + | +--ro topology + | | +--ro provider-id-ref? leafref + | | +--ro client-id-ref? leafref + | | +--ro topology-id-ref? leafref + | +--ro routing-instance? string + +--ro link* [source-te-node-id source-te-link-id dest-te- + node-id dest-te-link-id] +--ro source-te-node-id leafref +--ro source-te-link-id leafref +--ro dest-te-node-id leafref +--ro dest-te-link-id leafref - +--ro te-link-template? leafref + +--ro te-link-template? leafref {template}? +--ro te-link-attributes - | +--ro schedules* [schedule-id] + | +--ro schedules* [schedule-id] {configuration- + schedule}? | | +--ro schedule-id uint32 | | +--ro start? yang:date-and-time | | +--ro schedule-duration? string | | +--ro repeat-interval? string | +--ro name? string | +--ro flag* flag-type | +--ro is-abstract? boolean | +--ro underlay! {te-topology-hierarchy}? - | | +--ro underlay-path - | | | +--ro topology-id? leafref + | | +--ro underlay-primary-path + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref | | | +--ro path-element* [path-element-id] | | | +--ro path-element-id uint32 - | | | +--ro loose? boolean - | | | +--ro (element-type)? - | | | +--:(numbered-link) - | | | | +--ro link-ip-address? inet:ip-address + | | | +--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 link-node-id? uint32 - | | | | +--ro te-link-id? uint32 - | | | +--:(node) - | | | | +--ro te-node-id? uint32 + | | | | +--ro router-id? inet:ip- + address + | | | | +--ro interface-id? uint32 | | | +--:(label) - | | | +--ro label? uint32 - | | +--ro underlay-backup-path - | | | +--ro topology-id? leafref + | | | +--ro value? uint32 + | | +--ro underlay-backup-path* [index] + | | | +--ro index uint32 + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref | | | +--ro path-element* [path-element-id] | | | +--ro path-element-id uint32 - | | | +--ro loose? boolean - | | | +--ro (element-type)? - | | | +--:(numbered-link) - | | | | +--ro link-ip-address? inet:ip-address + | | | +--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 link-node-id? uint32 - | | | | +--ro te-link-id? uint32 - | | | +--:(node) - | | | | +--ro te-node-id? uint32 + | | | | +--ro router-id? inet:ip- + address + | | | | +--ro interface-id? uint32 | | | +--:(label) - | | | +--ro label? uint32 + | | | +--ro value? uint32 | | +--ro underlay-protection-type? uint16 | | +--ro underlay-trail-src - | | | +--ro topo-ref? leafref + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref | | | +--ro node-ref? leafref | | | +--ro link-end-ref? leafref | | +--ro underlay-trail-des - | | | +--ro topo-ref? leafref + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref | | | +--ro node-ref? leafref | | | +--ro link-end-ref? leafref | | +--ro dynamic? boolean | | +--ro committed? boolean - | +--ro ted | +--ro admin-status? enumeration - | +--ro oper-status? enumeration - | +--ro area-id? binary - | +--ro performance-metric-throttle {te-performance-metric}? - | | +--ro unidirectional-delay-offset? uint32 - | | +--ro measure-interval? uint32 - | | +--ro advertisement-interval? uint32 - | | +--ro suppression-interval? uint32 + | +--ro performance-metric-throttle {te-performance- + metric}? + | | +--ro unidirectional-delay-offset? + uint32 + | | +--ro measure-interval? + uint32 + | | +--ro advertisement-interval? + uint32 + | | +--ro suppression-interval? + uint32 | | +--ro threshold-out - | | | +--ro unidirectional-delay? uint32 - | | | +--ro unidirectional-min-delay? uint32 - | | | +--ro unidirectional-max-delay? uint32 - | | | +--ro unidirectional-delay-variation? uint32 + | | | +--ro unidirectional-delay? + uint32 + | | | +--ro unidirectional-min-delay? + uint32 + | | | +--ro unidirectional-max-delay? + uint32 + | | | +--ro unidirectional-delay-variation? + uint32 | | | +--ro unidirectional-packet-loss? decimal64 | | | +--ro unidirectional-residual-bandwidth? decimal64 | | | +--ro unidirectional-available-bandwidth? decimal64 | | | +--ro unidirectional-utilized-bandwidth? decimal64 | | +--ro threshold-in - | | | +--ro unidirectional-delay? uint32 - | | | +--ro unidirectional-min-delay? uint32 - | | | +--ro unidirectional-max-delay? uint32 - | | | +--ro unidirectional-delay-variation? uint32 - | | | +--ro unidirectional-packet-loss? decimal64 + | | | +--ro unidirectional-delay? + uint32 + | | | +--ro unidirectional-min-delay? + uint32 + | | | +--ro unidirectional-max-delay? + uint32 + | | | +--ro unidirectional-delay-variation? + uint32 + | | | +--ro unidirectional-packet-loss? + decimal64 | | | +--ro unidirectional-residual-bandwidth? decimal64 | | | +--ro unidirectional-available-bandwidth? decimal64 | | | +--ro unidirectional-utilized-bandwidth? - decimal64 | | +--ro threshold-accelerated-advertisement - | | +--ro unidirectional-delay? uint32 - | | +--ro unidirectional-min-delay? uint32 - | | +--ro unidirectional-max-delay? uint32 - | | +--ro unidirectional-delay-variation? uint32 - | | +--ro unidirectional-packet-loss? decimal64 + | | +--ro unidirectional-delay? + uint32 + | | +--ro unidirectional-min-delay? + uint32 + | | +--ro unidirectional-max-delay? + uint32 + | | +--ro unidirectional-delay-variation? + uint32 + | | +--ro unidirectional-packet-loss? + decimal64 | | +--ro unidirectional-residual-bandwidth? decimal64 | | +--ro unidirectional-available-bandwidth? decimal64 | | +--ro unidirectional-utilized-bandwidth? decimal64 - | +--ro information-source? enumeration - | +--ro credibility-preference? uint16 | +--ro link-index? uint64 - | +--ro administrative-group* [sequence] - | | +--ro sequence uint32 - | | +--ro ag-element? uint32 + | +--ro administrative-group? te- + types:admin-groups | +--ro max-link-bandwidth? decimal64 | +--ro max-resv-link-bandwidth? decimal64 | +--ro unreserved-bandwidth* [priority] | | +--ro priority uint8 | | +--ro bandwidth? decimal64 | +--ro te-default-metric? uint32 | +--ro performance-metric {te-performance-metric}? | | +--ro measurement - | | | +--ro unidirectional-delay? uint32 - | | | +--ro unidirectional-min-delay? uint32 - | | | +--ro unidirectional-max-delay? uint32 - | | | +--ro unidirectional-delay-variation? uint32 - | | | +--ro unidirectional-packet-loss? decimal64 + | | | +--ro unidirectional-delay? + uint32 + | | | +--ro unidirectional-min-delay? + uint32 + | | | +--ro unidirectional-max-delay? + uint32 + | | | +--ro unidirectional-delay-variation? + uint32 + | | | +--ro unidirectional-packet-loss? + decimal64 | | | +--ro unidirectional-residual-bandwidth? decimal64 | | | +--ro unidirectional-available-bandwidth? decimal64 | | | +--ro unidirectional-utilized-bandwidth? decimal64 | | +--ro normality | | +--ro unidirectional-delay? performance-metric-normality | | +--ro unidirectional-min-delay? @@ -998,340 +1467,390 @@ | | +--ro normality | | +--ro unidirectional-delay? performance-metric-normality | | +--ro unidirectional-min-delay? performance-metric-normality | | +--ro unidirectional-max-delay? performance-metric-normality | | +--ro unidirectional-delay-variation? performance-metric-normality | | +--ro unidirectional-packet-loss? - performance-metric-normality | | +--ro unidirectional-residual-bandwidth? performance-metric-normality | | +--ro unidirectional-available-bandwidth? performance-metric-normality | | +--ro unidirectional-utilized-bandwidth? performance-metric-normality | +--ro link-protection-type? enumeration - | +--ro interface-switching-capabilities* -[switching-capability] + | +--ro interface-switching-capabilities* [switching- + capability] | | +--ro switching-capability -ted:switching-capabilities + identityref | | +--ro encoding? -ted:encoding-type + identityref | | +--ro max-lsp-bandwidth* [priority] | | | +--ro priority uint8 | | | +--ro bandwidth? decimal64 | | +--ro packet-switch-capable | | | +--ro minimum-lsp-bandwidth? decimal64 | | | +--ro interface-mtu? uint16 | | +--ro time-division-multiplex-capable | | +--ro minimum-lsp-bandwidth? decimal64 | | +--ro indication? enumeration - | +--ro srlg - | | +--ro srlg-values* [srlg-value] - | | +--ro srlg-value uint32 - | +--ro alt-information-sources* [information-source] - | +--ro information-source enumeration + | +--ro te-srlgs + | +--ro values* te-types:srlg + +--ro te-link-state + +--ro oper-status? enumeration + +--ro information-source? enumeration + +--ro information-source-state | +--ro credibility-preference? uint16 - | +--ro link-index? uint64 - | +--ro administrative-group* [sequence] - | | +--ro sequence uint32 - | | +--ro ag-element? uint32 - | +--ro max-link-bandwidth? decimal64 - | +--ro max-resv-link-bandwidth? decimal64 - | +--ro unreserved-bandwidth* [priority] - | | +--ro priority uint8 - | | +--ro bandwidth? decimal64 - | +--ro te-default-metric? uint32 - | +--ro performance-metric -{te-performance-metric}? - | | +--ro measurement - | | | +--ro unidirectional-delay? uint32 - | | | +--ro