Configuration of WDM port.
Version: 2019-07-20
module huawei-wdm { yang-version 1; namespace "urn:huawei:yang:huawei-wdm"; prefix wdm; import huawei-extension { prefix ext; } import ietf-yang-types { prefix yang; } organization "Huawei Technologies Co., Ltd."; contact "Huawei Industrial Base Bantian, Longgang Shenzhen 518129 People's Republic of China Website: http://www.huawei.com Email: support@huawei.com"; description "Configuration of WDM port."; revision "2019-07-20" { description "Initial revision."; reference "Huawei private."; } ext:task-name "interface-mgr"; typedef wdm-transalarm-type { type enumeration { enum "ODU-AIS" { value 22; description "ODU-AIS."; } enum "ODU-LCK" { value 23; description "ODU-LCK."; } enum "ODU-OCI" { value 24; description "ODU-OCI."; } enum "OTU-AIS" { value 25; description "OTU-AIS."; } enum "OTU-LOM" { value 26; description "OTU-LOM."; } enum "OTU-SD-BER" { value 27; description "OTU-SD-BER."; } enum "OTU-SF-BER" { value 28; description "OTU-SF-BER."; } enum "PM-BDI" { value 29; description "PM-BDI."; } enum "PM-TIM" { value 30; description "PM-TIM."; } enum "R-LOF" { value 31; description "R-LOF."; } enum "R-LOS" { value 32; description "R-LOS."; } enum "R-OOF" { value 33; description "R-OOF."; } enum "SM-BDI" { value 34; description "SM-BDI."; } enum "SM-IAE" { value 35; description "SM-IAE."; } enum "SM-TIM" { value 36; description "SM-TIM."; } enum "PREFEC-TCA" { value 37; description "PREFEC-TCA."; } enum "ODU-SD-BER" { value 45; description "ODU-SD-BER."; } enum "LOCAL-FAULT" { value 46; description "LOCAL-FAULT."; } enum "REMOTE-FAULT" { value 47; description "REMOTE-FAULT."; } } description "Transmission alarm."; } container wdm { description "Wdm configurations."; container wdms { description "List of wdm port."; list wdm { ext:generated-by "system"; ext:operation-exclude "create"; key "name"; description "Configure wdm ports."; leaf name { type string { length "1..64"; } description "Port name. The name is expressed in the format of WdmslotID/cardID/portID. For example, Wdm1/0/1. Here Wdm1/0/1 is an example. The value may vary with devices."; } leaf map-path { ext:dynamic-default; type enumeration { enum "opu2-non-standard" { value 1; description "GSup43 6.2 mapping path."; } enum "opu2e" { value 2; description "GSup43 7.1 mapping path."; } enum "opu2-standard" { value 3; description "GSup43 7.3 mapping path."; } } description "The mapping path. Warn: change the mapping path configuration need to clear other wdm configurations except the trans-alarm-info node manually."; } leaf fecmode { type enumeration { enum "none" { value 0; description "FEC Disable."; } enum "standard" { value 1; description "FEC (G.709)."; } enum "enhanced" { value 2; description "HGFEC (Enhanced)."; } enum "enhanced-i-4" { value 3; description "AFEC-3 (G.975.1 I.4)."; } enum "enhanced-i-7" { value 4; description "AFEC (G.975.1 I.7)."; } enum "lhaul-sd" { value 5; description "Lhaul-sd."; } enum "enhanced-pid" { value 8; description "HGFEC PID (Enhanced-pid)."; } enum "lhaul-sd-pid" { value 9; description "Lhaul-sd-pid."; } } default "standard"; description "The FEC module. Warn: Switch fec mode need to clear the pre-fec error threshold configurations manually."; } leaf tx-otu-tti { type string { length "0..64"; pattern '.{0,15}/.{0,15}/.{0,32}'; } description "Send trail trace identifier of optical transport unit. The character string must contain two reverse slashes (/). The length before the two reverse slashes cannot exceed 15 characters, and the length after the second reverse slash can contain a maximum of 32 characters, including only digits and letters."; } leaf tx-odu-pm-tti { type string { length "0..64"; pattern '.{0,15}/.{0,15}/.