openconfig-terminal-device

This module describes a terminal optics device model for managing the terminal systems (client and line side) in a DWDM transpor...

  • Version: 2020-05-09

    openconfig-terminal-device@2020-05-09


    
      module openconfig-terminal-device {
    
        yang-version 1;
    
        namespace
          "http://openconfig.net/yang/terminal-device";
    
        prefix oc-opt-term;
    
        import openconfig-types {
          prefix oc-types;
        }
        import openconfig-transport-types {
          prefix oc-opt-types;
        }
        import openconfig-if-ethernet {
          prefix oc-eth;
        }
        import openconfig-platform {
          prefix oc-platform;
        }
        import openconfig-platform-transceiver {
          prefix oc-transceiver;
        }
        import openconfig-lldp {
          prefix oc-lldp;
        }
        import openconfig-extensions {
          prefix oc-ext;
        }
        import ietf-yang-types {
          prefix yang;
        }
        import openconfig-yang-types {
          prefix oc-yang;
        }
    
        organization "OpenConfig working group";
    
        contact
          "OpenConfig working group
        www.openconfig.net";
    
        description
          "This module describes a terminal optics device model for
        managing the terminal systems (client and line side) in a
        DWDM transport network.
        Elements of the model:
        physical port: corresponds to a physical, pluggable client
        port on the terminal device. Examples includes 10G, 40G, 100G
        (e.g., 10x10G, 4x25G or 1x100G) and 400G/1T in the future.
        Physical client ports will have associated operational state or
        PMs.
        physical channel: a physical lane or channel in the
        physical client port.  Each physical client port has 1 or more
        channels. An example is 100GBASE-LR4 client physical port having
        4x25G channels. Channels have their own optical PMs and can be
        monitored independently within a client physical port (e.g.,
        channel power).  Physical client channels are defined in the
        model as part of a physical client port, and are modeled
        primarily for reading their PMs.
        logical channel: a logical grouping of logical grooming elements
        that may be assigned to subsequent grooming stages for
        multiplexing / de-multiplexing, or to an optical channel for
        line side transmission.  The logical channels can represent, for
        example, an ODU/OTU logical packing of the client
        data onto the line side.  Tributaries are similarly logical
        groupings of demand that can be represented in this structure and
        assigned to an optical channel.  Note that different types of
        logical channels may be present, each with their corresponding
        PMs.
        optical channel:  corresponds to an optical carrier and is
        assigned a wavelength/frequency.  Optical channels have PMs
        such as power, BER, and operational mode.
        Directionality:
        To maintain simplicity in the model, the configuration is
        described from client-to-line direction.  The assumption is that
        equivalent reverse configuration is implicit, resulting in
        the same line-to-client configuration.
        Physical layout:
        The model does not assume a particular physical layout of client
        and line ports on the terminal device (e.g., such as number of
        ports per linecard, separate linecards for client and line ports,
        etc.).";
    
        revision "2020-05-09" {
          description
            "Remove references from read-write contexts to read-only
          contexts in when statements.";
          reference
            "1.7.3";
    
        }
    
        revision "2019-11-28" {
          description
            "Additional xpath fixes in when statement";
          reference
            "1.7.2";
    
        }
    
        revision "2019-10-12" {
          description "Fix when statement paths";
          reference
            "1.7.1";
    
        }
    
        revision "2019-08-08" {
          description
            "Add ALS config to logical-channel/ethernet/config and remove
           legacy interfaces augment for this config. Client FEC was
           previosuly migrated to the components model and should not
           be here anymore.";
          reference
            "1.7.0";
    
        }
    
        revision "2019-07-26" {
          description
            "Add support for LLDP natively on logical-channels.";
          reference
            "1.6.0";
    
        }
    
        revision "2018-11-21" {
          description
            "Add OpenConfig module metadata extensions.";
          reference
            "1.5.1";
    
        }
    
        revision "2018-10-23" {
          description
            "Adds support of logical-channel tributary slot allocation to
           logical-channel-assignments with different channel speeds.
           Enables logical channel mapping procedure specification.";
          reference
            "1.5.0";
    
        }
    
        revision "2018-08-28" {
          description
            "Adds terminal device related Ethernet counters";
          reference
            "1.4.0";
    
        }
    
        revision "2018-07-30" {
          description
            "Adds lldp snooping config leaf and augmented it to oc-lldp";
          reference
            "1.3.0";
    
        }
    
        revision "2018-07-26" {
          description
            "Adds OTN protocol counter stats of errored-blocks and
           fec-uncorrectable-blocks, adds ethernet-config-ext grouping
           and uses it to augment oc-eth";
          reference
            "1.2.0";
    
        }
    
        revision "2018-07-17" {
          description
            "Adds testing enum to link-state";
          reference
            "1.1.0";
    
        }
    
        revision "2017-07-08" {
          description "Adds test-signal";
          reference
            "1.0.0";
    
