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.. Licensed under a Creative Commons Attribution 4.0 International License.
.. http://creativecommons.org/licenses/by/4.0
.. Copyright 2017 AT&T Intellectual Property.  All rights reserved.

.. _ONAP Heat VNF Modularity:

ONAP Heat VNF Modularity
---------------------------

ONAP supports a modular Heat Orchestration Template design pattern,
referred to as *VNF Modularity.* With this approach, a single VNF **MAY** be
composed from one or more Heat Orchestration Templates, each of which
represents a subset of the overall VNF. These component parts are
referred to as *VNF Modules*. During orchestration, these modules
are deployed incrementally to create the complete VNF.

As stated in :need:`R-33132`, a VNF's Heat Orchestration Template **MAY** be
     1.) Base Module Heat Orchestration Template (also referred to as a
      Base Module),
     2.) Incremental Module Heat Orchestration Template (referred to as
      an Incremental Module), or
     3.) a Cinder Volume Module Heat Orchestration Template (referred to as
      Cinder Volume  Module).

As stated in :need:`R-20974`, at orchestration time, the VNF's Base Module **MUST**
be deployed first, prior to any incremental modules.

As stated in :need:`R-28980`, :need:`R-86926`, and :need:`R-91497`, a
VNF's incremental module **MAY** be used for

  * initial VNF deployment only
  * scale out only
  * both deployment and scale out

As stated in :need:`R-68122`, a VNF's incremental module **MAY** be deployed
more than once, either during initial VNF deployment and/or scale out

As stated in :need:`R-37028` and :need:`R-13196`, a VNF **MUST** be composed
of one Base Module and *MAY** be composed of zero to many Incremental
Modules.

ONAP also supports the concept of an optional, independently deployed
Cinder volume via a separate Heat Orchestration Templates, referred to
as a Cinder Volume Module. This allows the volume to persist after a VM
(i.e., OS::Nova::Server) is deleted, allowing the volume to be reused on
another instance (e.g., during a fail over activity).

The scope of a Cinder volume module, when it exists, must be 1:1 with a
Base module or Incremental Module.

A VNF module (base, incremental, cinder) **MAY** support nested templates.

A shared Heat Resource is a resource that **MAY** be used by
other Heat Resources either in the Base Module or an
Incremental Module.

.. req::
    :id: R-61001
    :target: VNF
    :keyword: MUST

    A shared Heat Orchestration Template resource must be defined
    in the base module. A shared resource is a resource that that will
    be referenced by another resource that is defined in the Base Module
    and/or one or more incremental modules. When the shared resource needs
    to be referenced by a resource in an incremental module, the UUID of
    the shared resource **MUST** be exposed by declaring an ONAP Base
    Module Output Parameter.

When the shared resource needs to be referenced by a resource in an
incremental module, the UUID of the shared resource must be exposed by
declaring an ONAP Base Module Output Parameter.

An example of a shared resource is the resource
OS::Neutron::SecurityGroup. Security groups are sets of IP filter rules
that are applied to a VNF’s networking. The resource OS::Neutron::Port
has a property security_groups which provides the security groups
associated with port. The value of parameter(s) associated with this
property must be the UUIDs of the resource(s)
OS::Neutron::SecurityGroup.

*Note:* A Cinder volume is not considered a shared resource. A volume
template must correspond 1:1 with a base template or add-on module
template.

Suggested Patterns for Modular VNFs
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

There are numerous variations of VNF modularity. Below are two suggested
usage patterns.

**Option 1: Incremental Modules per VNFC type**

a. Base module contains only the shared resources.

b. Group all VMs (e.g., VNFCs) of a given type (i.e. {vm-type}) into its
   own incremental module. That is, the VNF has an incremental module
   for each {vm-type}.

c. For a given {vm-type} incremental module, the VNF may have

   i.  One incremental module used for both initial turn up and re-used
       for scaling. This approach is used when the number of VMs
       instantiated will be the same for initial deployment and scaling.

   ii. Two incremental modules, where one is used for initial turn up
       and one is used for scaling. This approach is used when the
       number of VMs instantiated will be different for initial
       deployment and scaling.

**Option 2: Base VNF with Incremental Growth Modules**

a. Base module contains a complete initial VNF instance

b. Incremental modules for incremental scaling units

   i.  May contain VMs of multiple types in logical scaling combinations

   ii. May be separated by VM type for multi-dimensional scaling

With no growth units, Option 2 is equivalent to the "One Heat Template
per VNF" model.

Note that modularization of VNFs is not required. A single Heat
Orchestration Template (a base module) may still define a complete VNF,
which might be appropriate for smaller VNFs that do not have any scaling
options.

