This module contains a collection of YANG definitions for supporting the Broadband Forum requirements on management of Reverse P...
Version: 2020-10-13
module bbf-hardware-rpf-dpu { yang-version 1.1; namespace "urn:bbf:yang:bbf-hardware-rpf-dpu"; prefix bbf-hw-rpf-dpu; import bbf-hardware-types { prefix bbf-hwt; } import bbf-yang-types { prefix bbf-yang; } import ietf-hardware { prefix hw; } import ietf-inet-types { prefix inet; } import ietf-yang-types { prefix yang; } organization "Broadband Forum <https://www.broadband-forum.org> Common YANG Work Area"; contact "Comments or questions about this Broadband Forum YANG module should be directed to <mailto:help@broadband-forum.org>. Editor: Ken Kerpez, ASSIA, Inc. Editor: Joey Boyd, ADTRAN PS Leader: Sowrirajan Padmanabhan, Nokia PS Leader: Joey Boyd, ADTRAN WA Director: Sven Ooghe, Nokia WA Director: Joey Boyd, ADTRAN"; description "This module contains a collection of YANG definitions for supporting the Broadband Forum requirements on management of Reverse Power Feeding (RPF) as defined in ITU G.997.2 Annex A and BBF TR-159. As such, this module is specific to access network equipment (e.g., BBF-specified Access Nodes and FTTdp DPUs). Copyright (c) 2016-2020 Broadband Forum Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the copyright holder nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS \"AS IS\" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. The above license is used as a license under copyright only. Please reference the Forum IPR Policy for patent licensing terms <https://www.broadband-forum.org/ipr-policy>. Any moral rights which are necessary to exercise under the above license grant are also deemed granted under this license. This version of this YANG module is part of TR-355a3; see the TR itself for full legal notices."; revision "2020-10-13" { description "Amendment 3. * Approval Date: 2020-10-13 * Publication Date: 2020-10-13."; reference "TR-355a3: YANG Modules for FTTdp Management <https://www.broadband-forum.org/download/ TR-355_Amendment-3.pdf>"; } revision "2019-06-11" { description "Amendment 2. * Approval Date: 2019-06-11 * Publication Date: 2019-06-11."; reference "TR-355a2: YANG Modules for FTTdp Management <https://www.broadband-forum.org/technical/download/ TR-355_Amendment-2.pdf>"; } revision "2018-10-01" { description "Amendment 1. * Approval Date: 2018-10-01 * Publication Date: 2018-10-01."; reference "TR-355a1: YANG Modules for FTTdp Management <https://www.broadband-forum.org/technical/download/ TR-355_Amendment-1.pdf>"; } feature performance-24hr { description "Indicates that collection of 24 hour performance intervals is supported."; } typedef performance-15min-interval { type uint8 { range "0..96"; } description "Defines the range of 15 minute intervals."; } typedef performance-15min-history-interval { type performance-15min-interval { range "1..96"; } description "Defines the range of 15 minutes intervals and defines the position of the interval relative to the current interval where 1 is the most recent completed interval."; } typedef performance-24hr-interval { type uint8 { range "0..7"; } description "Defines the range of 24 hour intervals."; } typedef performance-24hr-history-interval { type performance-24hr-interval { range "1..7"; } description "Defines the range of 24 hour intervals and defines the position of the interval relative to the current interval where 1 is the most recent completed interval."; } typedef dpu-reconfiguration-state { type enumeration { enum "normal" { value 0; description "The line is in Normal mode."; } enum "bypass" { value 1; description "The line is in Bypass mode."; } } description "Reports the ReConfiguration State for the line. A state change alarm shall be raised indicating a change of the line's Reconfiguration State (see clause A.7.2.1.2)."; reference "ITU-T G.997.2 clause A.7.4.1.3 (DPU-RCS)"; } typedef pse-rpf-state { type enumeration { enum "pse-ukn" { value 0; description "Shutdown with unknown reason as initial state. - when for the line the Power Extractor (PE) transitions to 'start-up' after the PE detects loss of voltage, and has not received a PSE-DGL or PSE-OHP indication ( see clause A.6.2.2) from the Power Source Equipment (PSE)."; } enum "pse-dgl" { value 1; description "Shutdown with dying gasp (normal shutdown). - when for the line the Power Extractor (PE) transitions to 'start-up' after the PE detects loss of voltage and has received a PSE-DGL indication (see clause A.6.2.2) from the Power Source Equipment (PSE)."; } enum "pse-ohp" { value 2; description "Shutdown with dying gasp with off-hook phone. - when for the line the Power Extractor (PE) transitions to 'start-up' after the PE detects loss of voltage and has received a PSE-OHP indication (see clause A.6.2.2) from the Power Source Equipment (PSE)."; } enum "pse-pwr" { value 3; description "Powered with unknown Power Source Equipment (PSE) powering method. - when for the line the Power Extractor (PE) transitions to 'normal-operations' and it is yet unknown whether the PSE is battery powered or mains powered."; } enum "pse-bat" { value 4; description "Battery powered. - when for the line the Power Extractor (PE) transitions to 'normal-operations' and the PE received an indication that the Power Source Equipment (PSE) is trying to start up the DPU while powered on battery (PRP PS field, see section 6.2.5.1 of [ETSI TS 101 548]); - when for the line the PE is in 'normal-operations' and the PE receives a PSE-BAT indication (see clause 6.2.2) from the PSE."; } enum "pse-acm" { value 5; description "Mains powered. - when for the line the Power Extractor (PE) transitions to 'normal-operations' and the PE received an indication that the Power Source Equipment (PSE) was trying to start up the Distribution Point Unit (DPU) while powered on mains (PRP PS field, see section 6.2.5.1 of [ETSI TS 101 548]); - when for the line the PE is in 'normal-operations' and the PE receives a PSE-ACM or PSE-BBA indication (see clause A.6.2.2) from the PSE."; } } description "Reports the reverse power feeding state of the Power Source Equipment (PSE)."; reference "ITU-T G.997.2 clause A.7.4.2.2 (PSE-RPF)"; } identity rpf-threshold-crossing-alert { description "Base identity for Reverse Power Feeding (RPF) threshold crossing alerts (TCA). This identity is abstract and is not be used for a threshold crossing alert."; } identity rpf-15min-threshold-crossing-alert { base rpf-threshold-crossing-alert; description "A threshold crossing alert associated with performance counters collected over the current 15 minute interval for Reverse Power Feeding (RPF). This identity is abstract and is not be used for a threshold crossing alert."; } identity rpf-24hr-threshold-crossing-alert { base rpf-threshold-crossing-alert; description "A threshold crossing alert associated with performance counters collected over the current 24 hour interval for Reverse Power Feeding (RPF). This identity is abstract and is not be used for a threshold crossing alert."; } identity dpu-15min-extracted-energy-tca { base rpf-15min-threshold-crossing-alert; description "The count of the Distribution Point Unit (DPU) extracted energy per line at U-O interface or at Power Supply Unit (PSU) input in the current 15 minute interval has exceeded the configured threshold."; reference "ITU-T G.997.2 clause A.7.3.4 (CURR/PREV_NE_15/24_EE)"; } identity dpu-24hr-extracted-energy-tca { base rpf-24hr-threshold-crossing-alert; description "The count of the DPU extracted energy per line at U-O interface or at Power Supply Unit (PSU) input in the current 24 hour interval has exceeded the configured threshold."; reference "ITU-T G.997.2 clause A.7.3.4 (CURR/PREV_NE_15/24_EE)"; } identity pse-15min-injected-energy-tca { base rpf-15min-threshold-crossing-alert; description "The count of the Power Source Equipment (PSE) injected energy per line in the current 15 minute interval has exceeded the configured threshold."; reference "ITU-T G.997.2 clause A.7.3.5 (CURR/PREV_FE_15/24_IE)"; } identity pse-24hr-injected-energy-tca { base rpf-24hr-threshold-crossing-alert; description "The count of the Power Source Equipment (PSE) injected energy per line in the current 24 hour interval has exceeded the configured threshold."; reference "ITU-T G.997.2 clause A.7.3.5 (CURR/PREV_FE_15/24_IE)"; } grouping rpf-near-end-system-config { description "Reverse Power Feeding (RPF) near-end system level configuration."; leaf dying-gasp-udp-port { type inet:port-number; description "The UDP port number used for dying gasp messages."; reference "BBF TR-301i2 R-21."; } } // grouping rpf-near-end-system-config grouping rpf-near-end-line-config { description "RPF near-end line level configuration."; leaf power-extraction { type enumeration { enum "allowed" { value 0; description "The Power Extractor (PE) may extract power from this line."; } enum "not-allowed" { value 1; description "The Power Extractor (PE) should not extract more than 35 mA at U-O interface (excluding start-up transients) unless the given line is solely reverse powering the Distribution Point Unit (DPU) or attempting to start-up the DPU."; } } default "allowed"; description "Defines whether or not power extraction from the line is allowed."; reference "ITU-T G.997.2 clause A.7.1.1.6 (PE-PWR)"; } leaf power-extraction-pse-on-battery { type boolean; default "false"; description "Defines whether for the line, the Power Extractor (PE) is allowed to extract power from the line when the PSE reverse power feeding is operating on battery power (PSE-RPF, see clause A.7.4.2.2) and sufficient power is available from one or more remaining reverse power feeding lines for