VNFRQTS - Breaking up Chapter 5 - Heat

Breaking up the Heat section to make it more granular.

Issue-ID: VNFRQTS-275

Change-Id: I020469d7aea199cd71c4d7c67664ad4dbc4071c9
Signed-off-by: Bozawglanian, Hagop (hb755d) <hb755d@att.com>

24 files changed, 8323 insertions, 8235 deletions

diff --git a/docs/Chapter5/Heat.rst b/docs/Chapter5/Heat.rst
deleted file mode 100644
index e186248..0000000
--- a/docs/Chapter5/Heat.rst
+++ /dev/null
@@ -1,8234 +0,0 @@
-.. Modifications Copyright © 2017-2018 AT&T Intellectual Property.
-
-.. Licensed under the Creative Commons License, Attribution 4.0 Intl.
-   (the "License"); you may not use this documentation except in compliance
-   with the License. You may obtain a copy of the License at
-
-.. https://creativecommons.org/licenses/by/4.0/
-
-.. 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.
-
-
-Heat
-----
-
-General Guidelines
-^^^^^^^^^^^^^^^^^^
-This section contains general Heat Orchestration Template guidelines
-and requirements.
-
-Heat Template Compliance
-~~~~~~~~~~~~~~~~~~~~~~~~
-
-The Heat Orchestration Template requirements with RFC 2119
-keywords **MUST** and **MUST NOT** can be validated against a set of Heat
-Templates via the VNF Validation Program (VVP).
-
-**NOTE**: Not all requirements are currently testable via VVP.
-
-The VVP *validation scripts* project contains python validation
-scripts that will parse Heat Orchestration Templates in a given directory
-to ensure that they comply with ONAP Heat Orchestration Template requirements.
-
-For instructions on how to use the VVP validation scripts,
-please see the validation scripts
-`README <https://github.com/onap/vvp-validation-scripts>`__
-
-YAML Format
-~~~~~~~~~~~
-
-
-.. req::
-    :id: R-95303
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template **MUST** be defined using valid YAML.
-
-YAML (YAML Ain't
-Markup Language) is a human friendly data serialization standard for all
-programming languages. See http://www.yaml.org/.
-
-Heat Orchestration Template Format
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-As stated above, Heat Orchestration templates must be defined in YAML.
-
-YAML rules include:
-
- - Tabs are not allowed, use spaces ONLY
-
- - You must indent your properties and lists with 1 or more spaces
-
- - All Resource IDs and resource property parameters are
-   case-sensitive. (e.g., "ThIs", is not the same as "thiS")
-
-Heat Orchestration Template Structure
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-Heat Orchestration template structure follows the following format,
-as defined by OpenStack at
-https://docs.openstack.org/developer/heat/template_guide/hot_spec.html
-
-.. code-block:: yaml
-
-  heat_template_version: <date>
-
-  description:
-    # a description of the template
-
-  parameter_groups:
-    # a declaration of input parameter groups and order
-
-  parameters:
-    # declaration of input parameters
-
-  resources:
-    # declaration of template resources
-
-  outputs:
-    # declaration of output parameters
-
-  conditions:
-    # declaration of conditions
-
-heat_template_version
-+++++++++++++++++++++
-
-
-.. req::
-    :id: R-27078
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration template **MUST** contain
-    the section "heat_template_version:".
-
-The section "heat_template_version:" must be set to a date
-that is supported by the OpenStack environment.
-
-description
-+++++++++++
-
-
-.. req::
-    :id: R-39402
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template **MUST**
-    contain the section "description:".
-
-parameter_groups
-++++++++++++++++
-
-A VNF Heat Orchestration template may
-contain the section "parameter_groups:".
-
-parameters
-++++++++++
-
-
-.. req::
-    :id: R-35414
-    :target: VNF
-    :keyword: MUST
-
-    A VNF Heat Orchestration's template **MUST**
-    contain the section "parameters:".
-
-
-.. code-block:: yaml
-
-  parameters:
-
-    <param name>:
-
-      type: <string | number | json | comma_delimited_list | boolean>
-
-      label: <human-readable name of the parameter>
-
-      description: <description of the parameter>
-
-      default: <default value for parameter>
-
-      hidden: <true | false>
-
-      constraints:
-
-        <parameter constraints>
-
-      immutable: <true | false>
-
-This section allows for
-specifying input parameters that have to be provided when instantiating
-the template. Each parameter is specified in a separate nested block
-with the name of the parameters defined in the first line and additional
-attributes (e.g., type, label) defined as nested elements.
-
-
-.. req::
-    :id: R-90279
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration template's parameter **MUST**
-    be used in a resource with the exception of the parameters
-    for the OS::Nova::Server resource property availability_zone.
-
-.. req::
-    :id: R-91273
-    :target: VNF
-    :keyword: MAY NOT
-
-    A VNF Heat Orchestration's template's parameter for
-    the OS::Nova::Server resource property availability_zone
-    **MAY NOT** be used in any OS::Nova::Resource.
-
-That is, the parameter associated with the property 'availability_zone'
-maybe declared but not used in a resource.
-
-<param name>
-____________
-
-The name of the parameter.
-
-
-.. req::
-    :id: R-25877
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's parameter
-    name (i.e., <param name>) **MUST** contain only
-    alphanumeric characters and underscores ('_').
-
-type
-____
-
-
-.. req::
-    :id: R-36772
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's parameter
-    **MUST** include the attribute "type:".
-
-.. req::
-    :id: R-11441
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's parameter
-    type **MUST** be one of the following values: "string",
-    "number", "json", "comma_delimited_list" or "boolean".
-
-label
-_____
-
-
-.. req::
-    :id: R-32094
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template parameter
-    declaration **MAY** contain the attribute "label:".
-
-description
-___________
-
-
-.. req::
-    :id: R-44001
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template parameter
-    declaration **MUST** contain the attribute "description".
-
-Note that the parameter attribute "description:" is an OpenStack
-optional attribute that provides a description of the parameter.
-ONAP implementation requires this attribute.
-
-default
-_______
-
-
-.. req::
-    :id: R-90526
-    :target: VNF
-    :keyword: MUST
-
-    A VNF Heat Orchestration Template parameter
-    declaration **MUST** not contain the default attribute.
-
-.. req::
-    :id: R-26124
-    :target: VNF
-    :keyword: MUST
-
-    If a VNF Heat Orchestration Template parameter
-    requires a default value, it **MUST** be enumerated in the environment file.
-
-Note that the parameter attribute "default:" is an OpenStack
-optional attribute that declares the default value of the
-parameter. ONAP implementation prohibits the use of this attribute.
-
-hidden
-______
-
-
-.. req::
-    :id: R-32557
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template parameter
-    declaration **MAY** contain the attribute "hidden:".
-
-The parameter attribute "hidden:" is an OpenStack optional
-attribute that defines whether the parameters should be
-hidden when a user requests information about a stack
-created from the template. This attribute can be used
-to hide passwords specified as parameters.
-
-constraints
-___________
-
-The parameter attribute "constraints:" is an OpenStack optional
-attribute that defines a list of constraints to apply to the parameter.
-
-
-.. req::
-    :id: R-88863
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's parameter defined as
-    type "number" **MUST** have a parameter constraint of "range" or
-    "allowed_values" defined.
-
-.. req::
-    :id: R-40518
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's parameter defined as
-    type "string" **MAY** have a parameter constraint defined.
-
-.. req::
-    :id: R-96227
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's parameter defined as
-    type "json" **MAY** have a parameter constraint defined.
-
-.. req::
-    :id: R-79817
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's parameter defined as
-    type "comma_delimited_list" **MAY** have a parameter constraint defined.
-
-.. req::
-    :id: R-06613
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's parameter defined as
-    type "boolean" **MAY** have a parameter constraint defined.
-
-.. req::
-    :id: R-00011
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's Nested YAML files
-    parameter's **MUST NOT** have a parameter constraint defined.
-
-The constraints block of a parameter definition defines additional
-validation constraints that apply to the value of the parameter.
-The parameter values provided in the VNF Heat Orchestration Template
-are validated against the constraints at instantiation time.
-The stack creation fails if the parameter value doesn't comply to
-the constraints.
-
-The constraints are defined as a list with the following syntax
-
-.. code-block:: yaml
-
-  constraints:
-
-    <constraint type>: <constraint definition>
-
-    description: <constraint description>
-
-..
-
-**<constraint type>** Provides the type of constraint to apply.
-The list of OpenStack supported constraints can be found at
-https://docs.openstack.org/heat/latest/template_guide/hot_spec.html .
-
-**<constraint definition>** provides the actual constraint.
-The syntax and constraint is dependent of the <constraint type> used.
-
-**description** is an optional attribute that provides a description of the
-constraint. The text is presented to the user when the value the user
-defines violates the constraint. If omitted, a default validation
-message is presented to the user.
-
-Below is a brief overview of the "range" and "allowed values" constraints.
-For complete details on constraints, see
-https://docs.openstack.org/heat/latest/template_guide/hot_spec.html#parameter-constraints
-
-**range**
-
-range: The range constraint applies to parameters of type: number.
-It defines a lower and upper limit for the numeric value of the
-parameter. The syntax of the range constraint is
-
-.. code-block:: yaml
-
-    range: { min: <lower limit>, max: <upper limit> }
-
-..
-
-It is possible to define a range constraint with only a lower
-limit or an upper limit.
-
-**allowed_values**
-
-allowed_values: The allowed_values constraint applies to parameters of
-type \"string\" or type \"number\". It specifies a set of possible
-values for a parameter. At deployment time, the user-provided value
-for the respective parameter must match one of the elements of the
-list. The syntax of the allowed_values constraint is
-
-.. code-block:: yaml
-
-    allowed_values: [ <value>, <value>, ... ]
-
-    Alternatively, the following YAML list notation can be used
-
-    allowed_values:
-
-    - <value>
-
-    - <value>
-
-    - ...
-
-. .
-
-immutable
-_________
-
-
-.. req::
-    :id: R-22589
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template parameter declaration
-    **MAY** contain the attribute "immutable:".
-
-The parameter attribute \"immutable:\" is an OpenStack optional
-attribute that defines whether the parameter is updatable. A Heat
-Orchestration Template stack update fails if immutable is set to
-true and the parameter value is changed.  This attribute
-\"immutable:\" defaults to false.
-
-resources
-+++++++++
-
-
-.. req::
-    :id: R-23664
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration template **MUST** contain
-    the section "resources:".
-
-.. req::
-    :id: R-90152
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's "resources:"
-    section **MUST** contain the declaration of at least one resource.
-
-.. req::
-    :id: R-40551
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's Nested YAML files
-    **MAY** contain the section "resources:".
-
-Each resource is defined as a
-separate block in the resources section with the following syntax.
-
-.. code-block:: yaml
-
-  resources:
-
-    <resource ID>:
-
-      type: <resource type>
-
-      properties:
-
-        <property name>: <property value>
-
-      metadata:
-
-        <resource specific metadata>
-
-      depends_on: <resource ID or list of ID>
-
-      update_policy: <update policy>
-
-      deletion_policy: <deletion policy>
-
-      external_id: <external resource ID>
-
-      condition: <condition name or expression or boolean>
-
-
-
-resource ID
-___________
-
-
-.. req::
-    :id: R-75141
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's resource name
-    (i.e., <resource ID>) **MUST** only contain alphanumeric
-    characters and underscores ('_').
-
-.. req::
-    :id: R-16447
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's <resource ID> **MUST** be unique across all
-    Heat Orchestration Templates and all HEAT Orchestration Template
-    Nested YAML files that are used to create the VNF.
-
-Note that a VNF can be composed of one or more Heat Orchestration Templates.
-
-Note that OpenStack requires the <resource ID> to be unique to the
-Heat Orchestration Template and not unique across all Heat
-Orchestration Templates the compose the VNF.
-
-type
-____
-
-The resource attribute \"type:\" is an OpenStack required
-attribute that defines the resource type, such as
-OS::Nova::Server or OS::Neutron::Port.
-
-The resource attribute \"type:\" may specify a VNF HEAT
-Orchestration Template Nested YAML file.
-
-
-.. req::
-    :id: R-53952
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's Resource
-    **MUST NOT** reference a HTTP-based resource definitions.
-
-.. req::
-    :id: R-71699
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's Resource
-    **MUST NOT** reference a HTTP-based Nested YAML file.
-
-properties
-__________
-
-The resource attribute \"properties:\" is an OpenStack optional
-attribute that provides a list of resource-specific properties.
-The property value can be provided in place, or via a function
-(e.g., `Intrinsic functions <https://docs.openstack.org/developer/heat/template_guide/hot_spec.html#hot-spec-intrinsic-functions>`__).
-
-
-.. req::
-    :id: R-10834
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF Heat Orchestration Template resource attribute
-    "property:" uses a nested "get_param", one level of nesting is
-    supported and the nested "get_param" **MUST** reference an index.
-
-metadata
-________
-
-The resource attribute \"metadata:\" is an OpenStack optional attribute.
-
-
-.. req::
-    :id: R-97199
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    resource **MUST** contain the attribute "metadata".
-
-Section 5.4 contains the OS::Nova::Server mandatory and optional metadata.
-
-depends_on
-__________
-
-The resource attribute \"depends_on:\" is an OpenStack optional
-attribute.
-See `OpenStack documentation <https://docs.openstack.org/developer/heat/template_guide/hot_spec.html#hot-spec-resources-dependencies>`__
-for additional details.
-
-
-.. req::
-    :id: R-46968
-    :target: VNF
-    :keyword: MAY
-
-    VNF's Heat Orchestration Template's Resource **MAY**
-    declare the attribute "depends_on:".
-
-update_policy
-_____________
-
-
-.. req::
-    :id: R-63137
-    :target: VNF
-    :keyword: MAY
-
-    VNF's Heat Orchestration Template's Resource **MAY**
-    declare the attribute "update_policy:".
-
-deletion_policy
-_______________
-
-
-.. req::
-    :id: R-43740
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's Resource
-    **MAY** declare the attribute "deletion_policy:".
-
-If specified, the \"deletion_policy:\" attribute for resources
-allows values 'Delete', 'Retain', and 'Snapshot'.
-Starting with heat_template_version 2016-10-14, lowercase
-equivalents are also allowed.
-
-The default policy is to delete the physical resource when
-deleting a resource from the stack.
-
-external_id
-___________
-
-
-.. req::
-    :id: R-78569
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's Resouce **MAY**
-    declare the attribute "external_id:".
-
-This attribute allows for specifying the resource_id for an
-existing external (to the stack) resource. External resources
-cannot depend on other resources, but we allow other resources to
-depend on external resource. This attribute is optional.
-Note: when this is specified, properties will not be used for
-building the resource and the resource is not managed by Heat.
-This is not possible to update that attribute. Also,
-resource won't be deleted by heat when stack is deleted.
-
-
-condition
-_________
-
-The resource attribute \"condition:\" is an OpenStack optional attribute.
-
-Support for the resource condition attribute was added
-in the Newton release of OpenStack.
-
-outputs
-+++++++
-
-
-.. req::
-    :id: R-36982
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration template **MAY**
-    contain the "outputs:" section.
-
-This section allows for specifying output parameters
-available to users once the template has been instantiated. If the
-section is specified, it will need to adhere to specific requirements.
-See `Output Parameters`_ and
-`ONAP Output Parameter Names`_ for additional details.
-
-Environment File Format
-~~~~~~~~~~~~~~~~~~~~~~~
-
-The environment file is a yaml text file.
-(https://docs.openstack.org/developer/heat/template_guide/environment.html)
-
-
-.. req::
-    :id: R-86285
-    :target: VNF
-    :keyword: MUST
-
-    The VNF Heat Orchestration Template **MUST** have a corresponding
-    environment file, even if no parameters are required to be enumerated.
-
-The use of an environment file in OpenStack is optional.
-In ONAP, it is mandatory.
-
-
-.. req::
-    :id: R-03324
-    :target: VNF
-    :keyword: MUST
-
-    The VNF Heat Orchestration Template **MUST** contain the
-    "parameters" section in the environment file.
-
-.. req::
-    :id: R-68198
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration template's Environment File's
-    "parameters:" section **MAY** enumerate parameters.
-
-ONAP implementation requires the parameters section in the
-environmental file to be declared. The parameters section
-contains a list of key/value pairs.
-
-
-.. req::
-    :id: R-59930
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration template's Environment
-    File's **MAY** contain the "parameter_defaults:" section.
-
-The "parameter_defaults:" section contains default parameters
-that are passed to all template resources.
-
-
-.. req::
-    :id: R-46096
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration template's Environment File's
-    **MAY** contain the "encrypted_parameters:" section.
-
-The "encrypted_parameters:" section contains a list of encrypted parameters.
-
-
-.. req::
-    :id: R-24893
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration template's Environment File's
-    **MAY** contain the "event_sinks:" section.
-
-The "event_sinks:" section contains the list of endpoints that would
-receive stack events.
-
-
-.. req::
-    :id: R-42685
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration template's Environment File's
-    **MAY** contain the "parameter_merge_strategies:" section.
-
-The "parameter_merge_strategies:" section provides the merge strategies
-for merging parameters and parameter defaults from the environment file.
-
-
-.. req::
-    :id: R-67231
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration template's Environment File's **MUST NOT**
-    contain the "resource_registry:" section.
-
-ONAP implementation does not support the Environment File
-resource_registry section. The resource_registry section
-allows for the definition of custom resources.
-
-SDC Treatment of Environment Files
-++++++++++++++++++++++++++++++++++
-
-Parameter values enumerated in the environment file are used by SDC as
-the default value. However, the SDC user may use the SDC GUI to
-overwrite the default values in the environment file.
-
-SDC generates a new environment file for distribution to MSO based on
-the uploaded environment file and the user provided GUI updates. The
-user uploaded environment file is discarded when the new file is
-created.
-
-ONAP has requirements for what parameters must be enumerated in the
-environment file and what parameter must not be enumerated in the
-environment file. See `Output Parameters`_ and
-`ONAP Resource ID and Parameter Naming Convention`_ for more details.
-
-ONAP Heat Orchestration Templates: Overview
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-ONAP supports a modular Heat Orchestration Template design pattern,
-referred to as *VNF Modularity.*
-
-ONAP VNF Modularity Overview
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-
-.. req::
-    :id: R-69663
-    :target: VNF
-    :keyword: MAY
-
-    A VNF **MAY** be composed from one or more Heat Orchestration
-    Templates, each of which represents a subset of the overall VNF.
-
-The Heat Orchestration Templates can be thought of a components or
-modules of the VNF and are referred to as "\ *VNF Modules*\ ".
-During orchestration, these modules are
-deployed incrementally to create the complete VNF.
-
-
-.. req::
-    :id: R-33132
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template **MAY** be
-
-       * a Base Module Heat Orchestration Template
-         (also referred to as a Base Module)
-
-       * an Incremental Module Heat Orchestration Template
-         (referred to as an Incremental Module)
-
-       * a Cinder Volume Module Heat Orchestration Template
-         (referred to as Cinder Volume Module).
-
-.. req::
-    :id: R-37028
-    :target: VNF
-    :keyword: MUST
-
-    The VNF **MUST** be composed of one "base" module.
-
-.. req::
-    :id: R-13196
-    :target: VNF
-    :keyword: MAY
-
-    A VNF **MAY** be composed of zero to many Incremental Modules.
-
-.. req::
-    :id: R-20974
-    :target: VNF
-    :keyword: MUST
-
-    The VNF **MUST** deploy the base module first, prior to
-    the incremental modules.
-
-.. req::
-    :id: R-28980
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's incremental module **MAY** be used for initial VNF
-    deployment only.
-
-.. req::
-    :id: R-86926
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's incremental module **MAY** be used for scale out only.
-
-A VNF's Incremental Module that is used for scale out is deployed
-sometime after initial VNF deployment to add capacity.
-
-
-.. req::
-    :id: R-91497
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's incremental module **MAY** be used for both deployment
-    and scale out.
-
-.. req::
-    :id: R-68122
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's incremental module **MAY** be deployed more than once,
-    either during initial VNF deployment and/or scale out.
-
-.. req::
-    :id: R-46119
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's Resource OS::Heat::CinderVolume
-    **MAY** be defined in a Base Module.
-
-.. req::
-    :id: R-90748
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's Resource OS::Heat::CinderVolume
-    **MAY** be defined in an Incremental Module.
-
-.. req::
-    :id: R-03251
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's Resource OS::Heat::CinderVolume
-    **MAY** be defined in a Cinder Volume Module.
-
-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 Virtual Machine
-(VM) (i.e., OS::Nova::Server) is deleted, allowing the volume to be reused
-on another instance (e.g., during a failover activity).
-
-.. req::
-    :id: R-11200
-    :target: VNF
-    :keyword: MUST
-
-    The VNF **MUST** keep the scope of a Cinder volume module,
-    when it exists, to be 1:1 with the VNF Base Module or Incremental Module.
-
-It is strongly recommended that Cinder Volumes be created in a Cinder Volume
-Module.
-
-.. req::
-    :id: R-38474
-    :target: VNF
-    :keyword: MUST
-
-    The VNF **MUST** have a corresponding environment file for a Base Module.
-
-.. req::
-    :id: R-81725
-    :target: VNF
-    :keyword: MUST
-
-    The VNF **MUST** have a corresponding environment file for an Incremental Module.
-
-.. req::
-    :id: R-53433
-    :target: VNF
-    :keyword: MUST
-
-    The VNF **MUST** have a corresponding environment file for a Cinder Volume Module.
-
-These concepts will be described in more detail throughout the document.
-This overview is provided to set the stage and help clarify the concepts
-that will be introduced.
-
-Nested Heat Orchestration Templates Overview
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-ONAP supports nested Heat Orchestration Templates per OpenStack
-specifications.
-
-
-.. req::
-    :id: R-36582
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Base Module **MAY** utilize nested heat.
-
-.. req::
-    :id: R-56721
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Incremental Module **MAY** utilize nested heat.
-
-.. req::
-    :id: R-30395
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Cinder Volume Module **MAY** utilize nested heat.
-
-Nested templates may be suitable for larger VNFs that contain many
-repeated instances of the same VM type(s). A common usage pattern is to
-create a nested template for each VM type along with its supporting
-resources. The Heat Orchestration Template may then reference these
-nested templates either statically (by repeated definition) or
-dynamically (via OS::Heat::ResourceGroup).
-
-See `Nested Heat Templates`_ for additional details.
-
-ONAP Heat Orchestration Template Filenames
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-In order to enable ONAP to understand the relationship between Heat
-files, the following Heat file naming convention must be utilized.
-
-In the examples below, <text> represents any alphanumeric string that
-must not contain any special characters and must not contain the word
-"base".
-
-
-.. req::
-    :id: R-87485
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's file extension **MUST**
-    be in the lower case format '.yaml' or '.yml'.
-
-.. req::
-    :id: R-56438
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's Nested YAML file extension
-    **MUST** be in the lower case format '.yaml' or '.yml'.
-
-.. req::
-    :id: R-74304
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's Environment file extension
-    **MUST** be in the lower case format '.env'.
-
-.. req::
-    :id: R-99646
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's YAML files (i.e, Heat Orchestration Template files and
-    Nested files) **MUST** have a unique name in the scope of the VNF.
-
-Base Modules
-++++++++++++
-
-
-.. req::
-    :id: R-81339
-    :target: VNF
-    :keyword: MUST
-
-    A VNF Heat Orchestration Template's Base Module file name **MUST**
-    include 'base' in the filename and **MUST** match one of the following four
-    formats:
-
-       * 'base_<text>.y[a]ml'
-       * '<text>_base.y[a]ml'
-       * 'base.y[a]ml'
-       * '<text>_base_<text>'.y[a]ml
-
-    where 'base' is case insensitive and where '<text>'
-    **MUST** contain only alphanumeric characters
-    and underscores '_' and **MUST NOT** contain the case
-    insensitive word 'base'.
-
-.. req::
-    :id: R-91342
-    :target: VNF
-    :keyword: MUST
-
-    A VNF Heat Orchestration Template's Base Module's Environment File
-    **MUST** be named identical to the VNF Heat Orchestration Template's Base
-    Module with '.y[a]ml' replaced with '.env'.
-
-Incremental Modules
-+++++++++++++++++++
-
-
-.. req::
-    :id: R-87247
-    :target: VNF
-    :keyword: MUST
-
-    A VNF Heat Orchestration Template's Incremental Module file name
-    **MUST** contain only alphanumeric characters and underscores '_' and
-    **MUST NOT** contain the case insensitive word 'base'.
-
-.. req::
-    :id: R-94509
-    :target: VNF
-    :keyword: MUST
-
-    A VNF Heat Orchestration Template's Incremental Module's Environment
-    File **MUST** be named identical to the VNF Heat Orchestration Template's
-    Incremental Module with '.y[a]ml' replaced with '.env'.
-
-To clearly identify the incremental module, it is recommended to use the
-following naming options for modules:
-
- -  module_<text>.y[a]ml
-
- -  <text>_module.y[a]ml
-
- -  module.y[a]ml
-
- -  <text>_module_<text>.y[a]ml
-
-Cinder Volume Modules
-+++++++++++++++++++++
-
-
-.. req::
-    :id: R-82732
-    :target: VNF
-    :keyword: MUST
-
-    A VNF Heat Orchestration Template's Cinder Volume Module **MUST** be
-    named identical to the base or incremental module it is supporting with
-    '_volume appended'
-
-.. req::
-    :id: R-31141
-    :target: VNF
-    :keyword: MUST
-
-    A VNF Heat Orchestration Template's Cinder Volume Module's Environment
-    File **MUST** be named identical to the VNF Heat Orchestration Template's
-    Cinder Volume Module with .y[a]ml replaced with '.env'.
-
-Nested Heat file
-++++++++++++++++
-
-
-.. req::
-    :id: R-76057
-    :target: VNF
-    :keyword: MUST
-
-    A VNF Heat Orchestration Template's Nested YAML file name **MUST**
-    contain only alphanumeric characters and underscores '_' and **MUST NOT**
-    contain the case insensitive word 'base'.
-
-.. req::
-    :id: R-70276
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF HEAT's Orchestration Nested Template's YAML file
-    name **MUST NOT** be in the format '{vm-type}.y[a]ml' where
-    '{vm-type}' is defined in the Heat Orchestration Template.
-
-Examples include
-
- -  <text>.y[a]ml
-
- -  nest_<text>.y[a]ml
-
- -  <text>_nest.y[a]ml
-
- -  nest.y[a]ml
-
- -  <text>_nest_<text>.y[a]ml
-
-VNF Heat Orchestration Template's Nested YAML file does not have a
-corresponding environment files, per OpenStack specifications.
-
-Output Parameters
-~~~~~~~~~~~~~~~~~
-
-The output parameters are parameters defined in the output section of a
-Heat Orchestration Template. The ONAP output parameters are subdivided
-into three categories:
-
-1. ONAP Base Module Output Parameters
-
-2. ONAP Volume Module Output Parameters
-
-3. ONAP Predefined Output Parameters.
-
-ONAP Base Module Output Parameters
-++++++++++++++++++++++++++++++++++++
-
-ONAP Base Module Output Parameters are declared in the 'outputs:'' section of
-the VNF's Heat Orchestration Template's Base Module. A Base Module Output
-Parameter is available as an input parameter (i.e., declared in the
-'parameters:'' section) to all Incremental Modules in the VNF.
-
-A Base Module Output Parameter may be used as an input parameter in any
-incremental module in the VNF.  Note that the parameter is not
-available to other VNFs.
-
-
-.. req::
-    :id: R-52753
-    :target: VNF
-    :keyword: MUST
-
-    VNF's Heat Orchestration Template's Base Module's output parameter's
-    name and type **MUST** match the VNF's Heat Orchestration Template's
-    incremental Module's name and type unless the output parameter is of type
-    'comma_delimited_list', then the corresponding input parameter **MUST**
-    be declared as type 'json'.
-
-If the Output parameter has a comma_delimited_list value (e.g., a collection
-of UUIDs from a Resource Group), then the corresponding input parameter
-must be declared as type json and not a comma_delimited_list, which is
-actually a string value with embedded commas.
-
-
-.. req::
-    :id: R-22608
-    :target: VNF
-    :keyword: MUST NOT
-
-    When a VNF's Heat Orchestration Template's Base Module's output
-    parameter is declared as an input parameter in an Incremental Module,
-    the parameter attribute 'constraints:' **MUST NOT** be declared.
-
-Additional details on ONAP Base Module Output Parameters are provided in
-`ONAP Output Parameter Names`_ and ONAP VNF Modularity.
-
-ONAP Volume Module Output Parameters
-++++++++++++++++++++++++++++++++++++
-
-
-.. req::
-    :id: R-89913
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's Cinder Volume Module Output
-    Parameter(s) **MUST** include the UUID(s) of the Cinder Volumes created in
-    template, while other Output Parameters **MAY** be included.
-
-A VNF's Heat Orchestration Template's Cinder Volume Module Output Parameter(s)
-are only available for the module (base or incremental) that the volume
-template is associated with.
-
-
-.. req::
-    :id: R-07443
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Templates' Cinder Volume Module Output
-    Parameter's name and type **MUST** match the input parameter name and type
-    in the corresponding Base Module or Incremental Module unless the Output
-    Parameter is of the type 'comma\_delimited\_list', then the corresponding input
-    parameter **MUST** be declared as type 'json'.
-
-If the Output parameter has a comma_delimited_list value (e.g., a collection
-of UUIDs from a Resource Group), then the corresponding input parameter must
-be declared as type json and not a comma\_delimited\_list, which is actually a
-string value with embedded commas.
-
-
-.. req::
-    :id: R-20547
-    :target: VNF
-    :keyword: MUST NOT
-
-    When an ONAP Volume Module Output Parameter is declared as an input
-    parameter in a base or an incremental module Heat Orchestration Template,
-    parameter constraints **MUST NOT** be declared.
-
-Additional details on ONAP Base Module Output Parameters are provided in
-`ONAP Output Parameter Names`_ and `Cinder Volumes`_.
-
-ONAP Predefined Output Parameters
-+++++++++++++++++++++++++++++++++++
-
-ONAP will look for a small set of pre-defined Heat output parameters to
-capture resource attributes for inventory in ONAP. These output parameters
-are optional and currently only two parameters are supported. These output
-parameters are optional and are specified in `OAM Management IP Addresses`_.
-
-Support of heat stack update
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-ONAP does not support the use of heat stack-update command for scaling
-(growth/de-growth).
-
-
-.. req::
-    :id: R-39349
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF Heat Orchestration Template **MUST NOT** be designed to
-    utilize the OpenStack 'heat stack-update' command for scaling
-    (growth/de-growth).
-
-.. req::
-    :id: R-43413
-    :target: VNF
-    :keyword: MUST
-
-    A VNF **MUST** utilize a modular Heat Orchestration Template
-    design to support scaling (growth/de-growth).
-
-Scope of a Heat Orchestration Template
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-
-.. req::
-    :id: R-59482
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template **MUST NOT** be VNF instance
-    specific or Cloud site specific.
-
-ONAP provides the instance specific parameter values to the Heat
-Orchestration Template at orchestration time.
-
-
-.. req::
-    :id: R-01896
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's parameter values that are
-    constant across all deployments **MUST** be declared in a Heat Orchestration
-    Template Environment File.
-
-Networking
-^^^^^^^^^^
-
-ONAP defines two types of networks: External Networks and Internal Networks.
-
-External Networks
-~~~~~~~~~~~~~~~~~
-
-ONAP defines an external network in relation to the VNF and not with regard
-to the Network Cloud site. External networks may also be referred to as
-"inter-VNF" networks.  An external network must connect VMs in a VNF to
-VMs in another VNF or an external gateway or external router.
-
-An External Network may be a Neutron Network or a Contrail Network.
-
-
-.. req::
-    :id: R-16968
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Templates **MUST NOT** include heat
-    resources to create external networks.
-
-External networks must be orchestrated separately, independent of the VNF.
-This allows the network to be shared by multiple VNFs and managed
-independently of VNFs.
-
-
-.. req::
-    :id: R-00606
-    :target: VNF
-    :keyword: MAY
-
-    A VNF **MAY** be connected to zero, one or more than one external
-    networks.
-
-.. req::
-    :id: R-57424
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's port connected to an external network **MUST**
-    use the port for the purpose of reaching VMs in another VNF
-    and/or an external gateway and/or external router. A VNF's port
-    connected to an external network **MAY** use the port for
-    the purpose of reaching VMs in the same VNF.
-
-.. req::
-    :id: R-29865
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF connects to an external network, a network role,
-    referred to as the '{network-role}' **MUST** be assigned to the
-    external network for use in the VNF's Heat Orchestration Template.
-
-.. req::
-    :id: R-69014
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF connects to an external network, a network role, referred
-    to as the '{network-role}' **MUST** be assigned to the external network
-    for use in the VNF's Heat Orchestration Template.
-
-.. req::
-    :id: R-05201
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF connects to two or more external networks, each external
-    network **MUST** be assigned a unique '{network-role}' in the context of
-    the VNF for use in the VNF's Heat Orchestration Template.
-
-.. req::
-    :id: R-83015
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's '{network-role}' assigned to an external network **MUST**
-    be different than the '{network-role}' assigned to the VNF's internal
-    networks, if internal networks exist.
-
-.. req::
-    :id: R-99794
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    An external network **MUST** have one subnet. An external network
-    **MAY** have more than one subnet.
-
-Note that this document refers to **'{network-role}'** which in reality
-is the **'{network-role-tag}'**.  The value of the
-'{network-role}' / '{network-role-tag}'
-is determined by the designer of the VNF's Heat Orchestration Template and
-there is no requirement for '{network-role}' / '{network-role-tag}'
-uniqueness across Heat Orchestration Templates for
-different VNFs.
-
-When an external network is created by ONAP, the network is assigned a
-'{network-role}'.  The '{network-role}' of the network is not required to
-match the '{network-role}' of the VNF Heat Orchestration Template.
-
-For example, the VNF Heat Orchestration Template can assign a '{network-role}'
-of 'oam' to a network which attaches to an external network with a
-'{network-role}' of 'oam_protected_1' .
-
-When the Heat Orchestration Template is on-boarded into ONAP
-  * each '{network-role}' value in the Heat Orchestration Template
-    is mapped to the '{network-role-tag}' in the ONAP
-    data structure.
-  * each OS::Neutron::Port is associated with the external network it is
-    connecting to, thus creating the VNF Heat Orchestration Template
-    '{network-role}' / '{network-role-tag}' to external network '{network-role}'
-    mapping.
-
-ONAP enforces a naming convention for parameters associated with
-external networks. `ONAP Resource ID and Parameter Naming Convention`_
-provides additional details.
-
-Internal Networks
-~~~~~~~~~~~~~~~~~
-
-ONAP defines an internal network in relation to the VNF and not with
-regard to the Network Cloud site. Internal networks may also be referred
-to as "intra-VNF" networks or "private" networks. An internal network
-only connects VMs in a single VNF; it must not connect to other VNFs
-or an external gateway or router
-
-
-.. req::
-    :id: R-87096
-    :target: VNF
-    :keyword: MAY
-
-    A VNF **MAY** contain zero, one or more than one internal networks.
-
-.. req::
-    :id: R-35666
-    :target: VNF
-    :keyword: MUST
-
-    If a VNF has an internal network, the VNF Heat Orchestration
-    Template **MUST** include the heat resources to create the internal network.
-
-.. req::
-    :id: R-86972
-    :target: VNF
-    :keyword: SHOULD
-
-    A VNF **SHOULD** create the internal network in the VNF's Heat
-    Orchestration Template Base Module.
-
-An Internal Network may be created using Neutron Heat Resources and/or
-Contrail Heat Resources.
-
-
-.. req::
-    :id: R-52425
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's port connected to an internal network **MUST** connect
-    the port to VMs in the same VNF.
-
-.. req::
-    :id: R-46461
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's port connected to an internal network **MUST NOT** connect
-    the port to VMs in another VNF and/or an external gateway and/or
-    external router.
