diff --git a/yang-models/_3gpp-5g-common-yang-types.yang b/yang-models/_3gpp-5g-common-yang-types.yang index 08b8fc7211dd4b505c121951bbdd93d1e606a462..75786fb27af3923b91782746359c9cd448eb42fc 100755 --- a/yang-models/_3gpp-5g-common-yang-types.yang +++ b/yang-models/_3gpp-5g-common-yang-types.yang @@ -3,7 +3,6 @@ module _3gpp-5g-common-yang-types { namespace "urn:3gpp:sa5:_3gpp-5g-common-yang-types"; prefix "types5g3gpp"; - import ietf-yang-types { prefix yang; } import _3gpp-common-yang-types { prefix types3gpp; } @@ -15,6 +14,7 @@ module _3gpp-5g-common-yang-types { TTA, TTC). All rights reserved."; reference "3GPP TS 28.541"; + revision 2024-10-06 { reference CR-1389; } revision 2024-05-24 { reference CR-1273 ; } revision 2023-09-18 { reference CR-1043 ; } revision 2023-05-10 { reference CR-0916; } @@ -22,6 +22,46 @@ module _3gpp-5g-common-yang-types { revision 2020-11-05 { reference CR-0412 ; } revision 2019-10-20 { reference "Initial version."; } + grouping NcgiGrp { + description "Represents the Ncgi datatype"; + + list plmnId { + description "This attribute represents a PLMN Identity."; + min-elements 1; + max-elements 1; + key "idx"; + leaf idx { type uint32 ; } + uses types3gpp:PLMNId ; + } + + leaf nrCellId { + type string; + mandatory true; + description "This attribute represents NR Cell Identity. + It's a 36-bit string identifying an NR Cell Id as specified in + clause 9.3.1.7 of TS 38.413, in hexadecimal representation. Each + character in the string shall take a value of + '0' to '9', 'a' to 'f' or 'A' to 'F' and shall represent 4 bits. + The most significant character representing the 4 most significant + bits of the Cell Id shall appear first in the string, and the + character representing the 4 least significant bit of the + Cell Id shall appear last in the string. + + Pattern: '^[A-Fa-f0-9]{9}$' + + Example: + An NR Cell Id 0x225BD6007 shall be encoded as '225BD6007'."; + } + + leaf nId { + type string; + mandatory true; + description "Network Identity; Shall be present if PlmnIdNid identifies + an SNPN (see clauses 5.30.2.3, 5.30.2.9, 6.3.4, and 6.3.8 in + 3GPP TS 23.501."; + } + } + typedef NRTAC { type string; description "This holds the identity of the common Tracking Area Code diff --git a/yang-models/_3gpp-5gc-nrm-amffunction.yang b/yang-models/_3gpp-5gc-nrm-amffunction.yang index 310e71835b97e066a22d95ba86e9e3f2b67a90be..b28a1a52179696bd6ca57b02c45a3c4d303cf8a2 100755 --- a/yang-models/_3gpp-5gc-nrm-amffunction.yang +++ b/yang-models/_3gpp-5gc-nrm-amffunction.yang @@ -8,7 +8,10 @@ module _3gpp-5gc-nrm-amffunction { import _3gpp-common-yang-types { prefix types3gpp; } import _3gpp-5g-common-yang-types { prefix types5g3gpp; } import ietf-inet-types { prefix inet; } + import ietf-yang-types { prefix yang; } import _3gpp-common-top { prefix top3gpp; } + import _3gpp-nr-nrm-gnbcuupfunction { prefix gnbcuup3gpp ;} + import _3gpp-5gc-nrm-nfprofile { prefix nfp3gpp; } organization "3gpp SA5"; contact "https://www.3gpp.org/DynaReport/TSG-WG--S5--officials.htm?Itemid=464"; @@ -17,16 +20,16 @@ module _3gpp-5gc-nrm-amffunction { TTA, TTC). All rights reserved."; reference "3GPP TS 28.541 5G Network Resource Model (NRM)"; + revision 2024-10-06 { reference CR-1389; } revision 2024-04-04 { reference CR-1139; } revision 2023-09-18 { reference CR-1043 ; } revision 2022-01-07 { reference CR-0643; } revision 2020-11-06 { reference CR-0412 ; } revision 2019-10-25 { reference "S5-194457 S5-193518"; } - revision 2019-05-31 { reference "Ericsson refactoring."; } revision 2018-08-07 { reference "Initial revision"; } - - grouping GlobalRanNodeIDGrp{ + + grouping NTNGlobalRanNodeIDGrp{ list pLMNId { description "The PLMN Identifier is composed of @@ -116,14 +119,13 @@ module _3gpp-5gc-nrm-amffunction { } } - grouping satelliteBackhaulInfo{ + grouping SatelliteBackhaulInfoGrp{ description "Defines information related to satellite backhaul category and corresponding information of gNB."; reference "3GPP TS 23.501"; - list GlobalRanNodeID{ + list nTNGlobalRanNodeID{ description "Unique identifier of an NG-RAN node."; - uses GlobalRanNodeIDGrp; min-elements 1; max-elements 