        }
    
        revision "2016-12-22" {
          description
            "Fixes and additions to terminal optics model";
          reference
            "0.4.0";
    
        }
    
        oc-ext:openconfig-version "1.7.3";
        oc-ext:regexp-posix;
        oc-ext:catalog-organization "openconfig";
        oc-ext:origin "openconfig";
    
        grouping terminal-input-optical-power {
          description
            "Reusable leaves related to input optical power";
          leaf input-power {
            type decimal64 {
              fraction-digits 2;
            }
            units "dBm";
            description
              "The input optical power of this port in units of 0.01dBm.
            If the port is an aggregate of multiple physical channels,
            this attribute is the total power or sum of all channels.";
          }
        }  // grouping terminal-input-optical-power
    
        grouping terminal-ethernet-protocol-config {
          description
            "Configuration data for logical channels with Ethernet
          framing";
          leaf client-als {
            type enumeration {
              enum "NONE" {
                value 0;
                description
                  "The client port will do nothing when a failure is
                detected on the line port or the remote client port";
              }
              enum "LASER_SHUTDOWN" {
                value 1;
                description
                  "The client port will shut down the laser to notify the
                subtending Ethernet equipment of the failure detected on
                the line port or the remote client port.";
              }
              enum "ETHERNET" {
                value 2;
                description
                  "The client port will propagate the local fault or remote
                fault signal to the subtending Ethernet equipment.";
              }
            }
            default 'ETHERNET';
            description
              "Sets the client port behavior that defines if the actions
            of automatic laser shutdown (als), ethernet fault
            propagation, or nothing will be done upon the detection
            of a failure on the line port or the upstream remote
            client port.";
          }
    
          leaf als-delay {
            type uint32;
            units "milliseconds";
            default '0';
            description
              "The timer to delay the client-als actions on the client
            port when a local or remote fault is detected on the line
            port. The delay will only be valid when the client-als is
            set to LASER_SHUTDOWN";
          }
        }  // grouping terminal-ethernet-protocol-config
    
        grouping terminal-ethernet-protocol-state {
          description
            "Ethernet-specific counters when logical channel
          is using Ethernet protocol framing, e.g., 10GE, 100GE";
          uses oc-eth:ethernet-interface-state-counters;
    
          uses terminal-ethernet-protocol-state-counters;
        }  // grouping terminal-ethernet-protocol-state
    
        grouping terminal-ethernet-protocol-state-counters {
          description
            "Ethernet-specific counters for terminal devices when
          logical channel is using Ethernet protocol framing,
          e.g., 10GE, 100GE";
          leaf in-pcs-bip-errors {
            type oc-yang:counter64;
            description
              "The number of received bit interleaved parity (BIP) errors
            at the physical coding sublayer (PCS). If the interface
            consists of multiple lanes, this will be the sum of all
            errors on the lane";
          }
    
          leaf in-pcs-errored-seconds {
            type oc-yang:counter64;
            description
              "The number of seconds that physical coding sublayer (PCS)
            errors have crossed a sytem defined threshold indicating the
            link is erroring";
          }
    
          leaf in-pcs-severely-errored-seconds {
            type oc-yang:counter64;
            description
              "The number of seconds that physical coding sublayer (PCS)
            errors have crossed a system defined threshold indicating the
            link is severely erroring";
          }
    
          leaf in-pcs-unavailable-seconds {
            type oc-yang:counter64;
            description
              "The number of seconds that physical coding sublayer (PCS)
            errors have crossed a system defined threshold indicating the
            link is unavailable";
          }
    
          leaf out-pcs-bip-errors {
            type oc-yang:counter64;
            description
              "The number of transmitted bit interleaved parity (BIP) errors
            at the physical coding sublayer (PCS). If the interface
            consists of multiple lanes, this will be the sum of all
            errors on the lane";
          }
    
          leaf out-crc-errors {
            type oc-yang:counter64;
            description
              "Number of FCS/CRC error check failures sent on the interface";
          }
    
          leaf out-block-errors {
            type oc-yang:counter64;
            description
              "The number of transmitted errored blocks. Error detection
            codes are capable of detecting whether one or more errors have
            occurred in a given sequence of bits - the block. It is
            normally not possible to determine the exact number of errored
            bits within the block";
          }
        }  // grouping terminal-ethernet-protocol-state-counters
    
        grouping terminal-ethernet-protocol-top {
          description
            "Top-level grouping for data related to Ethernet protocol
          framing on logical channels";
          container ethernet {
            description
              "Top level container for data related to Ethernet framing
            for the logical channel";
            container config {
              description
                "Configuration data for Ethernet protocol framing on
              logical channels";
              uses terminal-ethernet-protocol-config;
            }  // container config
    
            container state {
              config false;
              description
                "Operational state data for Ethernet protocol framing
              on logical channels";
              uses terminal-ethernet-protocol-config;
    