{0,32}'; } description "Send trail trace identifier of optical data unit path monitoring. The character string must contain two reverse slashes (/). The length before the two reverse slashes cannot exceed 15 characters, and the length after the second reverse slash can contain a maximum of 32 characters, including only digits and letters."; } leaf otu-tti-expt { type string { length "0..64"; pattern '.{0,15}/.{0,15}/.{0,32}'; } description "Expected trail trace identifier of optical transport unit. The character string must contain two reverse slashes (/). The length before the two reverse slashes cannot exceed 15 characters, and the length after the second reverse slash can contain a maximum of 32 characters, including only digits and letters."; } leaf odu-pm-tti-expt { type string { length "0..64"; pattern '.{0,15}/.{0,15}/.{0,32}'; } description "Expected trail trace identifier of optical data unit path monitoring. The character string must contain two reverse slashes (/). The length before the two reverse slashes cannot exceed 15 characters, and the length after the second reverse slash can contain a maximum of 32 characters, including only digits and letters."; } leaf otu-sd-threshold { type uint32 { range "6..9"; } default "7"; description "Threshold of OTU signal degrade alarm."; } leaf odu-sd-threshold { type uint32 { range "6..9"; } default "7"; description "Threshold of ODU signal degrade alarm."; } leaf span { ext:dynamic-default; type uint32 { range "0..50"; } description "Optical span number."; } leaf rx-otu-tti { type string { length "0..64"; } config false; description "Receive trail trace identifier of optical transport unit."; } leaf rx-odu-pm-tti { type string { length "0..64"; } config false; description "Receive trail trace identifier of optical data unit path monitoring."; } leaf osnr { type string { length "0..32"; } config false; description "Optical Signal-to-noise ratio."; } leaf sm-bei { type uint64; config false; description "SmBei error."; } leaf pm-bei { type uint64; config false; description "PmBei error."; } leaf sm-bip { type uint64; config false; description "SmBip error."; } leaf pm-bip { type uint64; config false; description "PmBip error."; } leaf fec0-bit-statistics { type uint64; config false; description "FEC 0bit error statistics."; } leaf fec1-bit-statistics { type uint64; config false; description "FEC 1bit error statistics."; } leaf fec0-1-statistics { type uint64; config false; description "FEC 0bit and 1bit error statistics."; } leaf fec-symbol-err-statistics { type uint64; config false; description "FEC symbol error statistics."; } leaf fec-uncorrect-err-statistics { type uint64; config false; description "FEC uncorrected error statistics."; } leaf prefec-ber-coefficient { type uint32; config false; description "Before prefec error rate coefficient value."; } leaf prefec-ber-power { type uint32; config false; description "Before prefec error rate power value."; } leaf postfec-ber-coefficient { type uint32; config false; description "After prefec error rate coefficient value."; } leaf postfec-ber-power { type uint32; config false; description "After prefec error rate power value."; } container otn-port-alarm { presence "Prefec-tca trigger-threshold enable."; description "Configure OTN port alarm information."; leaf prefec-trigger-coeff { type uint32 { range "1..9"; } must "(../prefec-trigger-power < ../prefec-recover-power) or (../prefec-recover-coeff <= ../prefec-trigger-coeff and ../prefec-trigger-power = ../prefec-recover-power)"; mandatory true; description "Prefec-tca trigger-threshold coefficient."; } leaf prefec-trigger-power { type uint32 { range "1..7"; } must "(../prefec-trigger-power < ../prefec-recover-power) or (../prefec-recover-coeff <= ../prefec-trigger-coeff and ../prefec-trigger-power = ../prefec-recover-power)"; mandatory true; description "Prefec-tca trigger-threshold power."; } leaf prefec-trigger-interval { type uint32 { range "1..10"; } units "s"; mandatory true; description "Time interval for statistical prefec-tca to