1; leaf GlobalRanNodeIDValue{ @@ -131,6 +133,7 @@ module _3gpp-5gc-nrm-amffunction { description "this relies on the choice of GlobalRanNodeID"; } key "GlobalRanNodeIDValue"; + uses NTNGlobalRanNodeIDGrp; } leaf satelliteBackhaulCategory{ @@ -160,20 +163,309 @@ module _3gpp-5gc-nrm-amffunction { } } + grouping GUAMInfoGrp { + description "Represents the GUAMInfo datatype."; + + list pLMNId { + description "This attribute represents a PLMN Identity."; + min-elements 1; + max-elements 1; + key "idx"; + leaf idx { type uint32 ; } + uses types3gpp:PLMNId ; + } + + leaf aMFIdentifier { + type int64; + description "The AMFI is constructed from an AMF Region ID, an + AMF Set ID and an AMF Pointer. The AMF Region ID identifies the region, + the AMF Set ID uniquely identifies the AMF Set within the AMF Region, + and the AMF Pointer uniquely identifies the AMF within the AMF Set. + (Ref. 3GPP TS 23.003)"; + } + } + + grouping N2InterfaceAmfInfoGrp { + description "Represents the N2InterfaceAmfInfo datatype."; + + leaf-list ipv4EndpointAddress { + type inet:ipv4-address; + min-elements 1; + description "This attribute represents available AMF endpoint + IPv4 address(es) for N2."; + } + + leaf-list ipv6EndpointAddress { + type inet:ipv6-address; + min-elements 1; + description "This attribute represents available AMF endpoint + IPv6 address(es) for N2."; + } + + leaf amfName { + type inet:host-name; + description "This attribute represents AMF Name FQDN as defined in + clause 28.3.2.5 of TS 23.003."; + } + } + + grouping BlockedLocationInfoGrp { + description "Repreasents the datatype BlockedLocationInfo"; + + list blockedLocation { + description "This provides the geographical location at which the PLMN + are not allowed in case of NTN."; + min-elements 1; + max-elements 1; + key "mnc mcc"; + uses types3gpp:PLMNId ; + } + + list blockedDurWindow { + description "This provides the time durations for which the PLMN are + not allowed at a given location in case of NTN"; + key idx; + leaf idx { type uint32 ; } + uses types3gpp:TimeWindowGrp; + } + + list blockedSlice { + description "This provides the slice for which the access is + not allowed at a given location in case of NTN. "; + max-elements 1; + key idx; + unique "sst sd"; + leaf idx { type uint32; } + uses types5g3gpp:SNssai; + } + } + + grouping NTNPLMNRestrictionsInfoGrp { + description "Represents the datatype NTNPLMNRestrictionsInfo"; + + list pLMNId { + description "This attribute represents a PLMN Identity."; + min-elements 1; + max-elements 1; + key "mnc mcc"; + uses types3gpp:PLMNId ; + } + + list blockedLocationInfoList { + description "This defines the information related with the location + for which the access restrictions are to be applied in case of NTN."; + key "idx"; + leaf idx { type uint32 ; } + uses BlockedLocationInfoGrp; + } + } + + grouping NtnLocationInfoGrp { + description "Represents the NtnLocationInfo datatype."; + + list location { + description "This defines the Location (geographical area) under + consideration to which the satellite coverage info belongs"; + key idx; + leaf idx { type uint32 ; } + uses types3gpp:GeoAreaGrp; + } + + list availabilityWindows { + description "This attribute defines the list of time windows at which + the satellite coverage will be available for this location. + Either availabilityWindows or nonAvailabilityWindows shall be present."; + key idx; + leaf idx { type uint32 ; } + uses types3gpp:TimeWindowGrp; + } + + list nonAvailabilityWindows { + description "This attribute defines the list of time windows at which + the satellite coverage will not be available for this location. + Either availabilityWindows or nonAvailabilityWindows shall be present."; + key idx; + leaf idx { type uint32 ; } + uses types3gpp:TimeWindowGrp; + } + } + + grouping SatelliteCoverageInfoGrp { + description "Represents the datatype SatelliteCoverageInfo"; + + leaf nRSatelliteRATtype { + type enumeration { + enum NRLEO; + enum NRMEO; + enum NRGEO; + enum NROTHERSAT; + } + description "This attribute defines the RAT Type for NR satellite + access."; + } + + list locationInfo { + description "This