              uses terminal-ethernet-protocol-state;
            }  // container state
    
            uses lldp-logical-channel-top;
          }  // container ethernet
        }  // grouping terminal-ethernet-protocol-top
    
        grouping lldp-logical-channel-top {
          description
            "Top-level grouping for LLDP data for a logical channel";
          container lldp {
            description
              "LLDP data for logical channels";
            container config {
              description
                "LLDP configuration data for logical channels";
              uses lldp-logical-channel-config;
            }  // container config
    
            container state {
              config false;
              description
                "LLDP operational state data for logical channels";
              uses lldp-logical-channel-config;
    
              uses oc-lldp:lldp-interface-state;
            }  // container state
    
            uses lldp-logical-channel-neighbor-top;
          }  // container lldp
        }  // grouping lldp-logical-channel-top
    
        grouping lldp-logical-channel-config {
          description
            "Configuration data for LLDP for logical-channels";
          leaf enabled {
            type boolean;
            default "false";
            description
              "Enable or disable the LLDP protocol on the logical channel.";
          }
    
          leaf snooping {
            type boolean;
            default "false";
            description
              "If true, LLDP PDUs are only received and processed on
            the logical-channel, but are not originated by the local
            agent. The PDUs are not dropped by the logical channel after
            processing, but relayed to the downstream link layer
            neighbors. The snooping mode is valid only when LLDP is
            enabled on the logical channel. The snooping mode is useful
            when a logical channel does not want its link layer neighbors
            to discover itself since, for example, it is a lower-layer
            logical channel.";
          }
        }  // grouping lldp-logical-channel-config
    
        grouping lldp-logical-channel-neighbor-top {
          description
            "Top-level grouping for the LLDP neighbor list";
          container neighbors {
            config false;
            description
              "Enclosing container for list of LLDP neighbors on
            a logical channel";
            list neighbor {
              key "id";
              description
                "List of LLDP neighbors. If the implementation only
              supports one neighbor, this would always be a list with
              one item. If the device and neighbor supported multiple
              neighbors, which can be achieved via LLDP forwarding, then
              this would be supported";
              reference
                "IEEE Std 802.1AB-2016, section 7.1, Destination address";
    
              leaf id {
                type leafref {
                  path "../state/id";
                }
                description
                  "System generated identifier for the neighbor on
                the logical channel.";
              }
    
              container config {
                description
                  "Configuration data ";
                uses lldp-logical-channel-neighbor-config;
              }  // container config
    
              container state {
                config false;
                description
                  "Operational state data ";
                uses oc-lldp:lldp-system-info-config;
    
                uses oc-lldp:lldp-system-info-state;
    
                uses oc-lldp:lldp-neighbor-config;
    
                uses oc-lldp:lldp-neighbor-state;
              }  // container state
    
              uses oc-lldp:lldp-custom-tlv-top;
            }  // list neighbor
          }  // container neighbors
        }  // grouping lldp-logical-channel-neighbor-top
    
        grouping lldp-logical-channel-neighbor-config {
          description
            "Configuration data for LLDP neighbors";
        }  // grouping lldp-logical-channel-neighbor-config
    
        grouping terminal-otn-protocol-config {
          description
            "OTU configuration when logical channel
          framing is using an OTU protocol, e.g., OTU1, OTU3, etc.";
          leaf tti-msg-transmit {
            type string;
            description
              "Trail trace identifier (TTI) message transmitted";
          }
    
          leaf tti-msg-expected {
            type string;
            description
              "Trail trace identifier (TTI) message expected";
          }
    
          leaf tti-msg-auto {
            type boolean;
            description
              "Trail trace identifier (TTI) transmit message automatically
            created.  If true, then setting a custom transmit message
            would be invalid.";
          }
    
          leaf tributary-slot-granularity {
            type identityref {
              base oc-opt-types:TRIBUTARY_SLOT_GRANULARITY;
            }
            description
              "Granularity value of OPUk or OPUCn tributary slots for OTN
            signal allocation. The currently defined values follow the
            existing ITU-T G.709 standard, which can be extended as
            needed in future.";
          }
        }  // grouping terminal-otn-protocol-config
    
        grouping terminal-otn-protocol-counter-stats {
          description
            "Counter based statistics containers for logical channels
          using OTN framing";
          leaf errored-seconds {
            type yang:counter64;
            description
              "The number of seconds that at least one errored blocks
            occurs, at least one code violation occurs, loss of sync is
            detected or loss of signal is detected";
          }
    
          leaf severely-errored-seconds {
            type yang:counter64;
            description
              "The number of seconds that loss of frame is detected OR
            the number of errored blocks, code violations, loss of sync
            or loss of signal is detected exceeds a predefined
            threshold";
          }
    
          leaf unavailable-seconds {
            type yang:counter64;
            description
              "The number of seconds during which the link is unavailable";
          }
    
          leaf code-violations {
            type yang:counter64;
            description
              "For ethernet or fiberchannel links, the number of 8b/10b
            coding violations. For SONET/SDH, the number of BIP (bit
            interleaved parity) errors";
          }
    
          leaf errored-blocks {
            type yang:counter64;
            description
              "The number of errored blocks. Error detection codes are
            capable to detect whether one or more errors have occurred
            in a given sequence of bits - the block. It is normally not
            possible to determine the exact number of errored bits within
            the block.";
            reference
              "ITU-T Rec. G.826";
    