-
-.. req::
-    :id: R-68936
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF creates an internal network, a network role, referred to
-    as the '{network-role}' **MUST** be assigned to the internal network for
-    use in the VNF's Heat Orchestration Template.
-
-.. req::
-    :id: R-32025
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF creates two or more internal networks, each internal
-    network **MUST** be assigned a unique '{network-role}' in the context of
-    the VNF for use in the VNF's Heat Orchestration Template.
-
-.. req::
-    :id: R-69874
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's '{network-role}' assigned to an internal network **MUST**
-    be different than the '{network-role}' assigned to the VNF's external
-    networks.
-
-.. req::
-    :id: R-16241
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's internal network **MUST** have one subnet.
-    A VNF's internal network **MAY** have more than one subnet.
-
-.. req::
-    :id: R-34726
-    :target: VNF
-    :keyword: MUST
-
-    If a VNF's port is connected to an internal network and the port
-    is created in the same Heat Orchestration Template as the internal network,
-    then the port resource **MUST** use a 'get_resource' to obtain
-    the network UUID.
-
-.. req::
-    :id: R-22688
-    :target: VNF
-    :keyword: MUST
-
-    If a VNF's port is connected to an internal network and the
-    port is created in an Incremental Module and the internal
-    network is created in the Base Module then the UUID of the
-    internal network **MUST** be exposed
-    as a parameter in the 'outputs:' section of the Base Module and the port
-    resource **MUST** use a 'get_param' to obtain the network UUID.
-
-ONAP does not programmatically enforce a naming convention for
-parameters for internal network. However, a naming convention is
-provided that must be followed.
-`ONAP Resource ID and Parameter Naming Convention`_
-provides additional details.
-
-ONAP Resource ID and Parameter Naming Convention
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-This section provides the ONAP naming requirements for
-
-1. Resource IDs
-
-2. Resource Property Parameters
-
-{vm-type}
-~~~~~~~~~
-
-
-.. req::
-    :id: R-01455
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF's Heat Orchestration Template creates a
-    Virtual Machine  (i.e., 'OS::Nova::Server'), each 'class' of VMs
-    **MUST** be assigned a VNF unique '{vm-type}'; where 'class'
-    defines VMs that **MUST** have the following identical characteristics:
-
-      1.) OS::Nova::Server property flavor value
-
-      2.) OS::Nova::Server property image value
-
-      3.) Cinder Volume attachments
-        - Each VM in the 'class' **MUST** have the identical Cinder Volume
-          configuration
-
-      4.) Network attachments and IP address requirements
-        - Each VM in the 'class' **MUST** have the the identical number
-          of ports connecting to the identical networks and requiring the
-          identical IP address configuration.
-
-.. req::
-    :id: R-82481
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's Resource property
-    parameter that is associated with a unique Virtual Machine
-    type **MUST** include '{vm-type}'  as part of the parameter
-    name with two exceptions:
-
-      1.) The Resource OS::Nova::Server property availability_zone parameter
-      **MUST NOT** be prefixed with a common '{vm-type} identifier,
-
-      2.) The Resource OS::Nova::Server eight mandatory and optional metadata
-      parameters (vnf_name, vnf_id, vf_module_id, vf_module_name, vm_role,
-      vf_module_index, environment_context, workload_context) **MUST NOT**
-      be prefixed with a common '{vm-type}' identifier.
-
-.. req::
-    :id: R-66729
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's Resource that is
-    associated with a unique Virtual Machine type **MUST** include
-    '{vm-type}' as part of the resource ID.
-
-.. req::
-    :id: R-98407
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's '{vm-type}' **MUST** contain
-    only alphanumeric characters and/or underscores '_' and
-    **MUST NOT** contain any of the following strings: '_int' or 'int\_'
-    or '\_int\_'.
-
-.. req::
-    :id: R-48067
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's {vm-type} **MUST NOT** be a
-    substring of {network-role}.
-
-It may cause the VNF Validation Program validation-scripts project
-to produce erroneous error messages.
-
-
-.. req::
-    :id: R-32394
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's use of '{vm-type}'
-    in all Resource property parameter names **MUST** be the same case.
-
-.. req::
-    :id: R-46839
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's use of
-    '{vm-type}' in all Resource IDs **MUST** be the same case.
-
-.. req::
-    :id: R-36687
-    :target: VNF
-    :keyword: SHOULD
-
-    A VNF's Heat Orchestration Template's '{vm-type}' case in
-    Resource property parameter names **SHOULD** match the case of
-    '{vm-type}' in Resource IDs and vice versa.
-
-{network-role}
-~~~~~~~~~~~~~~
-
-The assignment of a {network-role} is discussed in `Networking`_.
-
-
-.. req::
-    :id: R-21330
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's Resource property
-    parameter that is associated with external network **MUST**
-    include the '{network-role}' as part of the parameter name.
-
-.. req::
-    :id: R-11168
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's Resource ID that is
-    associated with an external network **MUST** include the
-    '{network-role}' as part of the resource ID.
-
-.. req::
-    :id: R-84322
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's Resource property
-    parameter that is associated with an internal network
-    **MUST** include 'int\_{network-role}' as part of the parameter
-    name, where 'int\_' is a hard coded string.
-
-.. req::
-    :id: R-96983
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's Resource ID that is
-    associated with an internal network **MUST** include
-    'int\_{network-role}' as part of the Resource ID, where
-    'int\_' is a hard coded string.
-
-.. req::
-    :id: R-26506
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's '{network-role}'
-    **MUST** contain only alphanumeric characters and/or
-    underscores '_' and **MUST NOT** contain any of the following
-    strings: '_int' or 'int\_' or '\_int\_'.
-
-.. req::
-    :id: R-00977
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's '{network-role}'
-    **MUST NOT** be a substring of '{vm-type}'.
-
-For example, if a VNF has a '{vm-type}' of 'oam' and a
-'{network-role}' of 'oam\_protected' would be a violation of the requirement.
-
-
-.. req::
-    :id: R-58424
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's use of '{network-role}'
-    in all Resource property parameter names **MUST** be the same case.
-
-.. req::
-    :id: R-21511
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's use of '{network-role}'
-    in all Resource IDs **MUST** be the same case.
-
-.. req::
-    :id: R-86588
-    :target: VNF
-    :keyword: SHOULD
-
-    A VNF's Heat Orchestration Template's '{network-role}' case
-    in Resource property parameter names **SHOULD** match the case
-    of '{network-role}' in Resource IDs and vice versa.
-
-Resource IDs
-~~~~~~~~~~~~
-
-Requirement R-75141 states a VNF's Heat Orchestration Template's
-resource name (i.e., <resource ID>) MUST only contain alphanumeric
-characters and underscores ('_').*
-
-Requirement R-16447 states a VNF's <resource ID> MUST be unique
-across all Heat Orchestration Templates and all HEAT Orchestration
-Template Nested YAML files that are used to create the VNF.
-
-As stated previously, OpenStack requires the <resource ID> to be unique
-to the Heat Orchestration Template and not unique across all Heat
-Orchestration Templates the compose the VNF.
-
-Heat Orchestration Template resources are described in `resources`_
-
-
-.. req::
-    :id: R-54517
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF's Heat Orchestration Template's resource is associated
-    with a single '{vm-type}', the Resource ID **MUST** contain the '{vm-type}'.
-
-.. req::
-    :id: R-96482
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF's Heat Orchestration Template's resource is associated
-    with a single external network, the Resource ID **MUST** contain the text
-    '{network-role}'.
-
-.. req::
-    :id: R-98138
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF's Heat Orchestration Template's resource is associated
-    with a single internal network, the Resource ID **MUST** contain the text
-    'int\_{network-role}'.
-
-.. req::
-    :id: R-82115
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF's Heat Orchestration Template's resource is associated
-    with a single '{vm-type}' and a single external network, the Resource
-    ID text **MUST** contain both the '{vm-type}' and the '{network-role}'
-
-      - the '{vm-type}' **MUST** appear before the '{network-role}' and **MUST**
-        be separated by an underscore '_'
-
-          - e.g.,'{vm-type}\_{network-role}', '{vm-type}\_{index}\_{network-role}'
-
-      - note that an '{index}' value **MAY** separate the '{vm-type}' and the
-        '{network-role}' and when this occurs underscores **MUST** separate the
-        three values.
-
-.. req::
-    :id: R-82551
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF's Heat Orchestration Template's resource is associated
-    with a single '{vm-type}' and a single internal network, the Resource ID
-    **MUST** contain both the '{vm-type}' and the 'int\_{network-role}' and
-
-      - the '{vm-type}' **MUST** appear before the 'int\_{network-role}' and
-      **MUST** be separated by an underscore '_'
-
-        - e.g.,'{vm-type}\_int\_{network-role}', '{vm-type}_{index}\_int\_{network-role}'
-
-      - note that an '{index}' value **MAY** separate the '{vm-type}' and the
-        'int\_{network-role}' and when this occurs underscores **MUST** separate
-        the three values.
-
-.. req::
-    :id: R-67793
-    :target: VNF
-    :keyword: MUST NOT
-
-    When a VNF's Heat Orchestration Template's resource is associated
-    with more than one '{vm-type}' and/or more than one internal and/or
-    external network, the Resource ID **MUST NOT** contain the '{vm-type}'
-    and/or '{network-role}'/'int\_{network-role}'. It also should contain the
-    term 'shared' and/or contain text that identifies the VNF
-
-.. req::
-    :id: R-27970
-    :target: VNF
-    :keyword: MAY
-
-    When a VNF's Heat Orchestration Template's resource is associated
-    with more than one '{vm-type}' and/or more than one internal and/or
-    external network, the Resource ID **MAY** contain the term 'shared'
-    and/or **MAY** contain text that identifies the VNF.
-
-.. req::
-    :id: R-11690
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF's Heat Orchestration Template's Resource ID contains
-    an {index} value (e.g. multiple VMs of same {vm-type}), the '{index}'
-    **MUST** start at zero and increment by one.
-
-OpenStack Heat Resources Resource ID Naming Convention
-++++++++++++++++++++++++++++++++++++++++++++++++++++++
-
-Some OpenStack Heat Resources Resource IDs
-have mandatory or suggested naming conventions.  They are provided
-in the following sections.
-
-OS::Cinder::Volume
-__________________
-
-
-.. req::
-    :id: R-87004
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Cinder::Volume Resource ID **SHOULD** use the naming convention
-
-       * {vm-type}_volume_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {index} starts at zero and increments by one
-
-OS::Cinder::VolumeAttachment
-____________________________
-
-
-.. req::
-    :id: R-86497
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Cinder::VolumeAttachment Resource ID **SHOULD** use the naming convention
-
-       * {vm-type}_volume_attachment_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {index} starts at zero and increments by one
-
-OS::Heat::CloudConfig
-_____________________
-
-
-.. req::
-    :id: R-04747
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::Heat::CloudConfig' Resource ID **MUST** contain the '{vm-type}'.
-
-.. req::
-    :id: R-20319
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource 'OS::Heat::CloudConfig'
-    Resource ID **MAY** use the naming convention
-
-       * {vm-type}_RCC
-
-    where
-
-       * {vm-type} is the vm-type
-       * 'RCC' signifies that it is the Resource Cloud Config
-
-OS::Heat::MultipartMime
-_______________________
-
-
-.. req::
-    :id: R-30804
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::Heat::MultipartMime' Resource ID **MUST** contain the '{vm-type}'.
-
-.. req::
-    :id: R-18202
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::Heat::MultipartMime' Resource ID **MAY** use the naming convention
-
-       * {vm-type}_RMM
-
-    where
-
-       * {vm-type} is the vm-type
-       * 'RMM' signifies that it is the Resource Multipart Mime
-
-OS::Heat::ResourceGroup
-_______________________
-
-There is only a mandatory naming convention for a 'OS::Heat::ResourceGroup'
-that is is creating sub-interfaces.
-
-
-.. req::
-    :id: R-64197
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Heat::ResourceGroup Resource ID that creates sub-interfaces **MUST**
-    use the naming convention
-
-       * {vm-type}_{vm-type_index}_subint_{network-role}_port_{port-index}_subinterfaces
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the networks
-         that the sub-interfaces attach to
-       * {port-index} is the instance of the the port on the vm-type
-         attached to the network of {network-role}
-
-OS::Heat::SoftwareConfig
-________________________
-
-
-.. req::
-    :id: R-08975
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::Heat::SoftwareConfig' Resource ID **MUST** contain the '{vm-type}'.
-
-.. req::
-    :id: R-03656
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::Heat::SoftwareConfig' Resource ID **MAY** use the naming convention
-
-       * {vm-type}_RSC
-
-    where
-
-       * {vm-type} is the vm-type
-       * 'RSC' signifies that it is the Resource Software Config
-
-OS::Neutron::Net
-________________
-
-
-.. req::
-    :id: R-25720
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::Net Resource ID **MUST** use the naming convention
-
-       * int_{network-role}_network
-
-VNF Heat Orchestration Templates can only create internal networks.
-There is no {index} after {network-role} because {network-role}
-**MUST** be unique in the scope of the VNF's
-Heat Orchestration Template.
-
-OS::Neutron::Port
-_________________
-
-
-.. req::
-    :id: R-20453
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::Port that is attaching to an external network Resource ID
-    **MUST** use the naming convention
-
-       * {vm-type}_{vm-type_index}_{network-role}_port_{port-index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port is attached to
-       * {port-index} is the instance of the the port on the vm-type
-         attached to the network of {network-role}
-
-.. req::
-    :id: R-26351
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::Port that is attaching to an internal network Resource ID
-    **MUST** use the naming convention
-
-       * {vm-type}_{vm-type_index}_int_{network-role}_port_{port-index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port is attached to
-       * {port-index} is the instance of the the port on the vm-type
-         attached to the network of {network-role}
-
-.. req::
-    :id: R-27469
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::Port that is creating a *Reserve Port* with an IPv4 address
-    Resource ID **MUST** use the naming convention
-
-       * reserve_port_{vm-type}_{network-role}_floating_ip_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {network-role} is the network-role of the network
-         that the port is attached to
-       * {index} is the instance of the IPv4 *Reserve Port*
-         for the vm-type attached to the network of {network-role}
-
-.. req::
-    :id: R-68520
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource OS::Neutron::Port
-    that is creating a *Reserve Port* with an IPv6 address Resource ID
-    **MUST** use the naming convention
-
-       * reserve_port_{vm-type}_{network-role}_floating_v6_ip_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {network-role} is the network-role of the network
-         that the port is attached to
-       * {index} is the instance of the IPv6 *Reserve Port*
-         for the vm-type attached to the network of {network-role}
-
-OS::Neutron::SecurityGroup
-__________________________
-
-
-.. req::
-    :id: R-08775
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::SecurityGroup that is applicable to one {vm-type} and
-    more than one network (internal and/or external) Resource ID
-    **SHOULD** use the naming convention
-
-       * {vm-type}_security_group
-
-    where
-
-       * {vm-type} is the vm-type
-
-.. req::
-    :id: R-03595
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::SecurityGroup that is applicable to more than
-    one {vm-type} and one external network Resource ID **SHOULD**
-    use the naming convention
-
-       * {network-role}_security_group
-
-    where
-
-       * {network-role} is the network-role
-
-.. req::
-    :id: R-73213
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::SecurityGroup that is applicable to more than
-    one {vm-type} and one internal network Resource ID **SHOULD**
-    use the naming convention
-
-       * int_{network-role}_security_group
-
-    where
-
-       * {network-role} is the network-role
-
-.. req::
-    :id: R-17334
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::SecurityGroup that is applicable to one {vm-type}
-    and one external network Resource ID **SHOULD** use the naming convention
-
-       * {vm-type}_{network-role}_security_group
-
-    where
-
-       * {vm-type} is the vm-type
-       * {network-role} is the network-role
-
-.. req::
-    :id: R-14198
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::SecurityGroup that is applicable to one {vm-type}
-    and one internal network Resource ID **SHOULD** use the naming convention
-
-       * {vm-type}_int_{network-role}_security_group
-
-    where
-
-       * {vm-type} is the vm-type
-       * {network-role} is the network-role
-
-.. req::
-    :id: R-30005
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::SecurityGroup that is applicable to more than one
-    {vm-type} and more than one network (internal and/or external)
-    Resource ID **MAY** use the naming convention
-
-       * shared_security_group
-
-    or
-
-       * {vnf-type}_security_group
-
-    where
-
-       * {vnf-type} describes the VNF
-
-OS::Neutron::Subnet
-___________________
-
-
-.. req::
-    :id: R-59434
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Neutron::Subnet Resource ID **SHOULD** use the naming convention
-
-       * int_{network-role}_subnet_{index}
-
-    where
-
-       * {network-role} is the network-role
-       * {index} is the {index} of the subnet of the network
-
-OS::Nova::Keypair
-_________________
-
-
-.. req::
-    :id: R-24997
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::Nova::Keypair applies to one {vm-type} Resource ID **SHOULD**
-    use the naming convention
-
-       * {vm-type}_keypair_{index}
-
-    where
-
-       * {network-role} is the network-role
-       * {index} is the {index} of the keypair
-
-.. req::
-    :id: R-65516
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource OS::Nova::Keypair
-    applies to all Virtual Machines in the the VNF, the Resource ID **SHOULD**
-    use the naming convention
-
-       * {vnf-type}_keypair
-
-    where
-
-       * {vnf-type} describes the VNF
-
-OS::Nova::Server
-________________
-
-
-.. req::
-    :id: R-29751
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource OS::Nova::Server
-    Resource ID **MUST** use the naming convention
-
-       * {vm-type}_server_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {index} is the index
-
-OS::Nova::ServerGroup
-_____________________
-
-
-.. req::
-    :id: R-15189
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource OS::Nova::ServerGroup
-    Resource ID **MAY** use the naming convention
-
-       * {vm-type}_RSG
-
-    or
-
-       * {vm-type}_Server_Grp
-
-    or
-
-       * {vm-type}_ServerGroup
-
-    or
-
-       * {vm-type}_servergroup
-
-Contrail Heat Resources Resource ID Naming Convention
-+++++++++++++++++++++++++++++++++++++++++++++++++++++
-
-Some Contrail Heat Resources Resource IDs
-have mandatory or suggested naming conventions. They are provided
-in the following sections.
-
-
-OS::ContrailV2::InstanceIp
-__________________________
-
-
-.. req::
-    :id: R-53310
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::InstanceIp' that is configuring an IPv4 Address
-    on a port attached to an external network Resource ID **MUST**
-    use the naming convention
-
-       *  {vm-type}_{vm-type_index}_{network-role}_vmi_{vmi_index}_IP_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port is attached to
-       * {vmi_index} is the instance of the the virtual machine interface
-         (e.g., port)  on the vm-type
-         attached to the network of {network-role}
-       * 'IP' signifies that an IPv4 address is being configured
-       * {index} is the index of the IPv4 address
-
-.. req::
-    :id: R-46128
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::InstanceIp' that is configuring an
-    IPv6 Address on a port attached to an external network
-    Resource ID **MUST** use the naming convention
-
-       *  {vm-type}_{vm-type_index}_{network-role}_vmi_{vmi_index}_v6_IP_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port is attached to
-       * {vmi_index} is the instance of the the virtual machine interface
-         (e.g., port)  on the vm-type
-         attached to the network of {network-role}
-       * 'v6_IP' signifies that an IPv6 address is being configured
-       * {index} is the index of the IPv6 address
-
-.. req::
-    :id: R-62187
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::InstanceIp' that is configuring an
-    IPv4 Address on a port attached to an internal network
-    Resource ID **MUST** use the naming convention
-
-       *  {vm-type}_{vm-type_index}_int_{network-role}_vmi_{vmi_index}_IP_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port is attached to
-       * {vmi_index} is the instance of the the virtual machine interface
-         (e.g., port)  on the vm-type
-         attached to the network of {network-role}
-       * 'IP' signifies that an IPv4 address is being configured
-       * {index} is the index of the IPv4 address
-
-.. req::
-    :id: R-87563
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::InstanceIp' that is configuring an
-    IPv6 Address on a port attached to an internal network
-    Resource ID **MUST** use the naming convention
-
-       *  {vm-type}_{vm-type_index}_int_{network-role}_vmi_{vmi_index}_v6_IP_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port is attached to
-       * {vmi_index} is the instance of the the virtual machine interface
-         (e.g., port)  on the vm-type
-         attached to the network of {network-role}
-       * 'v6_IP' signifies that an IPv6 address is being configured
-       * {index} is the index of the IPv6 address
-
-.. req::
-    :id: R-20947
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::InstanceIp' that is configuring an IPv4 Address
-    on a sub-interface port attached to a sub-interface network
-    Resource ID **MUST** use the naming convention
-
-       *  {vm-type}_{vm-type_index}_subint_{network-role}_vmi_{vmi_index}_IP_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port is attached to
-       * {vmi_index} is the instance of the the virtual machine interface
-         (e.g., port)  on the vm-type
-         attached to the network of {network-role}
-       * 'IP' signifies that an IPv4 address is being configured
-       * {index} is the index of the IPv4 address
-
-.. req::
-    :id: R-88540
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::InstanceIp' that is configuring an IPv6 Address
-    on a sub-interface port attached to a sub-interface network
-    Resource ID **MUST** use the naming convention
-
-       *  {vm-type}_{vm-type_index}_subint_{network-role}_vmi_{vmi_index}_v6_IP_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port is attached to
-       * {vmi_index} is the instance of the the virtual machine interface
-         (e.g., port)  on the vm-type
-         attached to the network of {network-role}
-       * 'v6_IP' signifies that an IPv6 address is being configured
-       * {index} is the index of the IPv6 address
-
-OS::ContrailV2::InterfaceRouteTable
-___________________________________
-
-
-.. req::
-    :id: R-81214
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::InterfaceRouteTable' Resource ID **MUST**
-    contain the '{network-role}'.
-
-.. req::
-    :id: R-28189
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::InterfaceRouteTable' Resource ID **MAY**
-    use the naming convention
-
-       * {network-role}_RIRT
-
-    where
-
-       * {network-role} is the network-role
-       * 'RIRT' signifies that it is the Resource Interface Route Table
-
-OS::ContrailV2::NetworkIpam
-___________________________
-
-
-.. req::
-    :id: R-30753
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::NetworkIpam' Resource ID **MUST**
-    contain the '{network-role}'.
-
-.. req::
-    :id: R-81979
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::NetworkIpam' Resource ID **MAY**
-    use the naming convention
-
-       * {network-role}_RNI
-
-    where
-
-       * {network-role} is the network-role
-       * 'RNI' signifies that it is the Resource Network IPAM
-
-OS::ContrailV2::PortTuple
-_________________________
-
-
-.. req::
-    :id: R-20065
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::PortTuple' Resource ID **MUST**
-    contain the '{vm-type}'.
-
-.. req::
-    :id: R-84457
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::PortTuple' Resource ID **MAY**
-    use the naming convention
-
-       * {vm-type}_RPT
-
-    where
-
-       * {vm-type} is the vm-type
-       * 'RPT' signifies that it is the Resource Port Tuple
-
-OS::ContrailV2::ServiceHealthCheck
-__________________________________
-
-
-.. req::
-    :id: R-76014
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::ServiceHealthCheck' Resource ID **MUST**
-    contain the '{vm-type}'.
-
-.. req::
-    :id: R-65618
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::ServiceHealthCheck' Resource ID
-    **MAY** use the naming convention
-
-       * {vm-type}_RSHC_{LEFT|RIGHT}
-
-    where
-
-       * {vm-type} is the vm-type
-       * 'RSHC' signifies that it is the Resource Service Health Check
-       * 'LEFT' is used if the Service Health Check is on the left interface
-       * 'RIGHT' is used if the Service Health Check is on the right interface
-
-OS::ContrailV2::ServiceTemplate
-_______________________________
-
-
-.. req::
-    :id: R-16437
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::ServiceTemplate' Resource ID **MUST**
-    contain the '{vm-type}'.
-
-.. req::
-    :id: R-14447
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    'OS::ContrailV2::ServiceTemplate' Resource ID **MAY**
-    use the naming convention
-
-       * {vm-type}_RST_{index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * 'RST' signifies that it is the Resource Service Template
-       * '{index}' is is the index
-
-OS::ContrailV2::VirtualMachineInterface
-_______________________________________
-
-
-.. req::
-    :id: R-96253
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::ContrailV2::VirtualMachineInterface that is attaching
-    to an external network Resource ID **MUST**
-    use the naming convention
-
-       * {vm-type}_{vm-type_index}_{network-role}_vmi_{vmi_index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port (i.e. virtual machine interface) is attached to
-       * {vmi_index} is the instance of the the vmi on the vm-type
-         attached to the network of {network-role}
-
-.. req::
-    :id: R-50468
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::ContrailV2::VirtualMachineInterface that is attaching
-    to an internal network Resource ID **MUST** use the naming convention
-
-       * {vm-type}_{vm-type_index}_int_{network-role}_vmi_{vmi_index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port (i.e. virtual machine interface) is attached to
-       * {vmi_index} is the instance of the the vmi on the vm-type
-         attached to the network of {network-role}
-
-.. req::
-    :id: R-54458
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::ContrailV2::VirtualMachineInterface that is attaching to
-    a sub-interface network Resource ID **MUST** use the naming convention
-
-       * {vm-type}_{vm-type_index}_subint_{network-role}_vmi_{vmi_index}
-
-    where
-
-       * {vm-type} is the vm-type
-       * {vm-type_index} is the instance of the {vm-type}
-       * {network-role} is the network-role of the network
-         that the port (i.e. virtual machine interface) is attached to
-       * {vmi_index} is the instance of the the vmi on the vm-type
-         attached to the network of {network-role}
-
-OS::ContrailV2::VirtualNetwork
-______________________________
-
-
-.. req::
-    :id: R-99110
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Resource
-    OS::ContrailV2::VirtualNetwork Resource ID **MUST**
-    use the naming convention
-
-       * 'int_{network-role}_network'
-
-    or
-
-       * 'int_{network-role}_RVN' where RVN represents Resource Virtual Network
-
-VNF Heat Orchestration Templates can only create internal networks.
-There is no {index} after {network-role} because {network-role}
-**MUST** be unique in the scope of the VNF's
-Heat Orchestration Template.
-
-Note that the first option is preferred.
-
-Resource: OS::Nova::Server - Parameters
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-The resource OS::Nova::Server manages the running virtual machine (VM)
-instance within an OpenStack cloud. (See
-https://docs.openstack.org/developer/heat/template_guide/openstack.html#OS::Nova::Server.)
-
-The following four properties of the OS::Nova::Server must follow
-the ONAP parameter naming convention. The four properties are:
-
-1. image
-
-2. flavor
-
-3. name
-
-4. availability\_zone
-
-Requirement R-01455 defines how the '{vm-type}' is defined.
-
-Requirement R-82481 defines how the '{vm-type}' is used.
-
-The table below provides a summary. The sections that follow provides
-the detailed requirements.
-
-.. csv-table:: **Table 4 OS::Nova::Server Resource Property Parameter Naming Convention**
-   :header: Property Name,Parameter Type,Parameter Name,Parameter Value Provided to Heat
-   :align: center
-   :widths: auto
-
-   OS::Nova::Server, image, string, {vm-type}\_image\_name, Environment File
-   OS::Nova::Server, flavor, string, {vm-type}\_flavor\_name, Environment File
-   OS::Nova::Server, name, string, {vm-type}\_name\_{index}, ONAP
-   OS::Nova::Server, name, CDL, {vm-type}\_names, ONAP
-   OS::Nova::Server, availability\_zone, string, availability\_zone\_{index}, ONAP
-
-Property: image
-+++++++++++++++
-
-
-.. req::
-    :id: R-71152
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'image' parameter **MUST** be declared as
-    type: 'string'.
-
-.. req::
-    :id: R-58670
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'image' parameter name **MUST** follow the
-    naming convention '{vm-type}_image_name'.
-
-.. req::
-    :id: R-91125
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'image' parameter **MUST** be enumerated in
-    the Heat Orchestration Template's Environment File and a value **MUST** be
-    assigned.
-
-.. req::
-    :id: R-57282
-    :target: VNF
-    :keyword: MUST
-
-    Each VNF's Heat Orchestration Template's '{vm-type}'
-    **MUST** have a unique parameter name for the 'OS::Nova::Server'
-    property 'image' even if more than one {vm-type} shares the same image.
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
- parameters:
-     {vm-type}_image_name:
-         type: string
-         description: {vm-type} server image
-
-Property: flavor
-++++++++++++++++
-
-
-.. req::
-    :id: R-50436
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'flavor' parameter **MUST** be declared as
-    type: 'string'.
-
-.. req::
-    :id: R-45188
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'flavor' parameter name **MUST** follow the
-    naming convention '{vm-type}_flavor_name'.
-
-.. req::
-    :id: R-69431
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'flavor' parameter **MUST** be enumerated in the
-    Heat Orchestration Template's Environment File and a value **MUST** be
-    assigned.
-
-.. req::
-    :id: R-40499
-    :target: VNF
-    :keyword: MUST
-
-    Each VNF's Heat Orchestration Template's '{vm-type}' **MUST**
-    have a unique parameter name for the 'OS::Nova::Server' property
-    'flavor' even if more than one {vm-type} shares the same flavor.
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
- parameters:
-     {vm-type}_flavor_name:
-         type: string
-         description: {vm-type} flavor
-
-Property: Name
-++++++++++++++
-
-
-.. req::
-    :id: R-51430
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'name' parameter **MUST** be declared as
-    either type 'string' or type 'comma\_delimited\_list".
-
-.. req::
-    :id: R-54171
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'name' parameter is defined as a 'string',
-    the parameter name **MUST** follow the naming convention
-    '{vm-type}\_name\_{index}', where {index} is a numeric value that starts
-    at zero and increments by one.
-
-.. req::
-    :id: R-40899
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'name' parameter is defined as a 'string',
-    a parameter **MUST** be declared for each 'OS::Nova::Server' resource
-    associated with the '{vm-type}'.
-
-.. req::
-    :id: R-87817
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'name' parameter is defined as a
-    'comma_delimited_list', the parameter name **MUST** follow the naming
-    convention '{vm-type}_names'.
-
-.. req::
-    :id: R-85800
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'name' parameter is defined as a
-    'comma_delimited_list', a parameter **MUST** be delcared once for all
-    'OS::Nova::Server' resources associated with the '{vm-type}'.
-
-.. req::
-    :id: R-22838
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'name' parameter **MUST NOT** be enumerated
-    in the Heat Orchestration Template's Environment File.
-
-If a VNF's Heat Orchestration Template's contains more than three
-OS::Nova::Server resources of a given {vm-type}, the comma\_delimited\_list
-form of the parameter name (i.e., '{vm-type}\_names') should be used to
-minimize the number of unique parameters defined in the template.
-
-
-*Example: Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-  {vm-type}_names:
-    type: comma_delimited_list
-    description: VM Names for {vm-type} VMs
-
-  {vm-type}_name_{index}:
-    type: string
-    description: VM Name for {vm-type} VM {index}
-
-*Example: comma\_delimited\_list*
-
-In this example, the {vm-type} has been defined as "lb" for load balancer.
-
-.. code-block:: yaml
-
-  parameters:
-
-    lb_names:
-      type: comma_delimited_list
-      description: VM Names for lb VMs
-
-  resources:
-    lb_server_0:
-      type: OS::Nova::Server
-      properties:
-        name: { get_param: [lb_names, 0] }
-        ...
-
-    lb_server_1:
-      type: OS::Nova::Server
-      properties:
-        name: { get_param: [lb_names, 1] }
-        ...
-
-*Example: fixed-index*
-
-In this example, the {vm-type} has been defined as "lb" for load balancer.
-
-.. code-block:: yaml
-
-  parameters:
-
-    lb_name_0:
-      type: string
-      description: VM Name for lb VM 0
-
-    lb_name_1:
-      type: string
-      description: VM Name for lb VM 1
-
-  resources:
-
-    lb_server_0:
-      type: OS::Nova::Server
-      properties:
-        name: { get_param: lb_name_0 }
-        ...
-
-    lb_server_1:
-      type: OS::Nova::Server
-      properties:
-        name: { get_param: lb_name_1 }
-        ...
-
-Contrail Issue with Values for OS::Nova::Server Property Name
-_____________________________________________________________
-
-
-.. req::
-    :id: R-44271
-    :target: VNF
-    :keyword: SHOULD NOT
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'name' parameter value **SHOULD NOT**
-    contain special characters since the Contrail GUI has a limitation
-    displaying special characters.
-
-However, if special characters must be used, the only special characters
-supported are:
-
---- \" ! $ ' (\ \ ) = ~ ^ | @ ` { } [ ] > , . _
-
-
-Property: availability\_zone
-++++++++++++++++++++++++++++
-
-
-.. req::
-    :id: R-98450
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'availability\_zone' parameter name
-    **MUST** follow the naming convention 'availability\_zone\_{index}'
-    where the '{index}' **MUST** start at zero and increment by one.
-
-.. req::
-    :id: R-23311
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'availability_zone' parameter **MUST**
-    be declared as type: 'string'.
-
-The parameter must not be declared as type 'comma\_delimited\_list',
-ONAP does not support it.
-
-
-.. req::
-    :id: R-59568
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Nova::Server' property 'availability_zone' parameter **MUST NOT**
-    be enumerated in the Heat Orchestration Template's Environment File.
-
-Example Parameter Definition
-
-.. code-block:: yaml
-
-  parameters:
-    availability_zone_{index}:
-      type: string
-      description: availability zone {index} name
-
-Requirement R-90279 states that a VNF Heat Orchestration's template's
-parameter MUST be used in a resource with the exception of the parameters
-for the OS::Nova::Server resource property availability_zone.
-
-
-.. req::
-    :id: R-01359
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchstration Template that contains an
-    'OS::Nova:Server' Resource **MAY** define a parameter for the property
-    'availability_zone' that is not utilized in any 'OS::Nova::Server'
-    resources in the Heat Orchestration Template.
-
-Example
-+++++++
-
-The example below depicts part of a Heat Orchestration Template that
-uses the four OS::Nova::Server properties discussed in this section.
-
-In the Heat Orchestration Template below, four Virtual
-Machines (OS::Nova::Server) are created: two dns servers with
-{vm-type} set to "dns" and two oam servers with {vm-type} set to "oam".
-Note that the parameter associated with the property name is a
-comma_delimited_list for dns and a string for oam.
-
-.. code-block:: yaml
-
-  parameters:
-
-    dns_image_name:
-      type: string
-      description: dns server image
-
-    dns_flavor_name:
-      type: string
-      description: dns server flavor
-
-    dns_names:
-      type: comma_delimited_list
-      description: dns server names
-
-    oam_image_name:
-      type: string
-      description: oam server image
-
-    oam_flavor_name:
-      type: string
-      description: oam server flavor
-
-    oam_name_0:
-      type: string
-      description: oam server name 0
-
-    oam_name_1:
-      type: string
-      description: oam server name 1
-
-    availability_zone_0:
-      type: string
-      description: availability zone ID or Name
-
-    availability_zone_1:
-      type: string
-      description: availability zone ID or Name
-
-  resources:
-
-    dns_server_0:
-      type: OS::Nova::Server
-      properties:
-        name: { get_param: [ dns_names, 0 ] }
-        image: { get_param: dns_image_name }
-        flavor: { get_param: dns_flavor_name }
-        availability_zone: { get_param: availability_zone_0 }
-
-  . . .
-
-      dns_server_1:
-        type: OS::Nova::Server
-        properties:
-          name: { get_param: [ dns_names, 1 ] }
-          image: { get_param: dns_image_name }
-          flavor: { get_param: dns_flavor_name }
-          availability_zone: { get_param: availability_zone_1 }
-
-  . . .