attribute defines the information about location and + corresponding time windows for which the satellite coverage will be + available or unavailable."; + key idx; + leaf idx { type uint32 ; } + uses NtnLocationInfoGrp; + } + } + + grouping SliceExpiryInfoGrp { + description "Represents the datatype SliceExpiryInfo"; + + list pLMNInfo { + min-elements 1; // ??? + config false; + description "It defines the PLMN(s) of a Network Function. "; + key idx; + leaf idx { type uint32 ; } + uses types5g3gpp:PLMNInfo; + } + + leaf expiryTime { + type yang:date-and-time; + config false; + description "This attribute provides information about the time at + which the slice is scheduled to be expired as it is not required + anymore. + This attribute will be set based on the sliceAvailability coming as + part of ServiceProfile."; + } + } + + grouping MappedCellIdInfoGrp { + description "Represents the datatype MappedCellIdInfo"; + + list ntnGeoArea { + description "This attribute indicates a specific geographical location + mapped to Mapped Cell ID(s)."; + min-elements 1; + max-elements 1; + key "idx"; + leaf idx { type uint32 ; } + uses types3gpp:GeoAreaGrp; + } + + list mappedCellId { + description "This attribute is in format of NCGI to indicate a fixed + geographical area (See subclause 16.14.5 in TS 38.300"; + min-elements 1; + max-elements 1; + key "idx"; + leaf idx { type uint32 ; } + uses types5g3gpp:NcgiGrp; + } + } + + grouping AmfInfoGrp { + description "Represents the data type AmfInfo."; + + leaf amfRegionId { + type int64; + mandatory true; + description "It represents the AMF Region ID, which identifies the + region. AllowedValues: defined in subclause 2.10.1 of 3GPP TS 23.003 "; + } + + leaf amfSetId { + type int64; + mandatory true; + description "It represents the AMF Set ID, which is uniquely identifies + the AMF Set within the AMF Region. + allowedValues: defined in subclause 2.10.1 of 3GPP TS 23.003"; + } + + list taiList { + min-elements 1; + description "The list of TAIs."; + key "idx"; + leaf idx { type uint32 ; } + uses gnbcuup3gpp:TAIGrp; + } + + list taiRangeList { + min-elements 1; + description "The range of TAIs."; + key "idx"; + leaf idx { type uint32 ; } + uses nfp3gpp:TaiRangeGrp; + } + + list gUAMIdList { + description "List of supported Globally Unique AMF Ids (GUAMIs)."; + config false; + min-elements 1; + key "idx"; + leaf idx { type uint32 ; } + uses GUAMInfoGrp; + } + + list backupInfoAmfFailure { + description "List of GUAMIs for which the AMF acts as a backup for AMF + failure."; + min-elements 1; + key "idx"; + leaf idx { type uint32 ; } + uses GUAMInfoGrp; + } + + list backupInfoAmfRemoval { + description "List of GUAMIs for which the AMF acts as a backup for + planned AMF removal."; + min-elements 1; + key "idx"; + leaf idx { type uint32 ; } + uses GUAMInfoGrp; + } + + list n2InterfaceAmfInfo { + description "This attribute represents the N2 interface information of + the AMF. "; + max-elements 1; + key "idx"; + leaf idx { type uint32 ; } + uses N2InterfaceAmfInfoGrp; + } + + leaf amfOnboardingCapability { + type boolean; + default false; + description "This attribute indicates the AMF supports SNPN Onboarding + capability. This is used for the case of Onboarding of UEs for SNPNs + (see TS 23.501, clause 5.30.2.10). + - FALSE: AMF does not support SNPN Onboarding; + - TRUE: AMF supports SNPN Onboarding."; + } + + leaf highLatencyCom { + type boolean; + description "This attribute indicates whether the AMF supports High + Latency communication (e.g. for NR RedCap UE). This is used for CP NF + to discover AMF supporting High Latency communication (see TS 23.501, + clause 6.3.5). + - FALSE: AMF does not support High Latency communication e.g. for + NR RedCap UE; + - TRUE: AMF supports High Latency communication e.g. for NR RedCap UE;"; + } + } + grouping AMFFunctionGrp { description "Represents the AMFFunction IOC"; uses mf3gpp:ManagedFunctionGrp; - list pLMNIdList { + list pLMNInfoList { min-elements 1; - description "A list of PLMN identifiers (Mobile Country Code and Mobile - Network Code)."; - key "mcc mnc"; - uses types3gpp:PLMNId; + description "It defines the PLMN(s) of a Network Function. "; + key idx; + leaf idx { type uint32 ; } + uses types5g3gpp:PLMNInfo; } container aMFIdentifier { - //presence true; description "An AMF identifier, comprising an AMF Region ID, an AMF Set ID and an AMF Pointer."; uses types3gpp:AmfIdentifier; @@ -185,15 +477,14 @@ module _3gpp-5gc-nrm-amffunction { type inet:domain-name; } - list sNSSAIList { - min-elements 1; - description "List of S-NSSAIs the managed object is capable of supporting. - (Single Network Slice Selection Assistance Information) - An S-NSSAI has an SST (Slice/Service type) and an optional SD - (Slice Differentiator) field."; - reference "3GPP TS 23.003"; - key "sd sst"; - uses types5g3gpp:SNssai; + leaf-list cNSIIdList { + type string; + description "It is a set of NSI ID. NSI ID is an identifier for + identifying the Core Network part of a Network Slice instance when + multiple Network Slice instances of the same Network Slice are deployed, + and there is a need to differentiate between them in the 5GC. + See NSI ID definition in clause 3.1 of TS 23.501 and + subclause 6.1.6.2.7 of TS 29.531"; } list managedNFProfile { @@ -213,6 +504,39 @@ module _3gpp-5gc-nrm-amffunction { uses types5g3gpp:CommModel; } + list amfInfo { + max-elements 1; + description "This attribute represents information of an AMF + NF Instance."; + key "idx"; + leaf idx { type uint32 ; } + uses AmfInfoGrp; + } + + list nTNPLMNRestrictionsList { + description "This attribute defines the location restrictions per PLMN + that relates to non-terrestrial network access."; + key "idx"; + leaf idx { type uint32 ; } + uses NTNPLMNRestrictionsInfoGrp; + } + + list satelliteCoverageInfoList { + description "This attribute defines the information related to NR + Satellite RAT type and corresponding information of satellite coverage"; + key "idx"; + leaf idx { type uint32 ; } + uses SatelliteCoverageInfoGrp; + } + + list sliceExpiryInfo { + description "This provides information related to a network slice + validity."; + key "idx"; + leaf idx { type uint32 ; } + uses SliceExpiryInfoGrp; + } + list satelliteBackhaulInfoList{ description "Specifies a list of satellite backhaul information. It can be used by NF and NF services."; @@ -222,7 +546,7 @@ module _3gpp-5gc-nrm-amffunction { } key "GlobalRanNodeIDValue"; min-elements 1; - uses satelliteBackhaulInfo; + uses SatelliteBackhaulInfoGrp; } leaf-list mdtUserConsentReqList { @@ -243,12 +567,30 @@ module _3gpp-5gc-nrm-amffunction { Any MDT measurement, whose name is not specified in this list, is not subject to user consent at MDT activation."; } + + list mappedCellIdInfoList { + description "It provides the list of mapping between GEO area and + Mapped Cell ID."; + key "idx"; + leaf idx { type uint32 ; } + uses MappedCellIdInfoGrp; + } + + leaf aMFSetRef { + type types3gpp:DistinguishedName; + description "This is the DN of AMFSet"; + } } augment "/me3gpp:ManagedElement" { list AMFFunction { - description "5G Core AMF Function"; - reference "3GPP TS 28.541"; + description "This IOC represents the AMF functionality in 5GC. + For more information about the AMF, see 3GPP TS 23.501. + + The attribute sliceExpiryInfo is used when the validity information of + a network slice need to be configured. The attribute + sliceExpiryInfo.pLMNInfo indicates the network slice to which the + validity information applies."; key id; uses top3gpp:Top_Grp; container attributes { diff --git a/yang-models/_3gpp-common-filemanagement.yang b/yang-models/_3gpp-common-filemanagement.yang index 1e03291afae984f4b8f63e2155f954999b59d817..d9b5afa663bd2a523b1d14319f6660f8d4aa57fb 100644 --- a/yang-models/_3gpp-common-filemanagement.yang +++ b/yang-models/_3gpp-common-filemanagement.yang @@ -8,6 +8,7 @@ module _3gpp-common-filemanagement { import _3gpp-common-yang-types { prefix types3gpp; } import _3gpp-common-yang-extensions { prefix yext3gpp; } import _3gpp-common-managed-element { prefix me3gpp; } + import ietf-inet-types { prefix inet; } organization "3GPP SA5"; contact "https://www.3gpp.org/DynaReport/TSG-WG--S5--officials.htm?Itemid=464"; @@ -17,6 +18,7 @@ module _3gpp-common-filemanagement { TTA, TTC). All rights reserved."; reference "3GPP TS 28.623 Generic Network Resource Model (NRM)"; + revision 2024-11-07 { reference CR-0473 ; } revision 2023-09-18 { reference CR-0271 ; } revision 2023-02-14 { reference CR-0234; } revision 2022-10-24 { reference CR-0196; } @@ -52,12 +54,22 @@ module _3gpp-common-filemanagement { uses top3gpp:Top_Grp; leaf fileLocation { - description "Provides the location of a file. - allowedValues: File URI (See RFC 8089)"; - mandatory true; - type string; + type inet:uri ; yext3gpp:notNotifyable; yext3gpp:inVariant; + description "Location of the file incl. the file transfer protocol, + and the file name for the case the file content cannot be retrieved + by reading the 'fileContent' attribute. + + The allowed file transfer protocols are: + - sftp + - ftpes + - https + + Examples: + 'sftp://companyA.com/datastore/fileName.xml', + 'https://companyA.com/ManagedElement=1/Files=1/File=1' + "; } leaf notificationRecipientAddress { diff --git a/yang-models/_3gpp-common-managed-element.yang b/yang-models/_3gpp-common-managed-element.yang index b9c7fa51c4345e26853cb158bd6629054c059956..eaa8dbdb7299fffaca6582635278c176603e04be 100755 --- a/yang-models/_3gpp-common-managed-element.yang +++ b/yang-models/_3gpp-common-managed-element.yang @@ -34,7 +34,7 @@ module _3gpp-common-managed-element { 3GPP TS 28.620 Umbrella Information Model (UIM)"; - revision 2024-08-12 { reference CR-1336 ; } + revision 2024-10-01 { reference "CR-0437,CR-0438" ; } revision 2024-01-30 { reference CR-0328 ; } revision 2023-11-14 { reference CR-0305 ; } revision 2023-09-18 { reference CR-0271 ; } diff --git a/yang-models/_3gpp-common-measurements.yang b/yang-models/_3gpp-common-measurements.yang index e2cf97b8a3e946cdd07ac0bab2727e1d71104a5c..a89fc558fbf40cf87cdbe569d2510d8f8491a714 100755 --- a/yang-models/_3gpp-common-measurements.yang +++ b/yang-models/_3gpp-common-measurements.yang @@ -56,6 +56,7 @@ module _3gpp-common-measurements { Integration Reference Point (IRP); Information Service (IS)"; + revision 2024-11-06 { reference CR-0487; } revision 2024-05-06 { reference CR-0359; } revision 2024-02-24 { reference CR-0346; } revision 2023-11-18 { reference "CR-0299 CR-0305"; } @@ -187,6 +188,7 @@ module _3gpp-common-measurements { grouping SupportedPerfMetricGroupGrp { list SupportedPerfMetricGroups { config false; + key idx; description "Captures a group of supported performance metrics and associated parameters related to their production and reporting. A SupportedPerfMetricGroup attribute which is part of an MOI may @@ -195,6 +197,8 @@ module _3gpp-common-measurements { can specify supported metrics for contained ManagedFunctions like a GNBDUFunction."; + leaf idx { type uint32; } + leaf-list performanceMetrics { type string; min-elements 1; diff --git a/yang-models/_3gpp-common-qmcjob.yang b/yang-models/_3gpp-common-qmcjob.yang index bd46a03606da1467dab086579490ab72717290d9..9ae62e2144a9c410553de03eb57f14a0b269bcda 100644 --- a/yang-models/_3gpp-common-qmcjob.yang +++ b/yang-models/_3gpp-common-qmcjob.yang @@ -27,6 +27,7 @@ module _3gpp-common-qmcjob { Integration Reference Point (IRP); Information Service (IS)"; + revision 2024-11-05 { reference "CR-0470"; } revision 2023-09-18 { reference CR-0271 ; } revision 2023-02-14 { reference "CR-0234"; } revision 2022-11-04 { reference "CR-0215"; } @@ -49,12 +50,8 @@ module _3gpp-common-qmcjob { list areaScope { key "idx"; leaf idx { type uint32 ; } - description "It specifies the area where data shall be collected. - List of eNB/list of gNB/eNB/gNB for RLF or RCEF. - List of cells or Tracking Area for QMC. - Cell, TA, LA, RA are mutually exclusive."; - reference "Clause 5.10.2 of 3GPP TS 32.422"; - + description "It defines the area scope of QoE, which is specified + in clause 5.4 of TS 28.405."; uses trace3gpp:AreaScopeGrp; } @@ -173,12 +170,15 @@ module _3gpp-common-qmcjob { producer. For details of Management Based Activation of QoE Measurement Collection see clause 4.5 and for details of Signalling Based Activation of QoE Measurement Collection see clause 4.6 of TS 28.405. - The attributes areaScope and