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diff --git a/cps-ri/src/main/resources/changelog/db/changes/data/yang_resource.csv b/cps-ri/src/main/resources/changelog/db/changes/data/yang_resource.csv new file mode 100644 index 000000000..4dd312745 --- /dev/null +++ b/cps-ri/src/main/resources/changelog/db/changes/data/yang_resource.csv @@ -0,0 +1,2236 @@ +name|content|checksum +ietf-inet-types.yang|"module ietf-inet-types { + + namespace \"urn:ietf:params:xml:ns:yang:ietf-inet-types\"; + prefix \"inet\"; + + organization + \"IETF NETMOD (NETCONF Data Modeling Language) Working Group\"; + + contact + \"WG Web: <http://tools.ietf.org/wg/netmod/> + WG List: <mailto:netmod@ietf.org> + + WG Chair: David Kessens + <mailto:david.kessens@nsn.com> + + WG Chair: Juergen Schoenwaelder + <mailto:j.schoenwaelder@jacobs-university.de> + + Editor: Juergen Schoenwaelder + <mailto:j.schoenwaelder@jacobs-university.de>\"; + + description + \"This module contains a collection of generally useful derived + YANG data types for Internet addresses and related things. + + Copyright (c) 2013 IETF Trust and the persons identified as + authors of the code. All rights reserved. + + Redistribution and use in source and binary forms, with or + without modification, is permitted pursuant to, and subject + to the license terms contained in, the Simplified BSD License + set forth in Section 4.c of the IETF Trust''s Legal Provisions + Relating to IETF Documents + (http://trustee.ietf.org/license-info). + + This version of this YANG module is part of RFC 6991; see + the RFC itself for full legal notices.\"; + + revision 2013-07-15 { + description + \"This revision adds the following new data types: + - ip-address-no-zone + - ipv4-address-no-zone + - ipv6-address-no-zone\"; + reference + \"RFC 6991: Common YANG Data Types\"; + } + + revision 2010-09-24 { + description + \"Initial revision.\"; + reference + \"RFC 6021: Common YANG Data Types\"; + } + + /*** collection of types related to protocol fields ***/ + + typedef ip-version { + type enumeration { + enum unknown { + value \"0\"; + description + \"An unknown or unspecified version of the Internet + protocol.\"; + } + enum ipv4 { + value \"1\"; + description + \"The IPv4 protocol as defined in RFC 791.\"; + } + enum ipv6 { + value \"2\"; + description + \"The IPv6 protocol as defined in RFC 2460.\"; + } + } + description + \"This value represents the version of the IP protocol. + + In the value set and its semantics, this type is equivalent + to the InetVersion textual convention of the SMIv2.\"; + reference + \"RFC 791: Internet Protocol + RFC 2460: Internet Protocol, Version 6 (IPv6) Specification + RFC 4001: Textual Conventions for Internet Network Addresses\"; + } + + typedef dscp { + type uint8 { + range \"0..63\"; + } + description + \"The dscp type represents a Differentiated Services Code Point + that may be used for marking packets in a traffic stream. + In the value set and its semantics, this type is equivalent + to the Dscp textual convention of the SMIv2.\"; + reference + \"RFC 3289: Management Information Base for the Differentiated + Services Architecture + RFC 2474: Definition of the Differentiated Services Field + (DS Field) in the IPv4 and IPv6 Headers + RFC 2780: IANA Allocation Guidelines For Values In + the Internet Protocol and Related Headers\"; + } + + typedef ipv6-flow-label { + type uint32 { + range \"0..1048575\"; + } + description + \"The ipv6-flow-label type represents the flow identifier or Flow + Label in an IPv6 packet header that may be used to + discriminate traffic flows. + + In the value set and its semantics, this type is equivalent + to the IPv6FlowLabel textual convention of the SMIv2.\"; + reference + \"RFC 3595: Textual Conventions for IPv6 Flow Label + RFC 2460: Internet Protocol, Version 6 (IPv6) Specification\"; + } + + typedef port-number { + type uint16 { + range \"0..65535\"; + } + description + \"The port-number type represents a 16-bit port number of an + Internet transport-layer protocol such as UDP, TCP, DCCP, or + SCTP. Port numbers are assigned by IANA. A current list of + all assignments is available from <http://www.iana.org/>. + + Note that the port number value zero is reserved by IANA. In + situations where the value zero does not make sense, it can + be excluded by subtyping the port-number type. + In the value set and its semantics, this type is equivalent + to the InetPortNumber textual convention of the SMIv2.\"; + reference + \"RFC 768: User Datagram Protocol + RFC 793: Transmission Control Protocol + RFC 4960: Stream Control Transmission Protocol + RFC 4340: Datagram Congestion Control Protocol (DCCP) + RFC 4001: Textual Conventions for Internet Network Addresses\"; + } + + /*** collection of types related to autonomous systems ***/ + + typedef as-number { + type uint32; + description + \"The as-number type represents autonomous system numbers + which identify an Autonomous System (AS). An AS is a set + of routers under a single technical administration, using + an interior gateway protocol and common metrics to route + packets within the AS, and using an exterior gateway + protocol to route packets to other ASes. IANA maintains + the AS number space and has delegated large parts to the + regional registries. + + Autonomous system numbers were originally limited to 16 + bits. BGP extensions have enlarged the autonomous system + number space to 32 bits. This type therefore uses an uint32 + base type without a range restriction in order to support + a larger autonomous system number space. + + In the value set and its semantics, this type is equivalent + to the InetAutonomousSystemNumber textual convention of + the SMIv2.\"; + reference + \"RFC 1930: Guidelines for creation, selection, and registration + of an Autonomous System (AS) + RFC 4271: A Border Gateway Protocol 4 (BGP-4) + RFC 4001: Textual Conventions for Internet Network Addresses + RFC 6793: BGP Support for Four-Octet Autonomous System (AS) + Number Space\"; + } + + /*** collection of types related to IP addresses and hostnames ***/ + + typedef ip-address { + type union { + type inet:ipv4-address; + type inet:ipv6-address; + } + description + \"The ip-address type represents an IP address and is IP + version neutral. The format of the textual representation + implies the IP version. This type supports scoped addresses + by allowing zone identifiers in the address format.\"; + reference + \"RFC 4007: IPv6 Scoped Address Architecture\"; + } + + typedef ipv4-address { + type string { + pattern + ''(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5]).){3}'' + + ''([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])'' + + ''(%[p{N}p{L}]+)?''; + } + description + \"The ipv4-address type represents an IPv4 address in + dotted-quad notation. The IPv4 address may include a zone + index, separated by a % sign. + + The zone index is used to disambiguate identical address + values. For link-local addresses, the zone index will + typically be the interface index number or the name of an + interface. If the zone index is not present, the default + zone of the device will be used. + + The canonical format for the zone index is the numerical + format\"; + } + + typedef ipv6-address { + type string { + pattern ''((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}'' + + ''((([0-9a-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|'' + + ''(((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9]).){3}'' + + ''(25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])))'' + + ''(%[p{N}p{L}]+)?''; + pattern ''(([^:]+:){6}(([^:]+:[^:]+)|(.*..