-
-      oam_server_0:
-        type: OS::Nova::Server
-        properties:
-          name: { get_param: oam_name_0 }
-          image: { get_param: oam_image_name }
-          flavor: { get_param: oam_flavor_name }
-          availability_zone: { get_param: availability_zone_0 }
-
-  . . .
-
-      oam_server_1:
-        type: OS::Nova::Server
-        properties:
-          name: { get_param: oam_name_1 }
-          image: { get_param: oam_image_name }
-          flavor: { get_param: oam_flavor_name }
-          availability_zone: { get_param: availability_zone_1 }
-
-  . . .
-
-Boot Options
-++++++++++++
-
-
-.. req::
-    :id: R-99798
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's Virtual Machine
-    (i.e., OS::Nova::Server Resource) **MAY** boot from an image or **MAY**
-    boot from a Cinder Volume.
-
-.. req::
-    :id: R-83706
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF's Heat Orchestration Template's Virtual Machine
-    (i.e., 'OS::Nova::Server' Resource) boots from an image, the
-    'OS::Nova::Server' resource property 'image' **MUST** be used.
-
-The requirements associated with
-the 'image' property are detailed in `Property: image`_
-
-
-.. req::
-    :id: R-69588
-    :target: VNF
-    :keyword: MUST
-
-    When a VNF's Heat Orchestration Template's Virtual Machine
-    (i.e., 'OS::Nova::Server' Resource) boots from Cinder Volume, the
-    'OS::Nova::Server' resource property 'block_device_mapping' or
-    'block_device_mapping_v2' **MUST** be used.
-
-There are currently no heat guidelines
-associated with these two properties:
-'block_device_mapping' and 'block_device_mapping_v2'.
-
-Resource: OS::Nova::Server – Metadata Parameters
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-The OS::Nova::Server Resource property metadata is an optional
-OpenStack property.
-The table below summarizes the mandatory and optional metadata
-supported by ONAP.
-
-The sections that follow provides the requirements associated with each
-metadata parameter.
-
-.. csv-table:: **Table 5 OS::Nova::Server Mandatory and Optional Metadata**
-   :header: Metadata Parameter Name, Parameter Type, Required, Parameter Value Provided to Heat
-   :align: center
-   :widths: auto
-
-   vnf_id, string, **MUST**, ONAP
-   vf_module_id, string, **MUST**, ONAP
-   vnf_name, string, **MUST**, ONAP
-   vf_module_name, string, **SHOULD**, ONAP
-   vm_role, string, **MAY**, YAML or Environment File
-   vf_module_index, string, **MAY**, ONAP
-   workload_context, string, **SHOULD**, ONAP
-   environment_context, string, **SHOULD**, ONAP
-
-vnf\_id
-+++++++
-
-The OS::Nova::Server Resource metadata map value parameter 'vnf_id'
-is an ONAP generated UUID that identifies the VNF.  The value
-is provided by ONAP to the VNF's Heat Orchestration
-Template at orchestration time.
-
-
-.. req::
-    :id: R-37437
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource **MUST** contain the metadata map value parameter 'vnf_id'.
-
-.. req::
-    :id: R-07507
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vnf_id' **MUST** be declared
-    as type: 'string'.
-
-.. req::
-    :id: R-55218
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vnf_id' **MUST NOT** have
-    parameter contraints defined.
-
-.. req::
-    :id: R-20856
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vnf_id' **MUST NOT** be
-    enumerated in the Heat Orchestration Template's environment file.
-
-.. req::
-    :id: R-44491
-    :target: VNF
-    :keyword: MUST NOT
-
-    If a VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vnf_id' is passed into a
-    Nested YAML file, the parameter name 'vnf_id' **MUST NOT** change.
-
-*Example 'vnf_id' Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    vnf_id:
-      type: string
-      description: Unique ID for this VNF instance
-
-vf\_module\_id
-++++++++++++++
-
-The OS::Nova::Server Resource metadata map value parameter 'vf\_module\_id'
-is an ONAP generated UUID that identifies the VF Module (e.g., Heat
-Orchestration Template).  The value
-is provided by ONAP to the VNF's Heat Orchestration
-Template at orchestration time.
-
-
-.. req::
-    :id: R-71493
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource **MUST** contain the metadata map value parameter
-    'vf\_module\_id'.
-
-.. req::
-    :id: R-82134
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_id' **MUST**
-    be declared as type: 'string'.
-
-.. req::
-    :id: R-98374
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_id' **MUST NOT**
-    have parameter contraints defined.
-
-.. req::
-    :id: R-72871
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_id' **MUST NOT**
-    be enumerated in the Heat Orchestration Template's environment file.
-
-.. req::
-    :id: R-86237
-    :target: VNF
-    :keyword: MUST NOT
-
-    If a VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf_module_id' is passed
-    into a Nested YAML file, the parameter name 'vf\_module\_id'
-    **MUST NOT** change.
-
-*Example 'vf\_module\_id' Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    vnf_module_id:
-      type: string
-      description: Unique ID for this VNF module instance
-
-
-vnf\_name
-+++++++++
-
-The OS::Nova::Server Resource metadata map value parameter 'vnf_name'
-is the ONAP generated alphanumeric name of the deployed VNF instance.
-The value
-is provided by ONAP to the VNF's Heat Orchestration
-Template at orchestration time.
-The parameter must be declared as type: string
-
-
-.. req::
-    :id: R-72483
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource **MUST** contain the metadata map value parameter
-    'vnf_name'.
-
-.. req::
-    :id: R-62428
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vnf_name' **MUST** be
-    declared as type: 'string'.
-
-.. req::
-    :id: R-44318
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vnf\_name' **MUST NOT** have
-    parameter contraints defined.
-
-.. req::
-    :id: R-36542
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vnf\_name' **MUST NOT** be
-    enumerated in the Heat Orchestration Template's environment file.
-
-.. req::
-    :id: R-16576
-    :target: VNF
-    :keyword: MUST NOT
-
-    If a VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vnf_name' is passed into a
-    Nested YAML file, the parameter name 'vnf_name' **MUST NOT** change.
-
-*Example 'vnf\_name' Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    vnf_name:
-      type: string
-      description: Unique name for this VNF instance
-
-vf\_module\_name
-++++++++++++++++
-
-The OS::Nova::Server Resource metadata map value parameter 'vf_module_name'
-is the deployment name of the heat stack created (e.g., <STACK_NAME>) from the
-VNF's Heat Orchestration template
-in the command 'Heat stack-create'
-(e.g., 'Heat stack-create [-f <FILE>] [-e <FILE>] <STACK_NAME>').
-The 'vf_module_name' (e.g., <STACK_NAME> is specified as
-part of the orchestration process.
-
-
-.. req::
-    :id: R-68023
-    :target: VNF
-    :keyword: SHOULD
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource **SHOULD** contain the metadata map value parameter
-    'vf\_module\_name'.
-
-.. req::
-    :id: R-39067
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_name' **MUST**
-    be declared as type: 'string'.
-
-.. req::
-    :id: R-15480
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_name'
-    **MUST NOT** have parameter contraints defined.
-
-.. req::
-    :id: R-80374
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_name'
-    **MUST NOT** be enumerated in the Heat Orchestration Template's
-    environment file.
-
-.. req::
-    :id: R-49177
-    :target: VNF
-    :keyword: MUST
-
-    If a VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_name' is passed
-    into a Nested YAML file, the parameter name 'vf\_module\_name'
-    **MUST NOT** change.
-
-*Example 'vf_module_name' Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    vf_module_name:
-      type: string
-      description: Unique name for this VNF Module instance
-
-vm\_role
-++++++++
-
-The OS::Nova::Server Resource metadata map value parameter 'vm-role'
-is a metadata tag that describes the role of the Virtual Machine.
-The 'vm\_role' is stored in ONAP's A&AI module and is
-available for use by other ONAP components and/or north bound systems.
-
-
-.. req::
-    :id: R-85328
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource **MAY** contain the metadata map value parameter 'vm_role'.
-
-.. req::
-    :id: R-95430
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vm_role' **MUST** be
-    declared as type: 'string'.
-
-.. req::
-    :id: R-67597
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vm_role' **MUST NOT** have
-    parameter contraints defined.
-
-
-.. req::
-    :id: R-46823
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vnf_name' **MUST** be
-    either
-
-     - enumerated in the VNF's Heat Orchestration
-       Template's environment file.
-
-     - hard coded in the VNF's Heat Orchestration
-       Template's OS::Nova::Resource metadata property.
-
-Defining the 'vm_role' as the '{vm-type}' is a recommended convention
-
-
-.. req::
-    :id: R-86476
-    :target: VNF
-    :keyword: MUST
-
-    If a VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vm_role' value **MUST** only
-    contain alphanumeric characters and underscores '_'.
-
-.. req::
-    :id: R-70757
-    :target: VNF
-    :keyword: MUST NOT
-
-    If a VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vm_role' is passed into a
-    Nested YAML file, the parameter name 'vm_role' **MUST NOT** change.
-
-*Example 'vm\_role' Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    vm_role:
-      type: string
-      description: Unique role for this VM
-
-*Example: 'vm-role' Definition: Hard Coded in
-OS::Nova::Resource metadata property*
-
-.. code-block:: yaml
-
-  resources:
-
-    dns_server_0
-      type: OS::Nova::Server
-      properties:
-        . . . .
-        metadata:
-          vm_role: dns
-
-*Example 'vm-role' Definition: Defined in Environment file
-and retrieved via 'get_param'*
-
-.. code-block:: yaml
-
-  resources:
-
-    dns_server_0:
-      type: OS::Nova::Server
-      properties:
-        . . . .
-        metadata:
-          vm_role: { get_param: vm_role }
-
-Example vnf_id, vf_module_id, vnf_name, vf_module_name, vm_role
-+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
-
-The example below depicts part of a Heat Orchestration Template
-that uses the five of the OS::Nova::Server metadata parameter
-discussed in this section. The {vm-type} has been defined as lb
-for load balancer.
-
-.. code-block:: yaml
-
-  parameters:
-    lb_name_0
-      type: string
-      description: VM Name for lb VM 0
-    vnf_name:
-      type: string
-      description: Unique name for this VNF instance
-    vnf_id:
-      type: string
-      description: Unique ID for this VNF instance
-    vf_module_name:
-      type: string
-      description: Unique name for this VNF Module instance
-    vf_module_id:
-      type: string
-      description: Unique ID for this VNF Module instance
-    vm_role:
-      type: string
-      description: Unique role for this VM
-  resources:
-    lb_server_0:
-      type: OS::Nova::Server
-      properties:
-        name: { get_param: lb_name_0 }
-        ...
-        metadata:
-          vnf_name: { get_param: vnf_name }
-          vnf_id: { get_param: vnf_id }
-          vf_module_name: { get_param: vf_module_name }
-          vf_module_id: { get_param: vf_module_id }
-          vm_role: lb
-
-vf\_module\_index
-+++++++++++++++++
-
-
-.. req::
-    :id: R-50816
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource **MAY** contain the metadata map value parameter
-    'vf\_module\_index'.
-
-.. req::
-    :id: R-54340
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_index' **MUST** be
-    declared as type: 'number'.
-
-.. req::
-    :id: R-09811
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_index' **MUST NOT**
-    have parameter contraints defined.
-
-.. req::
-    :id: R-37039
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_index' **MUST NOT**
-    be enumerated in the Heat Orchestration Template's environment file.
-
-.. req::
-    :id: R-22441
-    :target: VNF
-    :keyword: MUST NOT
-
-    If a VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_index' is passed
-    into a Nested YAML file, the parameter name 'vf\_module\_index'
-    **MUST NOT** change.
-
-.. req::
-    :id: R-55306
-    :target: VNF
-    :keyword: MUST NOT
-
-    If a VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'vf\_module\_index' **MUST NOT** be
-    used in a VNF's Volume Template; it is not supported.
-
-The vf\_module_index parameter indicates which instance of the module is being
-deployed into the VNF.
-This parameter may be used in cases where multiple instances of the same
-incremental module may be instantiated for scaling purposes. The index
-can be used in the Heat Orchestration Template for indexing into a
-pseudo-constant array parameter when unique values are required for each
-module instance, e.g., for fixed private IP addresses on VM types.
-
-The vf\_module\_index will start at 0 for the first instance of a module
-type. Subsequent instances of the same module type will receive the
-lowest unused index. This means that indexes will be reused if a module
-is deleted and re-added. As an example, if three copies of a module are
-deployed with vf\_module\_index values of 0, 1, and 2 then subsequently
-the second one is deleted (index 1), and then re-added, index 1 will be
-reused.
-
-*Example*
-
-In this example, the {vm-type} has been defined as oam\_vm to represent
-an OAM VM. An incremental heat module is used to deploy the OAM VM. The
-OAM VM attaches to an internal control network which has a
-{network-role} of ctrl. A maximum of four OAM VMs can be deployed. The
-environment file contains the four IP addresses that each successive OAM
-VM will be assigned. The vf\_module\_index is used as the index to
-determine the IP assignment.
-
-Environment File
-
-.. code-block:: yaml
-
-  parameters:
-    oam_vm_int_ctrl_ips: 10.10.10.1,10.10.10.2,10.10.10.3,10.10.10.4
-
-YAML File
-
-.. code-block:: yaml
-
- parameters:
-   vf_module_index:
-     type: number
-     description: Unique index for this VNF Module instance
-   oam_vm_name_0:
-     type: string
-     description: VM Name for lb VM 0
-   int_ctrl_net_id:
-     type: string
-     description: Neutron UUID for the internal control network
-   oam_vm_int_ctrl_ips:
-     type: comma_delimited_list
-     description: Fixed IP assignments for oam VMs on the internal control
-     network
- resources:
-   oam_vm_server_0:
-     type: OS::Nova::Server
-     properties:
-       name: { get_param: oam_vm_name_0 }
-       networks:
-         port: { get_resource: oam_vm_0_int_ctrl_port_0 }
-
-       . . .
-
-       metadata:
-         vf_module_index: { get_param: vf_module_index }
-   oam_vm_0_int_ctrl_port_0:
-     type: OS::Neutron::Port
-     properties:
-       network: { get_param: int_ctrl_net_id }
-       fixed_ips: [ { "ip_address": {get_param: [ oam_vm_int_ctrl_ips, { get_param, vf_module_index}]}}]
-
-workload\_context
-++++++++++++++++++
-
-
-.. req::
-    :id: R-47061
-    :target: VNF
-    :keyword: SHOULD
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource **SHOULD** contain the metadata map value parameter
-    'workload_context'.
-
-.. req::
-    :id: R-74978
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'workload_context' **MUST** be
-    declared as type: 'string'.
-
-.. req::
-    :id: R-34055
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'workload_context' **MUST NOT**
-    have parameter contraints defined.
-
-.. req::
-    :id: R-02691
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'workload_context' **MUST NOT**
-    be enumerated in the Heat Orchestration Template's environment file.
-
-.. req::
-    :id: R-75202
-    :target: VNF
-    :keyword: MUST NOT
-
-    If a VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'workload_context' is passed
-    into a Nested YAML file, the parameter name 'workload_context'
-    **MUST NOT** change.
-
-The 'workload\_context' parameter value will be chosen by the Service Model
-Distribution context client in VID and will be supplied to the
-Heat Orchestration Template by ONAP at orchestration time.
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-    workload_context:
-      type: string
-      description: Workload Context for this VNF instance
-
-
-*Example OS::Nova::Server with metadata*
-
-.. code-block:: yaml
-
-  resources:
-    . . .
-
-    {vm-type}_server_{index}:
-       type: OS::Nova::Server
-       properties:
-         name:
-         flavor:
-         image:
-        ...
-       metadata:
-          vnf_name: { get_param: vnf_name }
-          vnf_id: { get_param: vnf_id }
-          vf_module_name: { get_param: vf_module_name }
-          vf_module_id: { get_param: vf_module_id }
-          workload_context: {get_param: workload_context}
-
-environment\_context
-++++++++++++++++++++++
-
-
-.. req::
-    :id: R-88536
-    :target: VNF
-    :keyword: SHOULD
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource **SHOULD** contain the metadata map value parameter
-    'environment_context'.
-
-.. req::
-    :id: R-20308
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'environment_context' **MUST**
-    be declared as type: 'string'.
-
-.. req::
-    :id: R-56183
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'environment_context' **MUST NOT**
-    have parameter contraints defined.
-
-.. req::
-    :id: R-13194
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'environment_context' **MUST NOT**
-    be enumerated in the Heat Orchestration Template's environment file.
-
-.. req::
-    :id: R-62954
-    :target: VNF
-    :keyword: MUST NOT
-
-    If a VNF's Heat Orchestration Template's OS::Nova::Server
-    Resource metadata map value parameter 'environment_context' is
-    passed into a Nested YAML file, the parameter name
-    'environment_context' **MUST NOT** change.
-
-The 'environment\_context' parameter value will be defined by the
-service designer as part of the service model during the SDC
-on-boarding process and will be supplied to the Heat Orchestration
-Template by ONAP at orchestration time.
-
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-    environment_context:
-      type: string
-      description: Environment Context for this VNF instance
-
-
-*Example OS::Nova::Server with metadata*
-
-.. code-block:: yaml
-
-  resources:
-    . . .
-
-    {vm-type}_server_{index}:
-       type: OS::Nova::Server
-       properties:
-         name:
-         flavor:
-         image:
-        ...
-       metadata:
-          vnf_name: { get_param: vnf_name }
-          vnf_id: { get_param: vnf_id }
-          vf_module_name: { get_param: vf_module_name }
-          vf_module_id: { get_param: vf_module_id }
-          workload_context: {get_param: workload_context}
-          environment_context: {get_param: environment_context }
-
-
-Resource: OS::Neutron::Port - Parameters
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-The resource OS::Neutron::Port is for managing Neutron ports (See
-https://docs.openstack.org/developer/heat/template_guide/openstack.html#OS::Neutron::Port.)
-
-Introduction
-++++++++++++
-
-Four properties of the resource OS::Neutron::Port that must follow the
-ONAP parameter naming convention. The four properties are:
-
-1. network
-2. fixed_ips, ip_address
-3. fixed_ips, subnet_id or fixed_ips, subnet
-
- * Note that in many examples in this document fixed_ips, subnet_id is used.
-
-4. allowed_address_pairs, ip_address
-
-Below is a generic example. Note that for some parameters
-comma_delimited_list are supported in addition to String.
-
-.. code-block:: yaml
-
-  resources:
-
-  ...
-
-  <resource ID>:
-    type: OS::Neutron::Port
-    properties:
-      allowed_address_pairs: [{"ip_address": String, "mac_address": String},
-      {"ip_address": String, "mac_address": String}, ...]
-      fixed_ips: [{"ip_address": String, "subnet_id": String, "subnet":
-      String}, {"ip_address": String, "subnet_id": String, "subnet": String},
-      ...]
-      network: String
-
-The values associated with these properties may reference an external
-network or internal network. External networks and internal
-networks are defined in `Networking`_.
-
-When the OS::Neutron::Port is attaching to an external network, all
-property values are parameters that are retrieved via the intrinsic
-function 'get_param'.
-
-When the OS::Neutron::Port is attaching to an internal network, a
-property value maybe retrieved via the intrinsic
-function 'get_param', 'get_resource', or 'get_attr'.
-
-This will be described in the forth coming sections.
-
-Items to Note
-_____________
-
-
-.. req::
-    :id: R-93272
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF **MAY** have one or more ports connected to a unique
-    external network. All VNF ports connected to the unique external
-    network **MUST** have Cloud Assigned IP Addresses
-    or **MUST** have ONAP SDN-C assigned IP addresses.
-
-.. req::
-    :id: R-13841
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF **MAY** have one or more ports connected to a unique
-    internal network. All VNF ports connected to the unique internal
-    network **MUST** have Cloud Assigned IP Addresses
-    or **MUST** have statically assigned IP addresses.
-
-.. req::
-    :id: R-07577
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If the VNF's ports connected to a unique network (internal or external)
-    and the port's IP addresses are Cloud Assigned IP Addresses,
-    all the IPv4 Addresses **MUST** be from
-    the same subnet and all the IPv6 Addresses **MUST** be from the
-    same subnet.
-
-.. req::
-    :id: R-45602
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF's Port is attached to a network (internal or external)
-    and the port's IP addresses are Cloud Assigned by OpenStack's DHCP
-    Service, the 'OS::Neutron::Port' Resource's
-
-       * property 'fixed_ips' map property 'ip_address' **MUST NOT** be used
-       * property 'fixed_ips' map property 'subnet'/'subnet_id' **MAY** be used
-
-.. req::
-    :id: R-63956
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If the VNF's ports connected to a unique external network
-    and the port's IP addresses are ONAP SDN-C assigned IP Addresses,
-    the IPv4 Addresses **MAY** be from different subnets and the IPv6
-    Addresses **MAY** be from different subnets.
-
-.. req::
-    :id: R-48880
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF's Port is attached to an external network and the port's
-    IP addresses are assigned by ONAP's SDN-Controller,
-    the 'OS::Neutron::Port' Resource's
-
-       * property 'fixed_ips' map property 'ip_address' **MUST** be used
-       * property 'fixed_ips' map property 'subnet'/'subnet_id' **MUST NOT** be used
-
-.. req::
-    :id: R-18001
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If the VNF's ports connected to a unique internal network
-    and the port's IP addresses are statically assigned IP Addresses,
-    the IPv4 Addresses **MAY** be from different subnets and the
-    IPv6 Addresses **MAY** be from different subnets.
-
-.. req::
-    :id: R-70964
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF's Port is attached to an internal network and the port's
-    IP addresses are statically assigned by the VNF's Heat Orchestration\
-    Template (i.e., enumerated in the Heat Orchestration Template's
-    environment file), the 'OS::Neutron::Port' Resource's
-
-       * property 'fixed_ips' map property 'ip_address' **MUST** be used
-       * property 'fixed_ips' map property 'subnet'/'subnet_id'
-         **MUST NOT** be used
-
-Property: network
-+++++++++++++++++
-
-The Resource 'OS::Neutron::Port' property 'network' determines what network
-the port is attached to.
-
-
-.. req::
-    :id: R-18008
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
-    property 'network' parameter **MUST** be declared as type: 'string'.
-
-.. req::
-    :id: R-62983
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
-    is attaching to an external network, the 'network' parameter name **MUST**
-
-    - follow the naming convention '{network-role}_net_id' if the Neutron
-      network UUID value is used to reference the network
-    - follow the naming convention '{network-role}_net_name' if the OpenStack
-      network name is used to reference the network.
-
-    where '{network-role}' is the network-role of the external network and
-    a 'get_param' **MUST** be used as the intrinsic function.
-
-.. req::
-    :id: R-86182
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
-    is attaching to an internal network, and the internal network is created in a different
-    Heat Orchestration Template than the 'OS::Neutron::Port', the 'network'
-    parameter name **MUST**
-
-    - follow the naming convention 'int\_{network-role}_net_id' if the Neutron
-      network UUID value is used to reference the network
-    - follow the naming convention 'int\_{network-role}_net_name' if the
-      OpenStack network name in is used to reference the network.
-
-    where '{network-role}' is the network-role of the internal network and a 'get_param' **MUST** be used as the intrinsic function.
-
-In Requirement R-86182, the internal network is created in the VNF's
-Base Module (Heat Orchestration Template) and the parameter name is
-declared in the Base Module's outputs' section.
-The output parameter name will be declared as a parameter in the
-'parameters' section of the incremental module.
-
-
-.. req::
-    :id: R-93177
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's
-    Resource 'OS::Neutron::Port' is attaching to an internal
-    network, and the internal network is created in the same Heat
-    Orchestration Template than the 'OS::Neutron::Port', the 'network'
-    parameter name **MUST** obtain the UUID of the internal network
-    by using the intrinsic function 'get_resource' or 'get_attr'
-    and referencing the Resource ID of the internal network.
-
-.. req::
-    :id: R-29872
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource 'OS::Nova::Server'
-    property 'network' parameter **MUST NOT** be enumerated in the Heat
-    Orchestration Template's Environment File.
-
-The parameter values for external networks are provided by ONAP
-to the VNF's Heat Orchestration Template at orchestration time.
-
-The parameter values for internal networks created in the VNF's Base Module
-Heat Orchestration Template
-are provided to the VNF's Incremental Module Heat Orchestration Template
-at orchestration time.
-
-*Example Parameter Definition of External Networks*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {network-role}_net_id:
-      type: string
-      description: Neutron UUID for the external {network-role} network
-
-    {network-role}_net_name:
-      type: string
-      description: Neutron name for the external {network-role} network
-
-
-*Example Parameter Definition of Internal Networks in an Incremental Module*
-
-.. code-block:: yaml
-
-  parameters:
-
-    int_{network-role}_net_id:
-      type: string
-      description: Neutron UUID for the internal int_{network-role} network
-
-    int_{network-role}_net_name:
-      type: string
-      description: Neutron name for the internal int_{network-role} network
-
-Property: fixed_ips, Map Property: ip_address
-+++++++++++++++++++++++++++++++++++++++++++++
-
-The resource 'OS::Neutron::Port' property 'fixed_ips'
-map property 'ip_address'
-is used to assign one IPv4 or IPv6
-addresses to port.
-
-One 'OS::Neutron::Port' resource may assign one or more
-IPv4 and/or IPv6 addresses.
-
-
-.. req::
-    :id: R-34037
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's resource 'OS::Neutron::Port'
-    property 'fixed_ips' map property 'ip_address' parameter **MUST**
-    be declared as either type 'string' or type 'comma_delimited_list'.
-
-.. req::
-    :id: R-40971
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' is attaching to an external network, and an IPv4
-    address is assigned using the property 'fixed_ips' map property
-    'ip_address' and the parameter type is defined
-    as a string, the parameter name **MUST** follow the naming
-    convention
-      - '{vm-type}_{network-role}\_ip\_{index}'
-
-    where
-
-      - '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
-      - '{network-role}' is the {network-role} of the external network
-      - the value for {index} must start at zero (0) and increment by one
-
-.. req::
-    :id: R-39841
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
-    property 'fixed_ips' map property 'ip_address' parameter
-    '{vm-type}_{network-role}\_ip\_{index}' **MUST NOT** be enumerated in the
-    VNF's Heat Orchestration Template's Environment File.
-
-ONAP's SDN-Controller assigns the IP Address and ONAP provides
-the value at orchestration to the Heat Orchestration Template.
-
-*Example External Network IPv4 Address string Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {vm-type}_{network-role}_ip_{index}:
-      type: string
-      description: Fixed IPv4 assignment for {vm-type} VM {index} on the{network-role} network
-
-
-.. req::
-    :id: R-04697
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
-    is attaching to an external network, and an IPv4 address is assigned using
-    the property 'fixed_ips' map property 'ip_address' and the parameter type
-    is defined as a comma_delimited_list, the parameter name **MUST** follow the
-    naming convention
-
-      * '{vm-type}_{network-role}_ips',
-
-    where
-
-      * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
-      * '{network-role}' is the {network-role} of the external network
-
-.. req::
-    :id: R-98905
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
-    property 'fixed_ips' map property 'ip_address' parameter
-    '{vm-type}_{network-role}_ips' **MUST NOT** be enumerated in the VNF's
-    Heat Orchestration Template's Environment File.
-
-ONAP's SDN-Controller assigns the IP Address and ONAP provides
-the value at orchestration to the Heat Orchestration Template.
-
-*Example External Network IPv4 Address comma_delimited_list
-Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {vm-type}_{network-role}_ips:
-      type: comma_delimited_list
-      description: Fixed IPv4 assignments for {vm-type} VMs on the {network-role} network
-
-
-.. req::
-    :id: R-71577
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' is attaching to an external network, and an IPv6 address
-    is assigned using the property 'fixed_ips' map property 'ip_address' and
-    the parameter type is defined as a string, the parameter name **MUST** follow
-    the naming convention
-
-      * '{vm-type}_{network-role}\_v6\_ip\_{index}'
-
-    where
-
-      * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
-      * '{network-role}' is the {network-role} of the external network
-      * the value for {index} must start at zero (0) and increment by one
-
-.. req::
-    :id: R-87123
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
-    parameter '{vm-type}_{network-role}\_v6\_ip\_{index}'
-    **MUST NOT** be enumerated in the VNF's Heat Orchestration
-    Template's Environment File.
-
-ONAP's SDN-Controller assigns the IP Address and ONAP provides
-the value at orchestration to the Heat Orchestration Template.
-
-*Example External Network IPv6 Address string Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {vm-type}_{network-role}_v6_ip_{index}:
-      type: string
-      description: Fixed IPv6 assignment for {vm-type} VM {index} on the {network-role} network
-
-
-.. req::
-    :id: R-23503
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' is attaching to an external network, and an IPv6
-    address is assigned using the property 'fixed_ips' map property 'ip_address'
-    and the parameter type is defined as a comma_delimited_list, the parameter
-    name **MUST** follow the naming convention
-
-      * '{vm-type}_{network-role}_v6_ips'
-
-    where
-
-      * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
-      * '{network-role}' is the {network-role} of the external network
-
-.. req::
-    :id: R-93030
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
-    parameter '{vm-type}_{network-role}_v6_ips' **MUST NOT** be enumerated in the
-    VNF's Heat Orchestration Template's Environment File.
-
-ONAP's SDN-Controller assigns the IP Address and ONAP provides
-the value at orchestration to the Heat Orchestration Template.
-
-*Example External Network IPv6 Address comma_delimited_list Parameter
-Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {vm-type}_{network-role}_v6_ips:
-      type: comma_delimited_list
-      description: Fixed IPv6 assignments for {vm-type} VMs on the {network-role} network
-
-
-.. req::
-    :id: R-78380
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' is attaching to an internal network, and an IPv4 address
-    is assigned using the property 'fixed_ips' map property 'ip_address' and
-    the parameter type is defined as a string, the parameter name **MUST** follow
-    the naming convention
-
-       * '{vm-type}\_int\_{network-role}\_ip\_{index}'
-
-    where
-
-       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
-       * '{network-role}' is the {network-role} of the internal network
-       * the value for {index} must start at zero (0) and increment by one
-
-.. req::
-    :id: R-28795
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
-    parameter '{vm-type}\_int\_{network-role}\_ip\_{index}' **MUST** be enumerated
-    in the VNF's Heat Orchestration Template's Environment File.
-
-The IP address is local to the VNF's internal network and is (re)used
-in every VNF spin up, thus the constant value is declared in the VNF's
-Heat Orchestration Template's Environment File.
-
-*Example Internal Network IPv4 Address string Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {vm-type}_int_{network-role}_ip_{index}:
-      type: string
-      description: Fixed IPv4 assignment for {vm-type} VM {index} on the int_{network-role} network
-
-
-.. req::
-    :id: R-85235
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' is attaching to an internal network, and an IPv4
-    address is assigned using the property 'fixed_ips' map property 'ip_address'
-    and the parameter type is defined as a comma_delimited_list, the parameter
-    name **MUST** follow the naming convention
-
-       * '{vm-type}\_int\_{network-role}_ips'
-
-    where
-
-       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
-       * '{network-role}' is the {network-role} of the internal network
-
-.. req::
-    :id: R-90206
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
-    parameter '{vm-type}\_int\_{network-role}_int_ips' **MUST** be enumerated in
-    the VNF's Heat Orchestration Template's Environment File.
-
-The IP address is local to the VNF's internal network and is (re)used
-in every VNF spin up, thus the constant value is declared in the VNF's
-Heat Orchestration Template's Environment File.
-
-.. code-block:: yaml
-
-  parameters:
-
-    {vm-type}_int_{network-role}_ips:
-      type: comma_delimited_list
-      description: Fixed IPv4 assignments for {vm-type} VMs on the int_{network-role} network
-
-
-.. req::
-    :id: R-27818
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' is attaching to an internal network, and an IPv6 address
-    is assigned using the property 'fixed_ips' map property 'ip_address' and
-    the parameter type is defined as a string, the parameter name **MUST** follow
-    the naming convention
-
-       * '{vm-type}\_int\_{network-role}\_v6\_ip\_{index}'
-
-    where
-
-       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
-       * '{network-role}' is the {network-role} of the internal network
-       * the value for {index} must start at zero (0) and increment by one
-
-.. req::
-    :id: R-97201
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
-    parameter '{vm-type}\_int\_{network-role}\_v6\_ip\_{index}'
-    **MUST** be enumerated in the VNF's Heat Orchestration
-    Template's Environment File.
-
-The IP address is local to the VNF's internal network and is (re)used
-in every VNF spin up, thus the constant value is declared in the VNF's
-Heat Orchestration Template's Environment File.
-
-*Example Internal Network IPv6 Address string Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {vm-type}_int_{network-role}_v6_ip_{index}:
-      type: string
-      description: Fixed IPv6 assignment for {vm-type} VM {index} on the int_{network-role} network
-
-
-.. req::
-    :id: R-29765
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' is attaching to an internal network, and an IPv6
-    address is assigned using the property 'fixed_ips' map property 'ip_address'
-    and the parameter type is defined as a comma_delimited_list, the parameter
-    name **MUST** follow the naming convention
-
-       * '{vm-type}\_int\_{network-role}_v6_ips'
-
-    where
-
-       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
-       * '{network-role}' is the {network-role} of the internal network
-
-*Example Internal Network IPv6 Address comma_delimited_list Parameter
-Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {vm-type}_int_{network-role}_v6_ips:
-      type: comma_delimited_list
-      description: Fixed IPv6 assignments for {vm-type} VMs on the int_{network-role} network
-
-
-.. req::
-    :id: R-98569
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
-    parameter '{vm-type}\_int\_{network-role}_v6_ips' **MUST** be enumerated in
-    the VNF's Heat Orchestration Template's Environment File.
-
-The IP address is local to the VNF's internal network and is (re)used
-in every VNF spin up, thus the constant value is declared in the VNF's
-Heat Orchestration Template's Environment File.
-
-
-.. req::
-    :id: R-62590
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
-    parameter associated with an external network, i.e.,
-
-    - {vm-type}_{network-role}\_ip\_{index}
-    - {vm-type}_{network-role}\_ip\_v6\_{index}
-    - {vm-type}_{network-role}_ips
-    - {vm-type}_{network-role}_v6_ips
-
-    **MUST NOT** be enumerated in the Heat Orchestration Template's Environment File.
-    ONAP provides the IP address assignments at orchestration time.
-
-.. req::
-    :id: R-93496
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
-    parameter associated with an internal network, i.e.,
-
-    - {vm-type}\_int\_{network-role}\_ip\_{index}
-    - {vm-type}\_int\_{network-role}\_ip\_v6\_{index}
-    - {vm-type}\_int\_{network-role}_ips
-    - {vm-type}\_int\_{network-role}_v6_ips
-
-    **MUST** be enumerated in the Heat Orchestration Template's Environment
-    File and IP addresses **MUST** be assigned.
-
-Summary Table
-_____________
-
-.. csv-table:: **Table # OS::Neutron::Port Property fixed_ips map property ip_address Parameter Naming Convention**
-   :header: Resource,Property,Map Property,Network Type,IP Address,Parameter Type,Parameter Name, Environment File
-   :align: center
-   :widths: auto
-
-   OS::Neutron::Port, fixed_ips, ip_address, external, IPv4, string, {vm-type}\_{network-role}\_ip\_{index}, NO
-   OS::Neutron::Port, fixed_ips, ip_address, external, IPv4, comma\_delimited\_list, {vm-type}\_{network-role}\_ips, NO
-   OS::Neutron::Port, fixed_ips, ip_address, external, IPv6, string, {vm-type}\_{network-role}\_v6\_ip\_{index}, NO
-   OS::Neutron::Port, fixed_ips, ip_address, external, IPv6, comma\_delimited\_list, {vm-type}\_{network-role}\_v6\_ips, NO
-   OS::Neutron::Port, fixed_ips, ip_address, internal, IPv4, string, {vm-type}\_int\_{network-role}\_ip\_{index}, YES
-   OS::Neutron::Port, fixed_ips, ip_address, internal, IPv4, comma\_delimited\_list, {vm-type}\_int\_{network-role}\_ips, YES
-   OS::Neutron::Port, fixed_ips, ip_address, internal, IPv6, string, {vm-type}\_int\_{network-role}\_v6\_ip\_{index}, YES
-   OS::Neutron::Port, fixed_ips, ip_address, internal, IPv6, comma\_delimited\_list, {vm-type}\_int\_{network-role}\_v6\_ips, YES
-
-
-Examples
-________
-
-*Example: comma_delimited_list parameters for IPv4 and IPv6 Address
-Assignments to an external network*
-
-In this example, the '{network-role}' has been defined as 'oam' to represent
-an oam network and the '{vm-type}' has been defined as 'db' for database.