unidirectional-min-delay? uint32 - | | | +--ro unidirectional-max-delay? uint32 - | | | +--ro unidirectional-delay-variation? + | +--ro topology + | | +--ro provider-id-ref? leafref + | | +--ro client-id-ref? leafref + | | +--ro topology-id-ref? leafref + | +--ro routing-instance? string + +--ro alt-information-sources* [information-source] + +--ro information-source + enumeration + +--ro information-source-state + | +--ro credibility-preference? uint16 + | +--ro topology + | | +--ro provider-id-ref? leafref + | | +--ro client-id-ref? leafref + | | +--ro topology-id-ref? leafref + | +--ro routing-instance? string + +--ro link-index? uint64 + +--ro administrative-group? te- + types:admin-groups + +--ro max-link-bandwidth? + decimal64 + +--ro max-resv-link-bandwidth? + decimal64 + +--ro unreserved-bandwidth* [priority] + | +--ro priority uint8 + | +--ro bandwidth? decimal64 + +--ro te-default-metric? uint32 + +--ro performance-metric {te-performance-metric}? + | +--ro measurement + | | +--ro unidirectional-delay? uint32 - | | | +--ro unidirectional-packet-loss? - + | | +--ro unidirectional-min-delay? + uint32 + | | +--ro unidirectional-max-delay? + uint32 + | | +--ro unidirectional-delay-variation? + uint32 + | | +--ro unidirectional-packet-loss? decimal64 - | | | +--ro unidirectional-residual-bandwidth? + | | +--ro unidirectional-residual-bandwidth? decimal64 - | | | +--ro unidirectional-available-bandwidth? + | | +--ro unidirectional-available-bandwidth? decimal64 - | | | +--ro unidirectional-utilized-bandwidth? + | | +--ro unidirectional-utilized-bandwidth? decimal64 - | | +--ro normality - | | +--ro unidirectional-delay? + | +--ro normality + | +--ro unidirectional-delay? performance-metric-normality - | | +--ro unidirectional-min-delay? + | +--ro unidirectional-min-delay? performance-metric-normality - | | +--ro unidirectional-max-delay? + | +--ro unidirectional-max-delay? performance-metric-normality - | | +--ro unidirectional-delay-variation? + | +--ro unidirectional-delay-variation? performance-metric-normality - | | +--ro unidirectional-packet-loss? + | +--ro unidirectional-packet-loss? performance-metric-normality - | | +--ro unidirectional-residual-bandwidth? + | +--ro unidirectional-residual-bandwidth? performance-metric-normality - | | +--ro unidirectional-available-bandwidth? + | +--ro unidirectional-available-bandwidth? performance-metric-normality - | | +--ro unidirectional-utilized-bandwidth? + | +--ro unidirectional-utilized-bandwidth? performance-metric-normality - | +--ro link-protection-type? enumeration - | +--ro interface-switching-capabilities* + +--ro link-protection-type? + enumeration + +--ro interface-switching-capabilities* [switching-capability] - | | +--ro switching-capability -ted:switching-capabilities - | | +--ro encoding? ted:encoding-type - | | +--ro max-lsp-bandwidth* [priority] - | | | +--ro priority uint8 - | | | +--ro bandwidth? decimal64 - | | +--ro packet-switch-capable - | | | +--ro minimum-lsp-bandwidth? decimal64 - | | | +--ro interface-mtu? uint16 - | | +--ro time-division-multiplex-capable + | +--ro switching-capability + identityref + | +--ro encoding? + identityref + | +--ro max-lsp-bandwidth* [priority] + | | +--ro priority uint8 + | | +--ro bandwidth? decimal64 + | +--ro packet-switch-capable | | +--ro minimum-lsp-bandwidth? decimal64 - | | +--ro indication? enumeration - | +--ro srlg - | +--ro srlg-values* [srlg-value] - | +--ro srlg-value uint32 - +--ro te-link-state-attributes - +--ro information-source? enumeration - +--ro credibility-preference? uint16 + | | +--ro interface-mtu? uint16 + | +--ro time-division-multiplex-capable + | +--ro minimum-lsp-bandwidth? decimal64 + | +--ro indication? enumeration + +--ro te-srlgs + +--ro values* te-types:srlg notifications: +---n te-node-event | +--ro event-type? te-topology-event-type - | +--ro topo-ref? leafref + | +--ro provider-id-ref? leafref + | +--ro client-id-ref? leafref + | +--ro topology-id-ref? leafref | +--ro node-ref? leafref | +--ro te-topology! | +--ro te-node-attributes - | +--ro schedules* [schedule-id] - | | +--ro schedule-id uint32 - | | +--ro start? yang:date-and-time - | | +--ro schedule-duration? string - | | +--ro repeat-interval? string - | +--ro name? inet:domain-name - | +--ro signaling-address* inet:ip-address - | +--ro flag* flag-type - | +--ro is-abstract? boolean - | +--ro underlay-topology? leafref {te-topology-hierarchy}? + | | +--ro schedules* [schedule-id] {configuration-schedule}? + | | | +--ro schedule-id uint32 + | | | +--ro start? yang:date-and-time + | | | +--ro schedule-duration? string + | | | +--ro repeat-interval? string + | | +--ro name? inet:domain-name + | | +--ro signaling-address* inet:ip-address + | | +--ro flag* flag-type + | | +--ro is-abstract? boolean + | | +--ro underlay-topology {te-topology-hierarchy}? + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | +--ro connectivity-matrix* [id] + | | +--ro id uint32 + | | +--ro from-link + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | | +--ro node-ref? leafref + | | | +--ro link-end-ref? leafref + | | +--ro to-link + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | | +--ro node-ref? leafref + | | | +--ro link-end-ref? leafref + | | +--ro is-allowed? boolean | +--ro te-link* [te-link-id] | | +--ro te-link-id te-link-id | | +--ro (stack-level)? | | +--:(bundle) | | | +--ro bundled-links | | | +--ro bundled-link* [sequence] | | | +--ro sequence uint32 | | | +--ro te-link-ref? leafref | | +--:(component) | | +--ro component-links | | +--ro component-link* [sequence] | | +--ro sequence uint32 | | +--ro component-link-ref? leafref - | +--ro connectivity-matrix* [id] - | | +--ro id uint32 - | | +--ro from-link - | | | +--ro topo-ref? leafref - | | | +--ro node-ref? leafref - | | | +--ro link-end-ref? leafref - | | +--ro to-link - | | | +--ro topo-ref? leafref - | | | +--ro node-ref? leafref - | | | +--ro link-end-ref? leafref - | | +--ro is-allowed? boolean - | +--ro ted - | +--ro te-router-id-ipv4? inet:ipv4-address - | +--ro te-router-id-ipv6? inet:ipv6-address - | +--ro ipv4-local-address* [ipv4-prefix] - | | +--ro ipv4-prefix inet:ipv4-prefix - | +--ro ipv6-local-address* [ipv6-prefix] - | | +--ro ipv6-prefix inet:ipv6-prefix - | | +--ro prefix-option? uint8 - | +--ro pcc-capabilities? pcc-capabilities + | +--ro te-node-state + | +--ro information-source? enumeration + | +--ro information-source-state + | +--ro credibility-preference? uint16 + | +--ro topology + | | +--ro provider-id-ref? leafref + | | +--ro client-id-ref? leafref + | | +--ro topology-id-ref? leafref + | +--ro routing-instance? string +---n te-link-event +--ro event-type? te-topology-event-type - +--ro topo-ref? leafref + +--ro provider-id-ref? leafref + +--ro client-id-ref? leafref + +--ro topology-id-ref? leafref +--ro source-te-node-id-ref? leafref +--ro source-te-link-id-ref? leafref +--ro dest-te-node-id-ref? leafref +--ro dest-te-link-id-ref? leafref +--ro te-topology! +--ro te-link-attributes - +--ro schedules* [schedule-id] - | +--ro schedule-id uint32 - | +--ro start? yang:date-and-time - | +--ro schedule-duration? string - | +--ro repeat-interval? string - +--ro name? string - +--ro flag* flag-type - +--ro is-abstract? boolean - +--ro underlay! {te-topology-hierarchy}? - | +--ro underlay-path - | | +--ro topology-id? leafref - | | +--ro path-element* [path-element-id] - | | +--ro path-element-id uint32 - | | +--ro loose? boolean - | | +--ro (element-type)? - | | +--:(numbered-link) - | | | +--ro link-ip-address? inet:ip-address - | | +--:(unnumbered-link) - | | | +--ro link-node-id? uint32 - | | | +--ro te-link-id? uint32 - | | +--:(node) - | | | +--ro te-node-id? uint32 - | | +--:(label) - | | +--ro label? uint32 - | +--ro underlay-backup-path - | | +--ro topology-id? leafref - | | +--ro path-element* [path-element-id] - | | +--ro path-element-id uint32 - | | +--ro loose? boolean - | | +--ro (element-type)? - | | +--:(numbered-link) - | | | +--ro link-ip-address? inet:ip-address - | | +--:(unnumbered-link) - | | | +--ro link-node-id? uint32 - | | | +--ro te-link-id? uint32 - | | +--:(node) - | | | +--ro te-node-id? uint32 - | | +--:(label) - | | +--ro label? uint32 - | +--ro underlay-protection-type? uint16 - | +--ro underlay-trail-src - | | +--ro topo-ref? leafref - | | +--ro node-ref? leafref - | | +--ro link-end-ref? leafref - | +--ro underlay-trail-des - | | +--ro topo-ref? leafref - | | +--ro node-ref? leafref - | | +--ro link-end-ref? leafref - | +--ro dynamic? boolean - | +--ro committed? boolean - +--ro ted - +--ro admin-status? enumeration - +--ro oper-status? enumeration - +--ro area-id? binary - +--ro performance-metric-throttle{te-performance-metric}? - | +--ro unidirectional-delay-offset? uint32 - | +--ro measure-interval? uint32 - | +--ro