Loading yang-models/_3gpp-5gc-nrm-aanffunction.yang 0 → 100755 +102 −0 Original line number Diff line number Diff line module _3gpp-5gc-nrm-aanffunction { yang-version 1.1; namespace urn:3gpp:sa5:_3gpp-5gc-nrm-aanffunction; prefix aanf3gpp; import _3gpp-common-managed-function { prefix mf3gpp; } import _3gpp-common-managed-element { prefix me3gpp; } import _3gpp-5g-common-yang-types { prefix types5g3gpp; } import _3gpp-common-top { prefix top3gpp; } import _3gpp-5gc-nrm-managed-nfprofile { prefix mnfp3gpp; } import ietf-inet-types { prefix inet; } organization "3gpp SA5"; contact "https://www.3gpp.org/DynaReport/TSG-WG--S5--officials.htm?Itemid=464"; description "This IOC represents the AAnF function in 5GC. For more information about the AANF, see TS 33.535. Copyright 2026, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI, TTA, TTC). All rights reserved."; reference "3GPP TS 28.541"; revision 2025-04-25 { reference "CR-"; } grouping AanfInfoGrp { description "This data type represents the Specific data for the AAnF. (See clause 6.1.6.2.73 TS 29.510)."; leaf-list routingIndicators { description "This attribute represents the List of Routing Indicators supported by the AAnf instance. If not provided, the AAnf can serve any Routing Indicator."; //optional type string { pattern '[0-9]{1,4}'; } } } grouping AANFFunctionGrp { description "Represents the AANFFunction IOC."; uses mf3gpp:ManagedFunctionGrp; list pLMNInfoList { description "It defines the PLMN(s) of a Network Function."; key "mcc mnc sd sst"; min-elements 1; uses types5g3gpp:PLMNInfo; } leaf sBIFQDN { description "The FQDN of the registered NF instance in the service-based interface."; type inet:domain-name; } list managedNFProfile { key idx; leaf idx { type uint32; } min-elements 1; max-elements 1; description "Profile definition of a Managed NF (See TS 23.501)."; uses mnfp3gpp:ManagedNFProfileGrp; } list commModelList { min-elements 1; key "groupId"; description "Specifies a list of commModel. It can be used by NF and NF services to interact with each other in 5G Core network."; reference "3GPP TS 23.501"; uses types5g3gpp:CommModel; } list aanfInfo { description "This attribute represents information of an AAnF NF Instance."; //optional max-elements 1; key idx; leaf idx { type uint32; } uses AanfInfoGrp; } } augment "/me3gpp:ManagedElement" { list AANFFunction { description "5G Core AAnF Function"; reference "3GPP TS 28.541"; key id; uses top3gpp:Top_Grp; container attributes { uses AANFFunctionGrp; } uses mf3gpp:ManagedFunctionContainedClasses; } } } yang-models/_3gpp-5gc-nrm-bsffunction.yang 0 → 100755 +188 −0 Original line number Diff line number Diff line module _3gpp-5gc-nrm-bsffunction { yang-version 1.1; namespace urn:3gpp:sa5:_3gpp-5gc-nrm-bsffunction; prefix bsf3gpp; import _3gpp-common-managed-function { prefix mf3gpp; } import _3gpp-common-managed-element { prefix me3gpp; } import _3gpp-common-yang-types { prefix types3gpp; } import _3gpp-5g-common-yang-types { prefix types5g3gpp; } import _3gpp-common-top { prefix top3gpp; } import _3gpp-5gc-nrm-managed-nfprofile { prefix mnfp3gpp; } import ietf-inet-types { prefix inet; } organization "3gpp SA5"; contact "https://www.3gpp.org/DynaReport/TSG-WG--S5--officials.htm?Itemid=464"; description "This IOC represents the BSF function in 5GC. For more information about the BSF, see TS 23.503. Copyright 2026, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI, TTA, TTC). All rights reserved."; reference "3GPP TS 28.541"; revision 2025-04-25 { reference "CR-"; } grouping BsfInfoGrp { description "This data type represents the Specific data for the BSF. (See clause 6.1.6.2.21 TS 29.510)."; list ipv4AddressRanges { description "This attribute represents the list of ranges of IPv4 addresses handled by BSF. If not provided, the BSF can serve any IPv4 address."; key "start end"; //optional uses types3gpp:Ipv4AddressRange; } leaf-list dnnList { description "This attribute represents the list of DNNs handled by the BSF. The DNN shall contain the Network Identifier and it may additionally contain an Operator Identifier. If the Operator Identifier is not included, the DNN is supported for all the PLMNs in the plmnList of the NF Profile. If not provided, the BSF can serve any DNN."; //optional type string; } leaf-list ipDomainList { description "This attribute represents the list of IPv4 address domains, as described in clause 6.2 of 3GPP TS 29.513, handled by the BSF. If not provided, the BSF can serve any IP domain."; //optional type string; } list ipv6PrefixRanges { description "This attribute represents the list of ranges of IPv6 prefixes handled by the BSF. If not provided, the BSF can serve any IPv6 prefix."; //optional key "start end"; uses types3gpp:Ipv6PrefixRange; } leaf rxDiamHost { description "This