pLMNTarget are only relevant when + The attribute pLMNTarget is only relevant when Management Based Activation is used and the attribute qoETarget is only relevant when Signalling Based Activation is used. All other attributes are common for both Management Based Activation and Signalling Based Activation. + The areaScope attribute defines the area scope of QoE, which is + specified in clause 5.4 of TS 28.405. + When a MnS consumer wishes to deactivate a QMC Job, the MnS consumer shall delete the corresponding QMCJob instance. NOTE: If the reporting is ongoing, when a request to delete a QMCJob @@ -189,43 +189,7 @@ module _3gpp-common-qmcjob { jobId can be used to associate multiple QMCJob instances. For example, it is possible to configure the same jobId value for multiple QMCJob instances required to produce the data (e.g. Streaming services and - MTSI reports) for a specific network analysis. - The QoE Measurement Collection provides capability for collecting QoE - information from: - - UEs which are in the specified area in case of Management Based - Activation or - - an individual UE in case of Signalling Based Activation. - The QoE Measurement Collection enables collection of application layer - from the UE for specified end user service type. The supported service - types are: - - Streaming services, see TS 26.247. - - MTSI services, see TS 26.114. - - VR services, see TS 26.118. - A QMCJob instance represents the job for collecting QoE measurements - according to the job parameters. For details of the QoE measurement - collection configuration parameters see clause 5 of TS 28.405. A QMCJob - instance can be name-contained by SubNetwork or ManagedElement. - A QMC Job is activated by creating a QMCJob object instance in the - MnS producer. For details of Management Based Activation of QoE - Measurement Collection see clause 4.5 and for details of Signalling - Based Activation of QoE Measurement Collection see - clause 4.6 of TS 28.405. The attributes areaScope and pLMNTarget are - only relevant when Management Based Activation is used and the - attribute qoETarget is only relevant when Signalling Based Activation - is used. All other attributes are common for both Management Based - Activation and Signalling Based Activation. - - When a MnS consumer wishes to deactivate a QMC Job, the MnS consumer - shall delete the corresponding QMCJob instance. - NOTE: If the reporting is ongoing, when a request to delete a QMCJob - instance is received, the reporting does not end. The QMCJob instance - is deleted, when the last reporting for the QMC Job expires. - - The jobId attribute presents the job identifier of a QMCJob instance. - The jobId can be used to associate multiple QMCJob instances. - example, it is possible to configure the same jobId value for multiple - QMCJob instances required to produce the data (e.g. Streaming services - and MTSI reports) for a specific network analysis."; + MTSI reports) for a specific network analysis."; key id; uses top3gpp:Top_Grp; container attributes { diff --git a/yang-models/_3gpp-common-trace.yang b/yang-models/_3gpp-common-trace.yang index bf194a6ea0d3fdfd133a3927bf33a6ecae124030..d27c56607e887718e9f49838fab34abcc26359cf 100755 --- a/yang-models/_3gpp-common-trace.yang +++ b/yang-models/_3gpp-common-trace.yang @@ -25,6 +25,8 @@ module _3gpp-common-trace { Integration Reference Point (IRP); Information Service (IS)" ; + revision 2024-11-05 { reference "CR-0470" ; } + revision 2024-10-06 { reference "CR-0459"; } revision 2024-08-06 { reference "CR-0376 CR-0378 CR-0420"; } revision 2024-05-12 { reference "CR-0401"; } revision 2024-05-06 { reference CR-0359; } @@ -106,9 +108,7 @@ module _3gpp-common-trace { grouping AreaScopeGrp { description "Represents the AreaScope dataType. - This <> defines the area scope of MDT and QoE. - The Area Scope for MDT is specified in clause 5.10.2 of TS 32.422. - The Area Scope for QoE is specified in clause 5.4 of TS 28.405"; + This <> defines an area scope"; choice AreaScopeChoice { leaf-list eutraCellIdList { @@ -559,7 +559,7 @@ module _3gpp-common-trace { } } - leaf-list listOfNETypes { + leaf-list