*)))|'' + + ''((([^:]+:)*[^:]+)?::(([^:]+:)*[^:]+)?)'' + + ''(%.+)?''; + } + description + \"The ipv6-address type represents an IPv6 address in full, + mixed, shortened, and shortened-mixed notation. The IPv6 + address may include a zone index, separated by a % sign. + + The zone index is used to disambiguate identical address + values. For link-local addresses, the zone index will + typically be the interface index number or the name of an + interface. If the zone index is not present, the default + zone of the device will be used. + + The canonical format of IPv6 addresses uses the textual + representation defined in Section 4 of RFC 5952. The + canonical format for the zone index is the numerical + format as described in Section 11.2 of RFC 4007.\"; + reference + \"RFC 4291: IP Version 6 Addressing Architecture + RFC 4007: IPv6 Scoped Address Architecture + RFC 5952: A Recommendation for IPv6 Address Text + Representation\"; + } + + typedef ip-address-no-zone { + type union { + type inet:ipv4-address-no-zone; + type inet:ipv6-address-no-zone; + } + description + \"The ip-address-no-zone type represents an IP address and is + IP version neutral. The format of the textual representation + implies the IP version. This type does not support scoped + addresses since it does not allow zone identifiers in the + address format.\"; + reference + \"RFC 4007: IPv6 Scoped Address Architecture\"; + } + + typedef ipv4-address-no-zone { + type inet:ipv4-address { + pattern ''[0-9.]*''; + } + description + \"An IPv4 address without a zone index. This type, derived from + ipv4-address, may be used in situations where the zone is + known from the context and hence no zone index is needed.\"; + } + + typedef ipv6-address-no-zone { + type inet:ipv6-address { + pattern ''[0-9a-fA-F:.]*''; + } + description + \"An IPv6 address without a zone index. This type, derived from + ipv6-address, may be used in situations where the zone is + known from the context and hence no zone index is needed.\"; + reference + \"RFC 4291: IP Version 6 Addressing Architecture + RFC 4007: IPv6 Scoped Address Architecture + RFC 5952: A Recommendation for IPv6 Address Text + Representation\"; + } + + typedef ip-prefix { + type union { + type inet:ipv4-prefix; + type inet:ipv6-prefix; + } + description + \"The ip-prefix type represents an IP prefix and is IP + version neutral. The format of the textual representations + implies the IP version.\"; + } + + typedef ipv4-prefix { + type string { + pattern + ''(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5]).){3}'' + + ''([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])'' + + ''/(([0-9])|([1-2][0-9])|(3[0-2]))''; + } + description + \"The ipv4-prefix type represents an IPv4 address prefix. + The prefix length is given by the number following the + slash character and must be less than or equal to 32. + + A prefix length value of n corresponds to an IP address + mask that has n contiguous 1-bits from the most + significant bit (MSB) and all other bits set to 0. + + The canonical format of an IPv4 prefix has all bits of + the IPv4 address set to zero that are not part of the + IPv4 prefix.\"; + } + + typedef ipv6-prefix { + type string { + pattern ''((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}'' + + ''((([0-9a-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|'' + + ''(((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9]).){3}'' + + ''(25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])))'' + + ''(/(([0-9])|([0-9]{2})|(1[0-1][0-9])|(12[0-8])))''; + pattern ''(([^:]+:){6}(([^:]+:[^:]+)|(.*..*)))|'' + + ''((([^:]+:)*[^:]+)?::(([^:]+:)*[^:]+)?)'' + + ''(/.+)''; + } + description + \"The ipv6-prefix type represents an IPv6 address prefix. + The prefix length is given by the number following the + slash character and must be less than or equal to 128. + + A prefix length value of n corresponds to an IP address + mask that has n contiguous 1-bits from the most + significant bit (MSB) and all other bits set to 0. + + The IPv6 address should have all bits that do not belong + to the prefix set to zero. + + The canonical format of an IPv6 prefix has all bits of + the IPv6 address set to zero that are not part of the + IPv6 prefix. Furthermore, the IPv6 address is represented + as defined in Section 4 of RFC 5952.\"; + reference + \"RFC 5952: A Recommendation for IPv6 Address Text + Representation\"; + } + + /*** collection of domain name and URI types ***/ + + typedef domain-name { + type string { + length \"1..253\"; + pattern + ''((([a-zA-Z0-9_]([a-zA-Z0-9-_]){0,61})?[a-zA-Z0-9].)*'' + + ''([a-zA-Z0-9_]([a-zA-Z0-9-_]){0,61})?[a-zA-Z0-9].?)'' + + ''|.''; + } + description + \"The domain-name type represents a DNS domain name. The + name SHOULD be fully qualified whenever possible. + + Internet domain names are only loosely specified. Section + 3.5 of RFC 1034 recommends a syntax (modified in Section + 2.1 of RFC 1123). The pattern above is intended to allow + for current practice in domain name use, and some possible + future expansion. It is designed to hold various types of + domain names, including names used for A or AAAA records + (host names) and other records, such as SRV records. Note + that Internet host names have a stricter syntax (described + in RFC 952) than the DNS recommendations in RFCs 1034 and + 1123, and that systems that want to store host names in + schema nodes using the domain-name type are recommended to + adhere to this stricter standard to ensure interoperability. + + The encoding of DNS names in the DNS protocol is limited + to 255 characters. Since the encoding consists of labels + prefixed by a length bytes and there is a trailing NULL + byte, only 253 characters can appear in the textual dotted + notation. + + The description clause of schema nodes using the domain-name + type MUST describe when and how these names are resolved to + IP addresses. Note that the resolution of a domain-name value + may require to query multiple DNS records (e.g., A for IPv4 + and AAAA for IPv6). The order of the resolution process and + which DNS record takes precedence can either be defined + explicitly or may depend on the configuration of the + resolver. + + Domain-name values use the US-ASCII encoding. Their canonical + format uses lowercase US-ASCII characters. Internationalized + domain names MUST be A-labels as per RFC 5890.\"; + reference + \"RFC 952: DoD Internet Host Table Specification + RFC 1034: Domain Names - Concepts and Facilities + RFC 1123: Requirements for Internet Hosts -- Application + and Support + RFC 2782: A DNS RR for specifying the location of services + (DNS SRV) + RFC 5890: Internationalized Domain Names in Applications + (IDNA): Definitions and Document Framework\"; + } + + typedef host { + type union { + type inet:ip-address; + type inet:domain-name; + } + description + \"The host type represents either an IP address or a DNS + domain name.\"; + } + + typedef uri { + type string; + description + \"The uri type represents a Uniform Resource Identifier + (URI) as defined by STD 66. + + Objects using the uri type MUST be in US-ASCII encoding, + and MUST be normalized as described by RFC 3986 Sections + 6.2.1, 6.2.2.1, and 6.2.2.2. All unnecessary + percent-encoding is removed, and all case-insensitive + characters are set to lowercase except for hexadecimal + digits, which are normalized to uppercase as described in + Section 6.2.2.1. + + The purpose of this normalization is to help provide + unique URIs. Note that this normalization is not + sufficient to provide uniqueness. Two URIs that are + textually distinct after this normalization may still be + equivalent. + + Objects using the uri type may restrict the schemes that + they permit. For example, ''data:'' and ''urn:'' schemes + might not be appropriate. + + A zero-length URI is not a valid URI. This can be used to + express ''URI absent'' where required. + + In the value set and its semantics, this type is equivalent + to the Uri SMIv2 textual convention defined in RFC 5017.