This module contains a collection of YANG definitions for supporting the Broadband Forum requirements on management of Single En...
Version: 2020-10-13
module bbf-selt { yang-version 1.1; namespace "urn:bbf:yang:bbf-selt"; prefix bbf-selt; include bbf-selt-base; include bbf-selt-pointers; include bbf-selt-pmd; include bbf-selt-pmd-control-body; include bbf-selt-pmd-status-body; include bbf-selt-pmd-profiles; include bbf-selt-pmd-profile-body; include bbf-selt-processing-profiles; include bbf-selt-processing-profile-body; include bbf-selt-result-parameters; include bbf-selt-pmd-measurement-parameter-body; include bbf-selt-processing-derived-parameter-body; 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 Single Ended Line Test (SELT) as defined in ITU-T G.996.2 and BBF TR-298. 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>"; } revision "2017-11-27" { description "Corrigendum 2 (fixes to the previous revision). * Approval Date: see revision date above. * Publication Date: 2018-01-19."; reference "TR-355c2: YANG Modules for FTTdp Management <https://www.broadband-forum.org/technical/download/ TR-355_Corrigendum-2.pdf>"; } revision "2017-03-13" { description "Corrigendum 1 (fixes to the initial revision). * Approval Date: see revision date above. * Publication Date: 2017-04-12."; reference "TR-355c1: YANG Modules for FTTdp Management <https://www.broadband-forum.org/technical/download/ TR-355_Corrigendum-1.pdf>"; } revision "2016-07-18" { description "Initial revision. * Approval Date: see revision date above. * Publication Date: 2016-08-05."; reference "TR-355: YANG Modules for FTTdp Management <https://www.broadband-forum.org/technical/download/ TR-355.pdf>"; } // features feature selt-p { description "Indicates support for Single Ended Line Test Processing (SELT-P) profiles."; reference "ITU-T G.996.2 annex B"; } feature extended-bandwidth-selt-uer { description "Indicates support for extended bandwidth Single Ended Line Test (SELT) for reporting Uncalibrated Echo Response (UER)."; } feature extended-bandwidth-selt-qln { description "Indicates support for extended bandwidth Single Ended Line Test (SELT) for reporting Quiet Line Noise (QLN)."; } feature extended-bandwidth-selt-tflog { description "Indicates support for extended bandwidth Single Ended Line Test (SELT) for reporting the logarithmic power transfer function Tflog(f)."; } // typedefs typedef pmd-function { type enumeration { enum "uer-measurement" { value 1; description "Triggers the Central Office (CO) Single Ended Line Test Physical Medium Dependent (SELT-PMD) to start a Uncalibrated Echo Response (UER) measurement."; reference "ITU-T G.996.2 clause A.2.3.1 (SELT-UME-C)"; } enum "qln-measurement" { value 2; description "Triggers the Central Office (CO) Single Ended Line Test Physical Medium Dependent (SELT-PMD) to start a Quiet Line Noise (QLN) measurement."; reference "ITU-T G.996.2 clause A.2.3.3 (SELT-QME-C)"; } } description "The Central Office (CO) Single Ended Line Test Physical Medium Dependent (SELT-PMD) function."; } typedef uer-measurement-duration { type uint8 { range "5..240"; } units "1 second"; description "This parameter is the maximum allowed time for Singe Ended Line Test (SELT) Uncalibrated Echo Response (UER) measurement, between the time of the start command written by the Single Ended Line Test Physical Medium Dependent Management Entity (SELT-PMD-ME), and the time the result is available for read operation by SELT-PMD-ME. NOTE - The above duration includes internal pre-processing and post-processing. It is configurable between 5 seconds and 240 seconds, in steps of 1 second."; reference "ITU-T G.996.2 clause A.2.1.1 (SELT-UER-MMD-C, SELT-UER-MMD-R)"; } typedef qln-measurement-duration { type uint8 { range "1..240"; } units "1 second"; description "This parameter is the maximum allowed time for Singe Ended Line Test (SELT) Quiet Line Noise (QLN) measurement, between the time of the start command written by the Single Ended Line Test Physical Medium Dependent Management Entity (SELT-PMD-ME), and the time the result is available for read operation by SELT-PMD-ME. NOTE - The above duration includes internal pre-processing and post-processing. It is configurable between 1 second and 240 seconds, in steps of 1 second."; reference "ITU-T G.996.2 clause A.2.1.2 (SELT-QLN-MMD-C, SELT-QLN-MMD-R)"; } typedef pmd-profile-ref { type leafref { path "/bbf-selt:selt/bbf-selt:profiles/bbf-selt:pmd-profile/bbf-selt:name"; } description "Used to reference a Physical Medium Dependent (PMD) profile."; } typedef pmd-result { type enumeration { enum "no-measurement-results-available" { value 0; description "No measurement results are available when no mesurement has been performed yet or after measurement results have been deleted."; } enum "measurement-failed-results-invalid" { value 1; description "The measurement results are invalid after the most recent measurement failed."; } enum "measurement-succeeded-results-valid" { value 2; description "The measurement results are valid after the most recent measurement succeeded."; } } description "The overall results of the SELT PMD measurement."; } typedef sub-carrier-index { type uint16 { range "0..8191"; } description "Identifies a sub-carrier."; } typedef per-sub-carrier-uint8 { type binary { length "0..8192"; } description "A binary type where each octet represents data belonging to a sub-carrier group. The first octet represents sub-carrier group 0 and the last octet represents the sub-carrier group (length - 1)."; } typedef per-sub-carrier-int32-tuple { type binary { length "0..65536"; } description "A binary type where each group of 8 octets represents a tuple. A tuple consists of two 4-octet groups and represents data belonging to a sub-carrier. The first tuple represents sub-carrier group 0 and the last tuple represents sub-carrier group (length/8 - 1). In each 4-octet group in the tuple, the most significant byte is loaded first. The order of the tuples is determined by the node to which this type is associated."; } typedef per-sub-carrier-uint16 { type binary { length "0..16384"; } description "A binary type where each pair of octets represents data belonging to a sub-carrier group. The first pair represents sub-carrier group 0 and the last represents sub-carrier group (length/2 - 1)."; } // objects container selt { description "Single Ended Line Test (SELT) configuration."; container profiles { description "Configuration profiles."; list pmd-profile { key "name"; description "A list of Physical Medium Dependent (PMD) profiles."; leaf name { type bbf-yang:string-ascii64; description "A name that uniquely identifies the profile."; } container c { description "Managed objects applicable to the Central Office (CO) Single Ended Line Test Physical Medium Dependent (SELT-PMD)."; leaf uer-measurement-duration { type uer-measurement-duration; description "The Uncalibrated Echo Response (UER) duration for the Single Ended Line Test Physical Medium Dependent (SELT-PMD)."; reference "ITU-T G.996.2 clause A.2.1.1 (SELT-UER-MMD-C, SELT-UER-MMD-R)"; } leaf qln-measurement-duration { type qln-measurement-duration; description "The Quiet Line Noise(QLN) duration for the Single Ended Line Test Physical Medium Dependent (SELT-PMD)."; reference "ITU-T G.996.2 clause A.2.1.2 (SELT-QLN-MMD-C, SELT-QLN-MMD-R)"; } } // container c container r { description "Managed objects applicable to the Customer Premises Equipment (CPE) Single Ended Line Test Physical Medium Dependent (SELT-PMD)."; leaf uer-measurement-duration { type uer-measurement-duration; description "The Uncalibrated Echo Response (UER) duration for the Single Ended Line Test Physical Medium Dependent (SELT-PMD)."; reference "ITU-T G.996.2 clause A.2.1.1 (SELT-UER-MMD-C, SELT-UER-MMD-R)"; } leaf qln-measurement-duration { type qln-measurement-duration; description "The Quiet Line Noise(QLN) duration for the Single Ended Line Test Physical Medium Dependent (SELT-PMD)."; reference "ITU-T G.996.2 clause A.2.1.2 (SELT-QLN-MMD-C, SELT-QLN-MMD-R)"; } } // container r } // list pmd-profile list processing-profile { key "name"; description "A list of processing profiles."; leaf name { type bbf-yang:string-ascii64; description "A name that uniquely identifies the profile."; } leaf capacity-estimate-calculation-enabling { type boolean; description "This parameter specifies if the Single Ended Line Test Processing (SELT-P) function shall perform the 'downstream capacity' and 'upstream capacity' estimations, if supported. This parameter is expressed as a boolean flag and takes the value 'false' if xDSL performance estimation is not required, true otherwise."; reference "ITU-T G.996.2 clause B.2.1.1 (CECE)"; } container downstream { description "Data nodes applicable in the downstream direction."; container capacity-estimate-signal-psd { description "This configuration parameter defines the Power Spectral Density (PSD) template of the transmit signal