normal operation of the Distribution Point Unit (DPU). If 'true', power extraction is allowed. If 'false', only minimal power extraction, compliant to the Maintain Power Signature (see Section 7.5.2.2 of [ETSI TS 101 548]), is allowed."; reference "ITU-T G.997.2 clause A.7.1.1.1 (PE-PEB)"; } leaf pse-shutdown-service { type enumeration { enum "force-l3" { value 0; description "Force the line to the L3 link state (no service)."; reference "ITU-T G.997.2 clause A.7.1.1.2 (FL3)"; } enum "enable-l0" { value 1; description "Force the line to an enabled low power link state (limited service)."; reference "ITU-T G.997.2 clause A.7.1.1.2 (NL0)"; } enum "emergency-services-only" { value 2; description "Force the line to support emergency services only (all link states allowed)."; reference "ITU-T G.997.2 clause A.7.1.1.2 (ESO)"; } enum "no-limitations" { value 3; description "No service limitations forced on the line (all link states allowed)."; reference "ITU-T G.997.2 clause A.7.1.1.2 (SRV)"; } } default "force-l3"; description "Defines for the line, the FTU/L2+ action when the PSE is in shutdown (PSE-RPF, see clause A.7.4.2.2). Values NL0, ESO, and SRV are conditional to there being sufficient power from one or more remaining reverse power feeding lines available for normal operation of the Distribution Point Unit (DPU). If this condition is not met, value FL3 is applied instead."; reference "ITU-T G.997.2 clause A.7.1.1.2 (FTU-SRV)"; } leaf forced-reconfiguration-state { type enumeration { enum "none" { value 0; description "No Forced ReConfiguration State. The DPU-FRCS configuration object has no effect on the line's ReConfiguration State."; } enum "normal" { value 1; description "The line is forced to enter and maintain Normal mode."; } enum "bypass" { value 2; description "The line is forced to enter and maintain Bypass mode. This command is ignored for a given line if this line is solely reverse powering the Distribution Point Unit (DPU) or attempting to start-up the DPU."; } } default "none"; description "Defines for the line, the Forced ReConfiguration State: either None, Normal, or Bypass."; reference "ITU-T G.997.2 clause A.7.1.1.3 (DPU-FRCS)"; } leaf conditional-forced-reconfiguration-state { type enumeration { enum "none" { value 0; description "No Conditional Forced ReConfiguration State. The line maintains its current ReConfiguration State (see clause A.7.4.1.3)."; } enum "bypass" { value 1; description "The line's ReConfiguration State is forced to Bypass mode."; } } default "none"; description "Defines for the line, the Conditional Forced ReConfiguration State, to be applied upon either enforcing no service on the line (i.e., FTU-SRV value FL3 is applied, see clause A.7.1.1.2) for a time period T (DPU-CFRCS-T, see clause A.7.1.1.5) or upon Distribution Point Unit (DPU) shutdown."; reference "ITU-T G.997.2 clause A.7.1.1.4 (DPU-CFRCS)"; } leaf conditional-forced-reconfiguration-state-time { type uint8; units "1 second"; default "30"; description "Defines the time period T to be used with configuration object DPU-CFRCS (see clause A.7.1.1.4)."; reference "ITU-T G.997.2 clause A.7.1.1.5 (DPU-CFRCST)"; } container thresholds { description "Threshold configuration."; leaf dpu-15min-extracted-energy-threshold { type uint32; units "mWh"; description "Threshold for the count of the DPU extracted energy per line at U-O interface or at Power Supply Unit (PSU) input in the current 15 minute interval. A special value (0) indicates the threshold is disabled."; reference "ITU-T G.997.2 clause A.7.3.4 (CURR/PREV_NE_15/24_EE)"; } leaf dpu-24hr-extracted-energy-threshold { if-feature bbf-hw-rpf-dpu:performance-24hr; type uint32; units "mWh"; description "Threshold for the count of the Distribution Point Unit (DPU) extracted energy per line at U-O interface or at Power Supply Unit (PSU) input in the current 24 hour interval. A special value (0) indicates the threshold is disabled."; reference "ITU-T G.997.2 clause A.7.3.5 (CURR/PREV_NE_15/24_IE)"; } } // container thresholds } // grouping rpf-near-end-line-config grouping rpf-far-end-line-config { description "Reverse Power Feeding (RPF) far-end line level configuration."; container thresholds { description "Threshold configuration."; leaf pse-15min-injected-energy-threshold { type uint32; units "mWh"; description "Threshold for the count of the Power Source Equipment (PSE) injected energy per line in the current 15 min interval. A special value (0) indicates the threshold is disabled."; reference "ITU-T G.997.2 clause A.7.3.5 (CURR/PREV_FE_15/24_IE)"; } leaf pse-24hr-injected-energy-threshold { if-feature bbf-hw-rpf-dpu:performance-24hr; type uint32; units "mWh"; description "Threshold for the count of the Power Source Equipment (PSE) injected energy per line in the current 24 hour interval. A special value (0) indicates the