-
-.. code-block:: yaml
-
-  parameters:
-    oam_net_id:
-      type: string
-      description: Neutron UUID for a oam network
-    db_oam_ips:
-      type: comma_delimited_list
-      description: Fixed IPv4 assignments for db VMs on the oam network
-    db_oam_v6_ips:
-      type: comma_delimited_list
-      description: Fixed IPv6 assignments for db VMs on the oam network
-  resources:
-    db_0_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips: [ { "ip_address": {get_param: [ db_oam_ips, 0 ]}}, {
-        "ip_address": {get_param: [ db_oam_v6_ips, 0 ]}}]
-    db_1_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips:
-          - "ip_address": {get_param: [ db_oam_ips, 1 ]}
-          - "ip_address": {get_param: [ db_oam_v6_ips, 1 ]}
-
-*Example: string parameters for IPv4 and IPv6 Address Assignments to an
-external network*
-
-In this example, the '{network-role}' has been defined as 'oam' to
-represent an oam network and the '{vm-type}' has been defined as 'db' for
-database.
-
-.. code-block:: yaml
-
-  parameters:
-    oam_net_id:
-      type: string
-      description: Neutron UUID for an OAM network
-    db_oam_ip_0:
-      type: string
-      description: Fixed IPv4 assignment for db VM 0 on the OAM network
-    db_oam_ip_1:
-      type: string
-      description: Fixed IPv4 assignment for db VM 1 on the OAM network
-    db_oam_v6_ip_0:
-      type: string
-      description: Fixed IPv6 assignment for db VM 0 on the OAM network
-    db_oam_v6_ip_1:
-      type: string
-      description: Fixed IPv6 assignment for db VM 1 on the OAM network
-  resources:
-    db_0_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips: [ { "ip_address": {get_param: db_oam_ip_0}}, { "ip_address": {get_param: db_oam_v6_ip_0 }}]
-    db_1_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips:
-          - "ip_address": {get_param: db_oam_ip_1}
-          - "ip_address": {get_param: db_oam_v6_ip_1}
-
-
-*Example: comma_delimited_list parameters for IPv4 and IPv6 Address
-Assignments to an internal network*
-
-In this example, the '{network-role}' has been defined as 'ctrl' to
-represent an ctrl network internal to the vnf.
-The '{vm-type}' has been defined as 'db' for
-database.
-
-.. code-block:: yaml
-
-  parameters:
-    int_ctrl_net_id:
-      type: string
-      description: Neutron UUID for the ctrl internal network
-    db_int_ctrl_ips:
-      type: comma_delimited_list
-      description: Fixed IPv4 assignments for db VMs on the ctrl internal
-      network
-    db_int_ctrl_v6_ips:
-      type: comma_delimited_list
-      description: Fixed IPv6 assignments for db VMs on the ctrl internal
-      network
-  resources:
-    db_0_int_ctrl_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: int_ctrl_net_id }
-        fixed_ips: [ { "ip_address": {get_param: [ db_int_ctrl_ips, 0 ]}}, {
-        "ip_address": {get_param: [ db_int_ctrl_v6_ips, 0 ]}}]
-    db_1_int_ctrl_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: int_ctrl_net_id }
-        fixed_ips:
-        - "ip_address": {get_param: [ db_int_ctrl_ips, 1 ]}
-        - "ip_address": {get_param: [ db_int_ctrl_v6_ips, 1 ]}
-
-
-*Example: string parameters for IPv4 and IPv6 Address Assignments to an
-internal network*
-
-In this example, the int\_{network-role} has been defined as
-int_ctrl to represent a control network internal to the vnf.
-The {vm-type} has been defined as db for database.
-
-.. code-block:: yaml
-
-  parameters:
-    int_ctrl_net_id:
-      type: string
-      description: Neutron UUID for an OAM internal network
-    db_int_ctrl_ip_0:
-      type: string
-      description: Fixed IPv4 assignment for db VM on the oam_int network
-    db_int_ctrl_ip_1:
-      type: string
-      description: Fixed IPv4 assignment for db VM 1 on the oam_int network
-    db_int_ctrl_v6_ip_0:
-      type: string
-      description: Fixed IPv6 assignment for db VM 0 on the oam_int network
-    db_int_ctrl_v6_ip_1:
-      type: string
-      description: Fixed IPv6 assignment for db VM 1 on the oam_int network
-  resources:
-    db_0_int_ctrl_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: int_oam_int_net_id }
-        fixed_ips: [ { "ip_address": {get_param: db_oam_int_ip_0}}, {
-        "ip_address": {get_param: db_oam_int_v6_ip_0 }}]
-    db_1_int_ctrl_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: int_oam_int_net_id }
-        fixed_ips:
-          - "ip_address": {get_param: db_oam_int_ip_1}
-          - "ip_address": {get_param: db_oam_int_v6_ip_1}
-
-
-Property: fixed\_ips, Map Property: subnet\_id
-++++++++++++++++++++++++++++++++++++++++++++++
-
-The resource 'OS::Neutron::Port' property 'fixed_ips' map
-property 'subnet'/'subnet_id' is used when a
-port is requesting an IP assignment via
-OpenStack's DHCP Service (i.e., Cloud Assigned).
-
-The IP address assignment will be made from the specified subnet.
-
-Specifying the subnet is not required; it is optional.
-
-If the network (external or internal) that the port is attaching
-to only contains one subnet, specifying the subnet is
-superfluous.  The IP address will be assigned from the one existing
-subnet.
-
-If the network (external or internal) that the port is attaching
-to contains two or more subnets, specifying the subnet in the
-'fixed_ips' map property 'subnet'/'subnet_id' determines which
-subnet the IP address will be assigned from.
-
-If the network (external or internal) that the port is attaching
-to contains two or more subnets, and the subnet is not is not
-specified, OpenStack will randomly(?) determine which subnet
-the IP address will be assigned from.
-
-The property fixed_ips is used to assign IPs to a port. The Map Property
-subnet_id specifies the subnet the IP is assigned from.
-
-
-.. req::
-    :id: R-38236
-    :target: VNF
-    :keyword: MUST
-
-    The VNF's Heat Orchestration Template's resource
-    'OS::Neutron::Port' property 'fixed_ips' map property
-    'subnet'/'subnet_id' parameter **MUST** be declared type 'string'.
-
-.. req::
-    :id: R-62802
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's resource
-    'OS::Neutron::Port' is attaching to an external network, and an IPv4
-    address is being Cloud Assigned by OpenStack's DHCP Service and the
-    external network IPv4 subnet is to be specified using the property
-    'fixed_ips' map property 'subnet'/'subnet_id', the parameter **MUST**
-    follow the naming convention
-
-       * '{network-role}_subnet_id'
-
-    where
-
-       * '{network-role}' is the network role of the network.
-
-.. req::
-    :id: R-83677
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property
-    subnet'/'subnet_id' parameter '{network-role}_subnet_id'
-    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
-    Environment File.
-
-ONAP's SDN-Controller provides the network's subnet's UUID
-value at orchestration to the Heat Orchestration Template.
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {network-role}_subnet_id:
-      type: string
-      description: Neutron IPv4 subnet UUID for the {network-role} network
-
-
-.. req::
-    :id: R-15287
-    :target: VNF
-    :keyword: MUST
-
-    When the VNF's Heat Orchestration Template's resource
-    'OS::Neutron::Port' is attaching to an external network, and an IPv6
-    address is being Cloud Assigned by OpenStack's DHCP Service and the
-    external network IPv6 subnet is to be specified using the property
-    'fixed_ips' map property 'subnet'/'subnet_id', the parameter **MUST**
-    follow the naming convention
-
-       * '{network-role}_subnet_v6_id'
-
-    where
-
-       * '{network-role}' is the network role of the network.
-
-.. req::
-    :id: R-80829
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property
-    subnet'/'subnet_id' parameter '{network-role}_subnet_v6_id'
-    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
-    Environment File.
-
-ONAP's SDN-Controller provides the network's subnet's UUID
-value at orchestration to the Heat Orchestration Template.
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {network-role}_v6_subnet_id:
-      type: string
-      description: Neutron IPv6 subnet UUID for the {network-role} network
-
-
-*Example: One Cloud Assigned IPv4 Address (DHCP) assigned to a network
-that has two or more IPv4 subnets*
-
-In this example, 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. The Cloud Assigned IP Address uses the OpenStack DHCP service
-to assign IP addresses.
-
-.. code-block:: yaml
-
-  parameters:
-    oam_net_id:
-      type: string
-      description: Neutron UUID for the oam network
-    oam_subnet_id:
-      type: string
-      description: Neutron IPv4 subnet UUID for the oam network
-  resources:
-    lb_0_oam_port_0:
-      type: OS::Neutron::Port
-        parameters:
-          network: { get_param: oam_net_id }
-          fixed_ips:
-            - subnet_id: { get_param: oam_subnet_id }
-
-*Example: One Cloud Assigned IPv4 address and one Cloud Assigned IPv6
-address assigned to a network that has at least one IPv4 subnet and one
-IPv6 subnet*
-
-In this example, 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.
-
-.. code-block:: yaml
-
-  parameters:
-    oam_net_id:
-      type: string
-      description: Neutron UUID for the oam network
-    oam_subnet_id:
-      type: string
-      description: Neutron IPv4 subnet UUID for the oam network
-    oam_v6_subnet_id:
-      type: string
-      description: Neutron IPv6 subnet UUID for the oam network
-  resources:
-    lb_0_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips:
-          - subnet_id: { get_param: oam_subnet_id }
-          - subnet_id: { get_param: oam_v6_subnet_id }
-
-
-.. req::
-    :id: R-84123
-    :target: VNF
-    :keyword: MUST
-
-    When
-
-    - the VNF's Heat Orchestration Template's resource 'OS::Neutron::Port'
-      in an Incremental Module is attaching to an internal network
-      that is created in the Base Module, AND
-    - an IPv4 address is being Cloud Assigned by OpenStack's DHCP Service AND
-    - the internal network IPv4 subnet is to be specified using the
-      property 'fixed_ips' map property 'subnet'/'subnet_id',
-
-    the parameter **MUST** follow the naming convention
-       * 'int\_{network-role}_subnet_id'
-    where
-       * '{network-role}' is the network role of the internal network
-
-    - Note that the parameter **MUST** be defined as an 'output' parameter in
-      the base module.
-
-.. req::
-    :id: R-69634
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property
-    subnet'/'subnet_id' parameter 'int\_{network-role}_subnet_id'
-    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
-    Environment File.
-
-The assumption is that internal networks are created in the base module.
-The Neutron subnet network ID will be passed as an output parameter
-(e.g., ONAP Base Module Output Parameter) to the incremental modules.
-In the incremental modules, the output parameter name will be defined as
-input parameter.
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    int_{network-role}_subnet_id:
-      type: string
-      description: Neutron IPv4 subnet UUID for the int_{network-role} network
-
-
-.. req::
-    :id: R-76160
-    :target: VNF
-    :keyword: MUST
-
-    When
-
-    - the VNF's Heat Orchestration Template's resource
-      'OS::Neutron::Port' in an Incremental Module is attaching to an
-      internal network that is created in the Base Module, AND
-    - an IPv6 address is being Cloud Assigned by OpenStack's DHCP Service AND
-    - the internal network IPv6 subnet is to be specified using the property
-      'fixed_ips' map property 'subnet'/'subnet_id',
-
-    the parameter **MUST** follow the naming convention
-       * 'int\_{network-role}_v6_subnet_id'
-    where
-       * '{network-role}' is the network role of the internal network
-
-    - Note that the parameter **MUST** be defined as an 'output' parameter in
-      the base module.
-
-.. req::
-    :id: R-22288
-    :target: VNF
-    :keyword: MUST NOT
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'fixed_ips' map property
-    'subnet'/'subnet_id' parameter 'int\_{network-role}_v6_subnet_id'
-    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
-    Environment File.
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    int_{network-role}_v6_subnet_id:
-      type: string
-      description: Neutron subnet UUID for the int_{network-role} network
-
-
-Property: allowed\_address\_pairs, Map Property: ip\_address
-+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
-
-The property 'allowed_address_pairs' in the resource 'OS::Neutron::Port'
-allows the user to specify a mac_address and/or ip_address that will
-pass through a port regardless of subnet. This enables the use of
-protocols, such as VRRP, which allow for a Virtual IP (VIP) address
-to be shared among two or more ports, with one designated as the master
-and the others as backups. In case the master fails,
-the Virtual IP address is mapped to a backup's IP address and
-the backup becomes the master.
-
-Note that the management of the VIP IP addresses (i.e. transferring
-ownership between active and standby VMs) is the responsibility of
-the VNF application.
-
-
-.. req::
-    :id: R-62300
-    :target: VNF
-    :keyword: MUST
-
-    If a VNF has two or more ports that require a Virtual IP Address (VIP),
-    a VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port' property
-    'allowed_address_pairs' map property 'ip_address' parameter **MUST** be used.
-
-The 'allowed_address_pairs' is an optional property. It is not required.
-
-ONAP automation supports the assignment of VIP addresses
-for external networks. ONAP support the assignment of one IPv4 VIP address
-and/or one IPv6 VIP address to a set of ports associated with a
-'{vm-type}' and '{network-role}'.
-
-If a VNF requires more than one IPv4 VIP address
-and/or more than one IPv6 VIP address to a set of ports associated with a
-'{vm-type}' and '{network-role}', there are "manual" work-around
-procedures that can be utilized.
-
-VIP Assignment, External Networks, Supported by Automation
-__________________________________________________________
-
-
-
-.. req::
-    :id: R-91810
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF requires ONAP to assign a Virtual IP (VIP) Address to
-    ports connected an external network, the port
-    **MUST NOT** have more than one IPv4 VIP address.
-
-.. req::
-    :id: R-41956
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF requires ONAP to assign a Virtual IP (VIP) Address to
-    ports connected an external network, the port
-    **MUST NOT** have more than one IPv6 VIP address.
-
-.. req::
-    :id: R-10754
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF has two or more ports that
-    attach to an external network that require a Virtual IP Address (VIP),
-    and the VNF requires ONAP automation to assign the IP address,
-    all the Virtual Machines using the VIP address **MUST**
-    be instantiated in the same Base Module Heat Orchestration Template
-    or in the same Incremental Module Heat Orchestration Template.
-
-.. req::
-    :id: R-98748
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'allowed_address_pairs'
-    map property 'ip_address' parameter
-    **MUST** be declared as type 'string'.
-
-.. req::
-    :id: R-41492
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' is attaching to an external network,
-    and an IPv4 Virtual IP (VIP) address is assigned via ONAP automation
-    using the property 'allowed_address_pairs' map property 'ip_address' and
-    the parameter name **MUST** follow the naming convention
-
-       * '{vm-type}_{network-role}_floating_ip'
-
-    where
-
-       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
-       * '{network-role}' is the {network-role} of the external network
-
-    And the parameter **MUST** be declared as type 'string'.
-
-.. req::
-    :id: R-83412
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'allowed_address_pairs'
-    map property 'ip_address' parameter
-    '{vm-type}_{network-role}_floating_ip'
-    **MUST NOT** be enumerated in the
-    VNF's Heat Orchestration Template's Environment File.
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {vm-type}_{network-role}_floating_ip:
-      type: string
-      description: IPv4 VIP for {vm-type} VMs on the {network-role} network
-
-
-
-
-.. req::
-    :id: R-35735
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    When the VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' is attaching to an external network,
-    and an IPv6 Virtual IP (VIP) address is assigned via ONAP automation
-    using the property 'allowed_address_pairs' map property 'ip_address',
-    the parameter name **MUST** follow the naming convention
-
-       * '{vm-type}_{network-role}_v6_floating_ip'
-
-    where
-
-       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
-       * '{network-role}' is the {network-role} of the external network
-
-    And the parameter **MUST** be declared as type 'string'.
-
-.. req::
-    :id: R-83418
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    The VNF's Heat Orchestration Template's Resource
-    'OS::Neutron::Port' property 'allowed_address_pairs'
-    map property 'ip_address' parameter
-    '{vm-type}_{network-role}_floating_v6_ip'
-    **MUST NOT** be enumerated in the
-    VNF's Heat Orchestration Template's Environment File.
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-
-    {vm-type}_{network-role}_floating_v6_ip:
-      type: string
-      description: VIP for {vm-type} VMs on the {network-role} network
-
-Note that these parameters are **not** intended to represent an OpenStack
-"Floating IP", for which OpenStack manages a pool of public IP
-addresses that are mapped to specific VM ports. In that case, the
-individual VMs are not even aware of the public IPs, and all assignment
-of public IPs to VMs is via OpenStack commands. ONAP does not support
-Neutron-style Floating IPs.  That is, ONAP does not support the
-resources 'OS::Neutron::FloatingIP'
-and 'OS::Neutron::FloatingIPAssociation'.
-
-
-.. req::
-    :id: R-05257
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's **MUST NOT**
-    contain the Resource 'OS::Neutron::FloatingIP'.
-
-.. req::
-    :id: R-76449
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's **MUST NOT**
-    contain the Resource 'OS::Neutron::FloatingIPAssociation'.
-
-The Floating IP functions as a NAT.  They are allocated within
-Openstack, and always "terminate" within the Openstack infrastructure.
-When Openstack receives packets on a Floating IP, the packets will
-be forwarded to the
-Port that has been mapped to the Floating IP, using the private address of the
-port.  The VM never sees or knows about the Openstack Floating IP.
-The process to use is:
-
-  - User allocates a floating IP from the Openstack pool.
-  - User 'attaches' that floating IP to one of the VM ports.
-
-If there is a high-availability VNF that wants to "float" the IP to a
-different VM, it requires a Neutron command to request Openstack to 'attach'
-the floating IP to a different VM port.
-The pool of such addresses is managed by Openstack infrastructure.
-Users cannot create new ones, they can only choose from those in the pool.
-The pool is typically global (i.e. any user/tenant can grab them).
-
-Allowed address pairs are for more typical Linux-level "virtual IPs".
-They are additional IP addresses that are advertised by some port on the VM,
-in addition to the primary private IP address.  Typically in a
-high-availability VNF, an additional IP is assigned and will float between
-VMs (e.g., via some health-check app that will plumb the IP on one or other
-VM).  In order for this to work, the actual packets must be addressed to that
-IP address (and the allowed_ip_address list will let it pass through
-to the VM).  This generally requires provider network access
-(i.e. direct access to a data center network for the VMs), such that these
-IPs can pass through all of the virtual routers.
-Contrail also provides the enhanced networking that allows routing of such
-additional IPs.
-
-Floating IPs are not used in ONAP due to the NAT-ting nature of the IPs,
-the inability to reserve such IPs for specific use, the need to manage them
-via Openstack commands (i.e. a HA VNF would require direct access to
-Openstack to 'float' such an IP from one VM to another).
-
-*Example:*
-
-In this example, the {network-role} has been defined as oam to represent
-an oam network and the {vm-type} has been defined as db for database.
-
-.. code-block:: yaml
-
-  parameters:
-    oam_net_id:
-      type: string
-      description: Neutron UUID for the oam network
-    db_oam_ips:
-      type: comma_delimited_list
-      description: Fixed IPs for db VMs on the oam network
-    db_oam_floating_ip:
-      type: string
-      description: VIP IP for db VMs on the oam network
-  resources:
-    db_0_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips: [ { "ip_address": {get_param: [db_oam_ips,0] }}]
-        allowed_address_pairs: [ { "ip_address": {get_param:
-        db_oam_floating_ip}}]
-    db_1_oam_port_0:
-      type: OS::Neutron::Port
-        properties:
-          network: { get_param: oam_net_id }
-          fixed_ips: [ { "ip_address": {get_param: [db_oam_ips,1] }}]
-          allowed_address_pairs: [ { "ip_address": {get_param:
-          db_oam_floating_ip}}]
-
-
-VIP Assignment, External Networks, Additional Options
-_____________________________________________________
-
-The parameter {'vm-type}_{network-role}_floating_ip' allows for only one
-allowed address pair IPv4 address per '{vm-type}' and '{network-role}'
-combination.
-
-The parameter '{vm-type}_{network-role}_floating_v6_ip' allows for only one
-allowed address pair IPv6 address per '{vm-type}' and '{network-role}'
-combination.
-
-If there is a need for multiple allowed address pair IPs for a given
-{vm-type} and {network-role} combination within a VNF, there are two
-options.
-
-**Option One**
-
-If there is a need for multiple allowed address pair IPs for a given
-'{vm-type}' and '{network-role}' combination within a VNF, then the
-parameter names defined for the Property 'fixed_ips' Map Property
-'ip_address' should be used or the Property 'allowed_address_pairs'
-Map Property 'ip_address'. The
-parameter names are provided in the table below.
-
-.. csv-table:: **Table 5 OS::Neutron::Port Property allowed_address_pairs map property ip_address Parameter Naming Convention**
-   :header: IP Address,Parameter Type,Parameter Name
-   :align: center
-   :widths: auto
-
-   IPv4, string, {vm-type}_{network-role}_ip_{index}
-   IPv4, comma_delimited_list, {vm-type}_{network-role}_ips
-   IPv6, string, {vm-type}_{network-role}_v6_ip_{index}
-   IPv6, comma_delimited_list, {vm-type}_{network-role}_v6_ips
-
-The examples below illustrate this concept.
-
-*Example: A VNF has four load balancers. Each pair has a unique VIP.*
-
-In this example, there are two administrative VM pairs. Each pair has
-one VIP. The {network-role} has been defined as oam to represent an oam
-network and the {vm-type} has been defined as admin for an
-administrative VM.
-
-Pair 1: Resources admin_0_port_0 and admin_1_port_0 share a unique VIP,
-[admin_oam_ips,2]
-
-Pair 2: Resources admin_2_port_0 and admin_3_port_0 share a unique VIP,
-[admin_oam_ips,5]
-
-.. code-block:: yaml
-
-  parameters:
-    oam_net_id:
-      type: string
-      description: Neutron UUID for the oam network
-    admin_oam_ips:
-      type: comma_delimited_list
-      description: Fixed IP assignments for admin VMs on the oam network
-
-  resources:
-    admin_0_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips: [ { "ip_address": {get_param: [admin_oam_ips,0] }}]
-        allowed_address_pairs: [{ "ip_address": {get_param: [admin_oam_ips,2]
-        }}]
-    admin_1_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips: [ { "ip_address": {get_param: [admin_oam_ips,1] }}]
-        allowed_address_pairs: [{ "ip_address": {get_param: [admin_oam_ips,2]
-      }}]
-    admin_2_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips: [ { "ip_address": {get_param: [admin_oam_ips,3] }}]
-        allowed_address_pairs: [{ "ip_address": {get_param: [admin_oam_ips,5]
-        }}]
-    admin_3_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips: [ { "ip_address": {get_param: [admin_oam_ips,4] }}]
-        allowed_address_pairs: [{ "ip_address": {get_param: [admin_oam_ips,5]
-        }}]
-
-*Example: A VNF has two load balancers. The pair of load balancers share
-two VIPs.*
-
-In this example, there is one load balancer pairs. The pair has two
-VIPs. The {network-role} has been defined as oam to represent an oam
-network and the {vm-type} has been defined as lb for a load balancer VM.
-
-.. code-block:: yaml
-
-  resources:
-    lb_0_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips: [ { "ip_address": {get_param: [lb_oam_ips,0] }}]
-        allowed_address_pairs: [{ "ip_address": {get_param: [lb_oam_ips,2] },
-        {get_param: [lb_oam_ips,3] }}]
-    lb_1_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        network: { get_param: oam_net_id }
-        fixed_ips: [ { "ip_address": {get_param: [lb_oam_ips,1] }}]
-        allowed_address_pairs: [{ "ip_address": {get_param: [lb_oam_ips,2] },
-        {get_param: [lb_oam_ips,3] }}]
-
-As a general rule, provide the fixed IPs for the VMs indexed first in
-the CDL and then the VIPs as shown in the examples above.
-
-**Option Two**
-
-If there is a need for multiple allowed address pair IPs for a given
-'{vm-type}' and '{network-role}' combination within a VNF, then the
-parameter names defined for the table below can be used.
-
-**Resource OS::Neutron::Port**
-
-Table 6: Multiple allowed_address_pairs Option 2A
-
-.. csv-table:: **Table 6 OS::Neutron::Port Property allowed_address_pairs map property ip_address Parameter Naming Convention**
-   :header: IP Address,Parameter Type,Parameter Name
-   :align: center
-   :widths: auto
-
-   IPv4, string, {vm-type}_{network-role}_vip_{index}
-   IPv4, comma_delimited_list, {vm-type}_{network-role}_vips
-   IPv6, string, {vm-type}_{network-role}_v6_vip_{index}
-   IPv6, comma_delimited_list, {vm-type}_{network-role}_v6_vips
-
-
-If there is a need for multiple allowed address pair IPs for a given
-'{vm-type}' and '{network-role}' combination within a VNF and the need to
-differentiate the VIPs for different traffic types (e.g., 911 VIP,
-fail-over VIP), then the parameter names defined for the table below can
-be used.
-
-**Resource OS::Neutron::Port**
-
-Table 7: Multiple allowed_address_pairs Option 2B
-
-.. csv-table:: **Table 7 OS::Neutron::Port Property allowed_address_pairs map property ip_address Parameter Naming Convention**
-   :header: IP Address,Parameter Type,Parameter Name
-   :align: center
-   :widths: auto
-
-   IPv4, string, {vm-type}_{network-role}_{vip_type}_vip
-   IPv4, comma_delimited_list, {vm-type}_{network-role}_{vip_type}_vips
-   IPv6, string, {vm-type}_{network-role}_{vip_type}_v6_vip
-   IPv6, comma_delimited_list, {vm-type}_{network-role}_{vip_type}_v6_vips
-
-Internal Networks
-_________________
-
-ONAP defines an internal network in relation to
-the VNF and not with regard to the Network Cloud site. Internal
-networks may also be referred to as "intra-VNF" networks or "private"
-networks. An internal network only connects VMs in a single VNF. It
-must not connect to other VNFs or an external (to the cloud) gateway or an
-external (to the cloud) router.
-
-ONAP internal networks should be created in the base module.
-
-As previously mentioned,
-ports that connect to an internal network are assigned IP addresses
-via one of two methods
-
- * Method 1: Cloud assigned by OpenStack's DHCP Service
- * Method 2: Statically assigned.  That is, predetermined by the VNF designer
-   and are specified in the VNF's Heat Orchestration Template's
-   Environment File
-
-If Cloud assigned IP addressing is being used, output statements
-are created in the base module.
-
-If static assigned IP addressing is being used, the  IP addresses
-are defined in the environment file.
-
-
-  * {vm-type}_int_{network-role}_floating_ip
-  * {vm-type}_int_{network-role}_floating_v6_ip
-
-  * {vm-type}_int_{network-role}_vip_{index}
-  * {vm-type}_int_{network-role}_vips
-  * {vm-type}_int_{network-role}_v6_vip_{index}
-  * {vm-type}_int_{network-role}_v6_vips
-
-
-  * {vm-type}_int_{network-role}_{vip_type}_vip
-  * {vm-type}_int_{network-role}_{vip_type}_vips
-  * {vm-type}_int_{network-role}_{vip_type}_v6_vip
-  * {vm-type}_int_{network-role}_{vip_type}_v6_vips
-
-
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-    {vm-type}_int_{network-role}_floating_ip:
-      type: string
-      description: VIP for {vm-type} VMs on the int_{network-role} network
-
-    {vm-type}_int_{network-role}_floating_v6_ip:
-      type: string
-      description: VIP for {vm-type} VMs on the int_{network-role} network
-
-
-
-
-allowed_address_pair IP Addresses Required in more than one module
-__________________________________________________________________
-
-If the IP address {vm-type}_{network-role}_floating_ip and/or
-{vm-type}_{network-role}_floating_v6_ip must be used in more than module in the
-VNF, the parameter values must be defined as output values in the base
-module with output names: {vm-type}_{network-role}_shared_vip or
-{vm-type}_{network-role}_v6_shared_vip
-
-.. code-block:: yaml
-
-  outputs:
-    {vm-type}_{network-role}_shared_vip:
-      description:
-      value: { get_param: {vm-type}_{network-role}_floating_ip }
-
-    {vm-type}_{network-role}_v6_shared_vip:
-      description:
-      value: { get_param: {vm-type}_{network-role}_v6_floating_ip }
-
-The output parameters must be defined as input parameter in the
-incremental modules that require the IP addresses. When defining the
-allowed_address_pairs: in the OS::Neutron::Port, it should be as
-follows:
-
-.. code-block:: yaml
-
-  allowed_address_pairs: [ { "ip_address": {get_param:
-  {vm-type}_{network-role}_shared_vip }}, { "ip_address": {get_param:
-  {vm-type}_{network-role}_v6_shared_vip }}]
-
-Reserve Port Concept
-____________________
-
-A "Reserve Port" is an OS::Neutron::Port that fixed_ips, ip_address
-property is assigned one or more IP addresses that are used as Virtual
-IP (VIP) Addresses (i.e., allowed_address_pairs) on other ports.
-
-A "Reserve Port" is never attached to a Virtual Machine
-(OS::Nova::Server). The reserve port ensures that the intended
-allowed_address_pair IP address is not inadvertently assigned as a
-fixed_ips to a OS::Neutron::Port that is attached OS::Nova::Server and
-thus causing routing issues.
-
-A VNF may have one or more "Reserve Ports". A reserve port maybe created
-in the base module or an incremental module. If created in the base
-module, parameters may be defined in the outputs: section of the base
-template so the IP Address assigned to the reserve port maybe assigned
-to the allowed_address_pair property of an OS::Neutron::Port in one or
-more incremental modules.
-
-The parameter name of the IP address used in the "Reserve Port" depends
-on the allowed_address_pair "option" utilized by the VNF.
-
-When creating a Reserve Port, if only one allowed_address_pair is configured
-on a port, then the parameter name depends upon the IP addresses type
-(IPv4 or IPv6) and network type (internal or external).
-The valid parameter names are:
-
-  * {vm-type}_{network-role}_floating_ip
-  * {vm-type}_{network-role}_floating_v6_ip
-  * {vm-type}_int_{network-role}_floating_ip
-  * {vm-type}_int_{network-role}_floating_v6_ip
-
-When creating a Reserve Port, if more than one (e.g., multiple)
-allowed_address_pair is configured on a port, then the parameter name depends
-upon the IP addresses type (IPv4 or IPv6) and network type
-(internal or external) and the option being used.  The valid parameter
-names are:
-
-  * {vm-type}_{network-role}_ip_{index}
-  * {vm-type}_{network-role}_ips
-  * {vm-type}_{network-role}_v6_ip_{index}
-  * {vm-type}_{network-role}_v6_ips
-  * {vm-type}_{network-role}_vip_{index}
-  * {vm-type}_{network-role}_vips
-  * {vm-type}_{network-role}_v6_vip_{index}
-  * {vm-type}_{network-role}_v6_vips
-  * {vm-type}_{network-role}_{vip-type}_vip
-  * {vm-type}_{network-role}_v6_{vip-type}_vip
-  * {vm-type}_{network-role}_{vip-type}_vips
-  * {vm-type}_{network-role}_v6_{vip-type}_vips
-
-*Example IPv4 Reserve Port Definition: one allowed_address_pair
-configured on a port*
-
-.. code-block:: yaml
-
-  Reserve_Port_{vm-type}_{network-role}_floating_ip_{index}:
-    type: OS::Neutron::Port
-    properties:
-      network: { get_param: {network-role}_net_id }
-      fixed_ips:
-        - ip_address : { get_param: {vm-type}_{network-role}_floating_ip }
-
-*Example IPv6 Reserve Port Definition: one allowed_address_pair
-configured on a port*
-
-.. code-block:: yaml
-
-  Reserve_Port_{vm-type}_{network-role}_floating_v6_ip_{index}:
-    type: OS::Neutron::Port
-    properties:
-      network: { get_param: {network-role}_net_id }
-      fixed_ips:
-        - ip_address : { get_param: {vm-type}_{network-role}_floating_v6_ip }
-
-
-Resource Property "name"
-~~~~~~~~~~~~~~~~~~~~~~~~
-
-The parameter naming convention of the property name for the resource
-OS::Nova::Server has been defined in
-`Resource:  OS::Nova::Server – Metadata Parameters`_.
-
-This section provides the requirements how the property name for non
-OS::Nova::Server resources must be defined when the property is used.
-Not all resources require the property name (e.g., it is optional) and
-some resources do not support the property.
-
-
-.. req::
-    :id: R-85734
-    :target: VNF
-    :keyword: MUST
-
-    If a VNF's Heat Orchestration Template contains the property 'name'
-    for a non 'OS::Nova::Server' resource, the intrinsic function
-    'str_replace' **MUST** be used in conjunction with the ONAP
-    supplied metadata parameter 'vnf_name' to generate a unique value.
-
-This prevents the enumeration of a
-unique value for the property name in a per instance environment file.
-
-
-.. req::
-    :id: R-99812
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A value for VNF's Heat Orchestration Template's property 'name'
-    for a non 'OS::Nova::Server' resource **MUST NOT** be declared
-    in the VNF's Heat Orchestration Template's Environment File.
-
-In most cases the use of the metadata value 'vnf_name' is required to create a
-unique property name.  If this will not provide a unique value,
-additional options include:
-
- - Using the Heat Orchestration Template pseudo parameter
-   'OS::stack_name' in the str_replace construct
- - Resources created in a nested heat file invoked by an
-   'OS::Heat::ResourceGroup' can use the 'index' to construct a unique name
-
-
-.. req::
-    :id: R-32408
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF's Heat Orchestration Template property 'name'
-    for a non 'OS::Nova::Server' resource uses the intrinsic function
-    'str_replace' in conjunction with the ONAP
-    supplied metadata parameter 'vnf_name' and does not create
-    a unique value, additional data **MUST** be used in the
-    'str_replace' to create a unique value, such as 'OS::stack_name'
-    and/or the 'OS::Heat::ResourceGroup' 'index'.
-
-*Example: Property 'name' for resource 'OS::Neutron::SecurityGroup'*
-
-.. code-block:: yaml
-
-  resources:
-    DNS_SECURITY_GROUP:
-      type: OS::Neutron::SecurityGroup
-      properties:
-        description: vDNS security group
-        name:
-          str_replace:
-            template: VNF_NAME_sec_grp_DNS
-            params:
-              VNF_NAME: {get_param: vnf_name}
-        rules: [. . . . .]
-
-*Example: Property 'name' for resource 'OS::Cinder::Volume'*
-
-.. code-block:: yaml
-
-  resources:
-    dns_volume_0:
-      type: OS::Cinder::Volume
-      properties:
-        description: Cinder Volume
-        name:
-          str_replace:
-            template: VNF_NAME_STACK_NAME_dns_volume
-            params:
-              VNF_NAME: {get_param: vnf_name}
-              STACK_NAME: { get_param: 'OS::stack_name' }
-  . . . .
-
-*Example: Property 'name' for resource 'OS::Cinder::Volume' invoked by a
-'OS::Heat::ResourceGroup'*
-
-.. code-block:: yaml
-
-  resources:
-    dns_volume_0:
-      type: OS::Cinder::Volume
-      properties:
-        description: Cinder Volume
-        name:
-          str_replace:
-              template: VNF_NAME_STACK_NAME_dns_volume_INDEX
-              params:
-                  VNF_NAME: { get_param: vnf_name }
-                  STACK_NAME: { get_param: 'OS::stack_name' }
-                  INDEX: { get_param: index }
-  . . . .