advertisement-interval? uint32 - | +--ro suppression-interval? uint32 - | +--ro threshold-out - | | +--ro unidirectional-delay? uint32 - | | +--ro unidirectional-min-delay? uint32 - | | +--ro unidirectional-max-delay? uint32 - | | +--ro unidirectional-delay-variation? uint32 - | | +--ro unidirectional-packet-loss? -decimal64 - | | +--ro unidirectional-residual-bandwidth? -decimal64 - | | +--ro unidirectional-available-bandwidth? -decimal64 - | | +--ro unidirectional-utilized-bandwidth? -decimal64 - | +--ro threshold-in - | | +--ro unidirectional-delay? uint32 - | | +--ro unidirectional-min-delay? uint32 - | | +--ro unidirectional-max-delay? uint32 - | | +--ro unidirectional-delay-variation? uint32 - | | +--ro unidirectional-packet-loss? decimal64 - | | +--ro unidirectional-residual-bandwidth? decimal64 - | | +--ro unidirectional-available-bandwidth? decimal64 - | | +--ro unidirectional-utilized-bandwidth? decimal64 - | +--ro threshold-accelerated-advertisement - | +--ro unidirectional-delay? uint32 - | +--ro unidirectional-min-delay? uint32 - | +--ro unidirectional-max-delay? uint32 - | +--ro unidirectional-delay-variation? uint32 - | +--ro unidirectional-packet-loss? decimal64 - | +--ro unidirectional-residual-bandwidth? decimal64 - | +--ro unidirectional-available-bandwidth? decimal64 - | +--ro unidirectional-utilized-bandwidth? decimal64 - +--ro information-source? enumeration - +--ro credibility-preference? uint16 - +--ro link-index? uint64 - +--ro administrative-group* [sequence] - | +--ro sequence uint32 - | +--ro ag-element? uint32 - +--ro max-link-bandwidth? decimal64 - +--ro max-resv-link-bandwidth? decimal64 - +--ro unreserved-bandwidth* [priority] - | +--ro priority uint8 - | +--ro bandwidth? decimal64 - +--ro te-default-metric? uint32 - +--ro performance-metric {te-performance-metric}? - | +--ro measurement + | +--ro schedules* [schedule-id] {configuration-schedule}? + | | +--ro schedule-id uint32 + | | +--ro start? yang:date-and-time + | | +--ro schedule-duration? string + | | +--ro repeat-interval? string + | +--ro name? string + | +--ro flag* flag-type + | +--ro is-abstract? boolean + | +--ro underlay! {te-topology-hierarchy}? + | | +--ro underlay-primary-path + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | | +--ro path-element* [path-element-id] + | | | +--ro path-element-id uint32 + | | | +--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 underlay-backup-path* [index] + | | | +--ro index uint32 + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | | +--ro path-element* [path-element-id] + | | | +--ro path-element-id uint32 + | | | +--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 underlay-protection-type? uint16 + | | +--ro underlay-trail-src + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | | +--ro node-ref? leafref + | | | +--ro link-end-ref? leafref + | | +--ro underlay-trail-des + | | | +--ro provider-id-ref? leafref + | | | +--ro client-id-ref? leafref + | | | +--ro topology-id-ref? leafref + | | | +--ro node-ref? leafref + | | | +--ro link-end-ref? leafref + | | +--ro dynamic? boolean + | | +--ro committed? boolean + | +--ro admin-status? enumeration + | +--ro performance-metric-throttle {te-performance-metric}? + | | +--ro unidirectional-delay-offset? uint32 + | | +--ro measure-interval? uint32 + | | +--ro advertisement-interval? uint32 + | | +--ro suppression-interval? uint32 + | | +--ro threshold-out + | | | +--ro unidirectional-delay? uint32 + | | | +--ro unidirectional-min-delay? uint32 + | | | +--ro unidirectional-max-delay? uint32 + | | | +--ro unidirectional-delay-variation? uint32 + | | | +--ro unidirectional-packet-loss? decimal64 + | | | +--ro unidirectional-residual-bandwidth? decimal64 + | | | +--ro unidirectional-available-bandwidth? decimal64 + | | | +--ro unidirectional-utilized-bandwidth? decimal64 + | | +--ro threshold-in + | | | +--ro unidirectional-delay? uint32 + | | | +--ro unidirectional-min-delay? uint32 + | | | +--ro unidirectional-max-delay? uint32 + | | | +--ro unidirectional-delay-variation? uint32 + | | | +--ro unidirectional-packet-loss? decimal64 + | | | +--ro unidirectional-residual-bandwidth? decimal64 + | | | +--ro unidirectional-available-bandwidth? decimal64 + | | | +--ro unidirectional-utilized-bandwidth? decimal64 + | | +--ro threshold-accelerated-advertisement | | +--ro unidirectional-delay? uint32 | | +--ro unidirectional-min-delay? uint32 | | +--ro unidirectional-max-delay? uint32 | | +--ro unidirectional-delay-variation? uint32 | | +--ro unidirectional-packet-loss? decimal64 | | +--ro unidirectional-residual-bandwidth? decimal64 | | +--ro unidirectional-available-bandwidth? decimal64 | | +--ro unidirectional-utilized-bandwidth? decimal64 - | +--ro normality - | +--ro unidirectional-delay? + | +--ro link-index? uint64 + | +--ro administrative-group? te-types:admin- + groups + | +--ro max-link-bandwidth? decimal64 + | +--ro max-resv-link-bandwidth? decimal64 + | +--ro unreserved-bandwidth* [priority] + | | +--ro priority uint8 + | | +--ro bandwidth? decimal64 + | +--ro te-default-metric? uint32 + | +--ro performance-metric {te-performance-metric}? + | | +--ro measurement + | | | +--ro unidirectional-delay? uint32 + | | | +--ro unidirectional-min-delay? uint32 + | | | +--ro unidirectional-max-delay? uint32 + | | | +--ro unidirectional-delay-variation? uint32 + | | | +--ro unidirectional-packet-loss? decimal64 + | | | +--ro unidirectional-residual-bandwidth? decimal64 + | | | +--ro unidirectional-available-bandwidth? decimal64 + | | | +--ro unidirectional-utilized-bandwidth? decimal64 + | | +--ro normality + | | +--ro unidirectional-delay? performance-metric-normality - | +--ro unidirectional-min-delay? + | | +--ro unidirectional-min-delay? performance-metric-normality - | +--ro unidirectional-max-delay? + | | +--ro unidirectional-max-delay? performance-metric-normality - | +--ro unidirectional-delay-variation? + | | +--ro unidirectional-delay-variation? performance-metric-normality - | +--ro unidirectional-packet-loss? + | | +--ro unidirectional-packet-loss? performance-metric-normality - | +--ro unidirectional-residual-bandwidth? + | | +--ro unidirectional-residual-bandwidth? performance-metric-normality - | +--ro unidirectional-available-bandwidth? + | | +--ro unidirectional-available-bandwidth? performance-metric-normality - | +--ro unidirectional-utilized-bandwidth? + | | +--ro unidirectional-utilized-bandwidth? performance-metric-normality - +--ro link-protection-type? enumeration - +--ro interface-switching-capabilities* -[switching-capability] - | +--ro switching-capability ted:switching-capabilities - | +--ro encoding? ted:encoding-type - | +--ro max-lsp-bandwidth* [priority] - | | +--ro priority uint8 - | | +--ro bandwidth? decimal64 - | +--ro packet-switch-capable + | +--ro link-protection-type? enumeration + | +--ro interface-switching-capabilities* [switching- + capability] + | | +--ro switching-capability identityref + | | +--ro encoding? identityref + | | +--ro max-lsp-bandwidth* [priority] + | | | +--ro priority uint8 + | | | +--ro bandwidth? decimal64 + | | +--ro packet-switch-capable + | | | +--ro minimum-lsp-bandwidth? decimal64 + | | | +--ro interface-mtu? uint16 + | | +--ro time-division-multiplex-capable | | +--ro minimum-lsp-bandwidth? decimal64 - | | +--ro interface-mtu? uint16 - | +--ro time-division-multiplex-capable - | +--ro minimum-lsp-bandwidth? decimal64 - | +--ro indication? enumeration - +--ro srlg - | +--ro srlg-values* [srlg-value] - | +--ro srlg-value uint32 + | | +--ro indication? enumeration + | +--ro te-srlgs + | +--ro values* te-types:srlg + +--ro te-link-state + +--ro oper-status? enumeration + +--ro information-source? enumeration + +--ro information-source-state + | +--ro credibility-preference? uint16 + | +--ro topology + | | +--ro provider-id-ref? leafref + | | +--ro client-id-ref? leafref + | | +--ro topology-id-ref? leafref + | +--ro routing-instance? string +--ro alt-information-sources* [information-source] +--ro information-source enumeration - +--ro credibility-preference? uint16 + +--ro information-source-state + | +--ro credibility-preference? uint16 + | +--ro topology + | | +--ro provider-id-ref? leafref + | | +--ro client-id-ref? leafref + | | +--ro topology-id-ref? leafref + | +--ro routing-instance? string +--ro link-index? uint64 - +--ro administrative-group* [sequence] - | +--ro sequence uint32 - | +--ro ag-element? uint32 + +--ro administrative-group? te- + types:admin-groups +--ro max-link-bandwidth? decimal64 +--ro max-resv-link-bandwidth? decimal64 +--ro unreserved-bandwidth* [priority] | +--ro priority uint8 | +--ro bandwidth? decimal64 +--ro te-default-metric? uint32 +--ro performance-metric {te-performance-metric}? | +--ro measurement | | +--ro unidirectional-delay? uint32 | | +--ro unidirectional-min-delay? uint32 | | +--ro unidirectional-max-delay? uint32 | | +--ro unidirectional-delay-variation? uint32 - | | +--ro unidirectional-packet-loss? decimal64 + | | +--ro unidirectional-packet-loss? + decimal64 | | +--ro unidirectional-residual-bandwidth? decimal64 | | +--ro unidirectional-available-bandwidth? decimal64 | | +--ro unidirectional-utilized-bandwidth? decimal64 | +--ro normality | +--ro unidirectional-delay? performance-metric-normality | +--ro unidirectional-min-delay? @@ -1336,94 +1855,120 @@ performance-metric-normality | +--ro unidirectional-min-delay? performance-metric-normality | +--ro unidirectional-max-delay? performance-metric-normality | +--ro unidirectional-delay-variation? performance-metric-normality | +--ro unidirectional-packet-loss? performance-metric-normality | +--ro unidirectional-residual-bandwidth? - performance-metric-normality | +--ro unidirectional-available-bandwidth? performance-metric-normality | +--ro unidirectional-utilized-bandwidth? performance-metric-normality +--ro link-protection-type? enumeration - +--ro interface-switching-capabilities* -[switching-capability] - | +--ro switching-capability -ted:switching-capabilities - | +--ro encoding? ted:encoding-type + +--ro interface-switching-capabilities* [switching- + capability] + | +--ro switching-capability identityref + | +--ro encoding? identityref | +--ro max-lsp-bandwidth* [priority] | | +--ro priority uint8 | | +--ro bandwidth? decimal64 | +--ro packet-switch-capable | | +--ro minimum-lsp-bandwidth? decimal64 | | +--ro interface-mtu? uint16 | +--ro time-division-multiplex-capable | +--ro minimum-lsp-bandwidth? decimal64 | +--ro indication? enumeration - +--ro srlg - +--ro srlg-values* [srlg-value] - +--ro srlg-value uint32 + +--ro te-srlgs + +--ro values* te-types:srlg -3.1. TE Topology Yang Module + 6. TE Topology Yang Module + + - file "ietf-te-topology@2015-03-23.yang" module ietf-te-topology { yang-version 1; namespace "urn:ietf:params:xml:ns:yang:ietf-te-topology"; // replace with IANA namespace when assigned prefix "tet"; import ietf-yang-types { prefix "yang"; } import ietf-inet-types { prefix "inet"; } - import ted { - prefix "ted"; - } - import ietf-interfaces { prefix "if"; } + import ietf-te-types { + prefix "te-types"; + } organization "TBD"; contact "TBD"; description "TE topology model"; - revision "2015-03-23" { + revision "2015-07-02" { description "Initial revision"; reference "TBD"; } /* * Features */ feature te-topology-hierarchy { description "This feature indicates that the system allows underlay and/or overlay TE topology hierarchy."; } + feature te-performance-metric { + description + "This feature indicates that the system supports + TE performance metric defined in + draft-ietf-ospf-te-metric-extensions."; + } + + feature configuration-schedule { + description + "This feature indicates that the system supports + configuration scheduling."; + } + + feature template { + description + "This feature indicates that the system supports + template configuration."; + } + /* * Typedefs */ + typedef te-global-id { + type uint32; + description + "An identifier to uniquely identify an operator, which can be + either a provider or a client. + The definition of this type is taken from RFC6370 and RFC503. + This attribute type is used solely to provide a globally + unique context for TE topologies."; + } + typedef te-topology-id { type string { pattern '/?([a-zA-Z0-9\-_.]+)(/[a-zA-Z0-9\-_.]+)*'; } description "An identifier for a topology."; } typedef te-template-name { type string { @@ -1432,45 +1977,45 @@ description "A type for the name of a TE node template or TE link template."; } typedef te-node-id { type inet:ip-address; description "An identifier for a node in a topology. The identifier is represented as an IPv4 or IPv6 address. - The identifier SHOULD be chosen such that the same node in a real network topology will always be identified through the same identifier, even if the model is instantiated in - separate datastores. An implementation MAY choose to capture - semantics in the identifier, for example to indicate the type - of node and/or the type of topology that the node is a part - of."; + separate + datastores. An implementation MAY choose to capture semantics + in the identifier, for example to indicate the type of node + and/or the type of topology that the node is a part of."; } typedef te-link-id { type union { type uint32; // Unnumbered type inet:ip-address; // IPv4 or IPv6 address } description "An identifier for a TE link on a node. The identifier may be opaque. The identifier SHOULD be chosen such that the same TP in a real network topology will always be identified through the same identifier, even if the model is instantiated in - separate datastores. An implementation MAY choose to capture - semantics in the identifier, for example to indicate the type - of TP and/or the type of node and topology that the TP is a - part of."; + separate + datastores. An implementation MAY choose to capture semantics + in the identifier, for example to indicate the type of TP + and/or the type of node and topology that the TP is a part + of."; } typedef te-topology-event-type { type enumeration { enum "add" { value 0; description "A TE node or te-link has been added"; } @@ -1483,20 +2028,43 @@ 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 performance-metric-normality { + type enumeration { + enum "unknown" { + value 0; + description + "Unknown"; + } + enum "normal" { + value 1; + description + "Normal"; + } + enum "abnormal" { + value 2; + description + "Abnormal. The anomalous bit is set."; + } + } + description + "Indicates whether a performance metric is normal, abnormal, + or unknown."; + } + /* * Identities */ identity flag-identity { description "Base type for flags"; } identity undefined-flag { base "flag-identity"; @@ -1510,161 +2078,152 @@ description "Type for flags"; } /* * Groupings */ grouping topo-ref { description "Grouping for an absolute reference to a topology instance."; - leaf topo-ref { + leaf provider-id-ref { type leafref { - path "/tet:te-topologies/tet:topology/tet:te-topology-id"; + path "/tet:te-topologies/tet:topology/tet:provider-id"; } description - "An absolute reference to a topology instance."; + "An absolute reference to a provider-id."; + } + leaf client-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology/tet:client-id"; + } + description + "An absolute reference to a client-id."; } + leaf topology-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology/tet:te-topology-id"; } + description + "An absolute reference to a te-topology-id."; + } + } // topo-ref grouping link-ref { description "Grouping for an absolute reference to a link instance."; uses topo-ref; leaf source-te-node-id-ref { type leafref { path "/tet:te-topologies/tet:topology" - +"[tet:te-topology-id = current()/../topo-ref]" + +"[tet:provider-id = current()/../provider-id-ref]" + +"[tet:client-id = current()/../client-id-ref]" + +"[tet:te-topology-id = current()/../topology-id-ref]" +"/tet:link/tet:source-te-node-id"; - } description "An absolute reference to a link instance."; } leaf source-te-link-id-ref { type leafref { path "/tet:te-topologies/tet:topology" - +"[tet:te-topology-id = current()/../topo-ref]" + +"[tet:provider-id = current()/../provider-id-ref]" + +"[tet:client-id = current()/../client-id-ref]" + +"[tet:te-topology-id = current()/../topology-id-ref]" +"/tet:link/tet:source-te-link-id"; } description "An absolute reference to a link instance."; } leaf dest-te-node-id-ref { type leafref { path "/tet:te-topologies/tet:topology" - +"[tet:te-topology-id = current()/../topo-ref]" + +"[tet:provider-id = current()/../provider-id-ref]" + +"[tet:client-id = current()/../client-id-ref]" + +"[tet:te-topology-id = current()/../topology-id-ref]" +"/tet:link/tet:dest-te-node-id"; } description "An absolute reference to a link instance."; } leaf dest-te-link-id-ref { type leafref { path "/tet:te-topologies/tet:topology" - +"[tet:te-topology-id = current()/../topo-ref]" + +"[tet:provider-id = current()/../provider-id-ref]" + +"[tet:client-id = current()/../client-id-ref]" + +"[tet:te-topology-id = current()/../topology-id-ref]" +"/tet:link/tet:dest-te-link-id"; } description "An absolute reference to a link instance."; } - } + } // link-ref grouping node-ref { description "Grouping for an absolute reference to a node instance."; uses topo-ref; leaf node-ref { type leafref { path "/tet:te-topologies/tet:topology" - +"[tet:te-topology-id = current()/../topo-ref]" + +"[tet:provider-id = current()/../provider-id-ref]" + +"[tet:client-id = current()/../client-id-ref]" + +"[tet:te-topology-id = current()/../topology-id-ref]" +"/tet:node/tet:te-node-id"; } description "An