threshold is disabled."; reference "ITU-T G.997.2 clause A.7.3.5 (CURR/PREV_FE_15/24_IE)"; } } // container thresholds } // grouping rpf-far-end-line-config grouping rpf-threshold-crossing-alerts { description "Threshold crossing alert notifications."; notification rpf-15min-threshold-crossing-alert { description "A threshold has been crossed during the current 15 minute interval."; leaf tca-identity { type identityref { base rpf-15min-threshold-crossing-alert; } mandatory true; description "A unique identity associated with each threshold."; } } // notification rpf-15min-threshold-crossing-alert notification rpf-24hr-threshold-crossing-alert { if-feature bbf-hw-rpf-dpu:performance-24hr; description "A threshold has been crossed during the current 24 hour interval."; leaf tca-identity { type identityref { base rpf-24hr-threshold-crossing-alert; } mandatory true; description "A unique identity associated with each threshold."; } } // notification rpf-24hr-threshold-crossing-alert } // grouping rpf-threshold-crossing-alerts grouping rpf-far-end-line-diagnostics { description "Reverse Power Feeding (RPF) line level diagnostics."; leaf latest-pse-start-up-failure-cause { type enumeration { enum "no-failure" { value 0; description "No failure detected."; } enum "elc-0" { value 1; description "Open tip-to-ring."; } enum "elc-1" { value 2; description "Short tip-to-ring."; } enum "elc-2" { value 3; description "POTS Exchange (foreign) DC voltage."; } enum "elc-3" { value 4; description "Off-hook phone."; } enum "rpf-class-mismatch" { value 5; description "Mismatch of the Power Source Equipment (PSE) Reverse Power Feeding (RPF) Class with the Distribution Point Unit (DPU) RPF Class."; } enum "unknown" { value 6; description "Unknown failure."; } enum "other" { value 7; description "Failure other than off-hook."; } } description "Reports the latest Power Source Equipment (PSE) Start-Up Failure indication, detected during 'Start-Up'."; reference "ITU-T G.997.2 clause A.7.5.2.1 (PSE-SUF)"; } leaf latest-pse-shutdown-cause { type enumeration { enum "no-shutdown" { value 0; description "No PSE shutdown yet."; } enum "elc-0" { value 1; description "Open tip-to-ring."; } enum "elc-1" { value 2; description "Short tip-to-ring."; } enum "elc-3" { value 3; description "Off-hook phone."; } enum "overload-time-violation" { value 4; description "Overload time violation as defined in Table 35 of [ETSI TS 101 548]."; } enum "maintain-power-signature-violation" { value 5; description "Maintain power signature violation as defined in Table 37 of [ETSI TS 101 548]."; } enum "unknown" { value 6; description "Unknown shutdown cause."; } } description "Reports the latest Power Source Equipment (PSE) ShutDown cause, detected during 'Normal Operation'."; reference "ITU-T G.997.2 clause A.7.5.2.2 (PSE-SDC)"; } } // grouping rpf-far-end-line-diagnostics grouping rpf-near-end-line-inventory { description "Reverse Power Feeding (RPF) near-end line level inventory."; leaf reconfiguration-capability { type enumeration { enum "none" { value 0; description "No reconfiguration capability."; } enum "broadband-bypass" { value 1; description "Broadband Bypass."; } enum "pots-rcr" { value 2; description "POTS Remote Copper Reconfiguration (RCR) Protocol."; } } description "Reports the ReConfiguration capability for the line."; reference "ITU-T G.997.2 clause A.7.6.1.1 (DPU-RC)"; } } // grouping rpf-near-end-line-inventory grouping rpf-far-end-line-inventory { description "Reverse Power Feeding (RPF) far-end line level inventory."; leaf nt-integrated { type enumeration { enum "unknown" { value 0; description "Network Termination (NT) integration of the Power Source Equipment (PSE) is unknown."; } enum "not-integrated" { value 1; description "Power Source Equipment (PSE) is not integrated into the Network Termination (NT)."; } enum "integrated" { value 2; description "Power Source Equipment (PSE) is integrated into the Network Termination (NT)."; } } description "Reports whether the Power Source Equipment (PSE) is integrated in the Network Termination (NT), based on the Reverse Power Feeding (RPF) OAM parameter NTE-CPF (see clause A.6.2.7). Until the Distribution Point Unit (DPU) ME receives an NTE-CPF Indication for the first time, it is unknown whether or not the PSE is integrated in the NT."; reference "ITU-T G.997.2 clause A.7.6.2.1 (NTE-CPF)"; } leaf battery-backup-available { type enumeration { enum "unknown" { value 0; description "Battery backup availability is unknown."; } enum "not-available" { value 1; description "Battery backup is not available."; } enum "available" { value 2; description "Battery backup is available."; } } description "Reports whether battery backup is available at the Power Source Equipment (PSE), based on the PSE trying to start up the Power Extractor (PE) while powered on