-
-Contrail Issue with Values for the Property Name
-++++++++++++++++++++++++++++++++++++++++++++++++
-
-
-.. req::
-    :id: R-84517
-    :target: VNF
-    :keyword: SHOULD
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    The Contrail GUI has a limitation displaying special characters.
-    The issue is documented in
-    https://bugs.launchpad.net/juniperopenstack/+bug/1590710.
-    It is recommended that special **SHOULD** characters be avoided.
-    However, if special characters must be used, note that for
-    the following resources:
-
-       * Virtual Machine
-       * Virtual Network
-       * Port
-       * Security Group
-       * Policies
-       * IPAM Creation
-
-    the only special characters supported
-    are - \" ! $\ \ ' ( ) = ~ ^ | @ ` { } [ ] > , . _"
-
-ONAP Output Parameter Names
-~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-ONAP defines three types of Output Parameters as detailed in
-`Output Parameters`_.
-
-ONAP Base Module Output Parameters:
-+++++++++++++++++++++++++++++++++++
-
-ONAP Base Module Output Parameters do not have an explicit naming
-convention.
-
-
-.. req::
-    :id: R-97726
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Base Module Output
-    Parameter names **MUST** contain {vm-type} and/or {network-role}
-    when appropriate.
-
-ONAP Volume Template Output Parameters:
-+++++++++++++++++++++++++++++++++++++++
-
-
-.. req::
-    :id: R-88524
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's Volume Template
-    Output Parameter names **MUST** contain {vm-type} when appropriate.
-
-Predefined Output Parameters
-++++++++++++++++++++++++++++
-
-ONAP currently defines one predefined output parameter the OAM
-Management IP Addresses.
-
-OAM Management IP Addresses
-___________________________
-
-A VNF may have a management interface for application controllers to
-interact with and configure the VNF. Typically, this will be via a
-specific VM that performs a VNF administration function. The IP address
-of this interface must be captured and inventoried by ONAP. The IP
-address might be a VIP if the VNF contains an HA pair of management VMs,
-or may be a single IP address assigned to one VM.
-
-
-.. req::
-    :id: R-47874
-    :target: VNF
-    :keyword: MAY
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF **MAY** have
-
-     * Only an IPv4 OAM Management IP Address
-     * Only an IPv6 OAM Management IP Address
-     * Both a IPv4 and IPv6 OAM Management IP Addresses
-
-.. req::
-    :id: R-18683
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF has one IPv4 OAM Management IP Address and the
-    IP Address needs to be inventoried in ONAP's A&AI
-    database, an output parameter **MUST** be declared in only one of the
-    VNF's Heat Orchestration Templates and the parameter **MUST** be named
-    'oam_management_v4_address'.
-
-.. req::
-    :id: R-94669
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF has one IPv6 OAM Management IP Address and the
-    IP Address needs to be inventoried in ONAP's AAI
-    database, an output parameter **MUST** be declared in only one of the
-    VNF's Heat Orchestration Templates and the parameter **MUST** be named
-    'oam_management_v6_address'.
-
-The OAM Management IP Address maybe assigned either via
-  *  ONAP SDN-C
-  *  DHCP
-
-
-.. req::
-    :id: R-56287
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If the VNF's OAM Management IP Address is assigned by ONAP SDN-C and
-    assigned in the VNF's Heat Orchestration Template's via a heat resource
-    'OS::Neutron::Port' property 'fixed_ips' map property
-    'ip_adress' parameter (e.g., '{vm-type}_{network-role}_ip_{index}',
-    '{vm-type}_{network-role}_v6_ip_{index}')
-    and the OAM IP Address is required to be inventoried in ONAP AAI,
-    then the parameter **MUST** be echoed in an output statement.
-
-.. code-block:: yaml
-
-   outputs:
-       oam_management_v4_address:
-         value: {get_param: {vm-type}_{network-role}_ip_{index} }
-       oam_management_v6_address:
-         value: {get_param: {vm-type}_{network-role}_v6_ip_{index} }
-
-*Example: ONAP SDN-C Assigned IP Address echoed as
-oam_management_v4_address*
-
-.. code-block:: yaml
-
-  parameters:
-    admin_oam_ip_0:
-      type: string
-      description: Fixed IPv4 assignment for admin VM 0 on the OAM network
-  . . .
-  resources:
-    admin_0_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        name:
-          str_replace:
-            template: VNF_NAME_admin_oam_port_0
-            params:
-              VNF_NAME: {get_param: vnf_name}
-        network: { get_param: oam_net_id }
-        fixed_ips: [{ "ip_address": { get_param: admin_oam_ip_0 }}]
-        security_groups: [{ get_param: security_group }]
-    admin_server_0:
-      type: OS::Nova::Server
-      properties:
-        name: { get_param: admin_names }
-        image: { get_param: admin_image_name }
-        flavor: { get_param: admin_flavor_name }
-        availability_zone: { get_param: availability_zone_0 }
-      networks:
-        - port: { get_resource: admin_0_oam_net_port_0 }
-      metadata:
-        vnf_id: { get_param: vnf_id }
-        vf_module_id: { get_param: vf_module_id }
-        vnf_name: {get_param: vnf_name }
-  outputs:
-      oam_management_v4_address:
-        value: {get_param: admin_oam_ip_0 }
-
-
-.. req::
-    :id: R-48987
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If the VNF's OAM Management IP Address is Cloud assigned and
-    and the OAM IP Address is required to be inventoried in ONAP AAI,
-    then the parameter **MUST** be obtained by the resource 'OS::Neutron::Port'
-    attribute 'ip_address'.
-
-.. code-block:: yaml
-
-   outputs:
-       oam_management_v4_address:
-         value: {get_attr: [ {OS::Neutron Port Resource ID}, fixed_ips, 0, ip_address] }
-
-*Example: Cloud Assigned IP Address output as oam_management_v4_address*
-
-.. code-block:: yaml
-
-  parameters:
-  . . .
-  resources:
-    admin_0_oam_port_0:
-      type: OS::Neutron::Port
-      properties:
-        name:
-          str_replace:
-            template: VNF_NAME_admin_oam_0_port
-            params:
-              VNF_NAME: {get_param: vnf_name}
-        network: { get_param: oam_net_id }
-        security_groups: [{ get_param: security_group }]
-    admin_server_0:
-      type: OS::Nova::Server
-      properties:
-        name: { get_param: admin_name_0 }
-        image: { get_param: admin_image_name }
-        flavor: { get_param: admin_flavor_name }
-        availability_zone: { get_param: availability_zone_0 }
-        networks:
-          - port: { get_resource: admin_0_oam_port_0 }
-        metadata:
-          vnf_id: { get_param: vnf_id }
-          vf_module_id: { get_param: vf_module_id }
-          vnf_name: {get_param: vnf_name }
-  outputs:
-    oam_management_v4_address:
-      value: {get_attr: [admin_0_oam_port_0, fixed_ips, 0, ip_address] }
-
-Contrail Resource Parameters
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-ONAP requires the parameter names of certain Contrail Resources to
-follow specific naming conventions. This section provides these
-requirements.
-
-Contrail Network Parameters
-+++++++++++++++++++++++++++
-
-Contrail based resources may require references to a Contrail network
-using the network FQDN.
-
-External Networks
-_________________
-
-
-.. req::
-    :id: R-02164
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    When a VNF's Heat Orchestration Template's Contrail resource
-    has a property that
-    references an external network that requires the network's
-    Fully Qualified Domain Name (FQDN), the property parameter
-
-       * **MUST** follow the format '{network-role}_net_fqdn'
-       * **MUST** be declared as type 'string'
-       * **MUST NOT** be enumerated in the NF's Heat Orchestration Template's
-         Environment File
-
-.. req::
-    :id: R-73228
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's parameter
-    '{network-role}_net_fqdn'
-    **MUST** be declared as type 'string'.
-
-.. req::
-    :id: R-92193
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    A VNF's Heat Orchestration Template's parameter
-    '{network-role}_net_fqdn'
-    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
-    Environment File.
-
-*Example: Parameter declaration*
-
-.. code-block:: yaml
-
-  parameters:
-    {network-role}_net_fqdn:
-      type: string
-      description: Contrail FQDN for the {network-role} network
-
-*Example: Contrail Resource OS::ContrailV2::VirtualMachineInterface
-Reference to a Network FQDN.*
-
-In this example, the {network-role} has been defined as oam to represent
-an oam network and the {vm-type} has been defined as fw for firewall.
-The Contrail resource OS::ContrailV2::VirtualMachineInterface property
-virtual_network_refs references a contrail network FQDN.
-
-.. code-block:: yaml
-
-  fw_0_oam_vmi_0:
-    type: OS::ContrailV2::VirtualMachineInterface
-    properties:
-      name:
-        str_replace:
-          template: VM_NAME_virtual_machine_interface_1
-          params:
-            VM_NAME: { get_param: fw_name_0 }
-      virtual_machine_interface_properties:
-        virtual_machine_interface_properties_service_interface_type: {
-        get_param: oam_protected_interface_type }
-      virtual_network_refs:
-        - get_param: oam_net_fqdn
-      security_group_refs:
-        - get_param: fw_sec_grp_id
-
-
-Interface Route Table Prefixes for Contrail InterfaceRoute Table
-++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
-
-
-.. req::
-    :id: R-28222
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF's Heat Orchestration Template
-    'OS::ContrailV2::InterfaceRouteTable' resource
-    'interface_route_table_routes' property
-    'interface_route_table_routes_route' map property parameter name
-    **MUST** follow the format
-
-       * {vm-type}_{network-role}_route_prefixes
-
-.. req::
-    :id: R-19756
-    :target: VNF
-    :keyword: MUST
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF's Heat Orchestration Template
-    'OS::ContrailV2::InterfaceRouteTable' resource
-    'interface_route_table_routes' property
-    'interface_route_table_routes_route' map property parameter
-    '{vm-type}_{network-role}_route_prefixes'
-    **MUST** be defined as type 'json'.
-
-.. req::
-    :id: R-76682
-    :target: VNF
-    :keyword: MUST NOT
-    :test: no test found
-    :test_case: no test found
-    :test_file: no test found
-
-    If a VNF's Heat Orchestration Template
-    'OS::ContrailV2::InterfaceRouteTable' resource
-    'interface_route_table_routes' property
-    'interface_route_table_routes_route' map property parameter
-    '{vm-type}_{network-role}_route_prefixes'
-    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
-    Environment File.
-
-The parameter '{vm-type}_{network-role}_route_prefixes'
-supports IP addresses in the format:
-
-1. Host IP Address (e.g., 10.10.10.10)
-
-2. CIDR Notation format (e.g., 10.0.0.0/28)
-
-
-*Example Parameter Definition*
-
-.. code-block:: yaml
-
-  parameters:
-    {vm-type}_{network-role}_route_prefixes:
-      type: json
-      description: JSON list of Contrail Interface Route Table route prefixes
-
-*Example:*
-
-.. code-block:: yaml
-
-  parameters:
-    vnf_name:
-      type: string
-      description: Unique name for this VF instance
-    fw_oam_route_prefixes:
-      type: json
-      description: prefix for the ServiceInstance InterfaceRouteTable
-    int_fw_dns_trusted_interface_type:
-      type: string
-      description: service_interface_type for ServiceInstance
-
-  resources:
-    <resource name>:
-      type: OS::ContrailV2::InterfaceRouteTable
-      depends_on: [resource name of OS::ContrailV2::ServiceInstance]
-      properties:
-        name:
-          str_replace:
-            template: VNF_NAME_interface_route_table
-            params:
-              VNF_NAME: { get_param: vnf_name }
-        interface_route_table_routes:
-          interface_route_table_routes_route: { get_param: fw_oam_route_prefixes }
-        service_instance_refs:
-          - get_resource: <resource name of OS::ContrailV2::ServiceInstance>
-        service_instance_refs_data:
-          - service_instance_refs_data_interface_type: { get_param: oam_interface_type }
-
-Resource OS::ContrailV2::InstanceIp
-+++++++++++++++++++++++++++++++++++
-
-The Contrail resource OS::ContrailV2::InstanceIp has two properties
-that parameters **MUST** follow an explicit naming convention.  The
-properties are 'instance_ip_address' and 'subnet_uuid'.
-
-*Example OS::ContrailV2::InstanceIp Resource*
-
-.. code-block:: yaml
-
-  <resource ID>:
-    type: OS::ContrailV2::InstanceIp
-    properties:
-      name: { get_param: name }
-      fq_name: { get_param: fq_name }
-      display_name: { get_param: display_name }
-      secondary_ip_tracking_ip:
-        {
-          secondary_ip_tracking_ip_ip_prefix: { get_param: secondary_ip_tracking_ip_ip_prefix },
-          secondary_ip_tracking_ip_ip_prefix_len: { get_param: secondary_ip_tracking_ip_ip_prefix_len },
-        }
-      instance_ip_address: { get_param: instance_ip_address }
-      instance_ip_mode: { get_param: instance_ip_mode }
-      subnet_uuid: { get_param: subnet_uuid }
-      instance_ip_family: { get_param: instance_ip_family }
-      annotations:
-        {
-          annotations_key_value_pair:
-            [{
-              annotations_key_value_pair_key: { get_param: annotations_key_value_pair_key },
-              annotations_key_value_pair_value: { get_param: annotations_key_value_pair_value },
-            }],
-        }
-      instance_ip_local_ip: { get_param: instance_ip_local_ip }
-      instance_ip_secondary: { get_param: instance_ip_secondary }
-      physical_router_refs: [{ get_param: physical_router_refs }]
-      virtual_machine_interface_refs: [{ get_param: virtual_machine_interface_refs }]
-      virtual_network_refs: [{ get_param: virtual_network_refs }]
-
-Resource OS::ContrailV2::InstanceIp Property instance_ip_address
-________________________________________________________________
-
-A VNF's Heat Orchestration Templates resource 'OS::ContrailV2::InstanceIp'
-property 'instance_ip_address' parameter
-**MUST** follow the same requirements
-that apply to the resource 'OS::Neutron' property 'fixed_ips' map
-property 'ip_address' parameter.
-
-*Example: Contrail Resource OS::ContrailV2::InstanceIp, Property
-instance_ip_address*
-
-The property instance_ip_address uses the same parameter naming
-convention as the property fixed_ips and Map Property ip_address in
-OS::Neutron::Port. The resource is assigning an ONAP SDN-C Assigned IP
-Address. The {network-role} has been defined as oam_protected to
-represent an oam protected network and the {vm-type} has been defined as
-fw for firewall.
-
-.. code-block:: yaml
-
-  fw_0_oam_protected_vmi_0_IP_0:
-    type: OS::ContrailV2::InstanceIp
-    depends_on:
-      - fw_0_oam_protected_vmi_0
-    properties:
-      virtual_machine_interface_refs:
-        - get_resource: fw_0_oam_protected_vmi_0
-      virtual_network_refs:
-        - get_param: oam_protected_net_fqdn
-      instance_ip_address: { get_param: [fw_oam_protected_ips, get_param: index ] }
-
-Resource OS::ContrailV2::InstanceIp Property subnet_uuid
-________________________________________________________________
-
-A VNF's Heat Orchestration Templates resource 'OS::ContrailV2::InstanceIp'
-property 'subnet_uuid' parameter
-**MUST** follow the same requirements
-that apply to the resource 'OS::Neutron' property 'fixed_ips' map
-property 'subnet'/'subnet_id' parameter.
-
-*Example: Contrail Resource OS::ContrailV2::InstanceIp, Property
-subnet_uuid*
-
-The property instance_ip_address uses the same parameter naming
-convention as the property fixed_ips and Map Property subnet_id in
-OS::Neutron::Port. The resource is assigning a Cloud Assigned IP
-Address. The {network-role} has been defined as "oam_protected" to
-represent an oam protected network and the {vm-type} has been defined as
-"fw" for firewall.
-
-.. code-block:: yaml
-
-  fw_0_oam_protected_vmi_0_IP_0:
-    type: OS::ContrailV2::InstanceIp
-    depends_on:
-    - fw_0_oam_protected_vmi_0
-    properties:
-      virtual_machine_interface_refs:
-        - get_resource: fw_0_oam_protected_vmi_0
-      virtual_network_refs:
-        - get_param: oam_protected_net_fqdn
-      subnet_uuid: { get_param: oam_protected_subnet_id }
-
-OS::ContrailV2::VirtualMachineInterface Property virtual_machine_interface_allowed_address_pairs
-++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
-
-
-A VNF's Heat Orchestration Templates resource
-'OS::ContrailV2::VirtualMachineInterface' map property,
-virtual_machine_interface_allowed_address_pairs,
-virtual_machine_interface_allowed_address_pairs_allowed_address_pair,
-virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip,
-virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip_ip_prefix
-parameter **MUST** follow the same requirements that apply to the
-resource 'OS::Neutron::Port' property
-'allowed_address_pairs', map property 'ip_address' parameter.
-
-*Example OS::ContrailV2::VirtualMachineInterface*
-
-.. code-block:: yaml
-
-  <resource ID>:
-    type: OS::ContrailV2::VirtualMachineInterface
-    properties:
-      name: { get_param: name }
-      fq_name: { get_param: fq_name }
-      ecmp_hashing_include_fields:
-        {
-          ecmp_hashing_include_fields_hashing_configured: { get_param: ecmp_hashing_include_fields_hashing_configured },
-          ecmp_hashing_include_fields_source_ip: { get_param: ecmp_hashing_include_fields_source_ip },
-          ecmp_hashing_include_fields_destination_ip: { get_param: ecmp_hashing_include_fields_destination_ip },
-          ecmp_hashing_include_fields_ip_protocol: { get_param: ecmp_hashing_include_fields_ip_protocol },
-          ecmp_hashing_include_fields_source_port: { get_param: ecmp_hashing_include_fields_source_port },
-          ecmp_hashing_include_fields_destination_port: { get_param: ecmp_hashing_include_fields_destination_port },
-        }
-      virtual_machine_interface_host_routes:
-        {
-          virtual_machine_interface_host_routes_route:
-            [{
-              virtual_machine_interface_host_routes_route_prefix: { get_param: virtual_machine_interface_host_routes_route_prefix },
-              virtual_machine_interface_host_routes_route_next_hop: { get_param: virtual_machine_interface_host_routes_route_next_hop },
-              virtual_machine_interface_host_routes_route_next_hop_type: { get_param: virtual_machine_interface_host_routes_route_next_hop_type },
-              virtual_machine_interface_host_routes_route_community_attributes:
-                {
-                  virtual_machine_interface_host_routes_route_community_attributes_community_attribute: [{ get_param: virtual_machine_interface_host_routes_route_community_attributes_community_attribute }],
-                },
-            }],
-        }
-      virtual_machine_interface_mac_addresses:
-        {
-          virtual_machine_interface_mac_addresses_mac_address: [{ get_param: virtual_machine_interface_mac_addresses_mac_address }],
-        }
-      virtual_machine_interface_dhcp_option_list:
-        {
-          virtual_machine_interface_dhcp_option_list_dhcp_option:
-            [{
-              virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_name: { get_param: virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_name },
-              virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_value: { get_param: virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_value },
-              virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_value_bytes: { get_param: virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_value_bytes },
-            }],
-        }
-      virtual_machine_interface_bindings:
-        {
-          virtual_machine_interface_bindings_key_value_pair:
-            [{
-              virtual_machine_interface_bindings_key_value_pair_key: { get_param: virtual_machine_interface_bindings_key_value_pair_key },
-              virtual_machine_interface_bindings_key_value_pair_value: { get_param: virtual_machine_interface_bindings_key_value_pair_value },
-            }],
-        }
-      virtual_machine_interface_disable_policy: { get_param: virtual_machine_interface_disable_policy }
-      virtual_machine_interface_allowed_address_pairs:
-        {
-          virtual_machine_interface_allowed_address_pairs_allowed_address_pair:
-            [{
-              virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip:
-                {
-                  virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip_ip_prefix: { get_param: virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip_ip_prefix },
-                  virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip_ip_prefix_len: { get_param: virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip_ip_prefix_len },
-                },
-              virtual_machine_interface_allowed_address_pairs_allowed_address_pair_mac: { get_param: virtual_machine_interface_allowed_address_pairs_allowed_address_pair_mac },
-              virtual_machine_interface_allowed_address_pairs_allowed_address_pair_address_mode: { get_param: virtual_machine_interface_allowed_address_pairs_allowed_address_pair_address_mode },
-            }],
-        }
-      annotations:
-        {
-          annotations_key_value_pair:
-            [{
-              annotations_key_value_pair_key: { get_param: annotations_key_value_pair_key },
-              annotations_key_value_pair_value: { get_param: annotations_key_value_pair_value },
-            }],
-        }
-      virtual_machine_interface_fat_flow_protocols:
-        {
-          virtual_machine_interface_fat_flow_protocols_fat_flow_protocol:
-            [{
-              virtual_machine_interface_fat_flow_protocols_fat_flow_protocol_protocol: { get_param: virtual_machine_interface_fat_flow_protocols_fat_flow_protocol_protocol },
-              virtual_machine_interface_fat_flow_protocols_fat_flow_protocol_port: { get_param: virtual_machine_interface_fat_flow_protocols_fat_flow_protocol_port },
-            }],
-        }
-      virtual_machine_interface_device_owner: { get_param: virtual_machine_interface_device_owner }
-      port_security_enabled: { get_param: port_security_enabled }
-      virtual_machine_interface_properties:
-        {
-          virtual_machine_interface_properties_service_interface_type: { get_param: virtual_machine_interface_properties_service_interface_type },
-          virtual_machine_interface_properties_interface_mirror:
-            {
-              virtual_machine_interface_properties_interface_mirror_traffic_direction: { get_param: virtual_machine_interface_properties_interface_mirror_traffic_direction },
-              virtual_machine_interface_properties_interface_mirror_mirror_to:
-                {
-                  virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_name: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_name },
-                  virtual_machine_interface_properties_interface_mirror_mirror_to_encapsulation: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_encapsulation },
-                  virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_ip_address: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_ip_address },
-                  virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_mac_address: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_mac_address },
-                  virtual_machine_interface_properties_interface_mirror_mirror_to_routing_instance: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_routing_instance },
-                  virtual_machine_interface_properties_interface_mirror_mirror_to_udp_port: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_udp_port },
-                  virtual_machine_interface_properties_interface_mirror_mirror_to_juniper_header: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_juniper_header },
-                  virtual_machine_interface_properties_interface_mirror_mirror_to_nh_mode: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_nh_mode },
-                  virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header:
-                    {
-                      virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vtep_dst_ip_address: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vtep_dst_ip_address },
-                      virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vtep_dst_mac_address: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vtep_dst_mac_address },
-                      virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vni: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vni },
-                    },
-                },
-            },
-          virtual_machine_interface_properties_local_preference: { get_param: virtual_machine_interface_properties_local_preference },
-          virtual_machine_interface_properties_sub_interface_vlan_tag: { get_param: virtual_machine_interface_properties_sub_interface_vlan_tag },
-        }
-      display_name: { get_param: display_name }
-      service_health_check_refs: [{ get_param: service_health_check_refs }]
-      routing_instance_refs: [{ get_param: routing_instance_refs }]
-      routing_instance_refs_data:
-        [{
-          routing_instance_refs_data_direction: { get_param: routing_instance_refs_data_direction },
-          routing_instance_refs_data_vlan_tag: { get_param: routing_instance_refs_data_vlan_tag },
-          routing_instance_refs_data_src_mac: { get_param: routing_instance_refs_data_src_mac },
-          routing_instance_refs_data_dst_mac: { get_param: routing_instance_refs_data_dst_mac },
-          routing_instance_refs_data_mpls_label: { get_param: routing_instance_refs_data_mpls_label },
-          routing_instance_refs_data_service_chain_address: { get_param: routing_instance_refs_data_service_chain_address },
-          routing_instance_refs_data_ipv6_service_chain_address: { get_param: routing_instance_refs_data_ipv6_service_chain_address },
-          routing_instance_refs_data_protocol: { get_param: routing_instance_refs_data_protocol },
-        }]
-      security_group_refs: [{ get_param: security_group_refs }]
-      physical_interface_refs: [{ get_param: physical_interface_refs }]
-      port_tuple_refs: [{ get_param: port_tuple_refs }]
-      interface_route_table_refs: [{ get_param: interface_route_table_refs }]
-      virtual_machine_interface_refs: [{ get_param: virtual_machine_interface_refs }]
-      virtual_network_refs: [{ get_param: virtual_network_refs }]
-      virtual_machine_refs: [{ get_param: virtual_machine_refs }]
-      qos_config_refs: [{ get_param: qos_config_refs }]
-      virtual_machine: { get_param: virtual_machine }
-      project: { get_param: project }
-
-
-
-Suggested Naming Convention for Common Parameters
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-Many VNFs use the parameters in the table below are used in user_data.
-The table below provides a suggested naming convention for these common
-parameters.
-
-Netmask
-+++++++
-
-.. csv-table:: **Table 8: Suggested Naming Convention for Common Parameters:  Netmask**
-   :header: Parameter Name,Parameter Type,Notes
-   :align: center
-   :widths: auto
-
-   {network-role}_subnet_<index>_netmask, string,
-   int_<network-role>_subnet_<index>_netmask, string,
-   {network-role}_v6_subnet_<index>_netmask , string,
-   int_{network-role}_v6_subnet_<index>_netmask, string,
-
-CIDR
-++++
-
-.. csv-table:: **Table 9: Suggested Naming Convention for Common Parameters:  CIDR**
-   :header: Parameter Name,Parameter Type,Notes
-   :align: center
-   :widths: auto
-
-   <network-role>_subnet_<index>_cidr, string,
-   int_<network-role>_subnet_<index>_cidr, string,
-   <network-role>_v6_subnet_<index>_cidr, string,
-   int_<network-role>_v6_subnet_<index>_cidr, string,
-
-Default Gateway
-+++++++++++++++
-
-.. csv-table:: **Table 10: Suggested Naming Convention for Common Parameters:  Default Gateway**
-   :header: Parameter Name,Parameter Type,Notes
-   :align: center
-   :widths: auto
-
-   {network-role}_subnet_<index>_default_gateway, string,
-   {network-role}_v6_subnet_<index>_default_gateway, string,
-
-DCAE Collector IP Address
-+++++++++++++++++++++++++
-
-.. csv-table:: **Table 11: Suggested Naming Convention for Common Parameters:  DCAE Collector Address**
-   :header: Parameter Name,Parameter Type,Notes
-   :align: center
-   :widths: auto
-
-   dcae_collector_ip_<index>, string,
-   dcae_collector_v6_ip_<index>, string,
-
-NTP Server IP Address
-+++++++++++++++++++++
-
-.. csv-table:: **Table 12: Suggested Naming Convention for Common Parameters:  NTP Server IP Address**
-   :header: Parameter Name,Parameter Type,Notes
-   :align: center
-   :widths: auto
-
-   ntp_ip_<index>, string,
-   ntp_v6_ip_<index>, string,
-
-DNS
-++++++++
-
-.. csv-table:: **Table 13: Suggested Naming Convention for Common Parameters:  DCAE Collector Address**
-   :header: Parameter Name,Parameter Type,Notes
-   :align: center
-   :widths: auto
-
-   dns_{network-role}_ip_<index>, string,
-   dns_{network-role}_v6_ip_<index>, string,
-
-Security Group
-++++++++++++++
-
-.. csv-table:: **Table 14: Suggested Naming Convention for Common Parameters:  Security Group**
-   :header: Parameter Name,Parameter Type,Notes
-   :align: center
-   :widths: auto
-
-   {vm-type}_security_group, string, Security Group applicable to one {vm-type} and more than one network (internal and/or external)
-   {network-role}_security_group, string, Security Group applicable to more than one {vm-type} and one external network
-   int_{network-role}_security_group, string, Security Group applicable to more than one {vm-type} and one internal network
-   {vm-type}_{network-role}_security_group, string, Security Group applicable to one {vm-type} and one external network
-   {vm-type}_int_{network-role}_security_group, string, Security Group applicable to one {vm-type} and one internal network
-   shared_security_group, string, Security Group applicable to more than one {vm-type} and more than one network (internal and/or external)
-
-ONAP 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 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 R-20974, at orchestration time, the VNF's Base Module **MUST**
-be deployed first, prior to any incremental modules.
-
-As stated in R-28980, R-86926, and 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 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 R-37028 and 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 }
-  ...
-
-
-Cinder Volumes
-^^^^^^^^^^^^^^^^^^^^^^^^
-
-Cinder Volumes are created with the heat resource OS::Cinder::Volume.
-
-As stated in R-46119, R-90748, R-03251, a VNF's Heat Orchestration
-Template's Resource OS::Heat::CinderVolume **MAY** be defined in a
-Base Module, Incremental Module, or Cinder Volume Module.
-
-ONAP supports the independent deployment of a Cinder volume via separate
-Heat Orchestration Templates, the Cinder Volume module. This allows the
-volume to persist after VNF deletion so that they can be reused on
-another instance (e.g., during a failover activity).
-
-A Base Module or Incremental Module may have a corresponding volume
-module. Use of separate volume modules is optional. A Cinder volume may
-be embedded within the Base Module or Incremental Module if persistence
-is not required.
-
-If a VNF Base Module or Incremental Module has an independent volume
-module, the scope of volume templates must be 1:1 with Base module or
-Incremental module. A single volume module must create only the volumes
-required by a single Incremental module or Base module.
-
-As stated in R-11200, a VNF's Cinder Volume Module, when it exists,
-**MUST** be 1:1 with a Base module or Incremental module.  That is,
-A single volume module must create only the volumes required by a
-single Incremental module or Base module.
-
-As stated in R-30395, a VNF's Cinder Volume Module **MAY** utilize
-nested heat.
-
-As stated in R-89913, a VNF's Heat Orchestration Template's Cinder Volume
-Module Output Parameter(s) **MUST** include the
-UUID(s) of the Cinder Volumes created in template,
-while others **MAY** be included.
-
-As stated in R-07443, a VNF's Heat Orchestration Templates' Cinder Volume
-Module Output Parameter's name and type **MUST** match the input parameter
-name and type in the corresponding Base Module or Incremental Module unless
-the Output Parameter is of the type 'comma_delimited_list',
-then the corresponding input parameter **MUST** be declared as type 'json'.
-
-A single volume module must create only the volumes
-required by a single Incremental module or Base module.
-
-The following rules apply to independent volume Heat templates:
-
-
-.. req::
-    :id: R-79531
-    :target: VNF
-    :keyword: MUST
-
-    The VNF Heat Orchestration Template **MUST** define
-    "outputs" in the volume template for each Cinder volume
-    resource universally unique identifier (UUID) (i.e. ONAP
-    Volume Template Output Parameters).
-
--  The VNF Incremental Module or Base Module must define input
-   parameters that match each Volume output parameter (i.e., ONAP Volume
-   Template Output Parameters).
-
-   -  ONAP will supply the volume template outputs automatically to the
-      bases/incremental template input parameters.
-
--  Volume modules may utilize nested Heat templates.
-
-Optional Property availability_zone
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-
-.. req::
-    :id: R-25190
-    :target: VNF
-    :keyword: SHOULD NOT
-
-    A VNF's Heat Orchestration Template's Resource 'OS::Cinder::Volume'
-    **SHOULD NOT** declare the property 'availability_zone'.
-
-If the property is used, the value **MUST**
-be enumerated in the environment file and must be set to nova', which
-is the default. There are no requirements on the parameter naming
-convention with the exception that the naming convention **MUST NOT** be the
-same as the 'OS::Nova::Server' property 'availability_zone' (i.e.,
-'availability_zone_{index}').
-
-Optional Property volume_type
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-OpenStack supports multiple volume types. If the OS::Cinder::Volume optional
-property volume_type is not specified, the OpenStack default volume type is
-used. If a specific volume type is required, the property is used and
-the value **MUST** be enumerated in the environment file. There are no
-requirements on the parameter naming convention
-
-Cinder Volume Examples
-~~~~~~~~~~~~~~~~~~~~~~~~~
-
-*Examples: Volume Template*
-
-A VNF has a Cinder volume module, named incremental\_volume.yaml, that
-creates an independent Cinder volume for a VM in the module
-incremental.yaml. The incremental\_volume.yaml defines a parameter in
-the output section, lb\_volume\_id\_0 which is the UUID of the cinder
-volume. lb\_volume\_id\_0 is defined as a parameter in incremental.yaml.
-ONAP captures the UUID value of lb\_volume\_id\_0 from the volume module
-output statement and provides the value to the incremental module.
-
-Note that the example below is not a complete Heat Orchestration
-Template. The {vm-type} has been defined as "lb" for load balancer
-
-incremental\_volume.yaml
-
-.. code-block:: yaml
-
- parameters:
-    vnf_name:
-       type: string
-    lb_volume_size_0:
-       type: number
-    ...
-
- resources:
-    dns_volume_0:
-       type: OS::Cinder::Volume
-       properties:
-          name:
-             str_replace:
-                template: VNF_NAME_volume_0
-                params:
-                   VNF_NAME: { get_param: vnf_name }
-          size: {get_param: dns_volume_size_0}
-    ...
-
- outputs:
-    lb_volume_id_0:
-       value: {get_resource: dns_volume_0}
-    ...
-
-
-incremental.yaml
-
-.. code-block:: yaml
-
- parameters:
-    lb_name_0:
-       type: string
-    lb_volume_id_0:
-       type: string
-    ...
-
- resources:
-    lb_0:
-       type: OS::Nova::Server
-       properties:
-          name: {get_param: dns_name_0}
-          networks:
-          ...
-
-    lb_0_volume_attach:
-       type: OS::Cinder::VolumeAttachment
-       properties:
-          instance_uuid: { get_resource: lb_0 }
-          volume_id: { get_param: lb_volume_id_0 }
-
-ONAP Support of Environment Files
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-The use of an environment file in OpenStack is optional.  In ONAP, it is
-mandatory. A Heat Orchestration Template uploaded to ONAP must have a
-corresponding environment file, even if no parameters are required to
-be enumerated.
-
-(Note that ONAP does not programmatically enforce the use of
-an environment file.)
-
-
-.. req::
-    :id: R-67205
-    :target: VNF
-    :keyword: MUST
-
-    The VNF Heat Orchestration Template **MUST** have a corresponding
-    environment file for a Base Module.
-
-.. req::
-    :id: R-35727
-    :target: VNF
-    :keyword: MUST
-
-    The VNF Heat Orchestration Template **MUST** have a
-    corresponding environment file for an Incremental module.
-
-.. req::
-    :id: R-22656
-    :target: VNF
-    :keyword: MUST
-
-    The VNF Heat Orchestration Template **MUST** have a
-    corresponding environment file for a Cinder Volume Module.
-
-A nested heat template must not have an environment file; OpenStack does
-not support it.
-
-The environment file must contain parameter values for the ONAP
-Orchestration Constants and VNF Orchestration Constants. These
-parameters are identical across all instances of a VNF type, and
-expected to change infrequently. The ONAP Orchestration Constants are
-associated with OS::Nova::Server image and flavor properties (See
-`Property: image`_ and `Property: flavor`_). Examples of VNF
-Orchestration Constants are the networking parameters associated
-with an internal network (e.g., private IP ranges) and Cinder
-volume sizes.
-
-The environment file must not contain parameter values for parameters
-that are instance specific (ONAP Orchestration Parameters, VNF
-Orchestration Parameters). These parameters are supplied to the Heat by
-ONAP at orchestration time.
-
-SDC Treatment of Environment Files
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-Parameter values enumerated in the environment file are used by SDC as
-the default value. However, the SDC user may use the SDC GUI to
-overwrite the default values in the environment file.
