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submodule etsi-nfv-vnf {
belongs-to etsi-nfv {
prefix nfv;
}
import ietf-inet-types {
prefix inet;
}
import ietf-yang-types {
prefix yang;
}
include etsi-nfv-common;
include etsi-nfv-ns;
description
"Models for VNFD according to GS NFV-IFA 011.";
revision 2018-04-24 {
description
"Initial revision.
Common data structure to support VNFD according to:
ETSI GS NFV-IFA 011 V2.1.1 (2016-10)";
reference
"ETSI GS NFV-IFA 011 V2.1.1 (2016-10)";
}
grouping cpd {
description
"A Cpd information element describes network connectivity to a
compute resource or a VL.";
reference
"GS NFC IFA011: Section 7.1.6.3 Cpd Information Element";
leaf id {
type string;
description
"Identifier of this Cpd information element.";
reference
"GS NFV IFA011: Section 7.1.6.3, Cpd information element.";
}
leaf layer-protocol {
mandatory true;
type identityref {
base layer-protocol;
}
description
"Identifies which protocol the CP uses for connectivity
purposes (Ethernet, MPLS, ODU2, IPV4, IPV6, Pseudo-Wire,
etc.).";
reference
"GS NFV IFA011: Section 7.1.6.3, Cpd information element.";
}
leaf role {
type cp-role;
description
"Identifies the role of the port in the context of the
traffic flow patterns in the VNF or parent NS. For example a
VNF with a tree flow pattern within the VNF will have legal
cpRoles of ROOT and LEAF.";
reference
"GS NFV IFA011: Section 7.1.6.3, Cpd information element.";
}
leaf description {
type string;
description
"Human readable description of the connection point";
reference
"GS NFV IFA011: Section 7.1.6.3, Cpd information element.";
}
container protocol {
description
"Identifies the protocol layering information the CP uses for
connectivity purposes and associated information. There shall
be one cpProtocol for each layer protocol as indicated by the
attribute layerProtocol.";
reference
"GS NFV IFA011: Section 7.1.6.3, Cpd information element.";
leaf associated-layer-protocol {
type identityref {
base layer-protocol;
}
description
"One of the values of the attribute layerProtocol of the Cpd
IE.";
reference
"GS NFV IFA011: Section 7.1.6.8, CpProtocolData information
element.";
}
list address-data {
key "address-type";
leaf address-type {
type identityref {
base address-type;
}
description
"Describes the type of the address to be assigned to the CP
instantiated from the parent CPD.
Value:
• MAC address.
• IP address.
• …
The content type shall be aligned with the address type
supported by the layerProtocol attribute of the parent CPD.";
reference
"GS NFV IFA011: Section 7.1.3.3, AddressData information
element.";
}
container l2-address-data {
when "../nfv:address-type='mac-address'";
}
container l3-address-data {
when "../nfv:address-type='ip-address'";
leaf ip-address-assignment {
type boolean;
description
"Specify if the address assignment is the responsibility
of management and orchestration function or not. If it
is set to True, it is the management and orchestration
function responsibility. ";
reference
"GS NFV IFA011: Section 7.1.3.4, L3AddressData
information element.";
}
leaf floating-ip-activated {
type boolean;
description
"Specify if the floating IP scheme is activated on the CP
or not.";
reference
"GS NFV IFA011: Section 7.1.3.4, L3AddressData
information element.";
}
leaf ip-address-type {
type enumeration {
enum "ipv4";
enum "ipv6";
}
description
"Define address type. The address type should be aligned
with the address type supported by the layerProtocol
attribute of the parent VnfExtCpd.";
reference
"GS NFV IFA011: Section 7.1.3.4, L3AddressData
information element.";
}
leaf number-of-ip-addresses {
type uint32;
description
"Minimum number of IP addresses to be assigned based on
this L3AddressData information element.";
reference
"GS NFV IFA011: Section 7.1.3.4, L3AddressData
information element.";
}
}
description
"The AddressData information element supports providing
information about the addressing scheme and parameters
applicable to a CP.";
reference
"GS NFV IFA011: Section 7.1.3.3, AddressData information
element.";
}
}
leaf trunk-mode {
type boolean;
description
"Information about whether the CP instantiated from this CPD
is in Trunk mode (802.1Q or other).";
reference
"GS NFV IFA011: Section 7.1.6.3, Cpd information element.";
}
}
grouping virtual-network-interface-requirements {
list virtual-network-interface-requirement {
key "name";
description
"Specifies requirements on a virtual network interface
realising the CPs instantiated from this CPD.";
reference
"GS NFV-IFA011: Section 7.1.6.4, VduCpd information
element";
leaf name {
type string;
description
"Provides a human readable name for the requirement.";
reference
"GS NFV-IFA011: Section 7.1.6.6,
VirtualNetworkInterfaceRequirements information element";
}
leaf description {
type string;
description
"Provides a human readable description of the requirement.";
reference
"GS NFV-IFA011: Section 7.1.6.6,
VirtualNetworkInterfaceRequirements information element";
}
leaf support-mandatory {
mandatory true;
type boolean;
description
"Indicates whether fulfilling the constraint is
mandatory (true) for successful operation or desirable
(false).";
reference
"GS NFV-IFA011: Section 7.1.6.6,
VirtualNetworkInterfaceRequirements information element";
}
list network-interface-requirements {
key "key";
leaf key {
type string;
}
leaf value {
type string;
}
description
"The network interface requirements. An element from an
array of key-value pairs that articulate the network
interface deployment requirements.";
reference
"GS NFV-IFA011: Section 7.1.6.6,
VirtualNetworkInterfaceRequirements information element";
}
leaf niclo-requirements {
mandatory true;
type string; // remove once leafref is resolved.