battery (PRP PS field, see section 6.2.5.1 of [ETSI TS 101 548]) and on the PSE-BAT, PSE-ACM, and PSE-BBA indications (see section 6.3 of [ETSI TS 101 548] and clause A.6.2.2). Until the Power Extractor (PE) receives the PRP PS field for the first time and until the PE or Distribution Point Unit (DPU) ME receive a BAT, ACM, or BBA Indication for the first time (whichever occurs first), it is unknown whether or not battery backup is available in the PSE."; reference "ITU-T G.997.2 clause A.7.6.2.2 (PSE-BBA)"; } leaf prp-capability { type enumeration { enum "unknown" { value 0; description "POTS Remote Copper Configuration Protocol (PRP) capability is unknown."; } enum "not-supported" { value 1; description "POTS Remote Copper Configuration Protocol (PRP) not supported."; } enum "supported" { value 2; description "POTS Remote Copper Configuration Protocol (PRP) supported."; } } description "Reports the Power Source Equipment (PSE) POTS Remote Copper Configuration Protocol (PRP) capability. In case the PSE is integrated in the NT (i.e., NT-CPF equals 2), the PSE-PRP capability is communicated through Reverse Power Feeding (RPF) OAM from PSE to Distribution Point Unit (DPU) (see clause A.6.2.7). In case the PSE is not integrated in the NT (i.e., NT-CPF equals 2), it is deduced by the DPU from successful PRP start-up, whereby the DPU shall assume that the PRP disconnect trigger is sent by the PSE that is currently providing reverse power to the DPU. Until the Power Extractor (PE) receives the PRP PS field (see clause A.6.2.7) for the first time, or until first successful PRP start-up, the PSE PRP capability is unknown."; reference "ITU-T G.997.2 clause A.7.6.2.3 (PSE-PRP)"; } } // grouping rpf-far-end-line-inventory grouping performance-history-interval-parameters { description "Defines common parameters required when defining history interval performance counters."; leaf invalid-data-flag { type boolean; description "Reports the validity of the corresponding PM data."; } leaf time-stamp { type yang:date-and-time; description "Reports the start date/time for this interval."; } } // grouping performance-history-interval-parameters grouping performance-history-measured-time { description "Reports the measured time for a given interval."; leaf measured-time { type uint32; description "Reports the amount of time, measured in seconds, that statistics for this interval have been counted."; } } // grouping performance-history-measured-time grouping performance-history-15min-interval-parameters { description "Defines common parameters required when defining 15 minute interval history performance counters."; uses performance-history-measured-time; uses performance-history-interval-parameters; } // grouping performance-history-15min-interval-parameters grouping performance-history-24hr-interval-parameters { description "Defines common parameters required when defining 24 hour interval history performance counters."; uses performance-history-measured-time; uses performance-history-interval-parameters; } // grouping performance-history-24hr-interval-parameters grouping performance-15min-history-parameters { description "Defines common parameters required when defining 15 minute history performance counters."; leaf number-of-intervals { type performance-15min-interval; description "The total number of 15 minute PM intervals for which data was collected. "; } leaf non-valid-intervals { type performance-15min-interval; description "The number of 15 minute PM intervals for which the data is considered to be invalid or incomplete."; } } // grouping performance-15min-history-parameters grouping performance-24hr-history-parameters { description "Defines common parameters required when defining 24 hour history performance counters."; leaf number-of-intervals { type performance-24hr-interval; description "The total number of 24 hour PM intervals for which data was collected. "; } leaf non-valid-intervals { type performance-24hr-interval; description "The number of 24 hour PM intervals for which the data is considered to be invalid or incomplete."; } } // grouping performance-24hr-history-parameters grouping near-end-performance-counters { description "Performance counters associated with the near-end."; leaf dpu-extracted-energy { type bbf-yang:performance-counter32; units "mWh"; description "Reports a count of the Distribution Point Unit (DPU) extracted energy per line at U-O interface or at Power Supply Unit (PSU) input in current/previous interval, expressed in units of mWh. This PM object is optional. The accuracy is defined in [ETSI TS 101 548]."; reference "ITU-T G.997.2 clause A.7.3.4 (CURR/PREV_NE_15/24_EE)"; } } // grouping near-end-performance-counters grouping far-end-performance-counters { description "Performance counters associated with the far-end."; leaf pse-injected-energy { type