listOfNeTypes { type enumeration { enum MSC_SERVER; enum SGSN; @@ -680,15 +680,15 @@ module _3gpp-common-trace { -reportingTrigger: conditional for M1 in LTE or NR and M1/M2 in UMTS, -eventThreshold: conditional for A2 event reporting or A2 event triggered periodic reporting, - -collectionPeriodRrmNR: conditional for M4 and M5 in NR, + -collectionPeriodRRMNR: conditional for M4 and M5 in NR, -collectionPeriodM6NR: conditional for M6 in NR, -collectionPeriodM7NR: conditional for M7 in NR, - -collectionPeriodRrmLte (conditional for M3 in LTE), + -collectionPeriodRRMLTE (conditional for M3 in LTE), -measurementPeriodLTE (conditional for M4 and M5 in LTE), - -collectionPeriodM6Lte (conditional for M6 in LTE), - -collectionPeriodM7Lte (conditional for M7 in LTE), - -collectionPeriodRrmUmts (conditional for M4 and M5 in UMTS), - -measurementPeriodUmts (conditional for M6 and M7 in UMTS), + -collectionPeriodM6LTE (conditional for M6 in LTE), + -collectionPeriodM7LTE (conditional for M7 in LTE), + -collectionPeriodRRMUMTS (conditional for M4 and M5 in UMTS), + -measurementPeriodUMTS (conditional for M6 and M7 in UMTS), -measurementQuantity (conditional for 1F event reporting), -beamLevelMeasurement (conditional for M1 in NR), -excessPacketDelayThresholds (conditional for M6 UL measurement in NR). @@ -726,8 +726,8 @@ module _3gpp-common-trace { configuration, see TS 38.321, TS 36.321 and TS 38.331, TS 36.331. For measurement M4 in UMTS, reporting is either according to RRM configuration, see TS 25.321 and TS 25.331 or periodic or event - triggered periodic using parameter collectionPeriodRrmUmts and - eventThresholdUphUmts. + triggered periodic using parameter collectionPeriodRRMUMTS and + eventThresholdUphUMTS. - For measurement M3 in UMTS, the reporting is done upon availability, see TS 37.320. @@ -736,9 +736,9 @@ module _3gpp-common-trace { M3, M4, M5, M6 and M7 in LTE and for measurements M5, M6 and M7 in UMTS periodical reporting is applied. The configurable parameter is the interval between two measurements (collectionPeriodRrmNr, - collectionPeriodM6NR, collectionPeriodM7Nr, collectionPeriodRrmLte, - measurementPeriodLte, collectionPeriodM6Lte, collectionPeriodM7Lte, - collectionPeriodRrmUmts, measurementPeriodUmts). If no collection + collectionPeriodM6NR, collectionPeriodM7NR, collectionPeriodRRMLTE, + measurementPeriodLte, collectionPeriodM6LTE, collectionPeriodM7LTE, + collectionPeriodRRMUMTS, measurementPeriodUMTS). If no collection period is configured for M5 in UMTS, all available measurements are logged according to RRM configuration."; @@ -834,7 +834,7 @@ module _3gpp-common-trace { reference "Clauses 5.10.7 and 5.10.7a of 3GPP TS 32.422"; } - leaf collectionPeriodRrmNr { + leaf collectionPeriodRRMNR { when '../../../jobType = "IMMEDIATE_MDT_ONLY"' + ' or ../../../jobType = "IMMEDIATE_MDT_AND_TRACE"'; type uint32 { @@ -848,7 +848,7 @@ module _3gpp-common-trace { reference "Clause 5.10.30 of 3GPP TS 32.422"; } - leaf collectionPeriodM6Nr { + leaf collectionPeriodM6NR { when '../../../jobType = "IMMEDIATE_MDT_ONLY"' + ' or ../../../jobType = "IMMEDIATE_MDT_AND_TRACE"'; type enumeration { @@ -874,7 +874,7 @@ module _3gpp-common-trace { reference "clause 5.10.34 of TS 32.422"; } - leaf collectionPeriodM7Nr { + leaf collectionPeriodM7NR { when '../../../jobType = "IMMEDIATE_MDT_ONLY"' + ' or ../../../jobType = "IMMEDIATE_MDT_AND_TRACE"'; type uint32 { @@ -887,7 +887,7 @@ module _3gpp-common-trace { reference "clause 5.10.35 of TS 32.422"; } - leaf collectionPeriodRrmLte { + leaf collectionPeriodRRMLTE { when '../../../jobType = "IMMEDIATE_MDT_ONLY"' + ' or ../../../jobType = "IMMEDIATE_MDT_AND_TRACE"'; type uint32 { @@ -918,7 +918,7 @@ module _3gpp-common-trace { reference "Clause 5.10.23 of 3GPP TS 32.422"; } - leaf collectionPeriodM6Lte { + leaf collectionPeriodM6LTE { when '../../../jobType = "IMMEDIATE_MDT_ONLY"' + ' or ../../../jobType = "IMMEDIATE_MDT_AND_TRACE"'; type uint32 { @@ -932,7 +932,7 @@ module _3gpp-common-trace { reference "Clause 5.10.32 of TS 32.422 "; } - leaf collectionPeriodM7Lte { + leaf collectionPeriodM7LTE { when '../../../jobType = "IMMEDIATE_MDT_ONLY"' + ' or ../../../jobType = "IMMEDIATE_MDT_AND_TRACE"'; type uint16 { @@ -945,7 +945,7 @@ module _3gpp-common-trace { reference "Clause 5.10.33 of TS 32.422 ."; } - leaf eventThresholdUphUmts { + leaf eventThresholdUphUMTS { when '../../../jobType = "IMMEDIATE_MDT_ONLY"' + ' or ../../../jobType = "IMMEDIATE_MDT_AND_TRACE"'; type uint16 { @@ -958,7 +958,7 @@ module _3gpp-common-trace { reference "5.10.39 of TS 32.422"; } - leaf collectionPeriodRrmUmts { + leaf collectionPeriodRRMUMTS { when '../../../jobType = "IMMEDIATE_MDT_ONLY"' + ' or ../../../jobType = "IMMEDIATE_MDT_AND_TRACE"'; type uint32 { @@ -973,7 +973,7 @@ module _3gpp-common-trace { reference "Clause 5.10.21 of 3GPP TS 32.422"; } - leaf measurementPeriodUmts { + leaf measurementPeriodUMTS { when '../../../jobType = "IMMEDIATE_MDT_ONLY"' + 'or ../../../jobType = "IMMEDIATE_MDT_AND_TRACE"'; type uint32 { @@ -1429,13 +1429,8 @@ module _3gpp-common-trace { description "Defines the configuration parameters of IOC TraceJob which are specific for MDT. The attribute anonymizationOfMdtData specifies the level of anonymization - of MDT data. The optional attribute areaScope allows to - specify the area in terms of cells or Tracking Area/Routing - Area/Location area where the MDT data collection shall take - place. In case of RLF_REPORT_ONLY and RCEF_REPORT_ONLY the - optional attribute areaScope allows to specify the eNB or list - of eNBs or gNB or list of gNBs where the reports should be - collected. The optional attribute sensorInformation allows to + of MDT data. The attribute areaScope defines the area scope of MDT, which is specified in clause 5.10.2 of TS 32.422. The + optional attribute sensorInformation allows to specify the sensor information to include. Based on the value configured for attribute jobType in IOC TraceJob, the attributes immediateMdtConfig or loggedMdtConfig are available: In case of @@ -1443,7 +1438,7 @@ module _3gpp-common-trace { immediateMdtConfig is applicable. In case of LOGGED_MDT_ONLY or LOGGED_MBSFN_MDT the attribute loggedMdtConfig is applicable."; - leaf anonymizationOfMDTData { + leaf anonymizationOfMdtData { when ../areaScope ; type enumeration { enum NO_IDENTITY; @@ -1457,21 +1452,9 @@ module _3gpp-common-trace { list areaScope { key "idx"; leaf idx { type uint32 ; } - description "It specifies the area where data shall be collected. - List of eNB/list of gNB/eNB/gNB for RLF or RCEF. - - List of cells/TA/LA/RA for signaling based MDT or management - based Logged MDT. - - List of cells for management based Immediate MDT. - - List of NPN IDs for management based MDT. - - Cell, TA, LA, RA are mutually exclusive. - - This attribute shall be present if MDT is supported."; - reference "Clause 5.10.2 of 3GPP TS 32.422"; - + description "It specifies the area where data shall be collected."; + min-elements 0; + max-elements 1; uses AreaScopeGrp; } @@ -1702,22 +1685,22 @@ module _3gpp-common-trace { ManagedEntity playing a role of ServinGWFunction. In case of signaling based Trace/MDT, the traceTarget attribute shall - be able to carry (IMSI or IMEI(SV)or SUPI), the mDTAreaScope attribute + be able to carry (IMSI or IMEI(SV)or SUPI), the areaScope attribute shall be able to carry a list of (cell or E-UtranCell or NRCellDU or TA/LA/RA). In case of management based Immediate MDT, the traceTarget attribute - shall be null value, the mDTAreaScope attribute shall carry a list of + shall be null value, the areaScope attribute shall carry a list of (Utrancell or E-UtranCell or NRCellDU). In case of management based Logged MDT, the traceTarget attribute shall carry an eBs or a RNC or gNBs. The Logged MDT should be initiated - on the specified eNB or RNC or gNB in traceTarget. The mDTAreaScope + on the specified eNB or RNC or gNB in traceTarget. The areaScope attribute shall carry a list of (Utrancell or E-UtranCell or NRCellDU or TA/LA/RA). In case of RLF reporting, or RCEF reporting, the traceTarget - attribute shall be null value, the mDTAreaScope attribute shall carry + attribute shall be null value, the areaScope attribute shall carry one or list of eNBs/gNBs"; reference "3GPP TS 32.422"; }