Modularity Rules
^^^^^^^^^^^^^^^^^^^

There are some rules to follow when building modular VNF templates:

1. All VNFs must have one Base VNF Module (template) that must be the
   first one deployed. The base template:

   a. Must include all shared resources (e.g., private networks, server
      groups, security groups)

   b. Must expose all shared resources (by UUID) as "outputs" in its
      associated Heat template (i.e., ONAP Base Module Output
      Parameters)

   c. May include initial set of VMs

   d. May be operational as a stand-alone "minimum" configuration of the
      VNF

2. VNFs may have one or more incremental modules which:

   a. Defines additional resources that can be added to an existing VNF

   b. Must be complete Heat templates

      i. i.e. not snippets to be incorporated into some larger template

   c. Should define logical growth-units or sub-components of an overall
      VNF

   d. On creation, receives appropriate Base Module outputs as
      parameters

      i.  Provides access to all shared resources (by UUID)

      ii. *VNFs may have one or more incremental modules which must not be
          dependent on other Add-On VNF Modules*

   e. Multiple instances of an incremental Module may be added to the
      same VNF (e.g., incrementally grow a VNF by a fixed "add-on"
      growth units)

3. Each VNF Module (base or incremental) may have (optional) an
   associated Cinder Volume Module (see Cinder Volumes)

   a. Volume modules must correspond 1:1 with a base module or
      incremental module

   b. A Cinder volume may be embedded within the base module or
      incremental module if persistence is not required

4. Shared resource UUIDs are passed between the base module and
   incremental modules via Heat Outputs Parameters (i.e., Base Module
   Output Parameters)

   a. The output parameter name in the base must match the parameter
      name in the add-on module

VNF Modularity Examples
^^^^^^^^^^^^^^^^^^^^^^^^^

*Example: Base Module creates SecurityGroup*

A VNF has a base module, named base.yaml, that defines a
OS::Neutron::SecurityGroup. The security group will be referenced by an
OS::Neutron::Port resource in an incremental module, named
INCREMENTAL_MODULE.yaml. The base module defines a parameter in the
outputs:section named dns_sec_grp_id. dns_sec_grp_id is defined as a
parameter in the incremental module. ONAP captures the UUID value of
dns_sec_grp_id from the base module output statement and provides the
value to the incremental module.

Note that the example below is not a complete Heat Orchestration
Template. The {network-role} has been defined as oam to represent an oam
network and the {vm-type} has been defined as dns.

base_MODULE.yaml

.. code-block:: yaml

  parameters:
  . . .
  resources:
    DNS_SECURITY_GROUP:
      type: OS::Neutron::SecurityGroup
      properties:
        description: vDNS security group
        name:
        str_replace:
          template: VNF_NAME_sec_grp_DNS
          params:
            VMF_NAME: {get_param: vnf_name}
        rules: [. . . . .
        ]
  . . .
  outputs:
    dns_sec_grp_id:
      description: UUID of DNS Resource SecurityGroup
      value: { get_resource: DNS_SECURITY_GROUP }

INCREMENTAL_MODULE.yaml

.. code-block:: yaml

  parameters:
    dns_sec_grp_id:
      type: string
      description: security group UUID
  . . .

  resources:
    dns_0_oam_0_port:
      type: OS::Neutron::Port
        properties:
          name:
            str_replace:
              template: VNF_NAME_dns_oam_port
              params:
                VNF_NAME: {get_param: vnf_name}
          network: { get_param: oam_net_name }
          fixed_ips: [{ "ip_address": { get_param: dns_oam_ip_0 }}]
          security_groups: [{ get_param: dns_sec_grp_id }]

*Examples: Base Module creates an internal network*

A VNF has a base module, named base_module.yaml, that creates an
internal network. An incremental module, named incremental_module.yaml,
will create a VM that will connect to the internal network. The base
module defines a parameter in the out section named int_oam_net_id.
int_oam_net_id is defined as a parameter in the incremental module.
ONAP captures the UUID value of int_oam_net_id from the base module
output statement and provides the value to the incremental module.

Note that the example below is not a complete Heat Orchestration
Template. The {network-role} has been defined as oam to represent an oam
network and the {vm-type} has been defined as lb for load balancer.

base.yaml

.. code-block:: yaml

  heat_template_version: 2013-05-23

  resources:
    int_oam_network:
      type: OS::Neutron::Network
      properties:
        name: { }
  . . .

  outputs:
    int_oam_net_id:
    value: {get_resource: int_oam_network }

incremental.yaml

.. code-block:: yaml

  heat_template_version: 2013-05-23

  parameters:
    int_oam_net_id:
      type: string
      description: ID of shared private network from Base template
    lb_name_0:
      type: string
      description: name for the add-on VM instance

  resources:
    lb_server_0:
      type: OS::Nova::Server
      properties:
        name: {get_param: lb_name_0}
        networks:
          - port: { get_resource: get_resource: lb_0_int_oam_port_0  }
  . . .
    lb_0_int_oam_port_0:
      type: OS::Neutron::Port
        properties:
        network: { get_param: int_oam_net_id }
  ...