trigger prefec alarm."; } leaf prefec-recover-coeff { type uint32 { range "1..9"; } must "(../prefec-trigger-power < ../prefec-recover-power) or (../prefec-recover-coeff <= ../prefec-trigger-coeff and ../prefec-trigger-power = ../prefec-recover-power)"; mandatory true; description "Prefec-tca recover-threshold coefficient."; } leaf prefec-recover-power { type uint32 { range "1..8"; } must "(../prefec-trigger-power < ../prefec-recover-power) or (../prefec-recover-coeff <= ../prefec-trigger-coeff and ../prefec-trigger-power = ../prefec-recover-power)"; mandatory true; description "Prefec-tca recover-threshold power."; } leaf prefec-recover-interval { type uint32 { range "10..100"; } units "s"; mandatory true; description "Time interval for statistical prefec-tca to recover prefec alarm."; } } // container otn-port-alarm container transmission-alarm { description "Configure TAD Alarm Information."; leaf holdoff-timer { type uint32 { range "0|20..10000"; } units "ms"; default "0"; description "TAD Hold Down Time."; } leaf holdup-timer { type uint32 { range "0|200..3600000"; } units "ms"; default "300"; description "TAD Hold Up Time."; } leaf damp-suppress { type uint32 { range "2..19999"; } must "((../damp-suppress and ../damp-reuse and ../damp-ceiling and ../damp-decayok and ../damp-decayng) and ../damp-suppress >= ../damp-reuse and ../damp-suppress <= ../damp-ceiling) or (not(../damp-suppress) and not(../damp-reuse) and not(../damp-ceiling) and not(../damp-decayok) and not(../damp-decayng))"; description "TAD Alarm Suppress Value."; } leaf damp-reuse { type uint32 { range "1..19998"; } must "((../damp-suppress and ../damp-reuse and ../damp-ceiling and ../damp-decayok and ../damp-decayng) and ../damp-suppress >= ../damp-reuse) or (not(../damp-suppress) and not(../damp-reuse) and not(../damp-ceiling) and not(../damp-decayok) and not(../damp-decayng))"; description "TAD Alarm Reuse Value."; } leaf damp-ceiling { type uint32 { range "1001..20000"; } must "((../damp-suppress and ../damp-reuse and ../damp-ceiling and ../damp-decayok and ../damp-decayng) and ../damp-suppress <= ../damp-ceiling) or (not(../damp-suppress) and not(../damp-reuse) and not(../damp-ceiling) and not(../damp-decayok) and not(../damp-decayng))"; description "TAD Alarm Ceiling Value."; } leaf damp-decayok { type uint32 { range "500..10000"; } units "ms"; must "(../damp-suppress and ../damp-reuse and ../damp-ceiling and ../damp-decayok and ../damp-decayng) or (not(../damp-suppress) and not(../damp-reuse) and not(../damp-ceiling) and not(../damp-decayok) and not(../damp-decayng))"; description "TAD Alarm OK Half Decay Value."; } leaf damp-decayng { type uint32 { range "500..10000"; } units "ms"; must "(../damp-suppress and ../damp-reuse and ../damp-ceiling and ../damp-decayok and ../damp-decayng) or (not(../damp-suppress) and not(../damp-reuse) and not(../damp-ceiling) and not(../damp-decayok) and not(../damp-decayng))"; description "TAD Alarm NG Half Decay Value."; } leaf alm-last-reset-time { type yang:date-and-time; config false; description "TAD Last Reset Time."; } leaf filter-function { type boolean; default "false"; config false; description "TAD Alarm Filter Function."; } leaf damping-function { type boolean; default "false"; config false; description "TAD Alarm Damping Function."; } container trans-alarm-ifdowns { description "List of TAD Alarm Status Information."; list trans-alarm-ifdown { ext:generated-by "system"; ext:operation-exclude "create"; key "alarm-type"; description "Configure TAD Alarm Status Information."; leaf alarm-type { type wdm-transalarm-type; description "TAD Alarm Type."; } leaf ifdown { ext:dynamic-default; type boolean; description "Enable/disable TAD Alarm If down. if the ifdown is true, the alarm will cause the port down."; } leaf alarm-status { type boolean; default "false"; config false; description "TAD Alarm True Or False."; } leaf