          }
    
          leaf fec-uncorrectable-blocks {
            type yang:counter64;
            description
              "The number of blocks that were uncorrectable by the FEC";
          }
    
          leaf fec-uncorrectable-words {
            type yang:counter64;
            description
              "The number of words that were uncorrectable by the FEC";
          }
    
          leaf fec-corrected-bytes {
            type yang:counter64;
            description
              "The number of bytes that were corrected by the FEC";
          }
    
          leaf fec-corrected-bits {
            type yang:counter64;
            description
              "The number of bits that were corrected by the FEC";
          }
    
          leaf background-block-errors {
            type yang:counter64;
            description
              "The number of background block errors";
          }
        }  // grouping terminal-otn-protocol-counter-stats
    
        grouping terminal-otn-protocol-multi-stats {
          description
            "Multi-value statistics containers for logical channels using
          OTN framing (e.g., max, min, avg, instant)";
          container pre-fec-ber {
            description
              "Bit error rate before forward error correction -- computed
            value with 18 decimal precision. Note that decimal64
            supports values as small as i x 10^-18 where i is an
            integer. Values smaller than this should be reported as 0
            to inidicate error free or near error free performance.
            Values include the instantaneous, average, minimum, and
            maximum statistics. If avg/min/max statistics are not
            supported, the target is expected to just supply the
            instant value";
            uses oc-opt-types:avg-min-max-instant-stats-precision18-ber;
          }  // container pre-fec-ber
    
          container post-fec-ber {
            description
              "Bit error rate after forward error correction -- computed
            value with 18 decimal precision. Note that decimal64
            supports values as small as i x 10^-18 where i is an
            integer. Values smaller than this should be reported as 0
            to inidicate error free or near error free performance.
            Values include the instantaneous, average, minimum, and
            maximum statistics. If avg/min/max statistics are not
            supported, the target is expected to just supply the
            instant value";
            uses oc-opt-types:avg-min-max-instant-stats-precision18-ber;
          }  // container post-fec-ber
    
          container q-value {
            description
              "Quality value (factor) in dB of a channel with two
            decimal precision. Values include the instantaneous,
            average, minimum, and maximum statistics. If avg/min/max
            statistics are not supported, the target is expected
            to just supply the instant value";
            uses oc-types:avg-min-max-instant-stats-precision2-dB;
          }  // container q-value
    
          container esnr {
            description
              "Electrical signal to noise ratio. Baud rate
            normalized signal to noise ratio based on
            error vector magnitude in dB with two decimal
            precision. Values include the instantaneous, average,
            minimum, and maximum statistics. If avg/min/max
            statistics are not supported, the target is expected
            to just supply the instant value";
            uses oc-types:avg-min-max-instant-stats-precision2-dB;
          }  // container esnr
        }  // grouping terminal-otn-protocol-multi-stats
    
        grouping terminal-otn-protocol-state {
          description
            "OTU operational state when logical channel
          framing is using an OTU protocol, e.g., OTU1, OTU3, etc.";
          leaf tti-msg-recv {
            type string;
            description
              "Trail trace identifier (TTI) message received";
          }
    
          leaf rdi-msg {
            type string;
            description
              "Remote defect indication (RDI) message received";
          }
    
          uses terminal-otn-protocol-counter-stats;
    
          uses terminal-otn-protocol-multi-stats;
        }  // grouping terminal-otn-protocol-state
    
        grouping terminal-otn-protocol-top {
          description
            "Top-level grouping for data related to OTN protocol framing";
          container otn {
            description
              "Top level container for OTU configuration when logical
            channel framing is using an OTU protocol, e.g., OTU1, OTU3,
            etc.";
            container config {
              description
                "Configuration data for OTN protocol framing";
              uses terminal-otn-protocol-config;
            }  // container config
    
            container state {
              config false;
              description
                "Operational state data for OTN protocol PMs, statistics,
              etc.";
              uses terminal-otn-protocol-config;
    
              uses terminal-otn-protocol-state;
            }  // container state
          }  // container otn
        }  // grouping terminal-otn-protocol-top
    
        grouping terminal-client-port-assignment-config {
          description
            "Configuration data for assigning physical client ports to
          logical channels";
          leaf index {
            type uint32;
            description
              "Index of the client port assignment";
          }
    