\"; + reference + \"RFC 3986: Uniform Resource Identifier (URI): Generic Syntax + RFC 3305: Report from the Joint W3C/IETF URI Planning Interest + Group: Uniform Resource Identifiers (URIs), URLs, + and Uniform Resource Names (URNs): Clarifications + and Recommendations + RFC 5017: MIB Textual Conventions for Uniform Resource + Identifiers (URIs)\"; + } + +}"|fd06e465f26f1e7d0253bbf77e7e55e1 +cps-ran-schema-model2021-01-28.yang|"module cps-ran-schema-model { + yang-version 1.1; + namespace \"org:onap:ccsdk:features:sdnr:northbound:cps-ran-schema-model\"; + prefix rn; + + import ietf-inet-types { + prefix inet; + } + import ietf-yang-types { + prefix yang; + } + + organization + \"Open Network Automation Platform - ONAP + <https://www.onap.org>\"; + contact + \"Editors: + Sandeep Shah + <mailto:sandeep.shah@ibm.com> + + Swaminathan Seetharaman + <mailto:swaminathan.seetharaman@wipro.com>\"; + description + \"This module contains a collection of YANG definitions for capturing + relationships among managed elements of the radio access Network + to be stored in ONAP CPS platform. + + Copyright 2020-2021 IBM. + + Licensed under the Apache License, Version 2.0 (the ''License''); + you may not use this file except in compliance with the License. + You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + + Unless required by applicable law or agreed to in writing, software + distributed under the License is distributed on an ''AS IS'' BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + See the License for the specific language governing permissions and + limitations under the License.\"; + + revision 2021-01-28 { + description + \"CPS RAN Network YANG Model for ONAP/O-RAN POC\"; + reference + \"https://wiki.onap.org/display/DW/E2E+Network+Slicing+Use+Case+in+R7+Guilin\"; + } + + typedef usageState { + type enumeration { + enum IDLE { + description + \"TODO\"; + } + enum ACTIVE { + description + \"TODO\"; + } + enum BUSY { + description + \"TODO\"; + } + } + description + \"It describes whether or not the resource is actively in + use at a specific instant, and if so, whether or not it has spare + capacity for additional users at that instant. The value is READ-ONLY.\"; + reference + \"ITU T Recommendation X.731\"; + } + + typedef Mcc { + type string; + description + \"The mobile country code consists of three decimal digits, + The first digit of the mobile country code identifies the geographic + region (the digits 1 and 8 are not used):\"; + reference + \"3GPP TS 23.003 subclause 2.2 and 12.1\"; + } + + typedef Mnc { + type string; + description + \"The mobile network code consists of two or three + decimal digits (for example: MNC of 001 is not the same as MNC of 01)\"; + reference + \"3GPP TS 23.003 subclause 2.2 and 12.1\"; + } + + typedef Nci { + type string; + description + \"NR Cell Identity. The NCI shall be of fixed length of 36 bits + and shall be coded using full hexadecimal representation. + The exact coding of the NCI is the responsibility of each PLMN operator\"; + reference + \"TS 23.003\"; + } + + typedef OperationalState { + type enumeration { + enum DISABLED { + value 0; + description + \"The resource is totally inoperable.\"; + } + enum ENABLED { + value 1; + description + \"The resource is partially or fully operable.\"; + } + } + description + \"TODO\"; + reference + \"3GPP TS 28.625 and ITU-T X.731\"; + } + + typedef AvailabilityStatus { + type enumeration { + enum IN_TEST { + description + \"TODO\"; + } + enum FAILED { + description + \"TODO\"; + } + enum POWER_OFF { + description + \"TODO\"; + } + enum OFF_LINE { + description + \"TODO\"; + } + enum OFF_DUTY { + description + \"TODO\"; + } + enum DEPENDENCY { + description + \"TODO\"; + } + enum DEGRADED { + description + \"TODO\"; + } + enum NOT_INSTALLED { + description + \"TODO\"; + } + enum LOG_FULL { + description + \"TODO\"; + } + } + description + \"TODO\"; + reference + \"TODO\"; + } + + typedef CellState { + type enumeration { + enum IDLE { + description + \"TODO\"; + } + enum INACTIVE { + description + \"TODO\"; + } + enum ACTIVE { + description + \"TODO\"; + } + } + description + \"TODO\"; + reference + \"TODO\"; + } + + typedef SNssai { + type string; + description + \"Single Network Slice Selection Assistance Information.\"; + reference + \"TS 23.501 clause 5.15.2\"; + } + + typedef Sst { + type uint8; + description + \"TODO\"; + reference + \"TODO\"; + } + + typedef Nrpci { + type uint32; + description + \"Physical Cell Identity (PCI) of the NR cell.\"; + reference + \"TS 36.211 subclause 6.11\"; + } + + typedef Tac { + type int32 { + range \"0..16777215\"; + } + description + \"Tracking Area Code\"; + reference + \"TS 23.003 clause 19.4.2.3\"; + } + + typedef AmfRegionId { + type string; + description + \"\"; + reference + \"clause 2.10.1 of 3GPP TS 23.003\"; + } + + typedef AmfSetId { + type string; + description + \"\"; + reference + \"clause 2.10.1 of 3GPP TS 23.003\"; + } + + typedef AmfPointer { + type string; + description + \"\"; + reference + \"clause 2.10.1 of 3GPP TS 23.003\"; + } + + // type definitions especially for core NFs + + typedef NfType { + type enumeration { + enum NRF { + description + \"TODO\"; + } + enum UDM { + description + \"TODO\"; + } + enum AMF { + description + \"TODO\"; + } + enum SMF { + description + \"TODO\"; + } + enum AUSF { + description + \"TODO\"; + } + enum NEF { + description + \"TODO\"; + } + enum PCF { + description + \"TODO\"; + } + enum SMSF { + description + \"TODO\"; + } + enum NSSF { + description + \"TODO\"; + } + enum UDR { + description + \"TODO\"; + } + enum LMF { + description + \"TODO\"; + } + enum GMLC { + description + \"TODO\"; + } + enum 5G_EIR { + description + \"TODO\"; + } + enum SEPP { + description + \"TODO\"; + } + enum UPF { + description + \"TODO\"; + } + enum N3IWF { + description + \"TODO\"; + } + enum AF { + description + \"TODO\"; + } + enum UDSF { + description + \"TODO\"; + } + enum BSF { + description + \"TODO\"; + } + enum CHF { + description + \"TODO\"; + } + } + description + \"TODO\"; + } + + typedef NotificationType { + type enumeration { + enum N1_MESSAGES { + description + \"TODO\"; + } + enum N2_INFORMATION { + description + \"TODO\"; + } + enum LOCATION_NOTIFICATION { + description + \"TODO\"; + } + } + description + \"TODO\"; + } + + typedef Load { + type uint8 { + range \"0..100\"; + } + description + \"Latest known load information of the NF, percentage \"; + } + + typedef N1MessageClass { + type enumeration { + enum 5GMM { + description + \"TODO\"; + } + enum SM { + description + \"TODO\"; + } + enum LPP { + description + \"TODO\"; + } + enum SMS { + description + \"TODO\"; + } + } + description + \"TODO\"; + } + + typedef N2InformationClass { + type enumeration { + enum SM { + description + \"TODO\"; + } + enum NRPPA { + description + \"TODO\"; + } + enum PWS { + description + \"TODO\"; + } + enum PWS_BCAL { + description + \"TODO\"; + } + enum PWS_RF { + description + \"TODO\"; + } + } + description + \"TODO\"; + reference + \"TODO\"; + } + + typedef NsiId { + type string; + description + \"TODO\"; + } + + typedef UeMobilityLevel { + type enumeration { + enum STATIONARY { + description + \"TODO\"; + } + enum NOMADIC { + description + \"TODO\"; + } + enum