absolute reference to a node instance."; } - } + } // node-ref + grouping link-end-ref { description "Grouping for an absolute reference to a TE link end, which is the local representation of a TE link on a node."; uses node-ref; leaf link-end-ref { type leafref { path "/tet:te-topologies/tet:topology" - +"[tet:te-topology-id = current()/../topo-ref]" + +"[tet:provider-id = current()/../provider-id-ref]" + +"[tet:client-id = current()/../client-id-ref]" + +"[tet:te-topology-id = current()/../topology-id-ref]" +"/tet:node[tet:te-node-id = current()/../node-ref]" - +"/tet:te-node-attributes/tet:te-link/tet:te-link-id"; + +"/tet:te-link/tet:te-link-id"; } description "Grouping for an absolute reference to a TE link end."; } - } + } // link-end-ref grouping te-topology-type { description "Identifies the TE topology type."; container te-topology { presence "indicates TE topology"; description "Its presence identifies the TE topology type."; } - } + } // te-topology-type grouping te-path-element { description "A group of attributes defining an element in a TE path - such as TE node, TE link, TE aotomic resource or label."; - leaf loose { - type boolean; - description "true if the element is loose."; - } - choice element-type { - description "Attributes for various element types."; - case numbered-link { - leaf link-ip-address { - type inet:ip-address; - description "IPv4 or IPv6 address."; - } - } - case unnumbered-link { - leaf link-node-id { - type uint32; - description - "Node ID of the node where the link end point resides."; - - } - leaf te-link-id { - type uint32; - description "Identifies the link end point."; - } - } - case node { - leaf te-node-id { - type uint32; - description "Identifies the node."; - } - } - case label { - leaf label { - type uint32; - description "Identifies atomic TE resource or label."; - } - } - } + such as TE node, TE link, TE atomic resource or label."; + uses te-types:explicit-route-subobject; } // te-path-element grouping config-schedule-attributes { description "A list of schedules defining when a particular configuration takes effect."; list schedules { + if-feature configuration-schedule; key "schedule-id"; description "A list of schedule elements."; leaf schedule-id { type uint32; description "Identifies the schedule element."; } leaf start { type yang:date-and-time; description "Start time."; @@ -1678,60 +2238,103 @@ } leaf repeat-interval { type string { pattern 'R\d*/P(\d+Y)?(\d+M)?(\d+W)?(\d+D)?T(\d+H)?(\d+M)?' + '(\d+S)?'; } description "Repeat interval in ISO 8601 format."; } } - } + } // config-schedule-attributes grouping information-source-attributes { description "The attributes identifying source that has provided the related information, and the source credibility."; leaf information-source { type enumeration { enum "unknown" { description "The source is unknown"; } enum "locally-configured" { - description "Configured TE link"; + description "Configured entity"; } enum "ospfv2" { description "OSPFv2"; } enum "ospfv3" { description "OSPFv3"; } enum "isis" { description "ISIS"; } + enum "system-processed" { + description "System processed entity."; + } enum "other" { description "Other source"; } + } description "Indicates the source of the information."; } + container information-source-state { + description + "The container contains state attributes related to + the information source."; leaf credibility-preference { type uint16; description "The preference value to calculate the traffic engineering database credibility value used for tie-break selection between different information-source values. Higher value is more preferable."; } + container topology { + description + "When the information is processed by the system, + the attributes in this container indicate which topology + is used to process to generate the result information."; + leaf provider-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology/tet:provider-id"; + } + description + "A reference to a provider-id."; + } + leaf client-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology/tet:client-id"; + } + description + "A reference to a client-id."; + } + leaf topology-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology" + +"/tet:te-topology-id"; + } + description + "A reference to a te-topology-id."; + } + } // topology + leaf routing-instance { + type string; + description + "When applicable, this is the name of a routing instance + from which the information is learned."; + } // routing-information } + } // information-source-attributes grouping te-node-attributes { description "Node attributes in a TE topology."; container te-node-attributes { description "Node attributes in a TE topology."; uses config-schedule-attributes; leaf name { type inet:domain-name; description "Node name."; } @@ -1742,34 +2345,83 @@ leaf-list flag { type flag-type; description "Node operational flags."; } leaf is-abstract { type boolean; description "true if the node is abstract, false when the node is actual."; } - leaf underlay-topology { + container underlay-topology { if-feature te-topology-hierarchy; + description + "When an abstract node encapsulates a topology, + the attributes in this container point to said topology."; + leaf provider-id-ref { type leafref { - path "/tet:te-topologies/tet:topology/tet:te-topology-id"; + path "/tet:te-topologies/tet:topology/tet:provider-id"; } description - "When an abstract node encapsulates a topology, - this reference points to said topology."; + "A reference to a provider-id."; + } + leaf client-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology/tet:client-id"; + + } + description + "A reference to a client-id."; + } + leaf topology-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology" + +"/tet:te-topology-id"; + } + description + "A reference to a te-topology-id."; + } + } + + list connectivity-matrix { + key "id"; + description + "Represents node's switching limitations, i.e. limitations + in interconnecting network TE links across the node."; + leaf id { + type uint32; + description "Identifies the connectivity-matrix entry."; + } + container from-link { + uses tet:link-end-ref; + description + "Reference to source NTP."; + } + container to-link { + uses tet:link-end-ref; + description + "Reference to destination NTP."; + } + leaf is-allowed { + type boolean; + description + "true - switching is allowed, + false - switching is disallowed."; + } + } } list te-link { key "te-link-id"; description "The local representation of a TE link, which interconnect TE nodes."; + leaf te-link-id { type te-link-id; description "TE link identifier."; } choice stack-level { description "The TE link can be partitioned into bundled links, or component links."; case bundle { @@ -1769,144 +2421,154 @@ "TE link identifier."; } choice stack-level { description "The TE link can be partitioned into bundled links, or component links."; case bundle { container bundled-links { description "A set of bundled links"; - list bundled-link { key "sequence"; description - "Specify a bundled interfface that is + "Specify a bundled interface that is further partitioned."; leaf sequence { type uint32; description "Identify the sequence in the bundle."; } leaf te-link-ref { type leafref { path "../../../te-link-id"; - require-instance "true"; + require-instance true; } description "Reference to TE link on this node."; } } } } case component { container component-links { description "A set of component links"; list component-link { key "sequence"; description - "Specify a component interfface that is + "Specify a component interface that is sufficient to unambiguously identify the appropriate resources"; leaf sequence { type uint32; description "Identify the sequence in the bundle."; } leaf component-link-ref { type leafref { path "/if:interfaces/if:interface/if:name"; - require-instance "false"; + require-instance false; } description "Reference to component link on this node."; } } } - - } - } - } - list connectivity-matrix { - key "id"; - description - "Represents node's switching limitations, i.e. limitations - in interconnecting network TE links across the node."; - leaf id { - type uint32; - description "Identifies the connectivity-matrix entry."; - } - container from-link { - uses tet:link-end-ref; - description - "Reference to source NTP."; - } - container to-link { - uses tet:link-end-ref; - description - "Reference to destination NTP."; - } - leaf is-allowed { - type boolean; - description - "true - switching is allowed, - false - switching is disallowed."; - } } - container ted { - description "Includes TE node attributes."; - uses ted:ted-node-attributes; } } } // te-node-attributes grouping te-node-state-attributes { description "Node state attributes in a TE topology."; - container