attribute represents the Diameter host of the Rx interface for the BSF."; type string; } leaf rxDiamRealm { description "This attribute represents the Diameter realm of the Rx interface for the BSF. See TS 29.571. String contains a Diameter Identity (FQDN)."; type string; } leaf groupId { description "This attribute represents the identity of the BSF group that is served by the BSF instance. If not provided, the BSF instance does not pertain to any BSF group."; //optional type string; } list supiRanges { description "This attribute represents list of ranges of SUPIs served by the BSF instance."; //optional key idx; leaf idx { type uint32; } uses types5g3gpp:SupiRangeGrp; } list gpsiRanges { description "This attribute represents list of ranges of GPSIs served by the BSF instance."; //optional key idx; leaf idx { type uint32; } uses types5g3gpp:IdentityRangeGrp; } } grouping BSFFunctionGrp { description "Represents the BSFFunction IOC."; uses mf3gpp:ManagedFunctionGrp; list pLMNInfoList { description "It defines the PLMN(s) of a Network Function."; key "mcc mnc sd sst"; min-elements 1; uses types5g3gpp:PLMNInfo; } leaf sBIFQDN { description "The FQDN of the registered NF instance in the service-based interface."; type inet:domain-name; } leaf-list cNSIIdList { description "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 clause 3.1 of TS 23.501 and subclause 6.1.6.2.7 of 3GPP TS 29.531."; //optional type string; } list managedNFProfile { key idx; leaf idx { type uint32; } min-elements 1; max-elements 1; description "Profile definition of a Managed NF (See TS 23.501)."; uses mnfp3gpp:ManagedNFProfileGrp; } list commModelList { min-elements 1; key "groupId"; description "Specifies a list of commModel. It can be used by NF and NF services to interact with each other in 5G Core network."; reference "3GPP TS 23.501"; uses types5g3gpp:CommModel; } list bsfInfo { description "This attribute represents information of a BSF NF Instance. Multiple bsfInfo may be allowed when BSF provides binding service for various combinations of IPv4 addresses and ipDomains."; //optional key idx; leaf idx { type uint32; } uses BsfInfoGrp; } } augment "/me3gpp:ManagedElement" { list BSFFunction { description "5G Core BSF Function"; reference "3GPP TS 28.541"; key id; uses top3gpp:Top_Grp; container attributes { uses BSFFunctionGrp; } uses mf3gpp:ManagedFunctionContainedClasses; } } } Loading
yang-models/_3gpp-5gc-nrm-aanffunction.yang 0 → 100755 +102 −0 Original line number Diff line number Diff line module _3gpp-5gc-nrm-aanffunction { yang-version 1.1; namespace urn:3gpp:sa5:_3gpp-5gc-nrm-aanffunction; prefix aanf3gpp; import _3gpp-common-managed-function { prefix mf3gpp; } import _3gpp-common-managed-element { prefix me3gpp; } import _3gpp-5g-common-yang-types { prefix types5g3gpp; } import _3gpp-common-top { prefix top3gpp; } import _3gpp-5gc-nrm-managed-nfprofile { prefix mnfp3gpp; } import ietf-inet-types { prefix inet; } organization "3gpp SA5"; contact "https://www.3gpp.org/DynaReport/TSG-WG--S5--officials.htm?Itemid=464"; description "This IOC represents the AAnF function in 5GC. For more information about the AANF, see TS 33.535. Copyright 2026, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI, TTA, TTC). All rights reserved."; reference "3GPP TS 28.541"; revision 2025-04-25 { reference "CR-"; } grouping AanfInfoGrp { description "This data type represents the Specific data for the AAnF. (See clause 6.1.6.2.73 TS 29.510)."; leaf-list routingIndicators { description "This attribute represents the List of Routing Indicators supported by the AAnf instance. If not provided, the AAnf can serve any Routing Indicator."; //optional type string { pattern '[0-9]{1,4}'; } } } grouping AANFFunctionGrp { description "Represents the AANFFunction IOC."; uses mf3gpp:ManagedFunctionGrp; list pLMNInfoList { description "It defines the PLMN(s) of a Network Function."; key "mcc mnc sd sst"; min-elements 1; uses types5g3gpp:PLMNInfo; } leaf sBIFQDN { description "The FQDN of the registered NF instance in the service-based interface."; type inet:domain-name; } list managedNFProfile { key idx; leaf idx { type uint32; } min-elements 1; max-elements 1; description "Profile definition of a Managed NF (See TS 23.501)."; uses mnfp3gpp:ManagedNFProfileGrp; } list commModelList { min-elements 1; key "groupId"; description "Specifies a list of commModel. It can be used by NF and NF services to interact with each other in 5G Core network."; reference "3GPP TS 23.501"; uses types5g3gpp:CommModel; } list aanfInfo { description "This attribute represents information of an AAnF NF Instance."; //optional max-elements 1; key idx; leaf idx { type uint32; } uses AanfInfoGrp; } } augment "/me3gpp:ManagedElement" { list AANFFunction { description "5G Core AAnF Function"; reference "3GPP TS 28.541"; key id; uses top3gpp:Top_Grp; container attributes { uses AANFFunctionGrp; } uses mf3gpp:ManagedFunctionContainedClasses; } } }