to be used in capacity estimate evaluation. The PSD template CAP-SIGNALPSD shall be specified through a set of breakpoints. Each breakpoint shall consist of a frequency index, tn, and a signal PSD level (expressed in dBm/Hz). The parameter shall be a set of breakpoints represented by [(t1, PSD1), (t2, PSD2), ..., (tN, PSDN)], where t1 and tN represent, respectively, the lower frequency of the lowest band over which the capacity estimate is to be calculated, and the highest frequency of highest band over which the capacity estimate is to be calculated. In the case of an estimation of capacity for a multi-band xDSL, the set of breakpoints shall describe the stopbands situated inbetween passbands. NOTE - Stopbands may be described as brickwall stopbands using the lowest valid value (-200 dBm/Hz) or may be described more elaborately. The breakpoints shall be defined so that tn < tn+1 for n = 1 to N - 1. The frequency fn corresponding to the index tn can be found as: fn = tn * Df. The value of Df = 4.3125 kHz and is independent of the subcarrier spacing used for the DMT modulation of the xDSL. The range of valid values for index tn is 0 to 8191 in steps of 1. The range of valid values for PSD is -30 to -200 dBm/Hz in steps of 0.1 dBm/Hz. The maximum number of breakpoints in downstream is 48, and in upstream 48."; reference "ITU-T G.996.2 clause B.2.1.2 (CAP-SIGNALPSD)"; list psd { key "t"; max-elements 48; description "A list of Power Spectral Density (PSD) values per breakpoint, t."; leaf t { type uint16 { range "0..8191"; } description "The breakpoint index."; } leaf psd { type int16 { range "-2000..-300"; } units "0.1 dBm/Hz"; mandatory true; description "The Power Spectral Density (PSD) value."; } } // list psd } // container capacity-estimate-signal-psd container capacity-estimate-noise-psd { description "This configuration parameter defines the Power Spectral Density (PSD) template of the received noise to be used in capacity estimate evaluation. The PSD template CAP-NOISEPSD shall be specified through a set of breakpoints. Each breakpoint shall consist of a frequency index tn and a signal PSD level (expressed in dBm/Hz). The parameter shall be a set of breakpoints that are represented by [(t1, PSD1), (t2, PSD2), ... ,(tN, PSDN)], where t1 and tN are, respectively, the lower frequency of the lowest band over which the capacity estimate is to be calculated, and the highest frequency of highest band over which the capacity estimate is to be calculated. In the case of an estimation of capacity for a multi-band xDSL, with the CAP-SIGNALPSD stopbands described as brickwall stopbands, the set of breakpoints for CAP-NOISEPSD is not required to describe the noise in the stopbands situated inbetween passbands. In case the CAP-SIGNALPSD stopbands are not described as brickwall stopbands, the set of breakpoints for CAP-NOISEPSD shall describe the noise in the stopbands situated inbetween passbands. The breakpoints shall be defined so that tn < tn+1 for n = 1 to N - 1. The frequency fn corresponding to the index tn can be found as: fn = tn * Df. The value of Df = 4.3125 kHz and is independent of the subcarrier spacing used for the DMT modulation of the xDSL. The range of valid values for index tn is 0 to 8191, in steps of 1. The range of valid values for PSD is -30 to -200 dBm/Hz, in steps of 0.1 dBm/Hz The maximum number of breakpoints in downstream is 128, and in upstream 128."; reference "ITU-T G.996.2 clause B.2.1.3 (CAP-NOISEPSD)"; list psd { key "t"; max-elements 128; description "A list of Power Spectral Density (PSD) values per breakpoint, t."; leaf t { type uint16 { range "0..8191"; } description "The breakpoint index."; } leaf psd { type int16 { range "-2000..-30"; } units "0.1 dBm/Hz"; mandatory true; description "The Power Spectral Density (PSD) value."; } } // list psd } // container capacity-estimate-noise-psd leaf capacity-estimate-target-noise-margin { type uint16 { range "0..310"; } units "0.1 dB"; description "This is the noise margin to be used in capacity estimate evaluation, relative to a Bit Error Rate (BER) requirement of 1E-7. The range of valid values for CAP-TARSNRM expressed in dB is 0 to 31 dB, in steps of 0.1 dB."; reference "ITU-T G.996.2 clause B.2.1.4 (CAP-TARSNRM)"; } } // container downstream container upstream { description "Data nodes applicable in the upstream direction."; container capacity-estimate-signal-psd { description "This configuration parameter defines the Power Spectral