te-node-state-attributes { + container te-node-state { description "Node state attributes in a TE topology."; uses information-source-attributes; } } // te-node-state-attributes grouping te-link-underlay-attributes { description "Attributes for te-link underlay."; - container underlay-path { + container underlay-primary-path { description "The service path on the underlay topology that supports this link."; - leaf topology-id { + leaf provider-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology/tet:provider-id"; + require-instance false; + } + description + "A reference to a provider-id."; + } + leaf client-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology/tet:client-id"; + require-instance false; + + } + description + "A reference to a client-id."; + } + leaf topology-id-ref { type leafref { path "/tet:te-topologies/tet:topology/tet:te-topology-id"; require-instance false; } description "Identifies the topology where the path belongs."; } list path-element { key "path-element-id"; description "A list of path elements describing the service path"; leaf path-element-id { type uint32; description "To identify the element in a path."; } uses te-path-element; } - } // underlay-path - container underlay-backup-path { + } // underlay-primary-path + list underlay-backup-path { + key "index"; description - "The backup service path on the underlay topology that - supports this link."; - leaf topology-id { + "A list of backup service paths on the underlay topology + that + protect the underlay primary path. If the primary path is + not protected, the list contains zero elements. If the + primary path is protected, the list contains one or more + elements."; + leaf index { + type uint32; + description + "A sequence number to identify a backup path."; + } + leaf provider-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology/tet:provider-id"; + require-instance false; + } + description + "A reference to a provider-id."; + } + leaf client-id-ref { + type leafref { + path "/tet:te-topologies/tet:topology/tet:client-id"; + require-instance false; + } + description + "A reference to a client-id."; + } + leaf topology-id-ref { type leafref { path "/tet:te-topologies/tet:topology/tet:te-topology-id"; require-instance false; } description "Identifies the topology where the path belongs."; } list path-element { key "path-element-id"; description @@ -1943,20 +2605,410 @@ description "true if the underlay is dynamically created."; } leaf committed { type boolean; description "true if the underlay is committed."; } } // te-link-state-underlay-attributes + grouping performance-metric-attributes { + description + "Link performance information in real time."; + reference + "draft-ietf-ospf-te-metric-extensions."; + leaf unidirectional-delay { + type uint32 { + range 0..16777215; + } + description "Delay or latency in micro seconds."; + } + leaf unidirectional-min-delay { + type uint32 { + range 0..16777215; + } + description "Minimum delay or latency in micro seconds."; + } + leaf unidirectional-max-delay { + type uint32 { + range 0..16777215; + } + description "Maximum delay or latency in micro seconds."; + } + leaf unidirectional-delay-variation { + type uint32 { + range 0..16777215; + } + description "Delay variation in micro seconds."; + } + leaf unidirectional-packet-loss { + type decimal64 { + fraction-digits 6; + range "0 .. 50.331642"; + } + description + "Packet loss as a percentage of the total traffic sent + over a configurable interval. The finest precision is + 0.000003%."; + } + leaf unidirectional-residual-bandwidth { + type decimal64 { + fraction-digits 2; + } + description + "Residual bandwidth that subtracts tunnel + reservations from Maximum Bandwidth (or link capacity) + [RFC3630] and provides an aggregated remainder across QoS + classes."; + } + leaf unidirectional-available-bandwidth { + type decimal64 { + fraction-digits 2; + } + description + "Available bandwidth that is defined to be residual + bandwidth minus the measured bandwidth used for the + actual forwarding of non-RSVP-TE LSP packets. For a + bundled link, available bandwidth is defined to be the + sum of the component link available bandwidths."; + } + leaf unidirectional-utilized-bandwidth { + type decimal64 { + fraction-digits 2; + } + description + "Bandwidth utilization that represents the actual + utilization of the link (i.e. as measured in the router). + For a bundled link, bandwidth utilization is defined to + be the sum of the component link bandwidth + utilizations."; + } + } // performance-metric-attributes + + grouping performance-metric-normality-attributes { + description + "Link performance metric normality attributes."; + reference + "draft-ietf-ospf-te-metric-extensions."; + leaf unidirectional-delay { + type performance-metric-normality; + description "Delay normality."; + } + leaf unidirectional-min-delay { + type performance-metric-normality; + description "Minimum delay or latency normality."; + } + leaf unidirectional-max-delay { + type performance-metric-normality; + description "Maximum delay or latency normality."; + } + leaf unidirectional-delay-variation { + type performance-metric-normality; + description "Delay variation normality."; + } + leaf unidirectional-packet-loss { + type performance-metric-normality; + description "Packet loss normality."; + } + leaf unidirectional-residual-bandwidth { + type performance-metric-normality; + description "Residual bandwidth normality."; + } + leaf unidirectional-available-bandwidth { + type performance-metric-normality; + description "Available bandwidth normality."; + } + leaf unidirectional-utilized-bandwidth { + type performance-metric-normality; + description "Bandwidth utilization normality."; + } + } // performance-metric-normality-attributes + + grouping performance-metric-throttle-container { + description + "A container controlling performance metric throttle."; + container performance-metric-throttle { + if-feature te-performance-metric; + must "suppression-interval >= measure-interval" { + error-message + "suppression-interval cannot be less then + measure-interval"; + description + "Constraint on suppression-interval and + measure-interval."; + } + description + "Link performance information in real time."; + reference + "draft-ietf-ospf-te-metric-extensions."; + leaf unidirectional-delay-offset { + type uint32 { + range 0..16777215; + } + description + "Offset value to be added to the measured delay value."; + } + leaf measure-interval { + type uint32; + default 30; + description + "Interval in seconds to measure the extended metric + values."; + } + leaf advertisement-interval { + type uint32; + description + "Interval in seconds to advertise the extended metric + values."; + } + leaf suppression-interval { + type uint32 { + range "1 .. max"; + } + default 120; + description + "Interval in seconds to suppress advertising the extended + metric values."; + } + container threshold-out { + uses performance-metric-attributes; + description + "If the measured parameter falls outside an upper bound + for all but the min delay metric (or lower bound for + min-delay metric only) and the advertised value is not + already outside that bound, anomalous announcement will be + triggered."; + } + container threshold-in { + uses performance-metric-attributes; + description + "If the measured parameter falls inside an upper bound + for all but the min delay metric (or lower bound for + min-delay metric only) and the advertised value is not + already inside that bound, normal (anomalous-flag cleared) + announcement will be triggered."; + } + container threshold-accelerated-advertisement { + description + "When the difference between the last advertised value and + current measured value exceed this threshold, anomalous + announcement will be triggered."; + uses performance-metric-attributes; + } + } + } // performance-metric-throttle-container + + grouping te-link-info-attributes { + description + "Advertised TE information attributes."; + leaf link-index { + type uint64; + description + "The link identifier. If OSPF is used, this represents an + ospfLsdbID. If IS-IS is used, this represents an isisLSPID. + If a locally configured link is used, this object represents + a unique value, which is locally defined in a router."; + } + leaf administrative-group { + type te-types:admin-groups; + description + "Administrative group or color of the link. + This attribute covers both administrative group (defined in + RFC3630, RFC5329, and RFC5305), and extended administrative + group (defined in RFC7308)."; + } + leaf max-link-bandwidth { + type decimal64 { + fraction-digits 2; + } + description + "Maximum bandwidth that can be seen on this link in this + direction. Units in bytes per second"; + } + leaf