          leaf description {
            type string;
            description
              "Descriptive name for the client port-to-logical channel
            mapping";
          }
    
          leaf logical-channel {
            type leafref {
              path
                "/oc-opt-term:terminal-device/oc-opt-term:logical-channels"
                  + "/oc-opt-term:channel/oc-opt-term:index";
            }
            description
              "Reference to the logical channel for this
            assignment";
          }
    
          leaf allocation {
            type decimal64 {
              fraction-digits 3;
            }
            units "Gbps";
            description
              "Allocation of the client physical port to the assigned
            logical channel expressed in Gbps.  In most cases,
            the full client physical port rate is assigned to a single
            logical channel.";
          }
        }  // grouping terminal-client-port-assignment-config
    
        grouping terminal-client-port-assignment-state {
          description
            "Operational state data for assigning physical client ports
          to logical channels";
        }  // grouping terminal-client-port-assignment-state
    
        grouping terminal-client-port-assignment-top {
          description
            "Top-level grouping for the assigment of client physical ports
          to logical channels";
          container logical-channel-assignments {
            description
              "Enclosing container for client port to logical client
            mappings";
            list assignment {
              key "index";
              description
                "List of assignments to logical clients";
              leaf index {
                type leafref {
                  path "../config/index";
                }
                description
                  "Reference to the index of this logical client
                assignment";
              }
    
              container config {
                description
                  "Configuration data for the logical client assignment";
                uses terminal-client-port-assignment-config;
              }  // container config
    
              container state {
                config false;
                description
                  "Operational state data for the logical client
                assignment";
                uses terminal-client-port-assignment-config;
    
                uses terminal-client-port-assignment-state;
              }  // container state
            }  // list assignment
          }  // container logical-channel-assignments
        }  // grouping terminal-client-port-assignment-top
    
        grouping terminal-logical-chan-assignment-config {
          description
            "Configuration data for assigning client logical channels
          to line-side tributaries";
          leaf index {
            type uint32;
            description
              "Index of the current logical client channel to tributary
            mapping";
          }
    
          leaf description {
            type string;
            description
              "Name assigned to the logical client channel";
          }
    
          leaf assignment-type {
            type enumeration {
              enum "LOGICAL_CHANNEL" {
                value 0;
                description
                  "Subsequent channel is a logical channel";
              }
              enum "OPTICAL_CHANNEL" {
                value 1;
                description
                  "Subsequent channel is a optical channel / carrier";
              }
            }
            description
              "Each logical channel element may be assigned to subsequent
            stages of logical elements to implement further grooming, or
            can be assigned to a line-side optical channel for
            transmission.  Each assignment also has an associated
            bandwidth allocation.";
          }
    
          leaf logical-channel {
            type leafref {
              path
                "/oc-opt-term:terminal-device/"
                  + "oc-opt-term:logical-channels/oc-opt-term:channel/"
                  + "oc-opt-term:index";
            }
            must
              "../assignment-type = 'LOGICAL_CHANNEL'" {
              description
                "The assignment-type must be set to LOGICAL_CHANNEL for
              this leaf to be valid";
            }
            description
              "Reference to another stage of logical channel elements.";
          }
    
          leaf optical-channel {
            type leafref {
              path
                "/oc-platform:components/oc-platform:component/"
                  + "oc-platform:name";
            }
            must
              "../assignment-type = 'OPTICAL_CHANNEL'" {
              description
                "The assignment-type must be set to OPTICAL_CHANNEL for
              this leaf to be valid";
            }
            description
              "Reference to the line-side optical channel that should
            carry the current logical channel element.  Use this
            reference to exit the logical element stage.";
          }
    
          leaf allocation {
            type decimal64 {
              fraction-digits 3;
            }
            units "Gbps";
            description
              "Allocation of the logical client channel to the tributary
            or sub-channel, expressed in Gbps. Please note that if the
            assignment is to an OTN logical channel, the allocation must
            be an integer multiplication to tributary-slot-granularity
            of the OTN logical channel.";
          }
    
          leaf tributary-slot-index {
            type int32;
            description
              "Indicates the first tributary slot index allocated to the
            client signal or logical channel in the assignment. Valid
            only when the assignment is to an OTN logical channel.";
          }
    
          leaf mapping {
            type identityref {
              base oc-opt-types:FRAME_MAPPING_PROTOCOL;
            }
            description
              "Logical channel mapping procedure. Valid only when the
            assignment is to an OTN logical channel.";
          }
        }  // grouping terminal-logical-chan-assignment-config
    
        grouping terminal-logical-chan-assignment-state {
          description
            "Operational state data for the assignment of logical client
          channel to line-side tributary";
        }  // grouping terminal-logical-chan-assignment-state
    
