module transportpce-portmapping { yang-version 1; namespace "http://org/opendaylight/transportpce/portmapping"; prefix org-opendaylight-transportpce-portmapping; import ietf-inet-types { prefix ietf-inet-types; revision-date 2013-07-15; } import org-openroadm-common-optical-channel-types { prefix org-openroadm-common-optical-channel-types; revision-date 2020-05-29; } import org-openroadm-device-types { prefix org-openroadm-device-types; revision-date 2019-11-29; } import org-openroadm-otn-common-types { prefix org-openroadm-otn-common-types; revision-date 2020-03-27; } import org-openroadm-switching-pool-types { prefix org-openroadm-switching-pool-types; revision-date 2019-11-29; } import org-openroadm-port-types { prefix org-openroadm-port-types; revision-date 2020-03-27; } organization "transportPCE"; contact "transportPCE committers - ODL"; description "YANG definitions for defining port mapping in TransportPCE. Copyright (c) 2017 AT&T and others. All rights reserved. authors: Dhruv Bhardwaj ( db929a@att.com ) Shweta Vachhani ( sv111y@att.com ) Balagangadhar Bathula ( bb4341@att.com )"; revision 2022-01-14 { description "Modify the container names for ODUCn and OTUCn supporting interfaces"; } revision 2021-09-27 { description "Add supporting-otu interface in mapping"; } revision 2021-04-26 { description "Adding mux-profile information to support 400G Muxponder"; } revision 2021-04-25 { description "OpenROADM version fix 7.1.0 -> 7.1"; } revision 2021-03-15 { description "Refacto model to use grouping"; } revision 2021-03-10 { description "Add operational and administrative state of device port in mapping"; } revision 2020-10-12 { description "Upgrading imported models to 7.1.0"; } revision 2020-08-27 { description "Add support to differentiate flexible and fixed grid capabilities with mc-capabilities"; } revision 2020-04-29 { description "Add SAPI/DAPI lcp hash value"; } revision 2020-01-28 { description "Add necessary parameters to consolidate OTN and address ONAP MDONS use case"; } revision 2020-01-13 { description "Add OTN data from device and necessary to build node inside otn topology"; } revision 2019-11-15 { description "OTN support"; } revision 2019-07-02 { description "Version 2. To manage device 2.2.1"; } revision 2017-02-28 { description "Initial revision of port mapping model"; } typedef openroadm-node-version { type enumeration { enum 1.2.1 { value 1; description "Version 1.2.1"; } enum 2.2.1 { value 2; description "Version 2.2.1"; } enum 7.1 { value 3; description "Version 7.1"; } } description "YANG enumerations for OpenROADM models; enums should be same as OpenROADM models defined in org-openroadm-common-types"; } grouping node-info { leaf node-type { type org-openroadm-device-types:node-types; description "Identifier for node-type e.g Roadm, xponder"; } leaf openroadm-version { type openroadm-node-version; } leaf node-clli { type string; description "Common Language Location Identifier."; } leaf node-vendor { type string; description "Vendor of the equipment"; } leaf node-model { type string; description "Physical resource model information."; } leaf node-ip-address { type ietf-inet-types:ip-address; description "Current IP Address of device"; } } grouping mapping { list mapping { key "logical-connection-point"; description "Mapping for Physical circuit pack/port/parent interfaces corresponding to each logical connection point present in the node."; leaf logical-connection-point { type string; } leaf supporting-circuit-pack-name { type string; description "Circuit pack where the logical connection point is located"; } leaf supporting-port { type string; description "Port where the logical connection point is located"; } leaf supporting-oms { type string; description "OMS interface provisioned on the port"; } leaf supporting-ots { type string; description "OTS interface provisioned on the port"; } leaf port-direction { type string; description "Useful for line port of XPDR, for which there is no indication in its logical-termination-point naming"; } leaf port-qual { type string; description "Useful to identify from portmapping client from network ports of XPDR"; } leaf port-admin-state { type string; description "admin-state of port"; } leaf port-oper-state { type string; description "operational-state of port"; } leaf supporting-ethernet { type string; description "Ethernet interface provisioned on the port"; } leaf supporting-otu4 { type string; description "OTU4 interface provisioned on the port"; } leaf supporting-otucn { type string; description "OTUCn interface provisioned on the port for B100G support. This includes OTUC2, OTUC3, OTUC4"; } leaf supporting-odu4 { type string; description "ODU4 interface provisioned on the port"; } leaf supporting-oducn { type string; description "ODUCn interface provisioned on the port for B100G support. This includes ODUC2, ODUC3, ODUC4"; } leaf rate { type string; description "Rate supported by the port"; } leaf-list supported-interface-capability { type identityref { base org-openroadm-port-types:supported-if-capability; } } uses mpdr-restrictions-grp; leaf xponder-type { type org-openroadm-device-types:xpdr-node-types; } leaf connection-map-lcp { type string; description "For XPDR, associate two logical-connection-points from device/connnection-map data"; } leaf partner-lcp { type string; description "For XPDR unidirectional NETWORK port, associate two logical-connection-points from device/partner port data"; } leaf lcp-hash-val { type string; description "Hash value generated from node-id and lcp. This value will be used to map- back SAPI and DAPI resource"; } } } grouping mpdr-restrictions-grp { container mpdr-restrictions { when "../port-qual = 'switch-client' and ../../node-info/openroadm-version = '7.1'"; description "This container provides the information about multiplexing of LO ODUs to HO ODUs Caveat: If port advertizes multiple rates, this container does not work and results could be wrong, meaning if the supported-interface-capabilities include, if-100GE-ODU4, if-OTU4-ODU4, if-200GE-oduflexcbr, then min/max-trib-slot could be different"; leaf min-trib-slot { type org-openroadm-otn-common-types:opucn-trib-slot-def; description "Minimum OPUCn 5G trib slots in the form of TS #A.B (G.709)"; } leaf max-trib-slot { type org-openroadm-otn-common-types:opucn-trib-slot-def; description "Maximum OPUCn 5G trib slots in the form of TS #A.B (G.709)"; } } } grouping mc-capabilities { list mc-capabilities { key "mc-node-name"; description "Capabilities of the media channel associated with a degree SRG, or XPDR (7.1 and above). "; leaf mc-node-name { type string; description "Name of the node, it has the format of DEGi-TTP or SRGj-PP Where i, and j are the degree and SRG numbers respectively. For XPDR type it will have one element in the leaf-list, with name XPDR-mcprofile"; } leaf slot-width-granularity { type org-openroadm-common-optical-channel-types:frequency-GHz; default "50"; description "Width of a slot measured in GHz."; } leaf center-freq-granularity { type org-openroadm-common-optical-channel-types:frequency-GHz; default "50"; description "Width of a slot measured in GHz."; } } } grouping cp-to-degree { list cp-to-degree { key "circuit-pack-name"; description "This mapping helps locate degree number of the circuitpack that does lldp protocol management"; leaf circuit-pack-name { type string; } leaf degree-number { type uint32; } leaf interface-name { type string; } } } grouping switching-pool-lcp { list switching-pool-lcp { key "switching-pool-number"; description "For MUXPDR and SWITCH, associates from device/odu-switching-pools data, the logical-connection-points"; leaf switching-pool-number { type uint16; description "Unique identifier for this odu-switching-pool"; } leaf switching-pool-type { type org-openroadm-switching-pool-types:switching-pool-types; } list non-blocking-list { key "nbl-number"; leaf nbl-number { type uint16; description "Identifier for this non-blocking-list. Unique within odu-switching-pool"; } leaf interconnect-bandwidth-unit { type uint32; description "Switch fabric interconnect bandwidth unit rate in bits per second. Represents granularity of switch fabric"; } leaf interconnect-bandwidth { type uint32; description "Total interconnect bandwidth for a non-blocking element expressed as number of inter-connect-bandwidth units : corresponds to capable- inter-connect bandwidth"; } leaf available-interconnect-bandwidth { type uint32; description "Total interconnect bandwidth available for a non-blocking element can use as number of inter-connect-bandwidth units"; } leaf-list lcp-list { type string; } } } } container network { list nodes { key "node-id"; leaf node-id { type string; description "Unique identifier for node in the network"; } container node-info { uses node-info; } uses mapping; uses mc-capabilities; uses cp-to-degree; uses switching-pool-lcp; } } }