RESTRICTED_MOBILITY { + description + \"TODO\"; + } + enum FULLY_MOBILITY { + description + \"TODO\"; + } + } + description + \"TODO\"; + reference + \"TODO\"; + } + + typedef ResourceSharingLevel { + type enumeration { + enum SHARED { + description + \"TODO\"; + } + enum NOT_SHARED { + description + \"TODO\"; + } + } + description + \"TODO\"; + reference + \"TODO\"; + } + + typedef TxDirection { + type enumeration { + enum DL { + description + \"TODO\"; + } + enum UL { + description + \"TODO\"; + } + enum DL_AND_UL { + description + \"TODO\"; + } + } + description + \"TODO\"; + reference + \"TODO\"; + } + + typedef DistinguishedName { // TODO is this equivalent to TS 32.300 ? + type string; + description + \"Represents the international standard for the representation + of Distinguished Name (RFC 4512). + The format of the DistinguishedName REGEX is: + {AttributeType = AttributeValue} + + AttributeType consists of alphanumeric and hyphen (OIDs not allowed). + All other characters are restricted. + The Attribute value cannot contain control characters or the + following characters : \ > < ; \" + , (Comma) and White space + The Attribute value can contain the following characters if they + are excaped : \ > < ; \" + , (Comma) and White space + The Attribute value can contain control characters if its an escaped + double digit hex number. + Examples could be + UID=nobody@example.com,DC=example,DC=com + CN=John Smith,OU=Sales,O=ACME Limited,L=Moab,ST=Utah,C=US\"; + reference + \"RFC 4512 Lightweight Directory Access Protocol (LDAP): + Directory Information Models\"; + } // recheck regexp it doesn''t handle posix [:cntrl:] + + typedef QOffsetRange { + type int8; + units \"dB\"; + description + \"TODO\"; + reference + \"TODO\"; + } + + typedef QuotaType { + type enumeration { + enum STRICT { + description + \"TODO\"; + } + enum FLOAT { + description + \"TODO\"; + } + } + description + \"TODO\"; + } + + typedef CyclicPrefix { + type enumeration { + enum NORMAL { + description + \"TODO\"; + } + enum EXTENDED { + description + \"TODO\"; + } + } + description + \"TODO\"; + } + + grouping PLMNInfo { + description + \"The PLMNInfo data type define a S-NSSAI member in a specific PLMNId, and it have + two attributes PLMNId and S-NSSAI (PLMNId, S-NSSAI). The PLMNId represents a data type that + is comprised of mcc (mobile country code) and mnc (mobile network code), (See TS 23.003 + subclause 2.2 and 12.1) and S-NSSAI represents an data type, that is comprised of an SST + (Slice/Service type) and an optional SD (Slice Differentiator) field, (See TS 23.003 [13]).\"; + uses PLMNId; + list sNSSAIList { + key \"sNssai\"; + uses sNSSAIConfig; + description \"List of sNSSAIs\"; + } + } + + grouping ManagedNFProfile { + description + \"Defines profile for managed NF\"; + reference + \"3GPP TS 23.501\"; + leaf idx { + type uint32; + description + \"TODO\"; + reference + \"3GPP TS 23.501\"; + } + leaf nfInstanceID { + type yang:uuid; + config false; + mandatory false; + description + \"This parameter defines profile for managed NF. + The format of the NF Instance ID shall be a + Universally Unique Identifier (UUID) version 4, + as described in IETF RFC 4122 \"; + } + leaf-list nfType { + type NfType; + config false; + min-elements 1; + description + \"Type of the Network Function\"; + } + leaf hostAddr { + type inet:host; + mandatory false; + description + \"Host address of a NF\"; + } + leaf authzInfo { + type string; + description + \"This parameter defines NF Specific Service authorization + information. It shall include the NF type (s) and NF realms/origins + allowed to consume NF Service(s) of NF Service Producer.\"; + reference + \"See TS 23.501\"; + } + leaf location { + type string; + description + \"Information about the location of the NF instance + (e.g. geographic location, data center) defined by operator\"; + reference + \"TS 29.510\"; + } + leaf capacity { + type uint16; + mandatory false; + description + \"This parameter defines static capacity information + in the range of 0-65535, expressed as a weight relative to other + NF instances of the same type; if capacity is also present in the + nfServiceList parameters, those will have precedence over this value.\"; + reference + \"TS 29.510\"; + } + leaf nFSrvGroupId { + type string; + description + \"This parameter defines identity of the group that is + served by the NF instance. + May be config false or true depending on the ManagedFunction. + Config=true for Udrinfo. Config=false for UdmInfo and AusfInfo. + Shall be present if ../nfType = UDM or AUSF or UDR. \"; + reference + \"TS 29.510\"; + } + leaf-list supportedDataSetIds { + type enumeration { + enum SUBSCRIPTION { + description + \"TODO\"; + } + enum POLICY { + description + \"TODO\"; + } + enum EXPOSURE { + description + \"TODO\"; + } + enum APPLICATION { + description + \"TODO\"; + } + } + description + \"List of supported data sets in the UDR instance. + May be present if ../nfType = UDR\"; + reference + \"TS 29.510\"; + } + leaf-list smfServingAreas { + type string; + description + \"Defines the SMF service area(s) the UPF can serve. + Shall be present if ../nfType = UPF\"; + reference + \"TS 29.510\"; + } + leaf priority { + type uint16; + description + \"This parameter defines Priority (relative to other NFs + of the same type) in the range of 0-65535, to be used for NF selection; + lower values indicate a higher priority. If priority is also present + in the nfServiceList parameters, those will have precedence over + this value. Shall be present if ../nfType = AMF \"; + reference + \"TS 29.510\"; + } + } + + + grouping PLMNId { + description + \"TODO\"; + reference + \"TS 23.658\"; + leaf mcc { + type Mcc; + mandatory true; + description + \"TODO\"; + } + leaf mnc { + type Mnc; + mandatory true; + description + \"TODO\"; + } + } + + grouping AmfIdentifier { + 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. \"; + leaf amfRegionId { + type AmfRegionId; + description + \"TODO\"; + } + leaf amfSetId { + type AmfSetId; + description + \"TODO\"; + } + leaf amfPointer { + type AmfPointer; + description + \"TODO\"; + } + } + + grouping DefaultNotificationSubscription { + description + \"TODO\"; + leaf notificationType { + type NotificationType; + description + \"TODO\"; + } + leaf callbackUri { + type inet:uri; + description + \"TODO\"; + } + leaf n1MessageClass { + type N1MessageClass; + description + \"TODO\"; + } + leaf n2InformationClass { + type N2InformationClass; + description + \"TODO\"; + } + } + + grouping Ipv4AddressRange { + description + \"TODO\"; + leaf start { + type inet:ipv4-address; + description + \"TODO\"; + } + leaf end { + type inet:ipv4-address; + description + \"TODO\"; + } + } + + grouping Ipv6PrefixRange { + description + \"TODO\"; + leaf start { + type inet:ipv6-prefix; + description + \"TODO\"; + } + leaf end { + type inet:ipv6-prefix; + description + \"TODO\"; + } + } + + grouping AddressWithVlan { + description + \"TODO\"; + leaf ipAddress { + type inet:ip-address; + description + \"TODO\"; + } + leaf vlanId { + type uint16; + description + \"TODO\"; + } + } + + grouping ManagedElementGroup { + description + \"Abstract class representing telecommunications resources.\"; + leaf dnPrefix { + type DistinguishedName; + description + \"Provides naming context and splits the DN into a DN Prefix and Local DN\"; + } + leaf userLabel { + type string; + description + \"A user-friendly name of this object.