bbf-yang:performance-counter32; units "mWh"; description "Reports a count of the Power Source Equipment (PSE) Injected Energy per line in current/previous interval, expressed in units of mWh. This PM object is optional. It is constructed by the Distribution Point Unit (DPU) by reading the Reverse Power Feeding (RPF) OAM parameter PSE-IE (see clause A.6.2.7). It can only be supported in case the PSE is integrated in the Network Termination (NT) (see clause A.7.6.2.1, PSE-NTE equals 1). The accuracy is defined in [ETSI TS 101 548]."; reference "ITU-T G.997.2 clause A.7.3.5 (CURR/PREV_NE_15/24_IE)"; } } // grouping far-end-performance-counters grouping rpf-line-performance { description "Reverse Power Feeding (RPF) line level performance."; container intervals-15min { description "15 minute interval performance history."; container current { description "Contains the counts that are currently accumulating."; container near-end { description "Near-end performance counters."; uses performance-history-measured-time; uses near-end-performance-counters; } // container near-end container far-end { description "Far-end performance counters."; uses performance-history-measured-time; uses far-end-performance-counters; } // container far-end } // container current uses performance-15min-history-parameters; list history { key "interval-number"; max-elements 96; description "A history of 15 minute intervals."; leaf interval-number { type performance-15min-history-interval; description "The number of the interval relative to the current interval."; } container near-end { description "Near-end performance counters."; uses performance-history-15min-interval-parameters; uses near-end-performance-counters; } // container near-end container far-end { description "Far-end performance counters."; uses performance-history-15min-interval-parameters; uses far-end-performance-counters; } // container far-end } // list history } // container intervals-15min container intervals-24hr { if-feature bbf-hw-rpf-dpu:performance-24hr; description "24 hour interval performance history."; container current { description "Contains the counts that are currently accumulating."; container near-end { description "Near-end performance counters."; uses performance-history-measured-time; uses near-end-performance-counters; } // container near-end container far-end { description "Far-end performance counters."; uses performance-history-measured-time; uses far-end-performance-counters; } // container far-end } // container current uses performance-24hr-history-parameters; list history { key "interval-number"; max-elements 7; description "A history of 24 hour intervals."; leaf interval-number { type performance-24hr-history-interval; description "The number of the interval relative to the current interval."; } container near-end { description "Near-end performance counters."; uses performance-history-24hr-interval-parameters; uses near-end-performance-counters; } // container near-end container far-end { description "Far-end performance counters."; uses performance-history-24hr-interval-parameters; uses far-end-performance-counters; } // container far-end } // list history } // container intervals-24hr } // grouping rpf-line-performance grouping rpf-near-end-line-status { description "Reverse Power Feeding (RPF) near-end line level status."; leaf actual-power-class { type enumeration { enum "sr1" { value 0; description "Reverse Power Feeding (RPF) Class SR1 is defined to support (very) low power Distribution Point Unit (DPU) designs, when they become available; the applicability of Class SR1 for a considered deployment type (amount of ports per DPU, cable losses, DPU uplink types, DPU feature scope at and beyond the physical layer, amount of additional devices (POTSAdapters) to be fed from the same Power Source Equipment (PSE), etc.) depends on the availability of low-power solutions."; } enum "sr2" { value 1; description "Reverse Power Feeding (RPF) Class SR2 allows a higher maximum power to be transmitted than Class SR1. When compared to Class SR1, a solution that complies with Class SR2 can extend the type of deployments that can be supported, while still avoiding any additional safety measures in the home environment (below 15 W as per EN 60950-1 [2])."; } enum "sr3" { value 2; description "Reverse Power Feeding (RPF) Class SR3 allows a higher maximum power to be transmitted than Class SR2, aiming to cover trials or demanding deployment situations for which Class SR1 or SR2-compliant power solutions are not available. A Power Source Equipment (PSE) of Class SR3 can inject more than 15 W and hence introduces additional safety measures compared to Class SR1 and Class SR2 (see SAFETY NOTE (a) and SAFETY NOTE (b) in Table 10)."; } } description "Reports the actual power class of the Power Extractor (PE) for the