Density (PSD) template of the transmit signal to be used in capacity estimate evaluation. The PSD template CAP-SIGNALPSD shall be specified through a set of breakpoints. Each breakpoint shall consist of a frequency index, tn, and a signal PSD level (expressed in dBm/Hz). The parameter shall be a set of breakpoints represented by [(t1, PSD1), (t2, PSD2), ..., (tN, PSDN)], where t1 and tN represent, respectively, the lower frequency of the lowest band over which the capacity estimate is to be calculated, and the highest frequency of highest band over which the capacity estimate is to be calculated. In the case of an estimation of capacity for a multi-band xDSL, the set of breakpoints shall describe the stopbands situated inbetween passbands. NOTE - Stopbands may be described as brickwall stopbands using the lowest valid value (-200 dBm/Hz) or may be described more elaborately. The breakpoints shall be defined so that tn < tn+1 for n = 1 to N - 1. The frequency fn corresponding to the index tn can be found as: fn = tn * Df. The value of Df = 4.3125 kHz and is independent of the subcarrier spacing used for the DMT modulation of the xDSL. The range of valid values for index tn is 0 to 8191 in steps of 1. The range of valid values for PSD is -30 to -200 dBm/Hz in steps of 0.1 dBm/Hz. The maximum number of breakpoints in downstream is 48, and in upstream 48."; reference "ITU-T G.996.2 clause B.2.1.2 (CAP-SIGNALPSD)"; list psd { key "t"; max-elements 48; description "A list of Power Spectral Density (PSD) values per breakpoint, t."; leaf t { type uint16 { range "0..8191"; } description "The breakpoint index."; } leaf psd { type int16 { range "-2000..-300"; } units "0.1 dBm/Hz"; mandatory true; description "The Power Spectral Density (PSD) value."; } } // list psd } // container capacity-estimate-signal-psd container capacity-estimate-noise-psd { description "This configuration parameter defines the Power Spectral Density (PSD) template of the received noise to be used in capacity estimate evaluation. The PSD template CAP-NOISEPSD shall be specified through a set of breakpoints. Each breakpoint shall consist of a frequency index tn and a signal PSD level (expressed in dBm/Hz). The parameter shall be a set of breakpoints that are represented by [(t1, PSD1), (t2, PSD2), ... ,(tN, PSDN)], where t1 and tN are, respectively, the lower frequency of the lowest band over which the capacity estimate is to be calculated, and the highest frequency of highest band over which the capacity estimate is to be calculated. In the case of an estimation of capacity for a multi-band xDSL, with the CAP-SIGNALPSD stopbands described as brickwall stopbands, the set of breakpoints for CAP-NOISEPSD is not required to describe the noise in the stopbands situated inbetween passbands. In case the CAP-SIGNALPSD stopbands are not described as brickwall stopbands, the set of breakpoints for CAP-NOISEPSD shall describe the noise in the stopbands situated inbetween passbands. The breakpoints shall be defined so that tn < tn+1 for n = 1 to N - 1. The frequency fn corresponding to the index tn can be found as: fn = tn * Df. The value of Df = 4.3125 kHz and is independent of the subcarrier spacing used for the DMT modulation of the xDSL. The range of valid values for index tn is 0 to 8191, in steps of 1. The range of valid values for PSD is -30 to -200 dBm/Hz, in steps of 0.1 dBm/Hz The maximum number of breakpoints in downstream is 128, and in upstream 128."; reference "ITU-T G.996.2 clause B.2.1.3 (CAP-NOISEPSD)"; list psd { key "t"; max-elements 128; description "A list of Power Spectral Density (PSD) values per breakpoint, t."; leaf t { type uint16 { range "0..8191"; } description "The breakpoint index."; } leaf psd { type int16 { range "-2000..-30"; } units "0.1 dBm/Hz"; mandatory true; description "The Power Spectral Density (PSD) value."; } } // list psd } // container capacity-estimate-noise-psd leaf capacity-estimate-target-noise-margin { type uint16 { range "0..310"; } units "0.1 dB"; description "This is the noise margin to be used in capacity estimate evaluation, relative to a Bit Error Rate (BER) requirement of 1E-7. The range of valid values for CAP-TARSNRM expressed in dB is 0 to 31 dB, in steps of 0.1 dB."; reference "ITU-T G.996.2 clause B.2.1.4 (CAP-TARSNRM)"; } } // container upstream } // list processing-profile } // container profiles } // container selt } // module bbf-selt
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