//type leafref {
// add path statement here to logical-node-data.
//}
description
"This references (couples) the CPD with any logical node I/O
requirements (for network devices) that may have been
created. Linking these attributes is necessary so that so
that I/O requirements that need to be articulated at the
logical node level can be associated with the network
interface requirements associated with the CPD.";
reference
"GS NFV-IFA011: Section 7.1.6.6,
VirtualNetworkInterfaceRequirements information element";
}
}
}
grouping vnfd {
list vnfd {
key "id";
description
"A VNF Descriptor (VNFD) is a deployment template which
describes a VNF in terms of deployment and operational
behaviour requirements. It also contains connectivity,
interface and virtualised resource requirements";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
leaf id {
type string;
description
"Identifier of this VNFD information element. This attribute
shall be globally unique. The format will be defined in the
data model specification phase.";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
}
leaf provider {
type string;
mandatory true;
description
"Provider of the VNF and of the VNFD";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
}
leaf product-name {
type string;
mandatory true;
description
"Name to identify the VNF Product. Invariant for the VNF
Product lifetime.";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
}
leaf software-version {
type string;
mandatory true;
description
"Software version of the VNF. This is changed when there is
any change to the software that is included in the VNF
Package";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
}
leaf version {
type string;
mandatory true;
description
"Identifies the version of the VNFD";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
}
leaf product-info-name {
type string;
description
"Human readable name of the VNFD. Can change
during the VNF Product lifetime.";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
}
leaf product-info-description {
type string;
description
"Human readable description of the VNFD. Can change during
the VNF Product lifetime.";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
}
leaf-list vnfm-info {
type string;
min-elements 1;
description
"Identifies VNFM(s) compatible with the VNF described in
this version of the VNFD.";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
}
leaf localization-language {
type string;
description
"Information about the language of the VNF.";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
}
leaf default-localization-language {
when "../localization-language";
type string;
description
"Default localization language that is instantiated if no
information about selected localization language is
available. Shall be present if 'localization-language'
is present and shall be absent otherwise.";
reference
"GS NFV-IFA011: Section 7.1.2, VNFD information element";
}
list vdu {
key "id";
min-elements 1;
description
"The Virtualisation Deployment Unit (VDU) is a construct supporting
the description of the deployment and operational behaviour of a
VNF component, or the entire VNF if it was not componentized in
components.";
reference
"GS NFV IFA011: Section 7.1.2, VNFD information element";
leaf id {
type string;
description
"Unique identifier of this VDU in VNFD.";
reference
"GS NFV IFA011: Section 7.1.6.2, Vdu information element";
}
leaf name {
type string;
mandatory true;
description
"Human readable name of the VDU.";
reference
"GS NFV IFA011: Section 7.1.6.2, Vdu information element";
}
leaf description {
type string;
description
"Human readable description of the VDU.";
reference
"GS NFV IFA011: Section 7.1.6.2, Vdu information element";
}
list int-cpd {
key "id";
min-elements 1;
description
"A internal-connection-point element is a type of
connection point and describes network connectivity
between a VDU instance and an internal Virtual Link or
an external connection point.";
reference
"GS NFV IFA011: Section 7.1.6.2, Vdu information element";
choice cp-connection {
mandatory true;
description
"A connection point must either connect to an internal
virtual link or to an external connection points.";
leaf int-virtual-link-desc {
type leafref {
path "../../../nfv:virtual-link-desc/nfv:id";
}
description
"Reference of the internal VLD which this internal CPD
connects to.";
reference
"GS NFV IFA011: Section 7.1.6.4, VduCpd information
element";
}
leaf ext-cpd {
description
"Connect to an external connection point";
type leafref {
path "../../../nfv:ext-cpd/nfv:id";
}
}
}
leaf bitrate-requirement {
type uint64;
units "Mbps";
description
"Bitrate requirement on this CP.";
reference
"GS NFV IFA011: Section 7.1.6.4, VduCpd information
element.";
}
uses virtual-network-interface-requirements;
leaf-list order {
type uint32;
description
"The order of the NIC to be assigned on the compute
instance (e.g. 2 for eth2).