line."; reference "ITU-T G.997.2 clause A.7.4.1.1 (PE-PC)"; } leaf rpf-state { type enumeration { enum "not-operational" { value 0; description "The Power Extractor (PE) is initializing and is not yet operational."; } enum "start-up" { value 1; description "The Power Extractor (PE) is starting up."; } enum "normal-operations" { value 2; description "The Power Extractor (PE) is in normal operations."; } } description "Reports the reverse power feeding state of the Power Extractor (PE) for the line."; reference "ITU-T G.997.2 clause A.7.4.1.2 (PE-RPF)"; } leaf reconfiguration-state { type dpu-reconfiguration-state; description "Reports the ReConfiguration State for the line. A state change alarm shall be raised indicating a change of the line's Reconfiguration State (see clause A.7.2.1.2)."; reference "ITU-T G.997.2 clause A.7.4.1.3 (DPU-RCS)"; } leaf prp-error-status { type enumeration { enum "none" { value 0; description "No error detected by Distribution Point Unit (DPU) or POTS Remote Copper Configuration Protocol (PRP) completed successfully."; } enum "rpf-class-mismatch" { value 1; description "Distribution Point Unit (DPU) has decoded POTS Remote Copper Configuration Protocol (PRP) disconnect trigger of a class that is not supported by the DPU for given line."; } enum "pots-reconnect-trigger" { value 2; description "POTS Reconnect trigger detected by Distribution Point Unit (DPU)."; } } description "Reports that the Distribution Point Unit (DPU) has deduced a POTS Remote Copper Configuration Protocol (PRP) related ERROR while the is DPU powered on. An alarm shall be raised upon the PRP Error Status indicating an error condition on the line."; reference "ITU-T G.997.2 clause A.7.4.1.4 (DPU-PRP-ERROR)"; } leaf line-error-status { type enumeration { enum "no-error" { value 0; description "No error detected."; } enum "error" { value 1; description "Error detected."; } } description "Reports an error condition for the line whereby the Distribution Point Unit (DPU) is unable to draw continuous and sufficient power from the line. This status object is optional. If supported, an alarm shall be raised upon the Line Error Status indicating an error condition on the line."; reference "ITU-T G.997.2 clause A.7.4.1.5 (DPU-LES)"; } } // grouping rpf-near-end-line-status grouping rpf-far-end-line-status { description "Reverse Power Feeding (RPF) far-end line level status."; leaf actual-power-class { type enumeration { enum "undetermined" { value 0; description "The power class of the PSE has yet to be determined."; } enum "sr1" { value 1; description "Reverse Power Feeding (RPF) Class SR1 is defined to support (very) low power Distribution Point Unit (DPU) designs, when they become available; the applicability of Class SR1 for a considered deployment type (amount of ports per DPU, cable losses, DPU uplink types, DPU feature scope at and beyond the physical layer, amount of additional devices (POTSAdapters) to be fed from the same PSE, etc.) depends on the availability of low-power solutions."; } enum "sr2" { value 2; description "Reverse Power Feeding (RPF) Class SR2 allows a higher maximum power to be transmitted than Class SR1. When compared to Class SR1, a solution that complies with Class SR2 can extend the type of deployments that can be supported, while still avoiding any additional safety measures in the home environment (below 15 W as per EN 60950-1 [2])."; } enum "sr3" { value 3; description "Reverse Power Feeding (RPF) Class SR3 allows a higher maximum power to be transmitted than Class SR2, aiming to cover trials or demanding deployment situations for which Class SR1 or SR2-compliant power solutions are not available. A Power Source Equipment (PSE) of Class SR3 can inject more than 15 W and hence introduces additional safety measures compared to Class SR1 and Class SR2 (see SAFETY NOTE (a) and SAFETY NOTE (b) in Table 10)."; } } description "Reports the actual power class of the Power Source Equipment (PSE). Before the start-up protocol is successfully completed for the first time, the power class is undetermined."; reference "ITU-T G.997.2 clause A.7.4.2.1 (PSE-PC)"; } leaf rpf-state { type pse-rpf-state; description "Reports the reverse power feeding state of the Power Source Equipment (PSE)."; reference "ITU-T G.997.2 clause A.7.4.2.2 (PSE-RPF)"; } } // grouping rpf-far-end-line-status grouping reconfiguration-state-change-notification { description "Defines a notification for reporting a Distribution Point Unit (DPU) reconfiguration state change."; notification reconfiguration-state-change { description "This notification is sent upon a change in the Distribution Point Unit (DPU) reconfiguration state."; leaf reconfiguration-state { type dpu-reconfiguration-state; mandatory true; description "Reports the ReConfiguration State for the line. A state change alarm