        grouping terminal-logical-chan-assignment-top {
          description
            "Top-level grouping for the list of logical client channel-to-
          tributary assignments";
          container logical-channel-assignments {
            description
              "Enclosing container for tributary assignments";
            list assignment {
              key "index";
              description
                "Logical channel elements may be assigned directly to
              optical channels for line-side transmission, or can be
              further groomed into additional stages of logical channel
              elements.  The grooming can multiplex (i.e., split the
              current element into multiple elements in the subsequent
              stage) or de-multiplex (i.e., combine the current element
              with other elements into the same element in the subsequent
              stage) logical elements in each stage.
              Note that to support the ability to groom the logical
              elements, the list of logical channel elements should be
              populated with an entry for the logical elements at
              each stage, starting with the initial assignment from the
              respective client physical port.
              Each logical element assignment consists of a pointer to
              an element in the next stage, or to an optical channel,
              along with a bandwidth allocation for the corresponding
              assignment (e.g., to split or combine signal).";
              leaf index {
                type leafref {
                  path "../config/index";
                }
                description
                  "Reference to the index for the current tributary
                assignment";
              }
    
              container config {
                description
                  "Configuration data for tributary assignments";
                uses terminal-logical-chan-assignment-config;
              }  // container config
    
              container state {
                config false;
                description
                  "Operational state data for tributary assignments";
                uses terminal-logical-chan-assignment-config;
    
                uses terminal-logical-chan-assignment-state;
              }  // container state
            }  // list assignment
          }  // container logical-channel-assignments
        }  // grouping terminal-logical-chan-assignment-top
    
        grouping terminal-logical-channel-ingress-config {
          description
            "Configuration data for ingress signal to logical channel";
          leaf transceiver {
            type leafref {
              path
                "/oc-platform:components/oc-platform:component/"
                  + "oc-platform:name";
            }
            description
              "Reference to the transceiver carrying the input signal
            for the logical channel.  If specific physical channels
            are mapped to the logical channel (as opposed to all
            physical channels carried by the transceiver), they can be
            specified in the list of physical channel references.";
          }
    
          leaf-list physical-channel {
            type leafref {
              path
                "/oc-platform:components/oc-platform:component/"
                  + "oc-transceiver:transceiver/"
                  + "oc-transceiver:physical-channels/"
                  + "oc-transceiver:channel/oc-transceiver:index";
            }
            description
              "This list should be populated with references
            to the client physical channels that feed this logical
            channel from the transceiver specified in the 'transceiver'
            leaf, which must be specified.  If this leaf-list is empty,
            all physical channels in the transceiver are assumed to be
            mapped to the logical channel.";
          }
        }  // grouping terminal-logical-channel-ingress-config
    
        grouping terminal-logical-channel-ingress-state {
          description
            "Operational state data for ingress signal to logical channel";
        }  // grouping terminal-logical-channel-ingress-state
    
        grouping terminal-logical-channel-ingress-top {
          description
            "Top-level grouping for ingress signal to logical channel";
          container ingress {
            description
              "Top-level container for specifying references to the
            source of signal for the logical channel, either a
            transceiver or individual physical channels";
            container config {
              description
                "Configuration data for the signal source for the
              logical channel";
              uses terminal-logical-channel-ingress-config;
            }  // container config
    
            container state {
              config false;
              description
                "Operational state data for the signal source for the
              logical channel";
              uses terminal-logical-channel-ingress-config;
    
              uses terminal-logical-channel-ingress-state;
            }  // container state
          }  // container ingress
        }  // grouping terminal-logical-channel-ingress-top
    
        grouping terminal-logical-channel-config {
          description
            "Configuration data for logical channels";
          leaf index {
            type uint32;
            description
              "Index of the current logical channel";
          }
    
          leaf description {
            type string;
            description
              "Description of the logical channel";
          }
    
          leaf admin-state {
            type oc-opt-types:admin-state-type;
            description
              "Sets the admin state of the logical channel";
          }
    
          leaf rate-class {
            type identityref {
              base oc-opt-types:TRIBUTARY_RATE_CLASS_TYPE;
            }
            description
              "Rounded bit rate of the tributary signal. Exact bit rate
            will be refined by protocol selection.";
          }
    
          leaf trib-protocol {
            type identityref {
              base oc-opt-types:TRIBUTARY_PROTOCOL_TYPE;
            }
            description
              "Protocol framing of the tributary signal. If this
            LogicalChannel is directly connected to a Client-Port or
            Optical-Channel, this is the protocol of the associated port.
            If the LogicalChannel is connected to other LogicalChannels,
            the TributaryProtocol of the LogicalChannels will define a
            specific mapping/demapping or multiplexing/demultiplexing
            function.
            Not all protocols are valid, depending on the value
            of trib-rate-class.  The expectation is that the NMS
            will validate that a correct combination of rate class
            and protocol are specfied.  Basic combinations are:
            rate class: 1G
            protocols: 1GE
            rate class: 2.5G
            protocols: OC48, STM16
            rate class: 10G
            protocols:  10GE LAN, 10GE WAN, OC192, STM64, OTU2, OTU2e,
                        OTU1e, ODU2, ODU2e, ODU1e
            rate class: 40G
            protocols:  40GE, OC768, STM256, OTU3, ODU3
            rate class: 100G
            protocols:  100GE, 100G MLG, OTU4, OTUCn, ODU4";
          }
    