yang-models/_3gpp-5gc-nrm-bsffunction.yang 0 → 100755 +188 −0 Original line number Diff line number Diff line module _3gpp-5gc-nrm-bsffunction { yang-version 1.1; namespace urn:3gpp:sa5:_3gpp-5gc-nrm-bsffunction; prefix bsf3gpp; import _3gpp-common-managed-function { prefix mf3gpp; } import _3gpp-common-managed-element { prefix me3gpp; } import _3gpp-common-yang-types { prefix types3gpp; } import _3gpp-5g-common-yang-types { prefix types5g3gpp; } import _3gpp-common-top { prefix top3gpp; } import _3gpp-5gc-nrm-managed-nfprofile { prefix mnfp3gpp; } import ietf-inet-types { prefix inet; } organization "3gpp SA5"; contact "https://www.3gpp.org/DynaReport/TSG-WG--S5--officials.htm?Itemid=464"; description "This IOC represents the BSF function in 5GC. For more information about the BSF, see TS 23.503. Copyright 2026, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI, TTA, TTC). All rights reserved."; reference "3GPP TS 28.541"; revision 2025-04-25 { reference "CR-"; } grouping BsfInfoGrp { description "This data type represents the Specific data for the BSF. (See clause 6.1.6.2.21 TS 29.510)."; list ipv4AddressRanges { description "This attribute represents the list of ranges of IPv4 addresses handled by BSF. If not provided, the BSF can serve any IPv4 address."; key "start end"; //optional uses types3gpp:Ipv4AddressRange; } leaf-list dnnList { description "This attribute represents the list of DNNs handled by the BSF. The DNN shall contain the Network Identifier and it may additionally contain an Operator Identifier. If the Operator Identifier is not included, the DNN is supported for all the PLMNs in the plmnList of the NF Profile. If not provided, the BSF can serve any DNN."; //optional type string; } leaf-list ipDomainList { description "This attribute represents the list of IPv4 address domains, as described in clause 6.2 of 3GPP TS 29.513, handled by the BSF. If not provided, the BSF can serve any IP domain."; //optional type string; } list ipv6PrefixRanges { description "This attribute represents the list of ranges of IPv6 prefixes handled by the BSF. If not provided, the BSF can serve any IPv6 prefix."; //optional key "start end"; uses types3gpp:Ipv6PrefixRange; } leaf rxDiamHost { description "This attribute represents the Diameter host of the Rx interface for the BSF."; type string; } leaf rxDiamRealm { description "This attribute represents the Diameter realm of the Rx interface for the BSF. See TS 29.571. String contains a Diameter Identity (FQDN)."; type string; } leaf groupId { description "This attribute represents the identity of the BSF group that is served by the BSF instance. If not provided, the BSF instance does not pertain to any BSF group."; //optional type string; } list supiRanges { description "This attribute represents list of ranges of SUPIs served by the BSF instance."; //optional key idx; leaf idx { type uint32; } uses types5g3gpp:SupiRangeGrp; } list gpsiRanges { description "This attribute represents list of ranges of GPSIs served by the BSF instance."; //optional key idx; leaf idx { type uint32; } uses types5g3gpp:IdentityRangeGrp; } } grouping BSFFunctionGrp { description "Represents the BSFFunction IOC."; uses mf3gpp:ManagedFunctionGrp; list pLMNInfoList { description "It defines the PLMN(s) of a Network Function."; key "mcc mnc sd sst"; min-elements 1; uses types5g3gpp:PLMNInfo; } leaf sBIFQDN { description "The FQDN of the registered NF instance in the service-based interface."; type inet:domain-name; } leaf-list cNSIIdList { description "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 clause 3.1 of TS 23.501 and subclause 6.1.6.2.7 of 3GPP TS 29.531."; //optional type string; } list managedNFProfile { key idx; leaf idx { type uint32; } min-elements 1; max-elements 1; description "Profile definition of a Managed NF (See TS 23.501)."; uses mnfp3gpp:ManagedNFProfileGrp; } list commModelList { min-elements 1; key "groupId"; description "Specifies a list of commModel. It can be used by NF and NF services to interact with each other in 5G Core network."; reference "3GPP TS 23.501"; uses types5g3gpp:CommModel; } list bsfInfo { description "This attribute represents information of a BSF NF Instance. Multiple bsfInfo may be allowed when BSF provides binding service for various combinations of IPv4 addresses and ipDomains."; //optional key idx; leaf idx { type uint32; } uses BsfInfoGrp; } } augment "/me3gpp:ManagedElement" { list BSFFunction { description "5G Core BSF Function"; reference "3GPP TS 28.541"; key id; uses top3gpp:Top_Grp; container attributes { uses BSFFunctionGrp; } uses mf3gpp:ManagedFunctionContainedClasses; } } }