-
-SDC generates a new environment file for distribution to SO based on
-the uploaded environment file and the user provided GUI updates. The
-user uploaded environment file is discarded when the new file is
-created. Note that if the user did not change any values via GUI
-updates, the SDC generated environment file will contain the same values
-as the uploaded file.
-
-Use of Environment Files when using OpenStack "heat stack-create" CLI
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-When ONAP is instantiating the Heat Orchestration Template, certain
-parameter must not be enumerated in the environment file. This document
-provides the details of what parameters should not be enumerated.
-
-If the Heat Orchestration Template is to be instantiated from the
-OpenStack Command Line Interface (CLI) using the command "heat
-stack-create", all parameters must be enumerated in the environment
-file.
-
-Heat Template Constructs
-^^^^^^^^^^^^^^^^^^^^^^^^^
-
-Nested Heat Templates
-~~~~~~~~~~~~~~~~~~~~~
-
-ONAP supports nested Heat templates per the OpenStack specifications.
-Nested templates may be suitable for larger VNFs that contain many
-repeated instances of the same VM type(s). A common usage pattern is to
-create a nested template for each {vm-type} along with its supporting
-resources. The VNF module may then reference these component templates
-either statically by repeated definition or dynamically by using the
-resource OS::Heat::ResourceGroup.
-
-Nested Heat Template Requirements
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-ONAP supports nested Heat Orchestration Templates. A Base Module,
-Incremental Module, and Cinder Volume Module may use nested heat.
-
-
-.. req::
-    :id: R-00228
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template **MAY**
-    reference the nested heat statically by repeated definition.
-
-.. req::
-    :id: R-01101
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Template **MAY**
-    reference the nested heat dynamically using the resource
-    'OS::Heat::ResourceGroup'.
-
-.. req::
-    :id: R-60011
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template **MUST** have no more than
-    two levels of nesting.
-
-As stated in R-67231 a VNF's Heat Orchestration template's
-Environment File's **MUST NOT** contain the "resource_registry:" section.
-
-Two levels of nesting is defined as follows:  A base module, incremental
-module, or cinder volume module references a nested heat file either
-statically or by using the resource 'OS::Heat::ResourceGroup'.
-This file is the first level of nesting.
-If first level file then references a nested file, that file is
-the second level of nesting.
-
-
-.. req::
-    :id: R-89868
-    :target: VNF
-    :keyword: MUST
-
-    The VNF Heat Orchestration Template **MUST** have unique
-    file names within the scope of the VNF for a nested heat yaml file.
-
-.. req::
-    :id: R-52530
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's Nested YAML file
-    **MUST** be in the same directory hierarchy as the VNF's Heat
-    Orchestration Templates.
-
-.. req::
-    :id: R-90022
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Nested YAML file **MAY** be invoked more than
-    once by a VNF's Heat Orchestration Template.
-
-.. req::
-    :id: R-04344
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Nested YAML file **MAY** be invoked by more than one of
-    a VNF's Heat Orchestration Templates (when the VNF is composed of two
-    or more Heat Orchestration Templates).
-
-.. req::
-    :id: R-11041
-    :target: VNF
-    :keyword: MUST
-
-    All parameters defined in a VNFs Nested YAML file
-    **MUST** be passed in as properties of the resource calling
-    the nested yaml file.
-
-Note that:
-
--  As stated in requirement R-00011, a VNF's Heat Orchestration
-   Template's Nested YAML file's parameter's **MUST NOT** have
-   a parameter constraint defined.
-
--  As stated in Requirement R-44491, if a VNF's Heat Orchestration
-   Template's OS::Nova::Server Resource metadata map value parameter
-   'vnf\_id' is passed into a Nested YAML
-   file, the parameter name 'vnf\_id' **MUST NOT** change.
-
--  As stated in Requirement R-86237, if a VNF's Heat Orchestration
-   Template's OS::Nova::Server Resource metadata map value parameter
-   'vf\_module\_id' is passed into a Nested YAML
-   file, the parameter name 'vf\_module\_id' **MUST NOT** change.
-
--  As stated in Requirement R-16576, if a VNF's Heat Orchestration
-   Template's OS::Nova::Server Resource metadata map value parameter
-   'vnf\_name' is passed into a Nested YAML
-   file, the parameter name 'vnf\_name' **MUST NOT** change.
-
--  As stated in Requirement R-49177, if a VNF's Heat Orchestration
-   Template's OS::Nova::Server Resource metadata map value parameter
-   'vf\_module\_name' is passed into a Nested YAML
-   file, the parameter name 'vf\_module\_name' **MUST NOT** change.
-
--  As stated in Requirement R-70757, if a VNF's Heat Orchestration
-   Template's OS::Nova::Server Resource metadata map value parameter
-   'vm\_role' is passed into a Nested YAML
-   file, the parameter name 'vm\_role' **MUST NOT** change.
-
--  As stated in Requirement R-22441, if a VNF's Heat Orchestration
-   Template's OS::Nova::Server Resource metadata map value parameter
-   'vf\_module\_index' is passed into a Nested YAML
-   file, the parameter name 'vf\_module\_index' **MUST NOT** change.
-
--  As stated in Requirement R-75202, if a VNF's Heat Orchestration
-   Template's OS::Nova::Server Resource metadata map value parameter
-   'workload\_context' is passed into a Nested YAML
-   file, the parameter name 'workload\_context' **MUST NOT** change.
-
--  As stated in Requirement R-62954, if a VNF's Heat Orchestration
-   Template's OS::Nova::Server Resource metadata map value parameter
-   'environment\_context' is passed into a Nested YAML
-   file, the parameter name 'environment\_context' **MUST NOT** change.
-
--  With nested templates, outputs are required to expose any resource
-   properties of the child templates to the parent template. Those would
-   not explicitly be declared as parameters but simply referenced as
-   get\_attribute targets against the "parent" resource.
-
--  A parameter declared in the outputs: section of a nested template can
-   be accessed from the parent template as an attribute (i.e., via
-   get\_attr) of the "pseudo resource" whose type is in the nested
-   template. In the case of a OS::Heat::ResourceGroup, an output will be
-   an attribute of the OS::Heat::ResourceGroup itself, and will be an
-   array from the perspective of the parent template.
-
-.. req::
-    :id: R-17528
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's first level Nested YAML file
-    **MUST NOT** contain more than one ``OS::Nova::Server`` resource.
-    A VNF's Heat Orchestration Template's second level Nested YAML file
-    **MUST NOT** contain an ``OS::Nova::Server`` resource.
-
-Nested Heat Template Example: Static
-++++++++++++++++++++++++++++++++++++++
-
-incremental.yaml
-
-.. code-block:: yaml
-
- Resources:
-   dns_server_0:
-     type: nested.yaml
-     properties:
-       dns_image_name: { get_param: dns_image_name }
-       dns_flavor_name: { get_param: dns_flavor_name }
-       availability_zone: { get_param: availability_zone_0 }
-       security_group: { get_param: DNS_shared_sec_grp_id }
-       oam_net_id: { get_param: oam_protected_net_id }
-       dns_oam_ip: { get_param: dns_oam_ip_0 }
-       dns_name: { get_param: dns_name_0 }
-       vnf_name: { get_param: vnf_name }
-       vnf_id: { get_param: vnf_id }
-       vf_module_id: {get_param: vf_module_id}
-
- dns_server_1:
-   type: nested.yaml
-   properties:
-     dns_image_name: { get_param: dns_image_name }
-     dns_flavor_name: { get_param: dns_flavor_name }
-     availability_zone: { get_param: availability_zone_1 }
-     security_group: { get_param: DNS_shared_sec_grp_id }
-     oam_net_id: { get_param: oam_protected_net_id }
-     dns_oam_ip: { get_param: dns_oam_ip_1 }
-     dns_name: { get_param: dns_name_1 }
-     vnf_name: { get_param: vnf_name }
-     vnf_id: { get_param: vnf_id }
-     vf_module_id: {get_param: vf_module_id}
-
-nested.yaml
-
-.. code-block:: yaml
-
- dns_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_id }
-     fixed_ips: [{ "ip_address": { get_param: dns_oam_ip }}]
-     security_groups: [{ get_param: security_group }]
-
- dns_servers:
-   type: OS::Nova::Server
-   properties:
-     name: { get_param: dns_names }
-     image: { get_param: dns_image_name }
-     flavor: { get_param: dns_flavor_name }
-     availability_zone: { get_param: availability_zone }
-     networks:
-       - port: { get_resource: dns_oam_0_port }
-     metadata:
-       vnf_id: { get_param: vnf_id }
-       vf_module_id: { get_param: vf_module_id }
-       vnf_name {get_param: vnf_name }
-
-Use of Heat ResourceGroup
-+++++++++++++++++++++++++
-
-The OS::Heat::ResourceGroup is a useful Heat element for creating
-multiple instances of a given resource or collection of resources.
-Typically, it is used with a nested Heat template, to create, for
-example, a set of identical OS::Nova::Server resources plus their
-related OS::Neutron::Port resources via a single resource in a master
-template.
-
-OS::Heat::ResourceGroup may be used to simplify the structure of a Heat
-template that creates multiple instances of the same VM type.
-
-However, there are important caveats to be aware of:
-
-OS::Heat::ResourceGroup does not deal with structured parameters
-(comma-delimited-list and json) as one might typically expect. In
-particular, when using a list-based parameter, where each list element
-corresponds to one instance of the ResourceGroup, it is not possible to
-use the intrinsic "loop variable" %index% in the OS::Heat::ResourceGroup
-definition.
-
-For instance, the following is **not** valid Heat for
-OS::Heat::ResourceGroup:
-
-.. code-block:: yaml
-
- type: OS::Heat::ResourceGroup
-   resource_def:
-     type: my_nested_vm_template.yaml
-     properties:
-       name: {get_param: [vm_name_list, "%index%"]}
-
-Although this appears to use the nth entry of the vm_name_list list for
-the nth element of the OS::Heat::ResourceGroup, it will in fact result
-in a Heat exception. When parameters are provided as a list (one for
-each element of a OS::Heat::ResourceGroup), you must pass the complete
-parameter to the nested template along with the current index as
-separate parameters.
-
-Below is an example of an **acceptable** Heat Syntax for a
-ResourceGroup:
-
-.. code-block:: yaml
-
- type: OS::Heat::ResourceGroup
-   resource_def:
-     type: my_nested_vm_template.yaml
-     properties:
-       names: {get_param: vm_name_list}
-       index: "%index%"
-
-You can then reference within the nested template as:
-
-{ get\_param: [names, {get\_param: index} ] }
-
-OS::Heat::ResourceGroup Property count
-________________________________________
-
-
-.. req::
-    :id: R-50011
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's 'OS::Heat::ResourceGroup'
-    property 'count' **MUST** be enumerated in the VNF's
-    Heat Orchestration Template's Environment File and **MUST** be
-    assigned a value.
-
-This is required for ONAP to build the TOSCA model for the VNF.
-
-.. code-block:: yaml
-
- type: OS::Heat::ResourceGroup
- properties:
-   count: { get_param: count }
-   index_var: index
-   resource_def:
-     type: my_nested_vm_template.yaml
-     properties:
-       names: {get_param: vm_name_list}
-       index: index
-
-Availability Zone and ResourceGroups
-____________________________________
-
-The resource OS::Heat::ResourceGroup and the property availability\_zone
-has been an "issue" with a few VNFs since ONAP only supports
-availability\_zone as a string parameter and not a
-comma\_delimited\_list. This makes it difficult to use a
-OS::Heat::ResourceGroup to create Virtual Machines in more
-than one availability zone.
-
-There are numerous solutions to this issue. Below are two suggested
-usage patterns.
-
-**Option 1:** create a CDL in the OS::Heat::ResourceGroup. In the
-resource type: OS::Heat::ResourceGroup, create a comma\_delimited\_list
-availability\_zones by using the intrinsic function list\_join.
-
-.. code-block:: yaml
-
- <resource name>:
-  type: OS::Heat::ResourceGroup
-  properties:
-    count: { get_param: node_count }
-    index_var: index
-    resource_def:
-      type: nested.yaml
-      properties:
-        index: index
-        avaialability_zones: { list_join: [',', [ { get_param: availability_zone_0 }, { get_param: availability_zone_1 } ] ] }
-
-In the nested heat
-
-.. code-block:: yaml
-
- parameters:
-   avaialability_zones:
-     type: comma_delimited_list
-     description:
-
- resources:
-   servers:
-     type: OS::Nova::Server
-     properties:
-       name: { get_param: [ dns_names, get_param: index ] }
-       image: { get_param: dns_image_name }
-       flavor: { get_param: dns_flavor_name }
-       availability_zone: { get_param: [ avaialability_zones, get_param: index ] }
-
-**Option 2:** Create a CDL by passing the availability zone parameter
-into a nested heat template. An example is provided below.
-
-base.yaml
-
-.. code-block:: yaml
-
-  availability_zone_list:
-     type: az_list_generate.yaml
-     properties:
-       availability_zone_0: { get_param: availability_zone_0 }
-       availability_zone_1: { get_param: availability_zone_1 }
-
-    create_virtual_machines:
-      type: OS::Heat::ResourceGroup
-      properties:
-        count: { get_param: count }
-        index_var: $INDEX
-        resource_def:
-          type: nest_file.yaml
-          properties:
-            index: $INDEX
-            availability_zone_0 : { get_attr: [availability_zone_list, general_zones ] }
-            . . .
-
-az_list_generate.yaml
-
-.. code-block:: yaml
-
-  parameters:
-    availability_zone_0:
-      type: string
-      description: availability zone 0
-
-    availability_zone_1:
-      type: string
-      description: availability zone 1
-
-  outputs:
-
-    general_zones:
-      value: [
-        { get_param: availability_zone_0 },
-        { get_param: availability_zone_1 },
-        { get_param: availability_zone_0 },
-        { get_param: availability_zone_1 },
-        { get_param: availability_zone_0 },
-        { get_param: availability_zone_1 },
-  ]
-
-
-Nested Heat Template Example: OS::Heat::ResourceGroup
-_________________________________________________________
-
-In this example, ocgapp\_volume.yml creates volumes using a
-OS::Heat::ResourceGroup that uses nested heat by calling
-ocgapp_nested_volume.yml. ocgapp\_volume.yml has an outputs: parameter
-ocgapp\_volume\_ids which is declared a input parameter of type: json in
-ocgapp\_volume.yml.
-
-
-This is an example of requirement R-07443, where
-a VNF's Heat Orchestration Templates' Cinder Volume Module Output
-Parameter's name and type **MUST** match the input parameter name and type
-in the corresponding Base Module or Incremental Module unless the Output
-Parameter is of the type 'comma\_delimited\_list', then the corresponding
-input parameter **MUST** be declared as type 'json'.
-
-ocgapp\_volume.yml
-
-.. code-block:: yaml
-
-  heat_template_version: 2014-10-16
-
-  description: Template for the volumes
-
-  parameters:
-    vnf_name:
-      type: string
-      label: OCG VNF Name
-      description: OCG VNF Name
-    ocgapp_volume_size_0:
-      type: number
-      label: Cinder volume 1 size
-      description: the size of the Cinder volume
-      constraints:
-      - range: { min: 100, max: 400 }
-    ocgapp_volume_type_0:
-      type: string
-      label: app vm 1 volume type
-      description: the name of the target volume backend for the first OCG APP
-    volume_count:
-      type: number
-      label: volume count
-      description: number of volumes needed
-
-  resources:
-    ocgapp_volume_resource_group:
-      type: OS::Heat::ResourceGroup
-      properties:
-        count: {get_param: volume_count}
-        index_var: index
-        resource_def:
-          type: ocgapp_nested_volume.yml
-          properties:
-            index: index
-            size: {get_param: ocgapp_volume_size_0}
-            volume_type: {get_param: ocgapp_volume_type_0}
-            vnf_name: {get_param: vnf_name}
-
-  outputs:
-    ocgapp_volume_ids:
-    description: ocgapp volume ids
-    value: {get_attr: [ocgapp_volume_resource_group, ocgapp_volume_id_0]}
-
-ocgapp_nested_volume.yml
-
-.. code-block:: yaml
-
- heat_template_version: 2014-10-16
-
- description: nested heat
-
- parameters:
-   index:
-     type: number
-     label: Volume Index
-     description: number of volumes to spin up
-   size:
-     type: number
-     label: Volume Size
-     description: size of the cinder volumes
-   volume_type:
-     type: string
-     label: Volume Type
-     description: type of cinder volumes
-   vnf_name:
-     type: string
-     label: VNF Name
-     description: vnf name
-
- resources:
-   ocgapp_volume_0:
-     type: OS::Cinder::Volume
-     properties:
-       size: {get_param: size}
-       volume_type: {get_param: volume_type}
-       name:
-         str_replace:
-           template: VF_NAME_STACK_NAME_INDEX
-           params:
-             VF_NAME: { get_param: vnf_name }
-             STACK_NAME: { get_param: 'OS::stack_name' }
-             INDEX: {get_param: index}
-
- outputs:
-   ocgapp_volume_id_0:
-   description: the ocgapp volume uuid
-   value: {get_resource: ocgapp_volume_0}
-
-The heat template below is a partial heat template,
-
-ocgapp.yml
-
-.. code-block:: yaml
-
-  heat_template_version: 2014-10-16
-
-  #file version 1.0
-  description: OCG Apps template
-
-  parameters:
-    ocgapp_volume_ids:
-      type: json
-      description: Unique IDs for volumes
-
-  resources:
-    ocgapp_server_0:
-      type: OS::Nova::Server
-      properties:
-    . . . .
-    ocgapp_server_1:
-      type: OS::Nova::Server
-      properties:
-    . . . .
-    ocgapp_volume_attachment_0:
-      type: OS::Cinder::VolumeAttachment
-      properties:
-        volume_id: {get_param: [ocgapp_volume_ids, 0]}
-        instance_uuid: {get_resource: ocgapp_server_0}
-    ocgapp_volume_attachment_1:
-      type: OS::Cinder::VolumeAttachment
-      properties:
-        volume_id: {get_param: [ocgapp_volume_ids, 1]}
-        instance_uuid: {get_resource: ocgapp_server_1}
-
-External References
-~~~~~~~~~~~~~~~~~~~
-
-Heat templates *should not* reference any HTTP-based resource
-definitions, any HTTP-based nested configurations, or any HTTP-based
-environment files.
-
--  During orchestration, ONAP *should not* retrieve any such resources
-   from external/untrusted/unknown sources.
-
--  VNF images should not contain such references in user-data or other
-   configuration/operational scripts that are specified via Heat or
-   encoded into the VNF image itself.
-
-*Note:* HTTP-based references are acceptable if the HTTP-based reference
-is accessing information with the VM private/internal network.
-
-Note that Namespaces in XML (defined at
-http://www.w3.org/TR/2009/REC-xml-names-20091208/) are allowed if the
-Heat Orchestration Template is describing and storing software
-configuration information. An XML namespace is identified by a URI
-reference. A Uniform Resource Identifier (URI) is a string of characters
-which identifies an Internet Resource. The most common URI is the
-Uniform Resource Locator (URL) which identifies an Internet domain
-address. Another, not so common type of URI is the Universal Resource
-Name (URN). The namespace URI is not used by XML the parser to look up
-information. The purpose of using an URI is to give the namespace a
-unique name.
-
-Heat Files Support (get\_file)
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-Heat Templates may contain the inclusion of text files into Heat
-templates via the Heat get\_file directive. This may be used, for
-example, to define a common "user-data" script, or to inject files into
-a VM on startup via the "personality" property.
-
-Support for Heat Files is subject to the following limitations:
-
-
-.. req::
-    :id: R-76718
-    :target: VNF
-    :keyword: MUST
-
-    If a VNF's Heat Orchestration Template uses the intrinsic function
-    'get\_file', the 'get\_file' target **MUST** be referenced in
-    the Heat Orchestration Template by file name.
-
-The 'get\_file' target files are on-boarded to SDC in the same package
-that contains the VNF's complete Heat Orchestration Template.
-
-
-.. req::
-    :id: R-41888
-    :target: VNF
-    :keyword: MUST NOT
-
-    A VNF's Heat Orchestration Template intrinsic function
-    'get\_file' **MUST NOT** utilize URL-based file retrieval.
-
-.. req::
-    :id: R-62177
-    :target: VNF
-    :keyword: MUST
-
-    When using the intrinsic function get_file, the included files
-    **MUST** have unique file names within the scope of the VNF.
-
-.. req::
-    :id: R-87848
-    :target: VNF
-    :keyword: MUST
-
-    A VNF's Heat Orchestration Template's 'get\_file' target files
-    **MUST** be in the same directory hierarchy as the VNF's Heat
-    Orchestration Templates.
-
-ONAP does not support a hierarchical structure.  A VNF's YAML files
-must be in a single, flat directory.
-
-
-.. req::
-    :id: R-05050
-    :target: VNF
-    :keyword: MAY
-
-    A VNF's Heat Orchestration Templates intrinsic function
-    'get\_file' <content key> **MAY** be used:
-
-        * more than once in a VNF's Heat Orchestration Template
-        * in two or more of a VNF's Heat Orchestration Templates
-        * in a VNF's Heat Orchestration Templates nested YAML file
-
-Key Pairs
-~~~~~~~~~
-
-When Nova Servers are created via Heat templates, they may be passed a
-"keypair" which provides an ssh key to the 'root' login on the newly
-created VM. This is often done so that an initial root key/password does
-not need to be hard-coded into the image.
-
-Key pairs are unusual in OpenStack, because they are the one resource
-that is owned by an OpenStack User as opposed to being owned by an
-OpenStack Tenant. As a result, they are usable only by the User that
-created the keypair. This causes a problem when a Heat template attempts
-to reference a keypair by name, because it assumes that the keypair was
-previously created by a specific ONAP user ID.
-
-When a keypair is assigned to a server, the SSH public-key is
-provisioned on the VMs at instantiation time. They keypair itself is not
-referenced further by the VM (i.e. if the keypair is updated with a new
-public key, it would only apply to subsequent VMs created with that
-keypair).
-
-Due to this behavior, the recommended usage of keypairs is in a more
-generic manner which does not require the pre-requisite creation of a
-keypair. The Heat should be structured in such a way as to:
-
--  Pass a public key as a parameter value instead of a keypair name
-
--  Create a new keypair within The VNF Heat Orchestration Template (in the
-   base module) based on an existing public key for use within that VNF
-
-By following this approach, the end result is the same as pre-creating
-the keypair using the public key – i.e., that public key will be
-provisioned in the new VM. However, this recommended approach also makes
-sure that a known public key is supplied (instead of having OpenStack
-generate a public/private pair to be saved and tracked outside of ONAP).
-It also removes any access/ownership issues over the created keypair.
-
-The public keys may be enumerated as a VNF Orchestration Constant in the
-environment file (since it is public, it is not a secret key), or passed
-at run-time as instance-specific parameters. ONAP will never
-automatically assign a public/private key pair.
-
-*Example (create keypair with an existing ssh public-key for {vm-type}
-of lb (for load balancer)):*
-
-.. code-block:: yaml
-
- parameters:
-    vnf_name:
-       type: string
-    lb_ssh_public_key:
-       type: string
-
- resources:
-    my_keypair:
-       type: OS::Nova::Keypair
-       properties:
-          name:
-             str_replace:
-                template: VNF_NAME_key_pair
-                params:
-                VNF_NAME: { get_param: vnf_name }
-          public_key: {get_param: lb_ssh_public_key}
-          save_private_key: false
-
-Security Groups
-~~~~~~~~~~~~~~~
-
-OpenStack allows a tenant to create Security groups and define rules
-within the security groups.
-
-Security groups, with their rules, may either be created in the Heat
-Orchestration Template or they can be pre-created in OpenStack and
-referenced within the Heat template via parameter(s). There can be a
-different approach for security groups assigned to ports on internal
-(intra-VNF) networks or external networks (inter-VNF). Furthermore,
-there can be a common security group across all VMs for a specific
-network or it can vary by VM (i.e., {vm-type}) and network type (i.e.,
-{network-role}).
-
-Anti-Affinity and Affinity Rules
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-Anti-affinity or affinity rules are supported using normal OpenStack
-OS::Nova::ServerGroup resources. Separate ServerGroups are typically
-created for each VM type to prevent them from residing on the same host,
-but they can be applied to multiple VM types to extend the
-affinity/anti-affinity across related VM types as well.
-
-*Example:*
-
-In this example, the {network-role} has been defined as oam to represent
-an oam network and the {vm-type} have been defined as lb for load
-balancer and db for database.
-
-.. code-block:: yaml
-
- resources:
- db_server_group:
-    type: OS::Nova::ServerGroup
-    properties:
-       name:
-          str_replace:
-             params:
-                $vnf_name: {get_param: vnf_name}
-             template: $vnf_name-server_group1
-       policies:
-          - anti-affinity
-
- lb_server_group:
-    type: OS::Nova::ServerGroup
-    properties:
-       name:
-          str_replace:
-             params:
-                $vnf_name: {get_param: vnf_name}
-             template: $vnf_name-server_group2
-       policies:
-          - affinity
-
- db_0:
-    type: OS::Nova::Server
-    properties:
-    ...
-    scheduler_hints:
-       group: {get_resource: db_server_group}
-
- db_1:
-    type: OS::Nova::Server
-    properties:
-    ...
-    scheduler_hints:
-       group: {get_resource: db_server_group}
-
- lb_0:
-    type: OS::Nova::Server
-    properties:
-    ...
-    scheduler_hints:
-       group: {get_resource: lb_server_group} 
-
-Resource Data Synchronization
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-For cases where synchronization is required in the orchestration of Heat
-resources, two approaches are recommended:
-
--  Standard Heat depends\_on property for resources
-
-   -  Assures that one resource completes before the dependent resource
-      is orchestrated.
-
-   -  Definition of completeness to OpenStack may not be sufficient
-      (e.g., a VM is considered complete by OpenStack when it is ready
-      to be booted, not when the application is up and running).
-
--  Use of Heat Notifications
-
-   -  Create OS::Heat::WaitCondition and OS::Heat::WaitConditionHandle
-      resources.
-
-   -  Pre-requisite resources issue *wc\_notify* commands in user\_data.
-
-   -  Dependent resource define depends\_on in the
-      OS::Heat::WaitCondition resource.
-
-*Example: "depends\_on" case*
-
-In this example, the {network-role} has been defined as oam to represent
-an oam network and the {vm-type} has been defined as oam to represent an
-oam server.
-
-.. code-block:: yaml
-
- resources:
-   oam_server_01:
-     type: OS::Nova::Server
-     properties:
-       name: {get_param: [oam_ names, 0]}
-       image: {get_param: oam_image_name}
-       flavor: {get_param: oam_flavor_name}
-       availability_zone: {get_param: availability_zone_0}
-       networks:
-         - port: {get_resource: oam01_port_0}
-         - port: {get_resource: oam01_port_1}
-       user_data:
-       scheduler_hints: {group: {get_resource: oam_servergroup}}
-       user_data_format: RAW
-
- oam_01_port_0:
-   type: OS::Neutron::Port
-   properties:
-     network: {get_resource: oam_net_name}
-     fixed_ips: [{"ip_address": {get_param: [oam_oam_net_ips, 1]}}]
-     security_groups: [{get_resource: oam_security_group}]
-
- oam_01_port_1:
-   type: OS::Neutron::Port
-   properties:
-     network: {get_param: oam_net_name}
-     fixed_ips: [{"ip_address": {get_param: [oam_oam_net_ips, 2]}}]
-     security_groups: [{get_resource: oam_security_group}]
-
- oam_01_vol_attachment:
-   type: OS::Cinder::VolumeAttachment
-   depends_on: oam_server_01
-   properties:
-     volume_id: {get_param: oam_vol_1}
-     mountpoint: /dev/vdb
-     instance_uuid: {get_resource: oam_server_01}
-
-High Availability
-^^^^^^^^^^^^^^^^^
-
-VNF/VM parameters may include availability zone IDs for VNFs that
-require high availability.
-
-The Heat must comply with the following requirements to specific
-availability zone IDs:
-
--  The Heat template should spread Nova resources across the
-   availability zones as desired
-
-Post Orchestration & VNF Configuration
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-Heat templates should contain a minimum amount of post-orchestration
-configuration data. For instance, *do not* embed complex user-data
-scripts in the template with large numbers of configuration parameters
-to the Heat template.
-
--  VNFs may provide configuration APIs for use after VNF creation. Such
-   APIs will be invoked via application and/or SDN controllers.
-
-*Note:* It is important to follow this convention to the extent possible
-even in the short-term as of the long-term direction.
-
-
diff --git a/docs/Chapter5/Heat/General Guidelines for Heat.rst b/docs/Chapter5/Heat/General Guidelines for Heat.rst
new file mode 100644
index 0000000..378a057
--- /dev/null
+++ b/docs/Chapter5/Heat/General Guidelines for Heat.rst
@@ -0,0 +1,43 @@
+.. 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.
+
+.. _General Guidelines for Heat:
+
+General Guidelines for Heat
+----------------------------
+
+This section contains general Heat Orchestration Template guidelines
+and requirements.
+
+Heat Template Compliance
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+The Heat Orchestration Template requirements with RFC 2119
+keywords **MUST** and **MUST NOT** can be validated against a set of Heat
+Templates via the VNF Validation Program (VVP).
+
+**NOTE**: Not all requirements are currently testable via VVP.
+
+The VVP *validation scripts* project contains python validation
+scripts that will parse Heat Orchestration Templates in a given directory
+to ensure that they comply with ONAP Heat Orchestration Template requirements.
+
+For instructions on how to use the VVP validation scripts,
+please see the validation scripts
+`README <https://github.com/onap/vvp-validation-scripts>`__
+
+
+YAML Format
+^^^^^^^^^^^^^^
+
+.. req::
+    :id: R-95303
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template **MUST** be defined using valid YAML.
+
+YAML (YAML Ain't
+Markup Language) is a human friendly data serialization standard for all
+programming languages. See http://www.yaml.org/.
diff --git a/docs/Chapter5/Heat/ONAP Heat Cinder Volumes.rst b/docs/Chapter5/Heat/ONAP Heat Cinder Volumes.rst
new file mode 100644
index 0000000..90fb33b
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Cinder Volumes.rst
@@ -0,0 +1,172 @@
+.. 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 Cinder Volumes:
+
+ONAP Heat Cinder Volumes
+----------------------------
+
+Cinder Volumes are created with the heat resource OS::Cinder::Volume.
+
+As stated in :need:`R-46119`, :need:`R-90748`, :need:`R-03251`, a
+VNF's Heat Orchestration Template's Resource OS::Heat::CinderVolume
+**MAY** be defined in a Base Module, Incremental Module, or Cinder
+Volume Module.
+
+ONAP supports the independent deployment of a Cinder volume via separate
+Heat Orchestration Templates, the Cinder Volume module. This allows the
+volume to persist after VNF deletion so that they can be reused on
+another instance (e.g., during a failover activity).
+
+A Base Module or Incremental Module may have a corresponding volume
+module. Use of separate volume modules is optional. A Cinder volume may
+be embedded within the Base Module or Incremental Module if persistence
+is not required.
+
+If a VNF Base Module or Incremental Module has an independent volume
+module, the scope of volume templates must be 1:1 with Base module or
+Incremental module. A single volume module must create only the volumes
+required by a single Incremental module or Base module.
+
+As stated in :need:`R-11200`, a VNF's Cinder Volume Module, when it exists,
+**MUST** be 1:1 with a Base module or Incremental module.  That is,
+A single volume module must create only the volumes required by a
+single Incremental module or Base module.
+
+As stated in :need:`R-30395`, a VNF's Cinder Volume Module **MAY** utilize
+nested heat.
+
+As stated in :need:`R-89913`, a VNF's Heat Orchestration Template's Cinder Volume
+Module Output Parameter(s) **MUST** include the
+UUID(s) of the Cinder Volumes created in template,
+while others **MAY** be included.
+
+As stated in :need:`R-07443`, a VNF's Heat Orchestration Templates' Cinder Volume
+Module Output Parameter's name and type **MUST** match the input parameter
+name and type in the corresponding Base Module or Incremental Module unless
+the Output Parameter is of the type 'comma_delimited_list',
+then the corresponding input parameter **MUST** be declared as type 'json'.
+
+A single volume module must create only the volumes
+required by a single Incremental module or Base module.
+
+The following rules apply to independent volume Heat templates:
+
+.. req::
+    :id: R-79531
+    :target: VNF
+    :keyword: MUST
+
+    The VNF Heat Orchestration Template **MUST** define
+    "outputs" in the volume template for each Cinder volume
+    resource universally unique identifier (UUID) (i.e. ONAP
+    Volume Template Output Parameters).
+
+-  The VNF Incremental Module or Base Module must define input
+   parameters that match each Volume output parameter (i.e., ONAP Volume
+   Template Output Parameters).
+
+   -  ONAP will supply the volume template outputs automatically to the
+      bases/incremental template input parameters.
+
+-  Volume modules may utilize nested Heat templates.
+
+Optional Property availability_zone
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+.. req::
+    :id: R-25190
+    :target: VNF
+    :keyword: SHOULD NOT
+
+    A VNF's Heat Orchestration Template's Resource 'OS::Cinder::Volume'
+    **SHOULD NOT** declare the property 'availability_zone'.
+
+If the property is used, the value **MUST**
+be enumerated in the environment file and must be set to nova', which
+is the default. There are no requirements on the parameter naming
+convention with the exception that the naming convention **MUST NOT** be the
+same as the 'OS::Nova::Server' property 'availability_zone' (i.e.,
+'availability_zone_{index}').
+
+Optional Property volume_type
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+OpenStack supports multiple volume types. If the OS::Cinder::Volume optional
+property volume_type is not specified, the OpenStack default volume type is
+used. If a specific volume type is required, the property is used and
+the value **MUST** be enumerated in the environment file. There are no
+requirements on the parameter naming convention
+
+Cinder Volume Examples
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+*Examples: Volume Template*
+
+A VNF has a Cinder volume module, named incremental\_volume.yaml, that
+creates an independent Cinder volume for a VM in the module
+incremental.yaml. The incremental\_volume.yaml defines a parameter in
+the output section, lb\_volume\_id\_0 which is the UUID of the cinder
+volume. lb\_volume\_id\_0 is defined as a parameter in incremental.yaml.
+ONAP captures the UUID value of lb\_volume\_id\_0 from the volume module
+output statement and provides the value to the incremental module.
+
+Note that the example below is not a complete Heat Orchestration
+Template. The {vm-type} has been defined as "lb" for load balancer
+
+incremental\_volume.yaml
+
+.. code-block:: yaml
+
+ parameters:
+    vnf_name:
+       type: string
+    lb_volume_size_0:
+       type: number
+    ...
+
+ resources:
+    dns_volume_0:
+       type: OS::Cinder::Volume
+       properties:
+          name:
+             str_replace:
+                template: VNF_NAME_volume_0
+                params:
+                   VNF_NAME: { get_param: vnf_name }
+          size: {get_param: dns_volume_size_0}
+    ...
+
+ outputs:
+    lb_volume_id_0:
+       value: {get_resource: dns_volume_0}
+    ...
+
+
+incremental.yaml
+
+.. code-block:: yaml
+
+ parameters:
+    lb_name_0:
+       type: string
+    lb_volume_id_0:
+       type: string
+    ...
+
+ resources:
+    lb_0:
+       type: OS::Nova::Server
+       properties:
+          name: {get_param: dns_name_0}
+          networks:
+          ...
+
+    lb_0_volume_attach:
+       type: OS::Cinder::VolumeAttachment
+       properties:
+          instance_uuid: { get_resource: lb_0 }
+          volume_id: { get_param: lb_volume_id_0 }
+
+
diff --git a/docs/Chapter5/Heat/ONAP Heat High Availability.rst b/docs/Chapter5/Heat/ONAP Heat High Availability.rst
new file mode 100644
index 0000000..3269656
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat High Availability.rst
@@ -0,0 +1,17 @@
+.. 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 High Availability:
+
+ONAP Heat High Availability
+------------------------------
+
+VNF/VM parameters may include availability zone IDs for VNFs that
+require high availability.