\"; + } + leaf locationName { + type string; + config false; + description + \"The physical location (e.g. an address) of an entity\"; + } + leaf-list managedBy { + type DistinguishedName; + config false; + description + \"Relates to the role played by ManagementSystem\"; + } + leaf-list managedElementTypeList { + type string; + config false; + min-elements 1; + description + \"The type of functionality provided by the ManagedElement. + It may represent one ME functionality or a combination of + Two examples of allowed values are: + - NodeB; + - HLR, VLR.\"; + } + } // Managed Element grouping + + grouping NearRTRICGroup { + description + \"Abstract class representing Near RT RIC.\"; + leaf dnPrefix { + type DistinguishedName; + description + \"Provides naming context and splits the DN into a DN Prefix and Local DN\"; + } + leaf userLabel { + type string; + description + \"A user-friendly name of this object.\"; + } + leaf locationName { + type string; + config false; + description + \"The physical location (e.g. an address) of an entity\"; + } + leaf gNBId { + type int64 { range \"0..4294967295\"; } + config false; + description \"Identifies a gNB within a PLMN. The gNB Identifier (gNB ID) + is part of the NR Cell Identifier (NCI) of the gNB cells.\"; + reference \"gNB ID in 3GPP TS 38.300, Global gNB ID in 3GPP TS 38.413\"; + } + + list pLMNInfoList { + uses PLMNInfo; + key \"mcc mnc\"; + description \"The PLMNInfoList is a list of PLMNInfo data type. It defines which PLMNs that can be served by the nearRTRIC.\"; + } + list RRMPolicyRatio { + key id; + leaf id { + type string; + description + \"Key leaf\"; + } + container attributes { + uses RRMPolicyRatioGroup; + } + description \" The RRMPolicyRatio IOC is one realization of a RRMPolicy_ IOC, see the + inheritance in Figure 4.2.1.2-1. This RRM framework allows adding new policies, both + standardized (like RRMPolicyRatio) or as vendor specific, by inheriting from the + abstract RRMPolicy_ IOC. For details see subclause 4.3.36.\"; + } + + } // Near RT RIC grouping + + + + grouping Configuration{ + leaf configParameter{ + type string; + description \"Type of the configuration parameter\"; + } + leaf configValue{ + type int64; + description \"Identifies the configuration to be done for the network elements under the NearRTRIC\"; + + } + } + + + grouping GNBDUFunctionGroup { + description + \"Represents the GNBDUFunction IOC.\"; + reference + \"3GPP TS 28.541\"; + + leaf gNBId { + type int64 { + range \"0..4294967295\"; + } + config false; + mandatory false; + description + \"Identifies a gNB within a PLMN. The gNB Identifier (gNB ID) + is part of the NR Cell Identifier (NCI) of the gNB cells.\"; + reference + \"gNB ID in 3GPP TS 38.300, Global gNB ID in 3GPP TS 38.413\"; + } + leaf gNBIdLength { + type int32 { + range \"22..32\"; + } + mandatory false; + description + \"Indicates the number of bits for encoding the gNB ID.\"; + reference + \"gNB ID in 3GPP TS 38.300, Global gNB ID in 3GPP TS 38.413\"; + } + leaf gNBDUId { + type int64 { + range \"0..68719476735\"; + } + mandatory false; + description + \"Uniquely identifies the DU at least within a gNB.\"; + reference + \"3GPP TS 38.473\"; + } + leaf gNBDUName { + type string { + length \"1..150\"; + } + description + \"Identifies the Distributed Unit of an NR node\"; + reference + \"3GPP TS 38.473\"; + } + list RRMPolicyRatio { + key id; + leaf id { + type string; + description + \"Key leaf\"; + } + container attributes { + uses RRMPolicyRatioGroup; + } + description \" The RRMPolicyRatio IOC is one realization of a RRMPolicy_ IOC, see the + inheritance in Figure 4.2.1.2-1. This RRM framework allows adding new policies, both + standardized (like RRMPolicyRatio) or as vendor specific, by inheriting from the + abstract RRMPolicy_ IOC. For details see subclause 4.3.36.\"; + } + } + + grouping NRCellDUGroup { + description + \"Represents the NRCellDU IOC.\"; + reference + \"3GPP TS 28.541\"; + list RRMPolicyRatio { + key id; + leaf id { + type string; + description + \"Key leaf\"; + } + container attributes { + uses RRMPolicyRatioGroup; + } + description \" The RRMPolicyRatio IOC is one realization of a RRMPolicy_ IOC, see the + inheritance in Figure 4.2.1.2-1. This RRM framework allows adding new policies, both + standardized (like RRMPolicyRatio) or as vendor specific, by inheriting from the + abstract RRMPolicy_ IOC. For details see subclause 4.3.36.\"; + } + leaf cellLocalId { + type int32 { + range \"0..16383\"; + } + mandatory false; + description + \"Identifies an NR cell of a gNB. Together with the + corresponding gNB identifier in forms the NR Cell Identity (NCI).\"; + reference + \"NCI in 3GPP TS 38.300\"; + } + list pLMNInfoList { + key \"mcc mnc\"; + min-elements 1; + description + \"The PLMNInfoList is a list of PLMNInfo data type. It defines which PLMNs that + can be served by the NR cell, and which S-NSSAIs that can be supported by the NR cell for + corresponding PLMN in case of network slicing feature is supported. The plMNId of the first + entry of the list is the PLMNId used to construct the nCGI for the NR cell.\"; + uses PLMNInfo; + } + leaf nRPCI { + type int32 { + range \"0..1007\"; + } + mandatory false; + description + \"The Physical Cell Identity (PCI) of the NR cell.\"; + reference + \"3GPP TS 36.211\"; + } + leaf nRTAC { + type Tac; + description + \"The common 5GS Tracking Area Code for the PLMNs.\"; + reference + \"3GPP TS 23.003, 3GPP TS 38.473\"; + } + } // grouping + + grouping rRMPolicyMemberGroup { + description + \"TODO\"; + uses PLMNId; + leaf sNSSAI { + type SNssai; + description + \"This data type represents an RRM Policy member that will be part of a + rRMPolicyMemberList. A RRMPolicyMember is defined by its pLMNId and sNSSAI (S-NSSAI). + The members in a rRMPolicyMemberList are assigned a specific amount of RRM resources + based on settings in RRMPolicy.\"; + } + } + + grouping RRMPolicyRatioGroup { + + uses RRMPolicy_Group; // Inherits RRMPolicy_ + + leaf quotaType { + type QuotaType; + mandatory false; + description \"The type of the quota which allows to allocate resources as + strictly usable for defined slice(s) (strict quota) or allows that + resources to be used by other slice(s) when defined slice(s) do not + need them (float quota).\"; + } + + leaf rRMPolicyMaxRatio { + type uint8; + mandatory false; + units percent; + description \"The RRM policy setting the maximum percentage of radio + resources to be allocated to the corresponding S-NSSAI list. This + quota can be strict or float quota. Strict quota means resources are + not allowed for other sNSSAIs even when they are not used by the + defined sNSSAIList. Float quota resources can be used by other sNSSAIs + when the defined sNSSAIList do not need them. Value 0 indicates that + there is no maximum limit.\"; + } + + leaf rRMPolicyMinRatio { + type uint8; + mandatory false; + units percent; + description \"The RRM policy setting the minimum percentage of radio + resources to be allocated to the corresponding S-NSSAI list. This + quota can be strict or float quota. Strict quota means resources are + not allowed for other sNSSAIs even when they are not used by the + defined sNSSAIList. Float quota resources can be used by other sNSSAIs + when the defined sNSSAIList do not need them. Value 0 indicates that + there is no minimum limit.\"; + } + leaf rRMPolicyDedicatedRatio { + type uint8; + units percent; + description \"Dedicated Ration.\"; + } + description \"Represents the RRMPolicyRatio concrete IOC.\"; + } + + + grouping sNSSAIConfig{ + leaf sNssai { + type string; + description \"s-NSSAI of a network slice.