max-resv-link-bandwidth { + type decimal64 { + fraction-digits 2; + } + description + "Maximum amount of bandwidth that can be reserved in this + direction in this link. Units in bytes per second"; + } + list unreserved-bandwidth { + key "priority"; + max-elements "8"; + description + "Unreserved bandwidth for 0-7 priority levels. Units in + bytes per second"; + leaf priority { + type uint8 { + range "0..7"; + } + description "Priority"; + } + leaf bandwidth { + type decimal64 { + fraction-digits 2; + } + description + "Unreserved bandwidth for this level"; + } + } + leaf te-default-metric { + type uint32; + description + "Traffic Engineering Metric"; + } + container performance-metric { + if-feature te-performance-metric; + description + "Link performance information in real time."; + reference + "draft-ietf-ospf-te-metric-extensions."; + container measurement { + description + "Measured performance metric values. Static configuration + and manual overrides of these measurements are also + allowed."; + uses performance-metric-attributes; + } + container normality + { + description + "Performance metric normality values."; + uses performance-metric-normality-attributes; + + } + } + leaf link-protection-type { + type enumeration { + enum "unprotected" { + description "unprotected"; + } + enum "extra-traffic" { + description "Extra traffic"; + } + enum "shared" { + description "Shared"; + } + enum "1-for-1" { + description "One for one protection"; + } + enum "1-plus-1" { + description "One plus one protection"; + } + enum "enhanced" { + description "Enhanced protection"; + } + } + description + "Link Protection Type desired for this link"; + } + list interface-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"; + } + list max-lsp-bandwidth { + key "priority"; + max-elements "8"; + description + "Maximum LSP Bandwidth at priorities 0-7"; + leaf priority { + type uint8 { + range "0..7"; + } + description "Priority"; + } + leaf bandwidth { + type decimal64 { + fraction-digits 2; + } + description + "Max LSP Bandwidth for this level"; + } + } + container packet-switch-capable { + when "../switching-capability = 'PSC-1' or " + +"../switching-capability = 'PSC-2' or " + +"../switching-capability = 'PSC-3' or " + +"../switching-capability = 'PSC-4'" { + description "Valid only for PSC"; + } + description + "Interface has packet-switching capabilities"; + leaf minimum-lsp-bandwidth { + type decimal64 { + fraction-digits 2; + } + description + "Minimum LSP Bandwidth. Units in bytes per second"; + } + leaf interface-mtu { + type uint16; + description + "Interface MTU"; + } + } + container time-division-multiplex-capable { + when "../switching-capability = 'TDM'" { + description "Valid only for TDM"; + } + description + "Interface has time-division multiplex capabilities"; + + leaf minimum-lsp-bandwidth { + type decimal64 { + fraction-digits 2; + } + description + "Minimum LSP Bandwidth. Units in bytes per second"; + } + leaf indication { + type enumeration { + enum "standard" { + description "Indicates support of standard SONET/SDH"; + } + enum "arbitrary" { + description "Indicates support of arbitrary + SONET/SDH"; + } + } + description + "Indication whether the interface supports Standard or + Arbitrary SONET/SDH"; + } + } + } + container te-srlgs { + description + "A list of SLRGs."; + leaf-list values { + type te-types:srlg; + description "SRLG value"; + } + } + } // te-link-info-attributes + grouping te-link-attributes { description "Link attributes in a TE topology."; container te-link-attributes { description "Link attributes in a TE topology."; uses config-schedule-attributes; leaf name { type string; description "Link Name"; } @@ -1969,58 +3022,162 @@ description "true if the link is abstract."; } container underlay { if-feature te-topology-hierarchy; presence "Indicates the underlay exists for this link."; description "State of the underlay of this link."; uses te-link-underlay-attributes; } // underlay - container ted { - description "Includes TE link attributes."; - uses ted:ted-link-attributes; + leaf admin-status { + type enumeration { + enum up { + value 1; + description + "Enabled."; + } + enum down { + value 2; + description + "Disabled."; + } + enum testing { + value 3; + description + "In some test mode."; + } + } + description + "The desired state of the link."; } + + uses performance-metric-throttle-container; + uses te-link-info-attributes; } } // te-link-attributes grouping te-link-state-attributes { description "Link state attributes in a TE topology."; - container te-link-state-attributes { + container te-link-state { description "Link state attributes in a TE topology."; + leaf oper-status { + type enumeration { + enum up { + value 1; + description + "Operational up"; + } + enum down { + value 2; + description + "Operational down."; + } + enum testing { + value 3; + description + "In some test mode"; + } + enum unknown { + value 4; + description + "Status cannot be determined for some reason."; + } + } + description + "The current operational state of the link."; + } uses information-source-attributes; + list alt-information-sources { + key "information-source"; + description + "A list of information sources learned but not used."; + uses information-source-attributes; + uses te-link-info-attributes; + } } } // te-link-state-attributes + grouping template-attributes { + description + "Common attributes for all templates."; + + leaf priority { + type uint16; + description + "The preference value to resolve conflicts between different + templates. When two or more templates specify values for + one configuration attribute, the value from the template + with the highest priority is used."; + } + leaf reference-change-policy { + type enumeration { + enum no-action { + description + "When an attribute changes in this template, the + configuration node referring to this template does + not take any action."; + } + enum not-allowed { + description + "When any configuration object has a reference to this + template, changing this template is not allowed."; + } + enum cascade { + description + "When an attribute changes in this template, the + configuration object referring to this template applies + the new attribute value to the corresponding + configuration."; + } + } + description + "This attribute specifies the action taken to a + configuration + node that has a reference to this template."; + } + } // template-attributes + /* * Configuration data nodes */ container te-topologies { description "This container acts as the top-level data element of configuration data."; list topology { - key "te-topology-id"; + key "provider-id client-id te-topology-id"; description "This is the model of an abstract topology. A topology contains nodes and links. Each topology MUST be identified by a unique te-topology-id for reason that a network could contain many topologies."; + leaf provider-id { + type te-global-id; + description + "An identifier to uniquely identify a provider."; + } + leaf client-id { + type te-global-id; + description + "An identifier to uniquely identify a client."; + } leaf te-topology-id { type 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 config-schedule-attributes; container topology-types { description "This container is used to identify the type, or types (as a topology can support several types simultaneously), of the topology. Topology types are the subject of several integrity constraints that an implementing server can validate in order to maintain integrity of the datastore. Topology types are indicated through separate data nodes; the set of topology types is expected to increase over @@ -2039,20 +3196,21 @@ key "te-node-id"; leaf te-node-id { type te-node-id; description "The identifier of a node in the topology. A node is specific to a topology to which it belongs."; } description "The list of network nodes defined for the topology."; leaf te-node-template { + if-feature template; type leafref { path "/te-topologies/node-template/name"; } description "The reference to a TE node template."; } uses te-node-attributes; } list link { key "source-te-node-id source-te-link-id " @@ -2062,40 +3220,40 @@ path "../../node/te-node-id"; } mandatory true; description "Source node identifier, must be in same topology."; } leaf source-te-link-id { type leafref { path "../../node[te-node-id = " + "current()/../source-te-node-id]/" - + "te-node-attributes/te-link/te-link-id"; + + "te-link/te-link-id"; } mandatory true; description "Source TE link identifier, must be in same topology."; } leaf dest-te-node-id { type leafref { path "../../node/te-node-id"; } mandatory true; description "Destination node identifier, must be in the same topology."; } leaf dest-te-link-id { type leafref { path "../../node[te-node-id = " + "current()/../dest-te-node-id]/" - + "te-node-attributes/te-link/te-link-id"; + + "te-link/te-link-id"; } mandatory true; description "Destination TE link identifier, must be in same topology."; } description "TE link is a logical construct that represents a way to group/map information about certain physical resources (and their properties) that interconnect TE @@ -2105,91 +3263,122 @@ nodes' TE links. As it is possible to have several links between the same source and destination nodes, and as a link could potentially be re-homed, to ensure that we would always know to distinguish between links, every link is identified by a dedicated link identifier. Note that a link models a point-to-point link, not a multipoint link."; leaf te-link-template { + if-feature template; type leafref { path "/te-topologies/link-template/name"; - } description "The reference to a TE link template."; } uses te-link-attributes; } // link } // topology list node-template { + if-feature template; key "name"; leaf name { type te-template-name; description "The name to identify a TE node template."; } description "The list of TE node templates used to define sharable and reusable TE node attributes."; + + uses template-attributes; + leaf-list te-node-template { + type leafref { + path "/te-topologies/node-template/name"; + } + description + "The reference to a TE node template."; + } uses te-node-attributes; } // node list link-template { + if-feature template; key "name"; leaf name { type te-template-name; description "The name to identify a TE link template."; } description "The list of TE link templates used to define sharable and reusable TE link attributes."; + uses template-attributes; + leaf-list te-link-template { + type leafref { + path "/te-topologies/link-template/name"; + } + description + "The reference to a TE link template."; + } uses te-link-attributes; } // link } // te-topologies /* * Operational state data nodes */ container te-topologies-state { - config "false"; + config false; description "This container acts as the top-level state data element of operational data."; list topology { - key "te-topology-id"; + key "provider-id client-id te-topology-id"; description "This is the model of an abstract topology. A topology contains nodes and links. Each topology MUST be identified by a unique te-topology-id for reason that a network could contain many topologies."; + leaf provider-id { + type te-global-id; + description + "An identifier to uniquely identify a provider."; + } + leaf client-id { + type te-global-id; + description + "An identifier to uniquely identify a client."; + } leaf te-topology-id { type 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."; } leaf server-provided { type boolean; config false; description "Indicates whether the topology is configurable by - clients, or whether it is provided by the server. This - leaf is populated by the server implementing the model. + clients, + or whether it is provided by the server. This leaf is + populated by the server implementing the model. It is set to false for topologies that are created by a client; it is set to true otherwise. If it is set to - true, any attempt to edit the topology MUST be rejected."; + true, + any attempt to edit the topology MUST be rejected."; } container topology-types { description "This container is used to identify the type, or types (as a topology can support several types simultaneously), of the topology. Topology types are the subject of several integrity constraints that an implementing server can validate in order to maintain integrity of the datastore. Topology types are indicated through separate data nodes; @@ -2204,26 +3393,26 @@ that serve a purpose other than identifying a particular topology type."; uses te-topology-type; // Defines the TE topology type. } list node { key "te-node-id"; leaf te-node-id { type te-node-id; description "The identifier of a node in the topology. - A node is specific to a topology to which it belongs."; } description "The list of network nodes defined for the topology."; leaf te-node-template { + if-feature template; type leafref { path "/te-topologies/node-template/name"; } description "The reference to a TE node template."; } uses te-node-attributes; uses te-node-state-attributes; } list link { @@ -2234,40 +3423,41 @@ path "../../node/te-node-id"; } mandatory true; description "Source node identifier, must be in same topology."; } leaf source-te-link-id { type leafref { path "../../node[te-node-id = " + "current()/../source-te-node-id]/" - + "te-node-attributes/te-link/te-link-id"; + + "te-link/te-link-id"; + } mandatory true; description "Source TE link identifier, must be in same topology."; } leaf dest-te-node-id { type leafref { path "../../node/te-node-id"; } mandatory true; description "Destination node identifier, must be in the same topology."; } leaf dest-te-link-id { type leafref { path "../../node[te-node-id = " + "current()/../dest-te-node-id]/" - + "te-node-attributes/te-link/te-link-id"; + + "te-link/te-link-id"; } mandatory true; description "Destination TE link identifier, must be in same topology."; } description "TE link is a logical construct that represents a way to group/map information about certain physical resources (and their properties) that interconnect TE @@ -2277,20 +3467,21 @@ nodes' TE links. As it is possible to have several links between the same source and destination nodes, and as a link could potentially be re-homed, to ensure that we would always know to distinguish between links, every link is identified by a dedicated link identifier. Note that a link models a point-to-point link, not a multipoint link."; leaf te-link-template { + if-feature template; type leafref { path "/te-topologies/link-template/name"; } description "The reference to a TE link template."; } uses te-link-attributes; uses te-link-state-attributes; } // link } // topology @@ -2308,68 +3499,119 @@ notification te-node-event { description "Notification event for TE node"; leaf event-type { type te-topology-event-type; description "Event type"; } uses node-ref; uses te-topology-type; uses tet:te-node-attributes; + uses tet:te-node-state-attributes; } notification te-link-event { description "Notification event for TE link"; leaf event-type { type te-topology-event-type; description "Event type"; } uses link-ref; uses te-topology-type; uses tet:te-link-attributes; + uses tet:te-link-state-attributes; } augment "/te-link-event/te-link-attributes/underlay" { description "Add state attributes to te-link underlay."; uses te-link-state-underlay-attributes; + } } + -4. Normative References + 7. Security Considerations + + The transport protocol used for retrieving/manipulating the TE + topology data MUST support authentication and SHOULD support + encryption. The data-model by itself does not create any security + implications. + + 8. 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-topology + 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-topology + namespace: urn:ietf:params:xml:ns:yang:ietf-te-topology + prefix: tet + + 9. References + + 9.1. Normative References [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. + [RFC3688] Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688, + January 2004. + [RFC6020] Bjorklund, M., "YANG - A Data Modeling Language for the Network Configuration Protocol (NETCONF)", RFC 6020, October 2010. - [RFC6241] Enns, R., Bjorklund, M., Schoenwaelder, J., and A. - Bierman, "Network Configuration Protocol (NETCONF)", RFC - 6241, June 2011. + [RFC6991] Schoenwaelder, J., "Common YANG Data Types", RFC 6991, + July 2013. + + [RFC3945] Mannie, E., "Generalized Multi-Protocol Label Switching + (GMPLS) Architecture", October 2004. + + [YANG-NET-TOPO] Clemm, A., "A Data Model for Network Topologies", + draft-ietf-i2rs-yang-network-topo (Work in Progress). + + [YANG-PUSH] Clemm, A., "Subscribing to YANG datastore push updates", + draft-clemm-netconf-yang-push (Work in Progress). + + 9.2. Informative References + + [RFC2702] Awduche, D., "Requirements for Traffic Engineering Over + MPLS", RFC 2702, September 1999. + + 10. Acknowledgments + + The authors would like to thank Lou Berger, Sue Hares, Mazen + Khaddam, Cyril Margaria and Zafar Ali for participating in design + discussions and providing valuable insights. Authors' Addresses Xufeng Liu Ericsson - Email: xufeng.liu@ericsson.com + Igor Bryskin ADVA Optical Networking - Email: ibryskin@advaoptical.com Vishnu Pavan Beeram Juniper Networks - Email: vbeeram@juniper.net Tarek Saad - Cisco Systems Inc. - + Cisco Systems Inc Email: tsaad@cisco.com Himanshu Shah Ciena + Email: hshah@ciena.com - Email: tsaad@cisco.com + Oscar Gonzalez De Dios + Telefonica + Email: oscar.gonzalezdedios@telefonica.com