shall be raised indicating a change of the line's Reconfiguration State (see clause A.7.2.1.2)."; reference "ITU-T G.997.2 clause A.7.4.1.3 (DPU-RCS)"; } } // notification reconfiguration-state-change } // grouping reconfiguration-state-change-notification grouping pse-rpf-state-change-notification { description "Defines a notification for reporting a Power Source Equipment (PSE) Reverse Power Feeding (RPF) state change."; notification pse-rpf-state-change { description "This notification is sent upon a change in the Power Source Equipment (PSE) Reverse Power Feeding (RPF) state."; leaf rpf-state { type pse-rpf-state; mandatory true; description "Reports the reverse power feeding state of the Power Source Equipment (PSE)."; reference "ITU-T G.997.2 clause A.7.4.2.2 (PSE-RPF)"; } } // notification pse-rpf-state-change } // grouping pse-rpf-state-change-notification container rpf { description "System level configuration of Reverse Power Feeding."; container near-end-system { description "System configuration associated with the near-end."; uses rpf-near-end-system-config; } // container near-end-system } // container rpf augment /hw:hardware/hw:component { when "derived-from-or-self(hw:class,'bbf-hwt:fastdsl-tp')" { description "Only applicable when the hardware component class is 'fastdsl-tp'."; } description "Augment the port configuration with data nodes specific to managing Reverse Power Feeding (RPF)."; container rpf { description "Configurating data nodes for managing Reverse Power Feeding (RPF) per port."; container near-end-line { description "Line configuration associated with the near-end."; uses rpf-near-end-line-config; } // container near-end-line container far-end-line { description "Line configuration associated with the far-end."; uses rpf-far-end-line-config; } // container far-end-line leaf line-id { type uint32 { range "1..4095"; } config false; mandatory true; description "A unique numeric identifier associated with the port."; reference "TR-301i2 Figure 8-1"; } container inventory { config false; description "Inventory data associated with Reverse Power Feeding (RPF)."; container near-end-line { description "Inventory data associated with the near-end."; uses bbf-hw-rpf-dpu:rpf-near-end-line-inventory; } // container near-end-line container far-end-line { description "Inventory data associated with the far-end."; uses bbf-hw-rpf-dpu:rpf-far-end-line-inventory; } // container far-end-line } // container inventory container status { config false; description "Status data associated with Reverse Power Feeding (RPF)."; container near-end-line { description "Line state data associated with the near-end."; uses bbf-hw-rpf-dpu:rpf-near-end-line-status; } // container near-end-line container far-end-line { description "Line state data associated with the far-end."; uses bbf-hw-rpf-dpu:rpf-far-end-line-status; } // container far-end-line } // container status container diagnostics { config false; description "Diagnostic data associated with Reverse Power Feeding (RPF)."; container far-end-line { description "Diagnostic data associated with the far-end."; uses bbf-hw-rpf-dpu:rpf-far-end-line-diagnostics; } // container far-end-line } // container diagnostics container performance { config false; description "Performance data associated with Reverse Power Feeding (RPF)."; uses bbf-hw-rpf-dpu:rpf-line-performance; } // container performance uses bbf-hw-rpf-dpu:reconfiguration-state-change-notification; uses bbf-hw-rpf-dpu:pse-rpf-state-change-notification; uses bbf-hw-rpf-dpu:rpf-threshold-crossing-alerts; } // container rpf } notification loss-of-power-dpu-shutdown { description "This notification is sent when the Distribution Point Unit (DPU) is about to shutdown because the Reverse Power Feeding (RPF) state of the last reverse power feeding line has entered the 'PSE-DGL' state. In case of an actual shutdown, this notification may not get transmitted."; leaf line { type leafref { path "/hw:hardware/hw:component/hw:name"; } must "derived-from-or-self(/hw:hardware/hw:component [hw:name=current()]/hw:class,'bbf-hwt:fastdsl-tp')" { description "Only hardware components which are capable of Reverse Power Feeding (RPF) must be referenced."; } mandatory true; description "Reference to the line which was the last reverse power feeding line to enter the 'PSE-DGL' state."; } leaf line-id { type uint32 { range "1..4095"; } mandatory true; description "A unique numeric identifier associated with the port."; reference "TR-301i2 Figure 8-1"; } leaf rpf-state { type pse-rpf-state; mandatory true; description "Reports the reverse power feeding state of the Power Source Equipment (PSE)."; reference "ITU-T G.997.2 clause A.7.4.2.2 (PSE-RPF)"; } } // notification loss-of-power-dpu-shutdown } // module bbf-hardware-rpf-dpu
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