\"; + reference \"3GPP TS 23.003\"; + } + leaf status { + type string; + description \"status of s-NSSAI\"; + } + list configData{ + uses Configuration; + key \"configParameter\"; + description \"List of configurations to be done at the network elements\"; + } + } + + grouping RRMPolicy_Group { + description + \"This IOC represents the properties of an abstract RRMPolicy. The RRMPolicy_ IOC + needs to be subclassed to be instantiated. It defines two attributes apart from those + inherited from Top IOC, the resourceType attribute defines type of resource (PRB, RRC + connected users, DRB usage etc.) and the rRMPolicyMemberList attribute defines the + RRMPolicyMember(s)that are subject to this policy. An RRM resource (defined in resourceType + attribute) is located in NRCellDU, NRCellCU, GNBDUFunction, GNBCUCPFunction or in + GNBCUUPFunction. The RRMPolicyRatio IOC is one realization of a RRMPolicy_ IOC, see the + inheritance in TS 28.541 Figure 4.2.1.2-1. This RRM framework allows adding new policies, + both standardized (like RRMPolicyRatio) or as vendor specific, by inheriting from the + abstract RRMPolicy_ IOC.\"; + leaf resourceType { + type string; + mandatory false; + description + \"The resourceType attribute defines type of resource (PRB, RRC connected users, + DRB usage etc.) that is subject to policy. Valid values are ''PRB'', ''RRC'' or ''DRB''\"; + } + list rRMPolicyMemberList { + key \"idx\"; + leaf idx { + type uint32; + description + \"TODO\"; + } + description + \"It represents the list of RRMPolicyMember (s) that the managed object + is supporting. A RRMPolicyMember <<dataType>> include the PLMNId <<dataType>> + and S-NSSAI <<dataType>>.\"; + uses rRMPolicyMemberGroup; + } + } // grouping + + grouping GNBCUUPFunctionGroup { + description + \"Represents the GNBCUUPFunction IOC.\"; + reference + \"3GPP TS 28.541\"; + + list RRMPolicyRatio { + key id; + leaf id { + type string; + description + \"Key leaf\"; + } + container attributes { + uses RRMPolicyRatioGroup; + } + description \" The RRMPolicyRatio IOC is one realization of a RRMPolicy_ IOC, see the + inheritance in Figure 4.2.1.2-1. This RRM framework allows adding new policies, both + standardized (like RRMPolicyRatio) or as vendor specific, by inheriting from the + abstract RRMPolicy_ IOC. For details see subclause 4.3.36.\"; + } + leaf gNBCUUPId { + type uint64 { + range \"0..68719476735\"; + } + config false; + mandatory false; + description + \"Identifies the gNB-CU-UP at least within a gNB-CU-CP\"; + reference + \"''gNB-CU-UP ID'' in subclause 9.3.1.15 of 3GPP TS 38.463\"; + } + leaf gNBId { + type int64 { + range \"0..4294967295\"; + } + mandatory false; + description + \"Indicates the number of bits for encoding the gNB Id.\"; + reference + \"gNB Id in 3GPP TS 38.300, Global gNB ID in 3GPP TS 38.413\"; + } + list pLMNInfoList { + key \"mcc mnc\"; + description + \"The PLMNInfoList is a list of PLMNInfo data type. It defines which PLMNs that + can be served by the GNBCUUPFunction and which S-NSSAIs can be supported by the + GNBCUUPFunction for corresponding PLMN in case of network slicing feature is supported\"; + uses PLMNInfo; + } + } // grouping + + grouping GNBCUCPFunctionGroup { + description + \"Represents the GNBCUCPFunction IOC.\"; + reference + \"3GPP TS 28.541\"; + list RRMPolicyRatio { + key id; + leaf id { + type string; + description + \"Key leaf\"; + } + container attributes { + uses RRMPolicyRatioGroup; + } + description \" The RRMPolicyRatio IOC is one realization of a RRMPolicy_ IOC, see the + inheritance in Figure 4.2.1.2-1. This RRM framework allows adding new policies, both + standardized (like RRMPolicyRatio) or as vendor specific, by inheriting from the + abstract RRMPolicy_ IOC. For details see subclause 4.3.36.\"; + } + leaf gNBId { + type int64 { + range \"0..4294967295\"; + } + mandatory false; + description + \"Identifies a gNB within a PLMN. The gNB Identifier (gNB ID) + is part of the NR Cell Identifier (NCI) of the gNB cells.\"; + reference + \"gNB ID in 3GPP TS 38.300, Global gNB ID in 3GPP TS 38.413\"; + } + leaf gNBIdLength { + type int32 { + range \"22..32\"; + } + mandatory false; + description + \"Indicates the number of bits for encoding the gNB ID.\"; + reference + \"gNB ID in 3GPP TS 38.300, Global gNB ID in 3GPP TS 38.413\"; + } + leaf gNBCUName { + type string { + length \"1..150\"; + } + mandatory false; + description + \"Identifies the Central Unit of an gNB.\"; + reference + \"3GPP TS 38.473\"; + } + list pLMNId { + key \"mcc mnc\"; + min-elements 1; + max-elements 1; + description + \"The PLMN identifier to be used as part of the global RAN + node identity.\"; + uses PLMNId; + } + } // grouping + + grouping NRCellCUGroup { + description + \"Represents the NRCellCU IOC.\"; + reference + \"3GPP TS 28.541\"; + leaf cellLocalId { + type int32 { + range \"0..16383\"; + } + mandatory false; + description + \"Identifies an NR cell of a gNB. Together with corresponding + gNB ID it forms the NR Cell Identifier (NCI).\"; + } + list pLMNInfoList { + key \"mcc mnc\"; + min-elements 1; + description + \"The PLMNInfoList is a list of PLMNInfo data type. It defines which PLMNs + that can be served by the NR cell, and which S-NSSAIs that can be supported by the + NR cell for corresponding PLMN in case of network slicing feature is supported.\"; + uses PLMNInfo; + // Note: Whether the attribute pLMNId in the pLMNInfo can be writable depends on the implementation. + } + list RRMPolicyRatio { + key id; + leaf id { + type string; + description + \"Key leaf\"; + } + container attributes { + uses RRMPolicyRatioGroup; + } + description \" The RRMPolicyRatio IOC is one realization of a RRMPolicy_ IOC, see the + inheritance in Figure 4.2.1.2-1. This RRM framework allows adding new policies, both + standardized (like RRMPolicyRatio) or as vendor specific, by inheriting from the + abstract RRMPolicy_ IOC. For details see subclause 4.3.36.\"; + } + } // grouping NRCellCUGroup + + grouping NRCellRelationGroup { + description + \"Represents the NRCellRelation IOC.\"; + reference + \"3GPP TS 28.541\"; + leaf nRTCI { + type uint64; + description + \"Target NR Cell Identifier. It consists of NR Cell + Identifier (NCI) and Physical Cell Identifier of the target NR cell + (nRPCI).\"; + "|0337045143fa2e592243243f82699b93 +ietf-yang-types.yang|"module ietf-yang-types { + + namespace \"urn:ietf:params:xml:ns:yang:ietf-yang-types\"; + prefix \"yang\"; + + organization + \"IETF NETMOD (NETCONF Data Modeling Language) Working Group\"; + + contact + \"WG Web: <http://tools.ietf.org/wg/netmod/> + WG List: <mailto:netmod@ietf.org> + + WG Chair: David Kessens + <mailto:david.kessens@nsn.com> + + WG Chair: Juergen Schoenwaelder + <mailto:j.schoenwaelder@jacobs-university.de> + + Editor: Juergen Schoenwaelder + <mailto:j.schoenwaelder@jacobs-university.de>\"; + + description + \"This module contains a collection of generally useful derived + YANG data types. + + Copyright (c) 2013 IETF Trust and the persons identified as + authors of the code. All rights reserved. + + Redistribution and use in source and binary forms, with or + without modification, is permitted pursuant to, and subject + to the license terms contained in, the Simplified BSD License + set forth in Section 4.c of the IETF Trust''s Legal Provisions + Relating to IETF Documents + (http://trustee.ietf.org/license-info). + + This version of this YANG module is part of RFC 6991; see + the RFC itself for full legal notices.\"; + + revision 2013-07-15 { + description + \"This revision adds the following new data types: + - yang-identifier + - hex-string + - uuid + - dotted-quad\"; + reference + \"RFC 6991: Common YANG Data Types\"; + } + + revision 2010-09-24 { + description + \"Initial revision.