Note: when binding more than one port to a single
compute (aka multi vNICs) and ordering is desired, it
is mandatory that all ports will be set with an order
value. The order values shall represent a positive,
arithmetic progression that starts with 0 (i.e. 0, 1,
2,..., n).
If the property is not present, it shall be left to the
VIM to assign a value when creating the instance.";
reference
"GS NFV IFA011: Section 7.1.6.4, VduCpd information
element.";
}
uses cpd;
}
leaf virtual-compute-desc {
type leafref {
path "../../nfv:virtual-compute-descriptor/" +
"nfv:id";
}
description
"Describes CPU, Memory and acceleration requirements of
the Virtualisation Container realizing this VDU.";
reference
"GS NFV IFA011: Section 7.1.6.2, VDU information
element, and Section 7.1.9.2.2, VirtualComputeDesc
information element.";
}
leaf-list virtual-storage-desc {
type leafref {
path "../../nfv:virtual-storage-descriptor/" +
"nfv:id";
}
description
"Describes storage requirements for a VirtualStorage
instance attached to the virtualisation container
created from virtualComputeDesc defined for this VDU.";
reference
"GS NFV IFA011: Section 7.1.6.2, VDU information
element, and Section 7.1.9.4, Information elements
related to Virtual Storage.";
}
list boot-order {
ordered-by user;
key "virtual-storage-desc";
leaf virtual-storage-desc {
type leafref {
path "../../nfv:virtual-storage-desc";
}
}
}
container sw-image-desc {
presence
"Can be used to specify image data if the VNF should be
onboarded to the VIM by the NFV";
description
"Describes the software image which is directly loaded on
the virtualisation container realising this Vdu.";
reference
"GS NFV IFA011: Section 7.1.6.2, Vdu information element";
list sw-image-desc {
key "id";
leaf id {
type string;
description
"The identifier of this software image.";
reference
"GS NFV IFA011: Section 7.1.6.5, SwImageDesc
information element";
}
leaf name {
type string;
description
"The name of this software image.";
reference
"GS NFV IFA011: Section 7.1.6.5 SwImageDesc
information element.";
}
leaf version {
type string;
description
"The version of this software image.";
reference
"GS NFV IFA011: Section 7.1.6.5 SwImageDesc
information element.";
}
leaf checksum {
type string;
description
"The checksum of the software image file.";
reference
"GS NFV IFA011: Section 7.1.6.5 SwImageDesc
information element.";
}
leaf container-format {
mandatory true;
type enumeration {
enum "aki" {
description
"An Amazon kernel image.";
}
enum "ami" {
description
"An Amazon machine image.";
}
enum "ari" {
description
"An Amazon ramdisk image.";
}
enum "bare" {
description
"The image does not have a container or metadata
envelope.";
}
enum "docker" {
description
"A docker container format.";
}
enum "ova" {
description
"An OVF package in a tarfile.";
}
enum "ovf" {
description
"The OVF container format.";
}
}
description
"The container format describes the container file
format in which software image is provided.";
reference
"GS NFV IFA011: Section 7.1.6.5 SwImageDesc
information element.";
}
leaf disk-format {
mandatory true;
type enumeration {
enum "aki" {
description
"An Amazon kernel image.";
}
enum "ami" {
description
"An Amazon machine image.";
}
enum "ari" {
description
"An Amazon ramdisk image.";
}
enum "iso" {
description
"An archive format for the data contents of an
disk, such as CD-ROM.";
}
enum "qcow2" {
description
"Supported by the QEMU emulator that can expand
dynamically and supports Copy on Write.";
}
enum "raw" {
description
"An unstructured disk image format; if you have a
file without an extension it is possibly a raw
format.";
}
enum "vdi" {
description
"Supported by VirtualBox virtual machine monitor
and the QEMU emulator.";
}
enum "vhd" {
description
"The VHD disk format, a common disk format used by
virtual machine monitors from VMware, Xen,
Microsoft, VirtualBox, and others.";
}
enum "vhdx" {
description
"The VHDX disk format, an enhanced version of the
VHD format, which supports larger disk sizes among
other features.";
}
enum "vmdk" {
description
"Common disk format supported by many common virtual
machine monitors.";
}
}
description
"The disk format of a software image is the format of
the underlying disk image.";
}
leaf min-disk {
type uint64;
units "Gb";
description
"The minimal disk size requirement for this software
image. The value of the 'size of storage' attribute
of the VirtualStorageDesc referencing this
SwImageDesc shall not be smaller than the value of
minDisk.";
reference
"GS NFV IFA011: Section 7.1.6.5, SwImageDesc
information element.";
}
leaf min-ram {
type decimal64 {
fraction-digits 1;
range "0..max";
}
units "Gb";
description
"The minimal RAM requirement for this software image.