          leaf logical-channel-type {
            type identityref {
              base oc-opt-types:LOGICAL_ELEMENT_PROTOCOL_TYPE;
            }
            description
              "The type / stage of the logical element determines the
            configuration and operational state parameters (PMs)
            available for the logical element";
          }
    
          leaf loopback-mode {
            type oc-opt-types:loopback-mode-type;
            description
              "Sets the loopback type on the logical channel. Setting the
            mode to something besides NONE activates the loopback in
            the specified mode.";
          }
    
          leaf test-signal {
            type boolean;
            description
              "When enabled the logical channel's DSP will generate a pseudo
            randmon bit stream (PRBS) which can be used during testing.";
          }
        }  // grouping terminal-logical-channel-config
    
        grouping terminal-logical-channel-state {
          description
            "Operational state data for logical client channels";
          leaf link-state {
            type enumeration {
              enum "UP" {
                value 0;
                description
                  "Logical channel is operationally up";
              }
              enum "DOWN" {
                value 1;
                description
                  "Logical channel is operationally down";
              }
              enum "TESTING" {
                value 2;
                description
                  "Logical channel is under test as a result of
                enabling test-signal";
              }
            }
            description
              "Link-state of the Ethernet protocol on the logical channel,
            SONET / SDH framed signal, etc.";
          }
        }  // grouping terminal-logical-channel-state
    
        grouping terminal-logical-channel-top {
          description
            "Top-level grouping for logical channels";
          container logical-channels {
            description
              "Enclosing container the list of logical channels";
            list channel {
              key "index";
              description
                "List of logical channels";
              leaf index {
                type leafref {
                  path "../config/index";
                }
                description
                  "Reference to the index of the logical channel";
              }
    
              container config {
                description
                  "Configuration data for logical channels";
                uses terminal-logical-channel-config;
              }  // container config
    
              container state {
                config false;
                description
                  "Operational state data for logical channels";
                uses terminal-logical-channel-config;
    
                uses terminal-logical-channel-state;
              }  // container state
    
              uses terminal-otn-protocol-top {
                when
                  "./config/logical-channel-type = 'PROT_OTN'" {
                  description
                    "Include the OTN protocol data only when the
                  channel is using OTN framing.";
                }
              }
    
              uses terminal-ethernet-protocol-top {
                when
                  "./config/logical-channel-type = 'PROT_ETHERNET'" {
                  description
                    "Include the Ethernet protocol statistics only when the
                  protocol used by the link is Ethernet.";
                }
              }
    
              uses terminal-logical-channel-ingress-top;
    
              uses terminal-logical-chan-assignment-top;
            }  // list channel
          }  // container logical-channels
        }  // grouping terminal-logical-channel-top
    
        grouping terminal-optical-channel-config {
          description
            "Configuration data for describing optical channels";
          leaf frequency {
            type oc-opt-types:frequency-type;
            description
              "Frequency of the optical channel, expressed in MHz";
          }
    
          leaf target-output-power {
            type decimal64 {
              fraction-digits 2;
            }
            units "dBm";
            description
              "Target output optical power level of the optical channel,
            expressed in increments of 0.01 dBm (decibel-milliwats)";
          }
    
          leaf operational-mode {
            type uint16;
            description
              "Vendor-specific mode identifier -- sets the operational
            mode for the channel.  The specified operational mode must
            exist in the list of supported operational modes supplied
            by the device";
          }
    
          leaf line-port {
            type leafref {
              path "/oc-platform:components/oc-platform:component/oc-platform:name";
            }
            description
              "Reference to the line-side physical port that carries
            this optical channel.  The target port should be
            a component in the physical inventory data model.";
          }
        }  // grouping terminal-optical-channel-config
    
        grouping terminal-optical-channel-state {
          description
            "Operational state data for optical channels";
          leaf group-id {
            type uint32;
            description
              "If the device places constraints on which optical
            channels must be managed together (e.g., transmitted on the
            same line port), it can indicate that by setting the group-id
            to the same value across related optical channels.";
          }
    
          uses oc-transceiver:optical-power-state;
    
          container chromatic-dispersion {
            description
              "Chromatic Dispersion of an optical channel in
            picoseconds / nanometer (ps/nm) as reported by receiver
            with two decimal precision. Values include the instantaneous,
            average, minimum, and maximum statistics. If avg/min/max
            statistics are not supported, the target is expected to just
            supply the instant value";
            uses oc-opt-types:avg-min-max-instant-stats-precision2-ps-nm;
          }  // container chromatic-dispersion
    