\"; + reference + \"RFC 6021: Common YANG Data Types\"; + } + + /*** collection of counter and gauge types ***/ + + typedef counter32 { + type uint32; + description + \"The counter32 type represents a non-negative integer + that monotonically increases until it reaches a + maximum value of 2^32-1 (4294967295 decimal), when it + wraps around and starts increasing again from zero. + + Counters have no defined ''initial'' value, and thus, a + single value of a counter has (in general) no information + content. Discontinuities in the monotonically increasing + value normally occur at re-initialization of the + management system, and at other times as specified in the + description of a schema node using this type. If such + other times can occur, for example, the creation of + a schema node of type counter32 at times other than + re-initialization, then a corresponding schema node + should be defined, with an appropriate type, to indicate + the last discontinuity. + + The counter32 type should not be used for configuration + schema nodes. A default statement SHOULD NOT be used in + combination with the type counter32. + + In the value set and its semantics, this type is equivalent + to the Counter32 type of the SMIv2.\"; + reference + \"RFC 2578: Structure of Management Information Version 2 + (SMIv2)\"; + } + + typedef zero-based-counter32 { + type yang:counter32; + default \"0\"; + description + \"The zero-based-counter32 type represents a counter32 + that has the defined ''initial'' value zero. + + A schema node of this type will be set to zero (0) on creation + and will thereafter increase monotonically until it reaches + a maximum value of 2^32-1 (4294967295 decimal), when it + wraps around and starts increasing again from zero. + + Provided that an application discovers a new schema node + of this type within the minimum time to wrap, it can use the + ''initial'' value as a delta. It is important for a management + station to be aware of this minimum time and the actual time + between polls, and to discard data if the actual time is too + long or there is no defined minimum time. + + In the value set and its semantics, this type is equivalent + to the ZeroBasedCounter32 textual convention of the SMIv2.\"; + reference + \"RFC 4502: Remote Network Monitoring Management Information + Base Version 2\"; + } + + typedef counter64 { + type uint64; + description + \"The counter64 type represents a non-negative integer + that monotonically increases until it reaches a + maximum value of 2^64-1 (18446744073709551615 decimal), + when it wraps around and starts increasing again from zero. + + Counters have no defined ''initial'' value, and thus, a + single value of a counter has (in general) no information + content. Discontinuities in the monotonically increasing + value normally occur at re-initialization of the + management system, and at other times as specified in the + description of a schema node using this type. If such + other times can occur, for example, the creation of + a schema node of type counter64 at times other than + re-initialization, then a corresponding schema node + should be defined, with an appropriate type, to indicate + the last discontinuity. + + The counter64 type should not be used for configuration + schema nodes. A default statement SHOULD NOT be used in + combination with the type counter64. + + In the value set and its semantics, this type is equivalent + to the Counter64 type of the SMIv2.\"; + reference + \"RFC 2578: Structure of Management Information Version 2 + (SMIv2)\"; + } + + typedef zero-based-counter64 { + type yang:counter64; + default \"0\"; + description + \"The zero-based-counter64 type represents a counter64 that + has the defined ''initial'' value zero. + + + + + A schema node of this type will be set to zero (0) on creation + and will thereafter increase monotonically until it reaches + a maximum value of 2^64-1 (18446744073709551615 decimal), + when it wraps around and starts increasing again from zero. + + Provided that an application discovers a new schema node + of this type within the minimum time to wrap, it can use the + ''initial'' value as a delta. It is important for a management + station to be aware of this minimum time and the actual time + between polls, and to discard data if the actual time is too + long or there is no defined minimum time. + + In the value set and its semantics, this type is equivalent + to the ZeroBasedCounter64 textual convention of the SMIv2.\"; + reference + \"RFC 2856: Textual Conventions for Additional High Capacity + Data Types\"; + } + + typedef gauge32 { + type uint32; + description + \"The gauge32 type represents a non-negative integer, which + may increase or decrease, but shall never exceed a maximum + value, nor fall below a minimum value. The maximum value + cannot be greater than 2^32-1 (4294967295 decimal), and + the minimum value cannot be smaller than 0. The value of + a gauge32 has its maximum value whenever the information + being modeled is greater than or equal to its maximum + value, and has its minimum value whenever the information + being modeled is smaller than or equal to its minimum value. + If the information being modeled subsequently decreases + below (increases above) the maximum (minimum) value, the + gauge32 also decreases (increases). + + In the value set and its semantics, this type is equivalent + to the Gauge32 type of the SMIv2.\"; + reference + \"RFC 2578: Structure of Management Information Version 2 + (SMIv2)\"; + } + + typedef gauge64 { + type uint64; + description + \"The gauge64 type represents a non-negative integer, which + may increase or decrease, but shall never exceed a maximum + value, nor fall below a minimum value. The maximum value + cannot be greater than 2^64-1 (18446744073709551615), and + the minimum value cannot be smaller than 0. The value of + a gauge64 has its maximum value whenever the information + being modeled is greater than or equal to its maximum + value, and has its minimum value whenever the information + being modeled is smaller than or equal to its minimum value. + If the information being modeled subsequently decreases + below (increases above) the maximum (minimum) value, the + gauge64 also decreases (increases). + + In the value set and its semantics, this type is equivalent + to the CounterBasedGauge64 SMIv2 textual convention defined + in RFC 2856\"; + reference + \"RFC 2856: Textual Conventions for Additional High Capacity + Data Types\"; + } + + /*** collection of identifier-related types ***/ + + typedef object-identifier { + type string { + pattern ''(([0-1](.[1-3]?[0-9]))|(2.(0|([1-9]d*))))'' + + ''(.(0|([1-9]d*)))*''; + } + description + \"The object-identifier type represents administratively + assigned names in a registration-hierarchical-name tree. + + Values of this type are denoted as a sequence of numerical + non-negative sub-identifier values. Each sub-identifier + value MUST NOT exceed 2^32-1 (4294967295). Sub-identifiers + are separated by single dots and without any intermediate + whitespace. + + The ASN.1 standard restricts the value space of the first + sub-identifier to 0, 1, or 2. Furthermore, the value space + of the second sub-identifier is restricted to the range + 0 to 39 if the first sub-identifier is 0 or 1. Finally, + the ASN.1 standard requires that an object identifier + has always at least two sub-identifiers. The pattern + captures these restrictions. + + Although the number of sub-identifiers is not limited, + module designers should realize that there may be + implementations that stick with the SMIv2 limit of 128 + sub-identifiers. + + This type is a superset of the SMIv2 OBJECT IDENTIFIER type + since it is not restricted to 128 sub-identifiers. Hence, + this type SHOULD NOT be used to represent the SMIv2 OBJECT + IDENTIFIER type; the object-identifier-128 type SHOULD be + used instead.