is-in-filtering { type boolean; default "false"; config false; description "TAD Alarm Is In Filtering."; } leaf is-in-suppressing { type boolean; default "false"; config false; description "TAD Alarm Is In Suppressing."; } leaf is-in-aging { type boolean; default "false"; config false; description "TAD Alarm Is In Aging."; } leaf flapping-count { type uint32 { range "0..4294967295"; } config false; description "TAD Alarm Flapping Count."; } leaf suppressing-count { type uint32 { range "0..4294967295"; } config false; description "TAD Alarm Suppressing Count."; } leaf figure-of-merit { type string { length "0..16"; } config false; description "TAD Alarm Figure Of Merit."; } } // list trans-alarm-ifdown } // container trans-alarm-ifdowns } // container transmission-alarm container time-delay-msr { description "Configure link delay-time measurement."; leaf sink-pm-msr-enable { type enumeration { enum "disable" { value 0; description "Disable."; } enum "enable" { value 1; description "Enable."; } } default "disable"; description "Sink pm mesure enable."; } container time-delay-msr-result { config false; description "Statistics of link delay-time measurement result."; leaf layer-type { type enumeration { enum "PM" { value 0; description "PM layer."; } } config false; description "Layer type."; } leaf msr-result { type enumeration { enum "not-performed" { value 0; description "Not performed."; } enum "running" { value 1; description "Running."; } enum "success" { value 2; description "Success."; } enum "fail" { value 3; description "Fail."; } } config false; description "Measurement result."; } leaf time-delay { type string { length "0..32"; } units "us"; config false; description "Delay time."; } leaf msr-time { type string { length "0..32"; } units "ms"; config false; description "Measurement operate time."; } leaf detail { type string { length "0..256"; } config false; description "Detail information."; } } // container time-delay-msr-result } // container time-delay-msr container otn-port-alarm-status { config false; description "Statistics of OTN port alarm information."; leaf prefec-trigger-coeff { type uint32 { range "1..9"; } description "Prefec-tca trigger-threshold coefficient."; } leaf prefec-trigger-power { type uint32 { range "1..7"; } description "Prefec-tca trigger-threshold power."; } leaf prefec-trigger-interval { type uint32 { range "1..10"; } units "s"; description "Time interval for statistical prefec-tca to trigger prefec alarm."; } leaf prefec-recover-coeff { type uint32 { range "1..9"; } description "Prefec-tca recover-threshold coefficient."; } leaf prefec-recover-power { type uint32 { range "1..8"; } description "Prefec-tca recover-threshold power."; } leaf prefec-recover-interval { type uint32 { range "10..100"; } units "s"; description "Time interval for statistical prefec-tca to recover prefec alarm."; } } // container otn-port-alarm-status } // list wdm } // container wdms } // container wdm rpc clear-port-trans-alarm { ext:node-ref "/wdm/wdms/wdm"; description "Clear tad alarm information."; input { leaf ifname { type string { length "0..63"; } description "Interface name. The name is expressed in the format of WdmslotID/cardID/portID. For example, Wdm1/0/1. Here Wdm1/0/1 is an example. The value may vary with devices."; } } } // rpc clear-port-trans-alarm rpc start-pm-delay-measure { ext:node-ref "/wdm/wdms/wdm"; description "Measure pm delay time."; input { leaf ifname { type string { length "0..63"; } description "Interface Name. The name is expressed in the format of WdmslotID/cardID/portID. For example, Wdm1/0/1. Here Wdm1/0/1 is an example. The value may vary with devices."; } leaf msr-time { type uint32 { range "50..1000"; } units "ms"; default "50"; description "Measure time."; } } } // rpc start-pm-delay-measure } // module huawei-wdm
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