+
+The Heat must comply with the following requirements to specific
+availability zone IDs:
+
+-  The Heat template should spread Nova resources across the
+   availability zones as desired
diff --git a/docs/Chapter5/Heat/ONAP Heat Networking.rst b/docs/Chapter5/Heat/ONAP Heat Networking.rst
new file mode 100644
index 0000000..308a5e3
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Networking.rst
@@ -0,0 +1,250 @@
+.. 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 Networking:
+
+ONAP Heat Networking
+-----------------------
+
+ONAP defines two types of networks: External Networks and Internal Networks.
+
+External Networks
+^^^^^^^^^^^^^^^^^^^^
+
+ONAP defines an external network in relation to the VNF and not with regard
+to the Network Cloud site. External networks may also be referred to as
+"inter-VNF" networks.  An external network must connect VMs in a VNF to
+VMs in another VNF or an external gateway or external router.
+
+An External Network may be a Neutron Network or a Contrail Network.
+
+
+.. req::
+    :id: R-16968
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Templates **MUST NOT** include heat
+    resources to create external networks.
+
+External networks must be orchestrated separately, independent of the VNF.
+This allows the network to be shared by multiple VNFs and managed
+independently of VNFs.
+
+
+.. req::
+    :id: R-00606
+    :target: VNF
+    :keyword: MAY
+
+    A VNF **MAY** be connected to zero, one or more than one external
+    networks.
+
+.. req::
+    :id: R-57424
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's port connected to an external network **MUST**
+    use the port for the purpose of reaching VMs in another VNF
+    and/or an external gateway and/or external router. A VNF's port
+    connected to an external network **MAY** use the port for
+    the purpose of reaching VMs in the same VNF.
+
+.. req::
+    :id: R-29865
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF connects to an external network, a network role,
+    referred to as the '{network-role}' **MUST** be assigned to the
+    external network for use in the VNF's Heat Orchestration Template.
+
+.. req::
+    :id: R-69014
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF connects to an external network, a network role, referred
+    to as the '{network-role}' **MUST** be assigned to the external network
+    for use in the VNF's Heat Orchestration Template.
+
+.. req::
+    :id: R-05201
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF connects to two or more external networks, each external
+    network **MUST** be assigned a unique '{network-role}' in the context of
+    the VNF for use in the VNF's Heat Orchestration Template.
+
+.. req::
+    :id: R-83015
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's '{network-role}' assigned to an external network **MUST**
+    be different than the '{network-role}' assigned to the VNF's internal
+    networks, if internal networks exist.
+
+.. req::
+    :id: R-99794
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    An external network **MUST** have one subnet. An external network
+    **MAY** have more than one subnet.
+
+Note that this document refers to **'{network-role}'** which in reality
+is the **'{network-role-tag}'**.  The value of the
+'{network-role}' / '{network-role-tag}'
+is determined by the designer of the VNF's Heat Orchestration Template and
+there is no requirement for '{network-role}' / '{network-role-tag}'
+uniqueness across Heat Orchestration Templates for
+different VNFs.
+
+When an external network is created by ONAP, the network is assigned a
+'{network-role}'.  The '{network-role}' of the network is not required to
+match the '{network-role}' of the VNF Heat Orchestration Template.
+
+For example, the VNF Heat Orchestration Template can assign a '{network-role}'
+of 'oam' to a network which attaches to an external network with a
+'{network-role}' of 'oam_protected_1' .
+
+When the Heat Orchestration Template is on-boarded into ONAP
+  * each '{network-role}' value in the Heat Orchestration Template
+    is mapped to the '{network-role-tag}' in the ONAP
+    data structure.
+  * each OS::Neutron::Port is associated with the external network it is
+    connecting to, thus creating the VNF Heat Orchestration Template
+    '{network-role}' / '{network-role-tag}' to external network '{network-role}'
+    mapping.
+
+ONAP enforces a naming convention for parameters associated with
+external networks. :ref:`ONAP Heat Resource ID and Parameter Naming Convention`
+provides additional details.
+
+Internal Networks
+^^^^^^^^^^^^^^^^^^^^
+
+ONAP defines an internal network in relation to the VNF and not with
+regard to the Network Cloud site. Internal networks may also be referred
+to as "intra-VNF" networks or "private" networks. An internal network
+only connects VMs in a single VNF; it must not connect to other VNFs
+or an external gateway or router
+
+
+.. req::
+    :id: R-87096
+    :target: VNF
+    :keyword: MAY
+
+    A VNF **MAY** contain zero, one or more than one internal networks.
+
+.. req::
+    :id: R-35666
+    :target: VNF
+    :keyword: MUST
+
+    If a VNF has an internal network, the VNF Heat Orchestration
+    Template **MUST** include the heat resources to create the internal network.
+
+.. req::
+    :id: R-86972
+    :target: VNF
+    :keyword: SHOULD
+
+    A VNF **SHOULD** create the internal network in the VNF's Heat
+    Orchestration Template Base Module.
+
+An Internal Network may be created using Neutron Heat Resources and/or
+Contrail Heat Resources.
+
+
+.. req::
+    :id: R-52425
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's port connected to an internal network **MUST** connect
+    the port to VMs in the same VNF.
+
+.. req::
+    :id: R-46461
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's port connected to an internal network **MUST NOT** connect
+    the port to VMs in another VNF and/or an external gateway and/or
+    external router.
+
+.. req::
+    :id: R-68936
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF creates an internal network, a network role, referred to
+    as the '{network-role}' **MUST** be assigned to the internal network for
+    use in the VNF's Heat Orchestration Template.
+
+.. req::
+    :id: R-32025
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF creates two or more internal networks, each internal
+    network **MUST** be assigned a unique '{network-role}' in the context of
+    the VNF for use in the VNF's Heat Orchestration Template.
+
+.. req::
+    :id: R-69874
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's '{network-role}' assigned to an internal network **MUST**
+    be different than the '{network-role}' assigned to the VNF's external
+    networks.
+
+.. req::
+    :id: R-16241
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's internal network **MUST** have one subnet.
+    A VNF's internal network **MAY** have more than one subnet.
+
+.. req::
+    :id: R-34726
+    :target: VNF
+    :keyword: MUST
+
+    If a VNF's port is connected to an internal network and the port
+    is created in the same Heat Orchestration Template as the internal network,
+    then the port resource **MUST** use a 'get_resource' to obtain
+    the network UUID.
+
+.. req::
+    :id: R-22688
+    :target: VNF
+    :keyword: MUST
+
+    If a VNF's port is connected to an internal network and the
+    port is created in an Incremental Module and the internal
+    network is created in the Base Module then the UUID of the
+    internal network **MUST** be exposed
+    as a parameter in the 'outputs:' section of the Base Module and the port
+    resource **MUST** use a 'get_param' to obtain the network UUID.
+
+ONAP does not programmatically enforce a naming convention for
+parameters for internal network. However, a naming convention is
+provided that must be followed.
+:ref:`ONAP Heat Resource ID and Parameter Naming Convention`
+provides additional details.
+
diff --git a/docs/Chapter5/Heat/ONAP Heat Orchestration Template Format.rst b/docs/Chapter5/Heat/ONAP Heat Orchestration Template Format.rst
new file mode 100644
index 0000000..40aa3ce
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Orchestration Template Format.rst
@@ -0,0 +1,765 @@
+.. 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 Orchestration Template Format:
+
+ONAP Heat Orchestration Template Format
+------------------------------------------------
+
+As stated in the previous section, Heat Orchestration templates must be
+defined in YAML.
+
+YAML rules include:
+
+ - Tabs are not allowed, use spaces ONLY
+
+ - You must indent your properties and lists with 1 or more spaces
+
+ - All Resource IDs and resource property parameters are
+   case-sensitive. (e.g., "ThIs", is not the same as "thiS")
+
+Heat Orchestration Template Structure
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+Heat Orchestration template structure follows the following format,
+as defined by OpenStack at
+https://docs.openstack.org/developer/heat/template_guide/hot_spec.html
+
+.. code-block:: yaml
+
+  heat_template_version: <date>
+
+  description:
+    # a description of the template
+
+  parameter_groups:
+    # a declaration of input parameter groups and order
+
+  parameters:
+    # declaration of input parameters
+
+  resources:
+    # declaration of template resources
+
+  outputs:
+    # declaration of output parameters
+
+  conditions:
+    # declaration of conditions
+
+heat_template_version
+~~~~~~~~~~~~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-27078
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration template **MUST** contain
+    the section "heat_template_version:".
+
+The section "heat_template_version:" must be set to a date
+that is supported by the OpenStack environment.
+
+description
+~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-39402
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template **MUST**
+    contain the section "description:".
+
+parameter_groups
+~~~~~~~~~~~~~~~~~~~~~~
+
+A VNF Heat Orchestration template may
+contain the section "parameter_groups:".
+
+parameters
+~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-35414
+    :target: VNF
+    :keyword: MUST
+
+    A VNF Heat Orchestration's template **MUST**
+    contain the section "parameters:".
+
+
+.. code-block:: yaml
+
+  parameters:
+
+    <param name>:
+
+      type: <string | number | json | comma_delimited_list | boolean>
+
+      label: <human-readable name of the parameter>
+
+      description: <description of the parameter>
+
+      default: <default value for parameter>
+
+      hidden: <true | false>
+
+      constraints:
+
+        <parameter constraints>
+
+      immutable: <true | false>
+
+This section allows for
+specifying input parameters that have to be provided when instantiating
+the template. Each parameter is specified in a separate nested block
+with the name of the parameters defined in the first line and additional
+attributes (e.g., type, label) defined as nested elements.
+
+
+.. req::
+    :id: R-90279
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration template's parameter **MUST**
+    be used in a resource with the exception of the parameters
+    for the OS::Nova::Server resource property availability_zone.
+
+.. req::
+    :id: R-91273
+    :target: VNF
+    :keyword: MAY NOT
+
+    A VNF Heat Orchestration's template's parameter for
+    the OS::Nova::Server resource property availability_zone
+    **MAY NOT** be used in any OS::Nova::Resource.
+
+That is, the parameter associated with the property 'availability_zone'
+maybe declared but not used in a resource.
+
+<param name>
++++++++++++++
+
+The name of the parameter.
+
+
+.. req::
+    :id: R-25877
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's parameter
+    name (i.e., <param name>) **MUST** contain only
+    alphanumeric characters and underscores ('_').
+
+type
+++++
+
+
+.. req::
+    :id: R-36772
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's parameter
+    **MUST** include the attribute "type:".
+
+.. req::
+    :id: R-11441
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's parameter
+    type **MUST** be one of the following values: "string",
+    "number", "json", "comma_delimited_list" or "boolean".
+
+label
+++++++
+
+
+.. req::
+    :id: R-32094
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template parameter
+    declaration **MAY** contain the attribute "label:".
+
+description
++++++++++++++
+
+
+.. req::
+    :id: R-44001
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template parameter
+    declaration **MUST** contain the attribute "description".
+
+Note that the parameter attribute "description:" is an OpenStack
+optional attribute that provides a description of the parameter.
+ONAP implementation requires this attribute.
+
+default
+++++++++
+
+
+.. req::
+    :id: R-90526
+    :target: VNF
+    :keyword: MUST
+
+    A VNF Heat Orchestration Template parameter
+    declaration **MUST** not contain the default attribute.
+
+.. req::
+    :id: R-26124
+    :target: VNF
+    :keyword: MUST
+
+    If a VNF Heat Orchestration Template parameter
+    requires a default value, it **MUST** be enumerated in the environment file.
+
+Note that the parameter attribute "default:" is an OpenStack
+optional attribute that declares the default value of the
+parameter. ONAP implementation prohibits the use of this attribute.
+
+hidden
++++++++
+
+
+.. req::
+    :id: R-32557
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template parameter
+    declaration **MAY** contain the attribute "hidden:".
+
+The parameter attribute "hidden:" is an OpenStack optional
+attribute that defines whether the parameters should be
+hidden when a user requests information about a stack
+created from the template. This attribute can be used
+to hide passwords specified as parameters.
+
+constraints
+++++++++++++
+
+The parameter attribute "constraints:" is an OpenStack optional
+attribute that defines a list of constraints to apply to the parameter.
+
+
+.. req::
+    :id: R-88863
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's parameter defined as
+    type "number" **MUST** have a parameter constraint of "range" or
+    "allowed_values" defined.
+
+.. req::
+    :id: R-40518
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's parameter defined as
+    type "string" **MAY** have a parameter constraint defined.
+
+.. req::
+    :id: R-96227
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's parameter defined as
+    type "json" **MAY** have a parameter constraint defined.
+
+.. req::
+    :id: R-79817
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's parameter defined as
+    type "comma_delimited_list" **MAY** have a parameter constraint defined.
+
+.. req::
+    :id: R-06613
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's parameter defined as
+    type "boolean" **MAY** have a parameter constraint defined.
+
+.. req::
+    :id: R-00011
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's Nested YAML files
+    parameter's **MUST NOT** have a parameter constraint defined.
+
+The constraints block of a parameter definition defines additional
+validation constraints that apply to the value of the parameter.
+The parameter values provided in the VNF Heat Orchestration Template
+are validated against the constraints at instantiation time.
+The stack creation fails if the parameter value doesn't comply to
+the constraints.
+
+The constraints are defined as a list with the following syntax
+
+.. code-block:: yaml
+
+  constraints:
+
+    <constraint type>: <constraint definition>
+
+    description: <constraint description>
+
+..
+
+**<constraint type>** Provides the type of constraint to apply.
+The list of OpenStack supported constraints can be found at
+https://docs.openstack.org/heat/latest/template_guide/hot_spec.html .
+
+**<constraint definition>** provides the actual constraint.
+The syntax and constraint is dependent of the <constraint type> used.
+
+**description** is an optional attribute that provides a description of the
+constraint. The text is presented to the user when the value the user
+defines violates the constraint. If omitted, a default validation
+message is presented to the user.
+
+Below is a brief overview of the "range" and "allowed values" constraints.
+For complete details on constraints, see
+https://docs.openstack.org/heat/latest/template_guide/hot_spec.html#parameter-constraints
+
+**range**
+
+range: The range constraint applies to parameters of type: number.
+It defines a lower and upper limit for the numeric value of the
+parameter. The syntax of the range constraint is
+
+.. code-block:: yaml
+
+    range: { min: <lower limit>, max: <upper limit> }
+
+..
+
+It is possible to define a range constraint with only a lower
+limit or an upper limit.
+
+**allowed_values**
+
+allowed_values: The allowed_values constraint applies to parameters of
+type \"string\" or type \"number\". It specifies a set of possible
+values for a parameter. At deployment time, the user-provided value
+for the respective parameter must match one of the elements of the
+list. The syntax of the allowed_values constraint is
+
+.. code-block:: yaml
+
+    allowed_values: [ <value>, <value>, ... ]
+
+    Alternatively, the following YAML list notation can be used
+
+    allowed_values:
+
+    - <value>
+
+    - <value>
+
+    - ...
+
+. .
+
+immutable
+++++++++++++
+
+
+.. req::
+    :id: R-22589
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template parameter declaration
+    **MAY** contain the attribute "immutable:".
+
+The parameter attribute \"immutable:\" is an OpenStack optional
+attribute that defines whether the parameter is updatable. A Heat
+Orchestration Template stack update fails if immutable is set to
+true and the parameter value is changed.  This attribute
+\"immutable:\" defaults to false.
+
+.. _resources:
+
+resources
+~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-23664
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration template **MUST** contain
+    the section "resources:".
+
+.. req::
+    :id: R-90152
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's "resources:"
+    section **MUST** contain the declaration of at least one resource.
+
+.. req::
+    :id: R-40551
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's Nested YAML files
+    **MAY** contain the section "resources:".
+
+Each resource is defined as a
+separate block in the resources section with the following syntax.
+
+.. code-block:: yaml
+
+  resources:
+
+    <resource ID>:
+
+      type: <resource type>
+
+      properties:
+
+        <property name>: <property value>
+
+      metadata:
+
+        <resource specific metadata>
+
+      depends_on: <resource ID or list of ID>
+
+      update_policy: <update policy>
+
+      deletion_policy: <deletion policy>
+
+      external_id: <external resource ID>
+
+      condition: <condition name or expression or boolean>
+
+
+
+resource ID
++++++++++++++
+
+
+.. req::
+    :id: R-75141
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's resource name
+    (i.e., <resource ID>) **MUST** only contain alphanumeric
+    characters and underscores ('_').
+
+.. req::
+    :id: R-16447
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's <resource ID> **MUST** be unique across all
+    Heat Orchestration Templates and all HEAT Orchestration Template
+    Nested YAML files that are used to create the VNF.
+
+Note that a VNF can be composed of one or more Heat Orchestration Templates.
+
+Note that OpenStack requires the <resource ID> to be unique to the
+Heat Orchestration Template and not unique across all Heat
+Orchestration Templates the compose the VNF.
+
+type
++++++
+
+The resource attribute \"type:\" is an OpenStack required
+attribute that defines the resource type, such as
+OS::Nova::Server or OS::Neutron::Port.
+
+The resource attribute \"type:\" may specify a VNF HEAT
+Orchestration Template Nested YAML file.
+
+
+.. req::
+    :id: R-53952
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's Resource
+    **MUST NOT** reference a HTTP-based resource definitions.
+
+.. req::
+    :id: R-71699
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's Resource
+    **MUST NOT** reference a HTTP-based Nested YAML file.
+
+properties
++++++++++++++
+
+The resource attribute \"properties:\" is an OpenStack optional
+attribute that provides a list of resource-specific properties.
+The property value can be provided in place, or via a function
+(e.g., `Intrinsic functions <https://docs.openstack.org/developer/heat/template_guide/hot_spec.html#hot-spec-intrinsic-functions>`__).
+
+
+.. req::
+    :id: R-10834
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF Heat Orchestration Template resource attribute
+    "property:" uses a nested "get_param", one level of nesting is
+    supported and the nested "get_param" **MUST** reference an index.
+
+metadata
+++++++++++
+
+The resource attribute \"metadata:\" is an OpenStack optional attribute.
+
+
+.. req::
+    :id: R-97199
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    resource **MUST** contain the attribute "metadata".
+
+Section 5.4 contains the OS::Nova::Server mandatory and optional metadata.
+
+depends_on
++++++++++++
+
+The resource attribute \"depends_on:\" is an OpenStack optional
+attribute.
+See `OpenStack documentation <https://docs.openstack.org/developer/heat/template_guide/hot_spec.html#hot-spec-resources-dependencies>`__
+for additional details.
+
+
+.. req::
+    :id: R-46968
+    :target: VNF
+    :keyword: MAY
+
+    VNF's Heat Orchestration Template's Resource **MAY**
+    declare the attribute "depends_on:".
+
+update_policy
+++++++++++++++
+
+
+.. req::
+    :id: R-63137
+    :target: VNF
+    :keyword: MAY
+
+    VNF's Heat Orchestration Template's Resource **MAY**
+    declare the attribute "update_policy:".
+
+deletion_policy
++++++++++++++++++++
+
+
+.. req::
+    :id: R-43740
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's Resource
+    **MAY** declare the attribute "deletion_policy:".
+
+If specified, the \"deletion_policy:\" attribute for resources
+allows values 'Delete', 'Retain', and 'Snapshot'.
+Starting with heat_template_version 2016-10-14, lowercase
+equivalents are also allowed.
+
+The default policy is to delete the physical resource when
+deleting a resource from the stack.
+
+external_id
+++++++++++++
+
+
+.. req::
+    :id: R-78569
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's Resouce **MAY**
+    declare the attribute "external_id:".
+
+This attribute allows for specifying the resource_id for an
+existing external (to the stack) resource. External resources
+cannot depend on other resources, but we allow other resources to
+depend on external resource. This attribute is optional.
+Note: when this is specified, properties will not be used for
+building the resource and the resource is not managed by Heat.
+This is not possible to update that attribute. Also,
+resource won't be deleted by heat when stack is deleted.
+
+
+condition
++++++++++++
+
+The resource attribute \"condition:\" is an OpenStack optional attribute.
+
+Support for the resource condition attribute was added
+in the Newton release of OpenStack.
+
+outputs
+~~~~~~~~~
+
+
+.. req::
+    :id: R-36982
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration template **MAY**
+    contain the "outputs:" section.
+
+This section allows for specifying output parameters
+available to users once the template has been instantiated. If the
+section is specified, it will need to adhere to specific requirements.
+See :ref:`Output Parameters` and
+:ref:`ONAP Output Parameter Names` for additional details.
+
+Environment File Format
+^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+The environment file is a yaml text file.
+(https://docs.openstack.org/developer/heat/template_guide/environment.html)
+
+
+.. req::
+    :id: R-86285
+    :target: VNF
+    :keyword: MUST
+
+    The VNF Heat Orchestration Template **MUST** have a corresponding
+    environment file, even if no parameters are required to be enumerated.
+
+The use of an environment file in OpenStack is optional.
+In ONAP, it is mandatory.
+
+
+.. req::
+    :id: R-03324
+    :target: VNF
+    :keyword: MUST
+
+    The VNF Heat Orchestration Template **MUST** contain the
+    "parameters" section in the environment file.
+
+.. req::
+    :id: R-68198
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration template's Environment File's
+    "parameters:" section **MAY** enumerate parameters.
+
+ONAP implementation requires the parameters section in the
+environmental file to be declared. The parameters section
+contains a list of key/value pairs.
+
+
+.. req::
+    :id: R-59930
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration template's Environment
+    File's **MAY** contain the "parameter_defaults:" section.
+
+The "parameter_defaults:" section contains default parameters
+that are passed to all template resources.
+
+
+.. req::
+    :id: R-46096
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration template's Environment File's
+    **MAY** contain the "encrypted_parameters:" section.
+
+The "encrypted_parameters:" section contains a list of encrypted parameters.
+
+
+.. req::
+    :id: R-24893
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration template's Environment File's
+    **MAY** contain the "event_sinks:" section.
+
+The "event_sinks:" section contains the list of endpoints that would
+receive stack events.
+
+
+.. req::
+    :id: R-42685
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration template's Environment File's
+    **MAY** contain the "parameter_merge_strategies:" section.
+
+The "parameter_merge_strategies:" section provides the merge strategies
+for merging parameters and parameter defaults from the environment file.
+
+
+.. req::
+    :id: R-67231
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration template's Environment File's **MUST NOT**
+    contain the "resource_registry:" section.
+
+ONAP implementation does not support the Environment File
+resource_registry section. The resource_registry section
+allows for the definition of custom resources.
+
+SDC Treatment of Environment Files
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Parameter values enumerated in the environment file are used by SDC as
+the default value. However, the SDC user may use the SDC GUI to
+overwrite the default values in the environment file.
+
+SDC generates a new environment file for distribution to MSO based on
+the uploaded environment file and the user provided GUI updates. The
+user uploaded environment file is discarded when the new file is
+created.
+
+ONAP has requirements for what parameters must be enumerated in the
+environment file and what parameter must not be enumerated in the
+environment file. See :ref:`Output Parameters` and
+:ref:`ONAP Heat Resource ID and Parameter Naming Convention` for more details.
+
diff --git a/docs/Chapter5/Heat/ONAP Heat Orchestration Templates: Overview.rst b/docs/Chapter5/Heat/ONAP Heat Orchestration Templates: Overview.rst
new file mode 100644
index 0000000..fd4f76a
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Orchestration Templates: Overview.rst
@@ -0,0 +1,542 @@
+.. 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 Orchestration Templates Overview:
+
+ONAP Heat Orchestration Templates Overview
+-----------------------------------------------
+
+ONAP supports a modular Heat Orchestration Template design pattern,
+referred to as *VNF Modularity.*
+
+ONAP VNF Modularity Overview
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+
+.. req::
+    :id: R-69663
+    :target: VNF
+    :keyword: MAY
+
+    A VNF **MAY** be composed from one or more Heat Orchestration
+    Templates, each of which represents a subset of the overall VNF.
+
+The Heat Orchestration Templates can be thought of a components or
+modules of the VNF and are referred to as "\ *VNF Modules*\ ".
+During orchestration, these modules are
+deployed incrementally to create the complete VNF.
+
+
+.. req::
+    :id: R-33132
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template **MAY** be
+
+       * a Base Module Heat Orchestration Template
+         (also referred to as a Base Module)
+
+       * an Incremental Module Heat Orchestration Template
+         (referred to as an Incremental Module)
+
+       * a Cinder Volume Module Heat Orchestration Template
+         (referred to as Cinder Volume Module).
+
+.. req::
+    :id: R-37028
+    :target: VNF
+    :keyword: MUST
+
+    The VNF **MUST** be composed of one "base" module.
+
+.. req::
+    :id: R-13196
+    :target: VNF
+    :keyword: MAY
+
+    A VNF **MAY** be composed of zero to many Incremental Modules.
+
+.. req::
+    :id: R-20974
+    :target: VNF
+    :keyword: MUST
+
+    The VNF **MUST** deploy the base module first, prior to
+    the incremental modules.
+
+.. req::
+    :id: R-28980
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's incremental module **MAY** be used for initial VNF
+    deployment only.
+
+.. req::
+    :id: R-86926
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's incremental module **MAY** be used for scale out only.
+
+A VNF's Incremental Module that is used for scale out is deployed
+sometime after initial VNF deployment to add capacity.
+
+
+.. req::
+    :id: R-91497
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's incremental module **MAY** be used for both deployment
+    and scale out.
+
+.. req::
+    :id: R-68122
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's incremental module **MAY** be deployed more than once,
+    either during initial VNF deployment and/or scale out.
+
+.. req::
+    :id: R-46119
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's Resource OS::Heat::CinderVolume
+    **MAY** be defined in a Base Module.
+
+.. req::
+    :id: R-90748
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's Resource OS::Heat::CinderVolume
+    **MAY** be defined in an Incremental Module.
+
+.. req::
+    :id: R-03251
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's Resource OS::Heat::CinderVolume
+    **MAY** be defined in a Cinder Volume Module.
+
+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 Virtual Machine
+(VM) (i.e., OS::Nova::Server) is deleted, allowing the volume to be reused
+on another instance (e.g., during a failover activity).
+
+.. req::
+    :id: R-11200
+    :target: VNF
+    :keyword: MUST
+
+    The VNF **MUST** keep the scope of a Cinder volume module,
+    when it exists, to be 1:1 with the VNF Base Module or Incremental Module.
+
+It is strongly recommended that Cinder Volumes be created in a Cinder Volume
+Module.
+
+.. req::
+    :id: R-38474
+    :target: VNF
+    :keyword: MUST
+
+    The VNF **MUST** have a corresponding environment file for a Base Module.
+
+.. req::
+    :id: R-81725
+    :target: VNF
+    :keyword: MUST
+
+    The VNF **MUST** have a corresponding environment file for an Incremental Module.
+
+.. req::
+    :id: R-53433
+    :target: VNF
+    :keyword: MUST
+
+    The VNF **MUST** have a corresponding environment file for a Cinder Volume Module.
+
+These concepts will be described in more detail throughout the document.
+This overview is provided to set the stage and help clarify the concepts
+that will be introduced.
+
+Nested Heat Orchestration Templates Overview
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+ONAP supports nested Heat Orchestration Templates per OpenStack
+specifications.
+
+
+.. req::
+    :id: R-36582
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Base Module **MAY** utilize nested heat.
+
+.. req::
+    :id: R-56721
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Incremental Module **MAY** utilize nested heat.
+
+.. req::
+    :id: R-30395
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Cinder Volume Module **MAY** utilize nested heat.
+
+Nested templates may be suitable for larger VNFs that contain many
+repeated instances of the same VM type(s). A common usage pattern is to
+create a nested template for each VM type along with its supporting
+resources. The Heat Orchestration Template may then reference these
+nested templates either statically (by repeated definition) or
+dynamically (via OS::Heat::ResourceGroup).
+
+See :ref:`Nested Heat Templates` for additional details.
+
+ONAP Heat Orchestration Template Filenames
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+In order to enable ONAP to understand the relationship between Heat
+files, the following Heat file naming convention must be utilized.
+
+In the examples below, <text> represents any alphanumeric string that
+must not contain any special characters and must not contain the word
+"base".
+
+
+.. req::
+    :id: R-87485
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's file extension **MUST**
+    be in the lower case format '.yaml' or '.yml'.
+
+.. req::
+    :id: R-56438
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's Nested YAML file extension
+    **MUST** be in the lower case format '.yaml' or '.yml'.
+
+.. req::
+    :id: R-74304
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's Environment file extension
+    **MUST** be in the lower case format '.env'.
+
+.. req::
+    :id: R-99646
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's YAML files (i.e, Heat Orchestration Template files and
+    Nested files) **MUST** have a unique name in the scope of the VNF.
+
+Base Modules
+~~~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-81339
+    :target: VNF
+    :keyword: MUST
+
+    A VNF Heat Orchestration Template's Base Module file name **MUST**
+    include 'base' in the filename and **MUST** match one of the following four
+    formats:
+
+       * 'base_<text>.y[a]ml'
+       * '<text>_base.y[a]ml'
+       * 'base.y[a]ml'
+       * '<text>_base_<text>'.y[a]ml
+
+    where 'base' is case insensitive and where '<text>'
+    **MUST** contain only alphanumeric characters
+    and underscores '_' and **MUST NOT** contain the case
+    insensitive word 'base'.
+
+.. req::
+    :id: R-91342
+    :target: VNF
+    :keyword: MUST
+
+    A VNF Heat Orchestration Template's Base Module's Environment File
+    **MUST** be named identical to the VNF Heat Orchestration Template's Base
+    Module with '.y[a]ml' replaced with '.env'.
+
+Incremental Modules
+~~~~~~~~~~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-87247
+    :target: VNF
+    :keyword: MUST
+
+    A VNF Heat Orchestration Template's Incremental Module file name
+    **MUST** contain only alphanumeric characters and underscores '_' and
+    **MUST NOT** contain the case insensitive word 'base'.
+
+.. req::
+    :id: R-94509
+    :target: VNF
+    :keyword: MUST
+
+    A VNF Heat Orchestration Template's Incremental Module's Environment
+    File **MUST** be named identical to the VNF Heat Orchestration Template's
+    Incremental Module with '.y[a]ml' replaced with '.env'.
+
+To clearly identify the incremental module, it is recommended to use the
+following naming options for modules:
+
+ -  module_<text>.y[a]ml
+
+ -  <text>_module.y[a]ml
+
+ -  module.y[a]ml
+
+ -  <text>_module_<text>.y[a]ml
+
+Cinder Volume Modules
+~~~~~~~~~~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-82732
+    :target: VNF
+    :keyword: MUST
+
+    A VNF Heat Orchestration Template's Cinder Volume Module **MUST** be
+    named identical to the base or incremental module it is supporting with
+    '_volume appended'
+
+.. req::
+    :id: R-31141
+    :target: VNF
+    :keyword: MUST
+
+    A VNF Heat Orchestration Template's Cinder Volume Module's Environment
+    File **MUST** be named identical to the VNF Heat Orchestration Template's
+    Cinder Volume Module with .y[a]ml replaced with '.env'.
+
+Nested Heat file
+~~~~~~~~~~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-76057
+    :target: VNF
+    :keyword: MUST
+
+    A VNF Heat Orchestration Template's Nested YAML file name **MUST**
+    contain only alphanumeric characters and underscores '_' and **MUST NOT**
+    contain the case insensitive word 'base'.
+
+.. req::
+    :id: R-70276
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF HEAT's Orchestration Nested Template's YAML file
+    name **MUST NOT** be in the format '{vm-type}.y[a]ml' where
+    '{vm-type}' is defined in the Heat Orchestration Template.
+
+Examples include
+
+ -  <text>.y[a]ml
+
+ -  nest_<text>.y[a]ml
+
+ -  <text>_nest.y[a]ml
+
+ -  nest.y[a]ml
+
+ -  <text>_nest_<text>.y[a]ml
+
+VNF Heat Orchestration Template's Nested YAML file does not have a
+corresponding environment files, per OpenStack specifications.
+
+.. _Output Parameters:
+
+Output Parameters
+^^^^^^^^^^^^^^^^^^^^^^
+
+The output parameters are parameters defined in the output section of a
+Heat Orchestration Template. The ONAP output parameters are subdivided
+into three categories:
+
+1. ONAP Base Module Output Parameters
+
+2. ONAP Volume Module Output Parameters
+
+3. ONAP Predefined Output Parameters.
+
+ONAP Base Module Output Parameters
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+ONAP Base Module Output Parameters are declared in the 'outputs:'' section of
+the VNF's Heat Orchestration Template's Base Module. A Base Module Output
+Parameter is available as an input parameter (i.e., declared in the
+'parameters:'' section) to all Incremental Modules in the VNF.
+
+A Base Module Output Parameter may be used as an input parameter in any
+incremental module in the VNF.  Note that the parameter is not
+available to other VNFs.
+
+
+.. req::
+    :id: R-52753
+    :target: VNF
+    :keyword: MUST
+
+    VNF's Heat Orchestration Template's Base Module's output parameter's
+    name and type **MUST** match the VNF's Heat Orchestration Template's
+    incremental Module's name and type unless the output parameter is of type
+    'comma_delimited_list', then the corresponding input parameter **MUST**
+    be declared as type 'json'.
+
+If the Output parameter has a comma_delimited_list value (e.g., a collection
+of UUIDs from a Resource Group), then the corresponding input parameter
+must be declared as type json and not a comma_delimited_list, which is
+actually a string value with embedded commas.
+
+
+.. req::
+    :id: R-22608
+    :target: VNF
+    :keyword: MUST NOT
+
+    When a VNF's Heat Orchestration Template's Base Module's output
+    parameter is declared as an input parameter in an Incremental Module,
+    the parameter attribute 'constraints:' **MUST NOT** be declared.
+
+Additional details on ONAP Base Module Output Parameters are provided in
+:ref:`ONAP Output Parameter Names` and ONAP VNF Modularity.
+
+ONAP Volume Module Output Parameters
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-89913
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's Cinder Volume Module Output
+    Parameter(s) **MUST** include the UUID(s) of the Cinder Volumes created in
+    template, while other Output Parameters **MAY** be included.
+
+A VNF's Heat Orchestration Template's Cinder Volume Module Output Parameter(s)
+are only available for the module (base or incremental) that the volume
+template is associated with.
+
+
+.. req::
+    :id: R-07443
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Templates' Cinder Volume Module Output
+    Parameter's name and type **MUST** match the input parameter name and type
+    in the corresponding Base Module or Incremental Module unless the Output
+    Parameter is of the type 'comma_delimited_list', then the corresponding input
+    parameter **MUST** be declared as type 'json'.
+
+If the Output parameter has a comma_delimited_list value (e.g., a collection
+of UUIDs from a Resource Group), then the corresponding input parameter must
+be declared as type json and not a comma_delimited_list, which is actually a
+string value with embedded commas.
+
+
+.. req::
+    :id: R-20547
+    :target: VNF
+    :keyword: MUST NOT
+
+    When an ONAP Volume Module Output Parameter is declared as an input
+    parameter in a base or an incremental module Heat Orchestration Template,
+    parameter constraints **MUST NOT** be declared.
+
+Additional details on ONAP Base Module Output Parameters are provided in
+:ref:`ONAP Output Parameter Names` and :ref:`ONAP Heat Cinder Volumes`.
+
+ONAP Predefined Output Parameters
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+ONAP will look for a small set of pre-defined Heat output parameters to
+capture resource attributes for inventory in ONAP. These output parameters
+are optional and currently only two parameters are supported. These output
+parameters are optional and are specified in
+:ref:`OAM Management IP Addresses`.
+
+Support of heat stack update
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+ONAP does not support the use of heat stack-update command for scaling
+(growth/de-growth).
+
+
+.. req::
+    :id: R-39349
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF Heat Orchestration Template **MUST NOT** be designed to
+    utilize the OpenStack 'heat stack-update' command for scaling
+    (growth/de-growth).