\"; + reference + \"ISO9834-1: Information technology -- Open Systems + Interconnection -- Procedures for the operation of OSI + Registration Authorities: General procedures and top + arcs of the ASN.1 Object Identifier tree\"; + } + + typedef object-identifier-128 { + type object-identifier { + pattern ''d*(.d*){1,127}''; + } + description + \"This type represents object-identifiers restricted to 128 + sub-identifiers. + + In the value set and its semantics, this type is equivalent + to the OBJECT IDENTIFIER type of the SMIv2.\"; + reference + \"RFC 2578: Structure of Management Information Version 2 + (SMIv2)\"; + } + + typedef yang-identifier { + type string { + length \"1..max\"; + pattern ''[a-zA-Z_][a-zA-Z0-9-_.]*''; + pattern ''.|..|[^xX].*|.[^mM].*|..[^lL].*''; + } + description + \"A YANG identifier string as defined by the ''identifier'' + rule in Section 12 of RFC 6020. An identifier must + start with an alphabetic character or an underscore + followed by an arbitrary sequence of alphabetic or + numeric characters, underscores, hyphens, or dots. + + A YANG identifier MUST NOT start with any possible + combination of the lowercase or uppercase character + sequence ''xml''.\"; + reference + \"RFC 6020: YANG - A Data Modeling Language for the Network + Configuration Protocol (NETCONF)\"; + } + + /*** collection of types related to date and time***/ + + typedef date-and-time { + type string { + pattern ''d{4}-d{2}-d{2}Td{2}:d{2}:d{2}(.d+)?'' + + ''(Z|[+-]d{2}:d{2})''; + } + description + \"The date-and-time type is a profile of the ISO 8601 + standard for representation of dates and times using the + Gregorian calendar. The profile is defined by the + date-time production in Section 5.6 of RFC 3339. + + The date-and-time type is compatible with the dateTime XML + schema type with the following notable exceptions: + + (a) The date-and-time type does not allow negative years. + + (b) The date-and-time time-offset -00:00 indicates an unknown + time zone (see RFC 3339) while -00:00 and +00:00 and Z + all represent the same time zone in dateTime. + + (c) The canonical format (see below) of data-and-time values + differs from the canonical format used by the dateTime XML + schema type, which requires all times to be in UTC using + the time-offset ''Z''. + + This type is not equivalent to the DateAndTime textual + convention of the SMIv2 since RFC 3339 uses a different + separator between full-date and full-time and provides + higher resolution of time-secfrac. + + The canonical format for date-and-time values with a known time + zone uses a numeric time zone offset that is calculated using + the device''s configured known offset to UTC time. A change of + the device''s offset to UTC time will cause date-and-time values + to change accordingly. Such changes might happen periodically + in case a server follows automatically daylight saving time + (DST) time zone offset changes. The canonical format for + date-and-time values with an unknown time zone (usually + referring to the notion of local time) uses the time-offset + -00:00.\"; + reference + \"RFC 3339: Date and Time on the Internet: Timestamps + RFC 2579: Textual Conventions for SMIv2 + XSD-TYPES: XML Schema Part 2: Datatypes Second Edition\"; + } + + typedef timeticks { + type uint32; + description + \"The timeticks type represents a non-negative integer that + represents the time, modulo 2^32 (4294967296 decimal), in + hundredths of a second between two epochs. When a schema + node is defined that uses this type, the description of + the schema node identifies both of the reference epochs. + + In the value set and its semantics, this type is equivalent + to the TimeTicks type of the SMIv2.\"; + reference + \"RFC 2578: Structure of Management Information Version 2 + (SMIv2)\"; + } + + typedef timestamp { + type yang:timeticks; + description + \"The timestamp type represents the value of an associated + timeticks schema node at which a specific occurrence + happened. The specific occurrence must be defined in the + description of any schema node defined using this type. When + the specific occurrence occurred prior to the last time the + associated timeticks attribute was zero, then the timestamp + value is zero. Note that this requires all timestamp values + to be reset to zero when the value of the associated timeticks + attribute reaches 497+ days and wraps around to zero. + + The associated timeticks schema node must be specified + in the description of any schema node using this type. + + In the value set and its semantics, this type is equivalent + to the TimeStamp textual convention of the SMIv2.\"; + reference + \"RFC 2579: Textual Conventions for SMIv2\"; + } + + /*** collection of generic address types ***/ + + typedef phys-address { + type string { + pattern ''([0-9a-fA-F]{2}(:[0-9a-fA-F]{2})*)?''; + } + + + + + description + \"Represents media- or physical-level addresses represented + as a sequence octets, each octet represented by two hexadecimal + numbers. Octets are separated by colons. The canonical + representation uses lowercase characters. + + In the value set and its semantics, this type is equivalent + to the PhysAddress textual convention of the SMIv2.\"; + reference + \"RFC 2579: Textual Conventions for SMIv2\"; + } + + typedef mac-address { + type string { + pattern ''[0-9a-fA-F]{2}(:[0-9a-fA-F]{2}){5}''; + } + description + \"The mac-address type represents an IEEE 802 MAC address. + The canonical representation uses lowercase characters. + + In the value set and its semantics, this type is equivalent + to the MacAddress textual convention of the SMIv2.\"; + reference + \"IEEE 802: IEEE Standard for Local and Metropolitan Area + Networks: Overview and Architecture + RFC 2579: Textual Conventions for SMIv2\"; + } + + /*** collection of XML-specific types ***/ + + typedef xpath1.0 { + type string; + description + \"This type represents an XPATH 1.0 expression. + + When a schema node is defined that uses this type, the + description of the schema node MUST specify the XPath + context in which the XPath expression is evaluated.\"; + reference + \"XPATH: XML Path Language (XPath) Version 1.0\"; + } + + /*** collection of string types ***/ + + typedef hex-string { + type string { + pattern ''([0-9a-fA-F]{2}(:[0-9a-fA-F]{2})*)?''; + } + description + \"A hexadecimal string with octets represented as hex digits + separated by colons. The canonical representation uses + lowercase characters.\"; + } + + typedef uuid { + type string { + pattern ''[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-'' + + ''[0-9a-fA-F]{4}-[0-9a-fA-F]{12}''; + } + description + \"A Universally Unique IDentifier in the string representation + defined in RFC 4122. The canonical representation uses + lowercase characters. + + The following is an example of a UUID in string representation: + f81d4fae-7dec-11d0-a765-00a0c91e6bf6 + \"; + reference + \"RFC 4122: A Universally Unique IDentifier (UUID) URN + Namespace\"; + } + + typedef dotted-quad { + type string { + pattern + ''(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5]).){3}'' + + ''([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])''; + } + description + \"An unsigned 32-bit number expressed in the dotted-quad + notation, i.e., four octets written as decimal numbers + and separated with the ''.'' (full stop) character.\"; + } +}"|57d603ee9ab0c49355ad0695c0709c93 |