          container polarization-mode-dispersion {
            description
              "Polarization Mode Dispersion of an optical channel
            in picosends (ps) as reported by receiver with two decimal
            precision. Values include the instantaneous, average,
            minimum, and maximum statistics. If avg/min/max statistics
            are not supported, the target is expected to just supply the
            instant value";
            uses oc-opt-types:avg-min-max-instant-stats-precision2-ps;
          }  // container polarization-mode-dispersion
    
          container second-order-polarization-mode-dispersion {
            description
              "Second Order Polarization Mode Dispersion of an optical
            channel in picoseconds squared (ps^2) as reported by
            receiver with two decimal precision. Values include the
            instantaneous, average, minimum, and maximum statistics.
            If avg/min/max statistics are not supported, the target
            is expected to just supply the instant value";
            uses oc-opt-types:avg-min-max-instant-stats-precision2-ps2;
          }  // container second-order-polarization-mode-dispersion
    
          container polarization-dependent-loss {
            description
              "Polarization Dependent Loss of an optical channel
            in dB as reported by receiver with two decimal precision.
            Values include the instantaneous, average, minimum, and
            maximum statistics. If avg/min/max statistics are not
            supported, the target is expected to just supply the
            instant value";
            uses oc-types:avg-min-max-instant-stats-precision2-dB;
          }  // container polarization-dependent-loss
        }  // grouping terminal-optical-channel-state
    
        grouping terminal-optical-channel-top {
          description
            "Top-level grouping for optical channel data";
          container optical-channel {
            description
              "Enclosing container for the list of optical channels";
            container config {
              description
                "Configuration data for optical channels";
              uses terminal-optical-channel-config;
            }  // container config
    
            container state {
              config false;
              description
                "Operational state data for optical channels";
              uses terminal-optical-channel-config;
    
              uses terminal-optical-channel-state;
            }  // container state
          }  // container optical-channel
        }  // grouping terminal-optical-channel-top
    
        grouping terminal-operational-mode-config {
          description
            "Configuration data for vendor-supported operational modes";
        }  // grouping terminal-operational-mode-config
    
        grouping terminal-operational-mode-state {
          description
            "Operational state data for vendor-supported operational
          modes";
          leaf mode-id {
            type uint16;
            description
              "Two-octet encoding of the vendor-defined operational
              mode";
          }
    
          leaf description {
            type string;
            description
              "Vendor-supplied textual description of the characteristics
              of this operational mode to enable operators to select the
              appropriate mode for the application.";
          }
    
          leaf vendor-id {
            type string;
            description
              "Identifier to represent the vendor / supplier of the
              platform and the associated operational mode information";
          }
        }  // grouping terminal-operational-mode-state
    
        grouping terminal-operational-mode-top {
          description
            "Top-level grouping for vendor-supported operational modes";
          container operational-modes {
            description
              "Enclosing container for list of operational modes";
            list mode {
              key "mode-id";
              config false;
              description
                "List of operational modes supported by the platform.
              The operational mode provides a platform-defined summary
              of information such as symbol rate, modulation, pulse
              shaping, etc.";
              leaf mode-id {
                type leafref {
                  path "../state/mode-id";
                }
                description
                  "Reference to mode-id";
              }
    
              container config {
                description
                  "Configuration data for operational mode";
                uses terminal-operational-mode-config;
              }  // container config
    
              container state {
                config false;
                description
                  "Operational state data for the platform-defined
                operational mode";
                uses terminal-operational-mode-config;
    
                uses terminal-operational-mode-state;
              }  // container state
            }  // list mode
          }  // container operational-modes
        }  // grouping terminal-operational-mode-top
    
        grouping terminal-device-config {
          description
            "Configuration data for transport terminal devices at a
          device-wide level";
        }  // grouping terminal-device-config
    
        grouping terminal-device-state {
          description
            "Operational state data for transport terminal devices at a
          device-wide level";
        }  // grouping terminal-device-state
    
        grouping terminal-device-top {
          description
            "Top-level grouping for data for terminal devices";
          container terminal-device {
            description
              "Top-level container for the terminal device";
            container config {
              description
                "Configuration data for global terminal-device";
              uses terminal-device-config;
            }  // container config
    
            container state {
              config false;
              description
                "Operational state data for global terminal device";
              uses terminal-device-config;
    
              uses terminal-device-state;
            }  // container state
    
            uses terminal-logical-channel-top;
    
            uses terminal-operational-mode-top;
          }  // container terminal-device
        }  // grouping terminal-device-top
    
        uses terminal-device-top;
    
        augment /oc-platform:components/oc-platform:component {
          description
            "Adding optical channel data to physical inventory. This
          augmentation is only valid when the type of the component
          is OPTICAL_CHANNEL.";
          uses terminal-optical-channel-top;
        }
      }  // module openconfig-terminal-device
    

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