The value of the 'size' attribute of
VirtualMemoryData of the Vdu referencing this
SwImageDesc shall not be smaller than the value of
minRam.";
reference
"GS NFV IFA011: Section 7.1.6.5, SwImageDesc
information element.";
}
leaf size {
type uint64;
description
"The size of this software image.";
reference
"GS NFV IFA011: Section 7.1.6.5, SwImageDesc
information element.";
}
leaf image {
mandatory true;
type inet:uri;
description
"This is a reference to the actual software image.
The reference can be relative to the root of the VNF
Package or can be a URL";
reference
"GS NFV IFA011: Section 7.1.6.5, SwImageDesc
information element.";
}
leaf operating-system {
type string;
description
"Identifies the operating system used in the software
image. This attribute may also identify if a 32 bit
or 64 bit software image is used.";
reference
"GS NFV IFA011: Section 7.1.6.5, SwImageDesc
information element.";
}
leaf-list supported-virtualization-environment {
type string;
description
"Identifies the virtualisation environments
(e.g. hypervisor) compatible with this software
image.";
reference
"GS NFV IFA011: Section 7.1.6.5, SwImageDesc
information element.";
}
}
}
leaf-list nfvi-constraint {
type string;
description
"Describes constraints on the NFVI for the VNFC
instance(s) created from this Vdu. For example, aspects
of a secure hosting environment for the VNFC instance
that involve additional entities or processes.";
reference
"GS NFV IFA011: Section 7.1.6.2, VDU Information
element.";
}
list monitoring-parameter {
key "id";
leaf id {
type string;
description
"Unique identifier of the monitoring parameter.";
reference
"GS NFV IFA011: Section 7.1.11.3, MonitoringParameter
information element.";
}
uses monitoring-parameter;
}
container configurable-properties {
description
"Describes the configurable properties of all VNFC
instances based on this VDU.";
reference
"GS NFV IFA011: Section 7.1.6.2, VDU Information
element.";
leaf auto-scalable {
type boolean;
}
leaf auto-healable {
type boolean;
}
leaf additional-configurable-property {
type string;
description
"It provides VNFC configurable properties that can be
modified using the ModifyVnfInfo operation.";
reference
"GS NFV IFA011: Section 7.1.6.7,
VnfcConfigurableProperties Information element.";
}
}
}
list virtual-compute-descriptor {
key "id";
description
"Defines descriptors of virtual compute resources to be
used by the VNF.";
leaf id {
type string;
description
"Unique identifier of this VirtualComputeDesc in the
VNFD.";
reference
"GS NFV IFA011: Section 7.1.9.2, Information elements
related to Virtual CPU.";
}
list logical-node {
key "key";
leaf key {
type string;
}
leaf value {
type string;
}
description
"The logical Node requirements.";
reference
"GS NFV IFA011: Section 7.1.9.2.2, VirtualComputeDesc
information element.";
}
list request-additional-capability {
key "name";
leaf name {
type string;
description
"Identifies a requested additional capability for the
VDU. ETSI GS NFV-IFA 002 [i.1] describes acceleration
capabilities.";
reference
"GS NFV IFA011: Section 7.1.9.5,
RequestedAdditionalCapabilityData Information
element.";
}
leaf support-mandatory {
type boolean;
description
"Indicates whether the requested additional capability
is mandatory for successful operation.";
reference
"GS NFV IFA011: Section 7.1.9.5,
RequestedAdditionalCapabilityData Information
element.";
}
leaf min-version {
type string;
description
"Identifies the minimum version of the requested
additional capability.";
reference
"GS NFV IFA011: Section 7.1.9.5,
RequestedAdditionalCapabilityData Information
element.";
}
leaf preferred-version {
type string;
description
"Identifies the preferred version of the requested
additional capability.";
reference
"GS NFV IFA011: Section 7.1.9.5,
RequestedAdditionalCapabilityData Information
element.";
}
list target-performance-parameters {
key "key";
leaf key {
type string;
}
leaf value {
type string;
}
description
"Identifies specific attributes, dependent on the
requested additional capability type.";
reference
"GS NFV IFA011: Section 7.1.9.5,
RequestedAdditionalCapabilityData Information
element.";
}
}
leaf compute-requirements {
type string;
description
"Specifies compute requirements.";
reference
"GS NFV IFA011: Section 7.1.9.2.2, VirtualComputeDesc
Information element.";
}
container virtual-memory {
leaf size {
type decimal64 {
fraction-digits 1;
range "0..max";
}
units "MB";
mandatory true;
description
"Amount of virtual memory in MB.";
reference
"GS NFV IFA011: Section 7.1.9.3, Information elements
related to Virtual Memory.";
}
leaf over-subscription-policy {
type string;
description
"The memory core oversubscription policy in terms of
virtual memory to physical memory on the platform.
The cardinality can be 0 during the allocation
request, if no particular value is requested.";
reference
"GS NFV IFA011: Section 7.1.9.3, Information elements
related to Virtual Memory.";
}
list vdu-mem-requirements {
key "key";
leaf key {
type string;
}
leaf value {
type string;
}
description
"Array of key-value pair requirements on the memory for
the VDU.";
reference
"GS NFV IFA011: Section 7.1.9.3.2, VirtualMemoryData
information element.";
}
leaf numa-enabled {
type boolean;
description
"It specifies the memory allocation to be cognisant of
the relevant process/core allocation. The cardinality
can be 0 during the allocation request, if no
particular value is requested.";
reference
"GS NFV IFA011: Section 7.1.9.3, Information elements
related to Virtual Memory.";
}
description
"The virtual memory of the virtualised compute.";
reference
"GS NFV IFA011: Section 7.1.9.2.2, VirtualComputeDesc
Information element.";
}
container virtual-cpu {
description
"The virtual CPU(s)of the virtualised compute.";
reference
"GS NFV IFA011: Section 7.1.9.2.2, VirtualComputeDesc
Information element.";
leaf cpu-architecture {
type string;
description
"CPU architecture type. Examples are x86, ARM. The
cardinality can be 0 during the allocation request,
if no particular CPU architecture type is requested.";
reference
"GS NFV IFA011: Section 7.1.9.2.3, VirtualCpuData
information elements.";
}
leaf num-virtual-cpu {
type uint16 {
range "1..max";
}
mandatory true;
description
"Number of virtual CPUs.";
reference
"GS NFV IFA011: Section 7.1.9.2.3, VirtualCpuData
information elements.";
}
leaf clock {
type uint32;
units "MHz";
description
"Minimum virtual CPU clock rate (e.g. in MHz). The
cardinality can be 0 during the allocation request,
if no particular value is requested.";
reference
"GS NFV IFA011: Section 7.1.9.2.3, VirtualCpuData
information elements.";
}
leaf oversubscription-policy {
type string;
description
"The CPU core oversubscription policy e.g. the relation
of virtual CPU cores to physical CPU cores/threads.
The cardinality can be 0 during the allocation request,
if no particular value is requested.";
reference
"GS NFV IFA011: Section 7.1.9.2.3, VirtualCpuData
information elements.";
}
list vdu-cpu-requirements {
key "key";
leaf key {
type string;
}
leaf value {
type string;
}
description
"Array of key-value pair requirements on the compute
(CPU) for the VDU.";
reference
"GS NFV IFA011: Section 7.1.9.3.2, VirtualCpuData
information element.";
}
container virtual-cpu-pinning {
presence "Set to specify CPU pinning.";
leaf cpu-pinning-policy {
mandatory true;
type enumeration {
enum "static";
enum "dynamic";
}
description
"Indicates the policy for CPU pinning. The policy can
take values of 'static' or 'dynamic'. The cardinality
can be 0 during the allocation request, if no
particular value is requested.";
}
container cpu-pinning-map {
when "../nfv:cpu-pinning-policy = 'static'";
}
description
"If cpuPinningPolicy is defined as 'static', the
cpuPinningMap provides the map of pinning virtual
CPU cores to physical CPU cores/threads. Cardinality
is 0 if cpuPinningPolicy has a different value than
'static'.";
}
}
}
list virtual-storage-descriptor {
key "id";
description
"Storage requirements for a Virtual Storage instance
attached to the VNFC created from this VDU";
leaf id {
type string;