+
+.. req::
+    :id: R-43413
+    :target: VNF
+    :keyword: MUST
+
+    A VNF **MUST** utilize a modular Heat Orchestration Template
+    design to support scaling (growth/de-growth).
+
+Scope of a Heat Orchestration Template
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+
+.. req::
+    :id: R-59482
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template **MUST NOT** be VNF instance
+    specific or Cloud site specific.
+
+ONAP provides the instance specific parameter values to the Heat
+Orchestration Template at orchestration time.
+
+
+.. req::
+    :id: R-01896
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's parameter values that are
+    constant across all deployments **MUST** be declared in a Heat Orchestration
+    Template Environment File.
+
+
diff --git a/docs/Chapter5/Heat/ONAP Heat Post Orchestration & VNF Configuration.rst b/docs/Chapter5/Heat/ONAP Heat Post Orchestration & VNF Configuration.rst
new file mode 100644
index 0000000..f36dcfa
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Post Orchestration & VNF Configuration.rst
@@ -0,0 +1,21 @@
+.. 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 Post Orchestration & VNF Configuration:
+
+ONAP Heat Post Orchestration & VNF Configuration
+--------------------------------------------------
+
+Heat templates should contain a minimum amount of post-orchestration
+configuration data. For instance, *do not* embed complex user-data
+scripts in the template with large numbers of configuration parameters
+to the Heat template.
+
+-  VNFs may provide configuration APIs for use after VNF creation. Such
+   APIs will be invoked via application and/or SDN controllers.
+
+*Note:* It is important to follow this convention to the extent possible
+even in the short-term as of the long-term direction.
+
+
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Contrail Resource Parameters.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Contrail Resource Parameters.rst
new file mode 100644
index 0000000..3d06902
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Contrail Resource Parameters.rst
@@ -0,0 +1,449 @@
+.. 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.
+
+Contrail Resource Parameters
+----------------------------------------------------------------------
+
+ONAP requires the parameter names of certain Contrail Resources to
+follow specific naming conventions. This section provides these
+requirements.
+
+Contrail Network Parameters
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+Contrail based resources may require references to a Contrail network
+using the network FQDN.
+
+External Networks
+~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-02164
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    When a VNF's Heat Orchestration Template's Contrail resource
+    has a property that
+    references an external network that requires the network's
+    Fully Qualified Domain Name (FQDN), the property parameter
+
+       * **MUST** follow the format '{network-role}_net_fqdn'
+       * **MUST** be declared as type 'string'
+       * **MUST NOT** be enumerated in the NF's Heat Orchestration Template's
+         Environment File
+
+.. req::
+    :id: R-73228
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's parameter
+    '{network-role}_net_fqdn'
+    **MUST** be declared as type 'string'.
+
+.. req::
+    :id: R-92193
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's parameter
+    '{network-role}_net_fqdn'
+    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
+    Environment File.
+
+*Example: Parameter declaration*
+
+.. code-block:: yaml
+
+  parameters:
+    {network-role}_net_fqdn:
+      type: string
+      description: Contrail FQDN for the {network-role} network
+
+*Example: Contrail Resource OS::ContrailV2::VirtualMachineInterface
+Reference to a Network FQDN.*
+
+In this example, the {network-role} has been defined as oam to represent
+an oam network and the {vm-type} has been defined as fw for firewall.
+The Contrail resource OS::ContrailV2::VirtualMachineInterface property
+virtual_network_refs references a contrail network FQDN.
+
+.. code-block:: yaml
+
+  fw_0_oam_vmi_0:
+    type: OS::ContrailV2::VirtualMachineInterface
+    properties:
+      name:
+        str_replace:
+          template: VM_NAME_virtual_machine_interface_1
+          params:
+            VM_NAME: { get_param: fw_name_0 }
+      virtual_machine_interface_properties:
+        virtual_machine_interface_properties_service_interface_type: {
+        get_param: oam_protected_interface_type }
+      virtual_network_refs:
+        - get_param: oam_net_fqdn
+      security_group_refs:
+        - get_param: fw_sec_grp_id
+
+
+Interface Route Table Prefixes for Contrail InterfaceRoute Table
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+.. req::
+    :id: R-28222
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF's Heat Orchestration Template
+    'OS::ContrailV2::InterfaceRouteTable' resource
+    'interface_route_table_routes' property
+    'interface_route_table_routes_route' map property parameter name
+    **MUST** follow the format
+
+       * {vm-type}_{network-role}_route_prefixes
+
+.. req::
+    :id: R-19756
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF's Heat Orchestration Template
+    'OS::ContrailV2::InterfaceRouteTable' resource
+    'interface_route_table_routes' property
+    'interface_route_table_routes_route' map property parameter
+    '{vm-type}_{network-role}_route_prefixes'
+    **MUST** be defined as type 'json'.
+
+.. req::
+    :id: R-76682
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF's Heat Orchestration Template
+    'OS::ContrailV2::InterfaceRouteTable' resource
+    'interface_route_table_routes' property
+    'interface_route_table_routes_route' map property parameter
+    '{vm-type}_{network-role}_route_prefixes'
+    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
+    Environment File.
+
+The parameter '{vm-type}_{network-role}_route_prefixes'
+supports IP addresses in the format:
+
+1. Host IP Address (e.g., 10.10.10.10)
+
+2. CIDR Notation format (e.g., 10.0.0.0/28)
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+    {vm-type}_{network-role}_route_prefixes:
+      type: json
+      description: JSON list of Contrail Interface Route Table route prefixes
+
+*Example:*
+
+.. code-block:: yaml
+
+  parameters:
+    vnf_name:
+      type: string
+      description: Unique name for this VF instance
+    fw_oam_route_prefixes:
+      type: json
+      description: prefix for the ServiceInstance InterfaceRouteTable
+    int_fw_dns_trusted_interface_type:
+      type: string
+      description: service_interface_type for ServiceInstance
+
+  resources:
+    <resource name>:
+      type: OS::ContrailV2::InterfaceRouteTable
+      depends_on: [resource name of OS::ContrailV2::ServiceInstance]
+      properties:
+        name:
+          str_replace:
+            template: VNF_NAME_interface_route_table
+            params:
+              VNF_NAME: { get_param: vnf_name }
+        interface_route_table_routes:
+          interface_route_table_routes_route: { get_param: fw_oam_route_prefixes }
+        service_instance_refs:
+          - get_resource: <resource name of OS::ContrailV2::ServiceInstance>
+        service_instance_refs_data:
+          - service_instance_refs_data_interface_type: { get_param: oam_interface_type }
+
+Resource OS::ContrailV2::InstanceIp
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+The Contrail resource OS::ContrailV2::InstanceIp has two properties
+that parameters **MUST** follow an explicit naming convention.  The
+properties are 'instance_ip_address' and 'subnet_uuid'.
+
+*Example OS::ContrailV2::InstanceIp Resource*
+
+.. code-block:: yaml
+
+  <resource ID>:
+    type: OS::ContrailV2::InstanceIp
+    properties:
+      name: { get_param: name }
+      fq_name: { get_param: fq_name }
+      display_name: { get_param: display_name }
+      secondary_ip_tracking_ip:
+        {
+          secondary_ip_tracking_ip_ip_prefix: { get_param: secondary_ip_tracking_ip_ip_prefix },
+          secondary_ip_tracking_ip_ip_prefix_len: { get_param: secondary_ip_tracking_ip_ip_prefix_len },
+        }
+      instance_ip_address: { get_param: instance_ip_address }
+      instance_ip_mode: { get_param: instance_ip_mode }
+      subnet_uuid: { get_param: subnet_uuid }
+      instance_ip_family: { get_param: instance_ip_family }
+      annotations:
+        {
+          annotations_key_value_pair:
+            [{
+              annotations_key_value_pair_key: { get_param: annotations_key_value_pair_key },
+              annotations_key_value_pair_value: { get_param: annotations_key_value_pair_value },
+            }],
+        }
+      instance_ip_local_ip: { get_param: instance_ip_local_ip }
+      instance_ip_secondary: { get_param: instance_ip_secondary }
+      physical_router_refs: [{ get_param: physical_router_refs }]
+      virtual_machine_interface_refs: [{ get_param: virtual_machine_interface_refs }]
+      virtual_network_refs: [{ get_param: virtual_network_refs }]
+
+Resource OS::ContrailV2::InstanceIp Property instance_ip_address
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+A VNF's Heat Orchestration Templates resource 'OS::ContrailV2::InstanceIp'
+property 'instance_ip_address' parameter
+**MUST** follow the same requirements
+that apply to the resource 'OS::Neutron' property 'fixed_ips' map
+property 'ip_address' parameter.
+
+*Example: Contrail Resource OS::ContrailV2::InstanceIp, Property
+instance_ip_address*
+
+The property instance_ip_address uses the same parameter naming
+convention as the property fixed_ips and Map Property ip_address in
+OS::Neutron::Port. The resource is assigning an ONAP SDN-C Assigned IP
+Address. The {network-role} has been defined as oam_protected to
+represent an oam protected network and the {vm-type} has been defined as
+fw for firewall.
+
+.. code-block:: yaml
+
+  fw_0_oam_protected_vmi_0_IP_0:
+    type: OS::ContrailV2::InstanceIp
+    depends_on:
+      - fw_0_oam_protected_vmi_0
+    properties:
+      virtual_machine_interface_refs:
+        - get_resource: fw_0_oam_protected_vmi_0
+      virtual_network_refs:
+        - get_param: oam_protected_net_fqdn
+      instance_ip_address: { get_param: [fw_oam_protected_ips, get_param: index ] }
+
+Resource OS::ContrailV2::InstanceIp Property subnet_uuid
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+A VNF's Heat Orchestration Templates resource 'OS::ContrailV2::InstanceIp'
+property 'subnet_uuid' parameter
+**MUST** follow the same requirements
+that apply to the resource 'OS::Neutron' property 'fixed_ips' map
+property 'subnet'/'subnet_id' parameter.
+
+*Example: Contrail Resource OS::ContrailV2::InstanceIp, Property
+subnet_uuid*
+
+The property instance_ip_address uses the same parameter naming
+convention as the property fixed_ips and Map Property subnet_id in
+OS::Neutron::Port. The resource is assigning a Cloud Assigned IP
+Address. The {network-role} has been defined as "oam_protected" to
+represent an oam protected network and the {vm-type} has been defined as
+"fw" for firewall.
+
+.. code-block:: yaml
+
+  fw_0_oam_protected_vmi_0_IP_0:
+    type: OS::ContrailV2::InstanceIp
+    depends_on:
+    - fw_0_oam_protected_vmi_0
+    properties:
+      virtual_machine_interface_refs:
+        - get_resource: fw_0_oam_protected_vmi_0
+      virtual_network_refs:
+        - get_param: oam_protected_net_fqdn
+      subnet_uuid: { get_param: oam_protected_subnet_id }
+
+OS::ContrailV2::VirtualMachineInterface Property virtual_machine_interface_allowed_address_pairs
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+A VNF's Heat Orchestration Templates resource
+'OS::ContrailV2::VirtualMachineInterface' map property,
+virtual_machine_interface_allowed_address_pairs,
+virtual_machine_interface_allowed_address_pairs_allowed_address_pair,
+virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip,
+virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip_ip_prefix
+parameter **MUST** follow the same requirements that apply to the
+resource 'OS::Neutron::Port' property
+'allowed_address_pairs', map property 'ip_address' parameter.
+
+*Example OS::ContrailV2::VirtualMachineInterface*
+
+.. code-block:: yaml
+
+  <resource ID>:
+    type: OS::ContrailV2::VirtualMachineInterface
+    properties:
+      name: { get_param: name }
+      fq_name: { get_param: fq_name }
+      ecmp_hashing_include_fields:
+        {
+          ecmp_hashing_include_fields_hashing_configured: { get_param: ecmp_hashing_include_fields_hashing_configured },
+          ecmp_hashing_include_fields_source_ip: { get_param: ecmp_hashing_include_fields_source_ip },
+          ecmp_hashing_include_fields_destination_ip: { get_param: ecmp_hashing_include_fields_destination_ip },
+          ecmp_hashing_include_fields_ip_protocol: { get_param: ecmp_hashing_include_fields_ip_protocol },
+          ecmp_hashing_include_fields_source_port: { get_param: ecmp_hashing_include_fields_source_port },
+          ecmp_hashing_include_fields_destination_port: { get_param: ecmp_hashing_include_fields_destination_port },
+        }
+      virtual_machine_interface_host_routes:
+        {
+          virtual_machine_interface_host_routes_route:
+            [{
+              virtual_machine_interface_host_routes_route_prefix: { get_param: virtual_machine_interface_host_routes_route_prefix },
+              virtual_machine_interface_host_routes_route_next_hop: { get_param: virtual_machine_interface_host_routes_route_next_hop },
+              virtual_machine_interface_host_routes_route_next_hop_type: { get_param: virtual_machine_interface_host_routes_route_next_hop_type },
+              virtual_machine_interface_host_routes_route_community_attributes:
+                {
+                  virtual_machine_interface_host_routes_route_community_attributes_community_attribute: [{ get_param: virtual_machine_interface_host_routes_route_community_attributes_community_attribute }],
+                },
+            }],
+        }
+      virtual_machine_interface_mac_addresses:
+        {
+          virtual_machine_interface_mac_addresses_mac_address: [{ get_param: virtual_machine_interface_mac_addresses_mac_address }],
+        }
+      virtual_machine_interface_dhcp_option_list:
+        {
+          virtual_machine_interface_dhcp_option_list_dhcp_option:
+            [{
+              virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_name: { get_param: virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_name },
+              virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_value: { get_param: virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_value },
+              virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_value_bytes: { get_param: virtual_machine_interface_dhcp_option_list_dhcp_option_dhcp_option_value_bytes },
+            }],
+        }
+      virtual_machine_interface_bindings:
+        {
+          virtual_machine_interface_bindings_key_value_pair:
+            [{
+              virtual_machine_interface_bindings_key_value_pair_key: { get_param: virtual_machine_interface_bindings_key_value_pair_key },
+              virtual_machine_interface_bindings_key_value_pair_value: { get_param: virtual_machine_interface_bindings_key_value_pair_value },
+            }],
+        }
+      virtual_machine_interface_disable_policy: { get_param: virtual_machine_interface_disable_policy }
+      virtual_machine_interface_allowed_address_pairs:
+        {
+          virtual_machine_interface_allowed_address_pairs_allowed_address_pair:
+            [{
+              virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip:
+                {
+                  virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip_ip_prefix: { get_param: virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip_ip_prefix },
+                  virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip_ip_prefix_len: { get_param: virtual_machine_interface_allowed_address_pairs_allowed_address_pair_ip_ip_prefix_len },
+                },
+              virtual_machine_interface_allowed_address_pairs_allowed_address_pair_mac: { get_param: virtual_machine_interface_allowed_address_pairs_allowed_address_pair_mac },
+              virtual_machine_interface_allowed_address_pairs_allowed_address_pair_address_mode: { get_param: virtual_machine_interface_allowed_address_pairs_allowed_address_pair_address_mode },
+            }],
+        }
+      annotations:
+        {
+          annotations_key_value_pair:
+            [{
+              annotations_key_value_pair_key: { get_param: annotations_key_value_pair_key },
+              annotations_key_value_pair_value: { get_param: annotations_key_value_pair_value },
+            }],
+        }
+      virtual_machine_interface_fat_flow_protocols:
+        {
+          virtual_machine_interface_fat_flow_protocols_fat_flow_protocol:
+            [{
+              virtual_machine_interface_fat_flow_protocols_fat_flow_protocol_protocol: { get_param: virtual_machine_interface_fat_flow_protocols_fat_flow_protocol_protocol },
+              virtual_machine_interface_fat_flow_protocols_fat_flow_protocol_port: { get_param: virtual_machine_interface_fat_flow_protocols_fat_flow_protocol_port },
+            }],
+        }
+      virtual_machine_interface_device_owner: { get_param: virtual_machine_interface_device_owner }
+      port_security_enabled: { get_param: port_security_enabled }
+      virtual_machine_interface_properties:
+        {
+          virtual_machine_interface_properties_service_interface_type: { get_param: virtual_machine_interface_properties_service_interface_type },
+          virtual_machine_interface_properties_interface_mirror:
+            {
+              virtual_machine_interface_properties_interface_mirror_traffic_direction: { get_param: virtual_machine_interface_properties_interface_mirror_traffic_direction },
+              virtual_machine_interface_properties_interface_mirror_mirror_to:
+                {
+                  virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_name: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_name },
+                  virtual_machine_interface_properties_interface_mirror_mirror_to_encapsulation: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_encapsulation },
+                  virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_ip_address: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_ip_address },
+                  virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_mac_address: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_analyzer_mac_address },
+                  virtual_machine_interface_properties_interface_mirror_mirror_to_routing_instance: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_routing_instance },
+                  virtual_machine_interface_properties_interface_mirror_mirror_to_udp_port: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_udp_port },
+                  virtual_machine_interface_properties_interface_mirror_mirror_to_juniper_header: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_juniper_header },
+                  virtual_machine_interface_properties_interface_mirror_mirror_to_nh_mode: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_nh_mode },
+                  virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header:
+                    {
+                      virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vtep_dst_ip_address: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vtep_dst_ip_address },
+                      virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vtep_dst_mac_address: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vtep_dst_mac_address },
+                      virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vni: { get_param: virtual_machine_interface_properties_interface_mirror_mirror_to_static_nh_header_vni },
+                    },
+                },
+            },
+          virtual_machine_interface_properties_local_preference: { get_param: virtual_machine_interface_properties_local_preference },
+          virtual_machine_interface_properties_sub_interface_vlan_tag: { get_param: virtual_machine_interface_properties_sub_interface_vlan_tag },
+        }
+      display_name: { get_param: display_name }
+      service_health_check_refs: [{ get_param: service_health_check_refs }]
+      routing_instance_refs: [{ get_param: routing_instance_refs }]
+      routing_instance_refs_data:
+        [{
+          routing_instance_refs_data_direction: { get_param: routing_instance_refs_data_direction },
+          routing_instance_refs_data_vlan_tag: { get_param: routing_instance_refs_data_vlan_tag },
+          routing_instance_refs_data_src_mac: { get_param: routing_instance_refs_data_src_mac },
+          routing_instance_refs_data_dst_mac: { get_param: routing_instance_refs_data_dst_mac },
+          routing_instance_refs_data_mpls_label: { get_param: routing_instance_refs_data_mpls_label },
+          routing_instance_refs_data_service_chain_address: { get_param: routing_instance_refs_data_service_chain_address },
+          routing_instance_refs_data_ipv6_service_chain_address: { get_param: routing_instance_refs_data_ipv6_service_chain_address },
+          routing_instance_refs_data_protocol: { get_param: routing_instance_refs_data_protocol },
+        }]
+      security_group_refs: [{ get_param: security_group_refs }]
+      physical_interface_refs: [{ get_param: physical_interface_refs }]
+      port_tuple_refs: [{ get_param: port_tuple_refs }]
+      interface_route_table_refs: [{ get_param: interface_route_table_refs }]
+      virtual_machine_interface_refs: [{ get_param: virtual_machine_interface_refs }]
+      virtual_network_refs: [{ get_param: virtual_network_refs }]
+      virtual_machine_refs: [{ get_param: virtual_machine_refs }]
+      qos_config_refs: [{ get_param: qos_config_refs }]
+      virtual_machine: { get_param: virtual_machine }
+      project: { get_param: project }
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Neutron Parameters.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Neutron Parameters.rst
new file mode 100644
index 0000000..049967e
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Neutron Parameters.rst
@@ -0,0 +1,1749 @@
+.. 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.
+
+Resource: OS::Neutron::Port - Parameters
+-------------------------------------------------
+
+The resource OS::Neutron::Port is for managing Neutron ports.
+
+(See https://docs.openstack.org/developer/heat/template_guide/openstack.html#OS::Neutron::Port)
+
+Introduction
+^^^^^^^^^^^^^
+
+Four properties of the resource OS::Neutron::Port that must follow the
+ONAP parameter naming convention. The four properties are:
+
+1. network
+2. fixed_ips, ip_address
+3. fixed_ips, subnet_id or fixed_ips, subnet
+
+  * Note that in many examples in this document fixed_ips, subnet_id is used.
+
+4. allowed_address_pairs, ip_address
+
+Below is a generic example. Note that for some parameters
+comma_delimited_list are supported in addition to String.
+
+.. code-block:: yaml
+
+  resources:
+
+  ...
+
+  <resource ID>:
+    type: OS::Neutron::Port
+    properties:
+      allowed_address_pairs: [{"ip_address": String, "mac_address": String},
+      {"ip_address": String, "mac_address": String}, ...]
+      fixed_ips: [{"ip_address": String, "subnet_id": String, "subnet":
+      String}, {"ip_address": String, "subnet_id": String, "subnet": String},
+      ...]
+      network: String
+
+The values associated with these properties may reference an external
+network or internal network. External networks and internal
+networks are defined in :ref:`ONAP Heat Networking`.
+
+When the OS::Neutron::Port is attaching to an external network, all
+property values are parameters that are retrieved via the intrinsic
+function 'get_param'.
+
+When the OS::Neutron::Port is attaching to an internal network, a
+property value maybe retrieved via the intrinsic
+function 'get_param', 'get_resource', or 'get_attr'.
+
+This will be described in the forth coming sections.
+
+Items to Note
+~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-93272
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF **MAY** have one or more ports connected to a unique
+    external network. All VNF ports connected to the unique external
+    network **MUST** have Cloud Assigned IP Addresses
+    or **MUST** have ONAP SDN-C assigned IP addresses.
+
+.. req::
+    :id: R-13841
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF **MAY** have one or more ports connected to a unique
+    internal network. All VNF ports connected to the unique internal
+    network **MUST** have Cloud Assigned IP Addresses
+    or **MUST** have statically assigned IP addresses.
+
+.. req::
+    :id: R-07577
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If the VNF's ports connected to a unique network (internal or external)
+    and the port's IP addresses are Cloud Assigned IP Addresses,
+    all the IPv4 Addresses **MUST** be from
+    the same subnet and all the IPv6 Addresses **MUST** be from the
+    same subnet.
+
+.. req::
+    :id: R-45602
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF's Port is attached to a network (internal or external)
+    and the port's IP addresses are Cloud Assigned by OpenStack's DHCP
+    Service, the 'OS::Neutron::Port' Resource's
+
+       * property 'fixed_ips' map property 'ip_address' **MUST NOT** be used
+       * property 'fixed_ips' map property 'subnet'/'subnet_id' **MAY** be used
+
+.. req::
+    :id: R-63956
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If the VNF's ports connected to a unique external network
+    and the port's IP addresses are ONAP SDN-C assigned IP Addresses,
+    the IPv4 Addresses **MAY** be from different subnets and the IPv6
+    Addresses **MAY** be from different subnets.
+
+.. req::
+    :id: R-48880
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF's Port is attached to an external network and the port's
+    IP addresses are assigned by ONAP's SDN-Controller,
+    the 'OS::Neutron::Port' Resource's
+
+       * property 'fixed_ips' map property 'ip_address' **MUST** be used
+       * property 'fixed_ips' map property 'subnet'/'subnet_id' **MUST NOT** be used
+
+.. req::
+    :id: R-18001
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If the VNF's ports connected to a unique internal network
+    and the port's IP addresses are statically assigned IP Addresses,
+    the IPv4 Addresses **MAY** be from different subnets and the
+    IPv6 Addresses **MAY** be from different subnets.
+
+.. req::
+    :id: R-70964
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF's Port is attached to an internal network and the port's
+    IP addresses are statically assigned by the VNF's Heat Orchestration\
+    Template (i.e., enumerated in the Heat Orchestration Template's
+    environment file), the 'OS::Neutron::Port' Resource's
+
+       * property 'fixed_ips' map property 'ip_address' **MUST** be used
+       * property 'fixed_ips' map property 'subnet'/'subnet_id'
+         **MUST NOT** be used
+
+Property: network
+^^^^^^^^^^^^^^^^^^
+
+The Resource 'OS::Neutron::Port' property 'network' determines what network
+the port is attached to.
+
+
+.. req::
+    :id: R-18008
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
+    property 'network' parameter **MUST** be declared as type: 'string'.
+
+.. req::
+    :id: R-62983
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
+    is attaching to an external network, the 'network' parameter name **MUST**
+
+    - follow the naming convention '{network-role}_net_id' if the Neutron
+      network UUID value is used to reference the network
+    - follow the naming convention '{network-role}_net_name' if the OpenStack
+      network name is used to reference the network.
+
+    where '{network-role}' is the network-role of the external network and
+    a 'get_param' **MUST** be used as the intrinsic function.
+
+.. req::
+    :id: R-86182
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
+    is attaching to an internal network, and the internal network is created in a different
+    Heat Orchestration Template than the 'OS::Neutron::Port', the 'network'
+    parameter name **MUST**
+
+    - follow the naming convention 'int\_{network-role}_net_id' if the Neutron
+      network UUID value is used to reference the network
+    - follow the naming convention 'int\_{network-role}_net_name' if the
+      OpenStack network name in is used to reference the network.
+
+    where '{network-role}' is the network-role of the internal network and a 'get_param' **MUST** be used as the intrinsic function.
+
+In Requirement :need:`R-86182`, the internal network is created in the VNF's
+Base Module (Heat Orchestration Template) and the parameter name is
+declared in the Base Module's outputs' section.
+The output parameter name will be declared as a parameter in the
+'parameters' section of the incremental module.
+
+
+.. req::
+    :id: R-93177
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's
+    Resource 'OS::Neutron::Port' is attaching to an internal
+    network, and the internal network is created in the same Heat
+    Orchestration Template than the 'OS::Neutron::Port', the 'network'
+    parameter name **MUST** obtain the UUID of the internal network
+    by using the intrinsic function 'get_resource' or 'get_attr'
+    and referencing the Resource ID of the internal network.
+
+.. req::
+    :id: R-29872
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource 'OS::Nova::Server'
+    property 'network' parameter **MUST NOT** be enumerated in the Heat
+    Orchestration Template's Environment File.
+
+The parameter values for external networks are provided by ONAP
+to the VNF's Heat Orchestration Template at orchestration time.
+
+The parameter values for internal networks created in the VNF's Base Module
+Heat Orchestration Template
+are provided to the VNF's Incremental Module Heat Orchestration Template
+at orchestration time.
+
+*Example Parameter Definition of External Networks*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {network-role}_net_id:
+      type: string
+      description: Neutron UUID for the external {network-role} network
+
+    {network-role}_net_name:
+      type: string
+      description: Neutron name for the external {network-role} network
+
+
+*Example Parameter Definition of Internal Networks in an Incremental Module*
+
+.. code-block:: yaml
+
+  parameters:
+
+    int_{network-role}_net_id:
+      type: string
+      description: Neutron UUID for the internal int_{network-role} network
+
+    int_{network-role}_net_name:
+      type: string
+      description: Neutron name for the internal int_{network-role} network
+
+Property: fixed_ips, Map Property: ip_address
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+The resource 'OS::Neutron::Port' property 'fixed_ips'
+map property 'ip_address'
+is used to assign one IPv4 or IPv6
+addresses to port.
+
+One 'OS::Neutron::Port' resource may assign one or more
+IPv4 and/or IPv6 addresses.
+
+
+.. req::
+    :id: R-34037
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's resource 'OS::Neutron::Port'
+    property 'fixed_ips' map property 'ip_address' parameter **MUST**
+    be declared as either type 'string' or type 'comma_delimited_list'.
+
+.. req::
+    :id: R-40971
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' is attaching to an external network, and an IPv4
+    address is assigned using the property 'fixed_ips' map property
+    'ip_address' and the parameter type is defined
+    as a string, the parameter name **MUST** follow the naming
+    convention
+      - '{vm-type}_{network-role}\_ip\_{index}'
+
+    where
+
+      - '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
+      - '{network-role}' is the {network-role} of the external network
+      - the value for {index} must start at zero (0) and increment by one
+
+.. req::
+    :id: R-39841
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
+    property 'fixed_ips' map property 'ip_address' parameter
+    '{vm-type}_{network-role}_ip_{index}' **MUST NOT** be enumerated in the
+    VNF's Heat Orchestration Template's Environment File.
+
+ONAP's SDN-Controller assigns the IP Address and ONAP provides
+the value at orchestration to the Heat Orchestration Template.
+
+*Example External Network IPv4 Address string Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {vm-type}_{network-role}_ip_{index}:
+      type: string
+      description: Fixed IPv4 assignment for {vm-type} VM {index} on the{network-role} network
+
+
+.. req::
+    :id: R-04697
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
+    is attaching to an external network, and an IPv4 address is assigned using
+    the property 'fixed_ips' map property 'ip_address' and the parameter type
+    is defined as a comma_delimited_list, the parameter name **MUST** follow the
+    naming convention
+
+      * '{vm-type}_{network-role}_ips',
+
+    where
+
+      * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
+      * '{network-role}' is the {network-role} of the external network
+
+.. req::
+    :id: R-98905
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port'
+    property 'fixed_ips' map property 'ip_address' parameter
+    '{vm-type}_{network-role}_ips' **MUST NOT** be enumerated in the VNF's
+    Heat Orchestration Template's Environment File.
+
+ONAP's SDN-Controller assigns the IP Address and ONAP provides
+the value at orchestration to the Heat Orchestration Template.
+
+*Example External Network IPv4 Address comma_delimited_list
+Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {vm-type}_{network-role}_ips:
+      type: comma_delimited_list
+      description: Fixed IPv4 assignments for {vm-type} VMs on the {network-role} network
+
+
+.. req::
+    :id: R-71577
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' is attaching to an external network, and an IPv6 address
+    is assigned using the property 'fixed_ips' map property 'ip_address' and
+    the parameter type is defined as a string, the parameter name **MUST** follow
+    the naming convention
+
+      * '{vm-type}_{network-role}_v6_ip_{index}'
+
+    where
+
+      * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
+      * '{network-role}' is the {network-role} of the external network
+      * the value for {index} must start at zero (0) and increment by one
+
+.. req::
+    :id: R-87123
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
+    parameter '{vm-type}_{network-role}_v6_ip_{index}'
+    **MUST NOT** be enumerated in the VNF's Heat Orchestration
+    Template's Environment File.
+
+ONAP's SDN-Controller assigns the IP Address and ONAP provides
+the value at orchestration to the Heat Orchestration Template.
+
+*Example External Network IPv6 Address string Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {vm-type}_{network-role}_v6_ip_{index}:
+      type: string
+      description: Fixed IPv6 assignment for {vm-type} VM {index} on the {network-role} network
+
+
+.. req::
+    :id: R-23503
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' is attaching to an external network, and an IPv6
+    address is assigned using the property 'fixed_ips' map property 'ip_address'
+    and the parameter type is defined as a comma_delimited_list, the parameter
+    name **MUST** follow the naming convention
+
+      * '{vm-type}_{network-role}_v6_ips'
+
+    where
+
+      * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
+      * '{network-role}' is the {network-role} of the external network
+
+.. req::
+    :id: R-93030
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
+    parameter '{vm-type}_{network-role}_v6_ips' **MUST NOT** be enumerated in the
+    VNF's Heat Orchestration Template's Environment File.
+
+ONAP's SDN-Controller assigns the IP Address and ONAP provides
+the value at orchestration to the Heat Orchestration Template.
+
+*Example External Network IPv6 Address comma_delimited_list Parameter
+Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {vm-type}_{network-role}_v6_ips:
+      type: comma_delimited_list
+      description: Fixed IPv6 assignments for {vm-type} VMs on the {network-role} network
+
+
+.. req::
+    :id: R-78380
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' is attaching to an internal network, and an IPv4 address
+    is assigned using the property 'fixed_ips' map property 'ip_address' and
+    the parameter type is defined as a string, the parameter name **MUST** follow
+    the naming convention
+
+       * '{vm-type}\_int\_{network-role}\_ip\_{index}'
+
+    where
+
+       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
+       * '{network-role}' is the {network-role} of the internal network
+       * the value for {index} must start at zero (0) and increment by one
+
+.. req::
+    :id: R-28795
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
+    parameter '{vm-type}\_int\_{network-role}\_ip\_{index}' **MUST** be enumerated
+    in the VNF's Heat Orchestration Template's Environment File.
+
+The IP address is local to the VNF's internal network and is (re)used
+in every VNF spin up, thus the constant value is declared in the VNF's
+Heat Orchestration Template's Environment File.
+
+*Example Internal Network IPv4 Address string Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {vm-type}_int_{network-role}_ip_{index}:
+      type: string
+      description: Fixed IPv4 assignment for {vm-type} VM {index} on the int_{network-role} network
+
+
+.. req::
+    :id: R-85235
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' is attaching to an internal network, and an IPv4
+    address is assigned using the property 'fixed_ips' map property 'ip_address'
+    and the parameter type is defined as a comma_delimited_list, the parameter
+    name **MUST** follow the naming convention
+
+       * '{vm-type}\_int\_{network-role}_ips'
+
+    where
+
+       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
+       * '{network-role}' is the {network-role} of the internal network
+
+.. req::
+    :id: R-90206
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
+    parameter '{vm-type}\_int\_{network-role}_int_ips' **MUST** be enumerated in
+    the VNF's Heat Orchestration Template's Environment File.
+
+The IP address is local to the VNF's internal network and is (re)used
+in every VNF spin up, thus the constant value is declared in the VNF's
+Heat Orchestration Template's Environment File.
+
+.. code-block:: yaml
+
+  parameters:
+
+    {vm-type}_int_{network-role}_ips:
+      type: comma_delimited_list
+      description: Fixed IPv4 assignments for {vm-type} VMs on the int_{network-role} network
+
+
+.. req::
+    :id: R-27818
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' is attaching to an internal network, and an IPv6 address
+    is assigned using the property 'fixed_ips' map property 'ip_address' and
+    the parameter type is defined as a string, the parameter name **MUST** follow
+    the naming convention
+
+       * '{vm-type}\_int\_{network-role}\_v6\_ip\_{index}'
+
+    where
+
+       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
+       * '{network-role}' is the {network-role} of the internal network
+       * the value for {index} must start at zero (0) and increment by one
+
+.. req::
+    :id: R-97201
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
+    parameter '{vm-type}\_int\_{network-role}\_v6\_ip\_{index}'
+    **MUST** be enumerated in the VNF's Heat Orchestration
+    Template's Environment File.
+
+The IP address is local to the VNF's internal network and is (re)used
+in every VNF spin up, thus the constant value is declared in the VNF's
+Heat Orchestration Template's Environment File.
+
+*Example Internal Network IPv6 Address string Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {vm-type}_int_{network-role}_v6_ip_{index}:
+      type: string
+      description: Fixed IPv6 assignment for {vm-type} VM {index} on the int_{network-role} network
+
+
+.. req::
+    :id: R-29765
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' is attaching to an internal network, and an IPv6
+    address is assigned using the property 'fixed_ips' map property 'ip_address'
+    and the parameter type is defined as a comma_delimited_list, the parameter
+    name **MUST** follow the naming convention
+
+       * '{vm-type}\_int\_{network-role}_v6_ips'
+
+    where
+
+       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
+       * '{network-role}' is the {network-role} of the internal network
+
+*Example Internal Network IPv6 Address comma_delimited_list Parameter
+Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {vm-type}_int_{network-role}_v6_ips:
+      type: comma_delimited_list
+      description: Fixed IPv6 assignments for {vm-type} VMs on the int_{network-role} network
+
+
+.. req::
+    :id: R-98569
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
+    parameter '{vm-type}\_int\_{network-role}_v6_ips' **MUST** be enumerated in
+    the VNF's Heat Orchestration Template's Environment File.
+
+The IP address is local to the VNF's internal network and is (re)used
+in every VNF spin up, thus the constant value is declared in the VNF's
+Heat Orchestration Template's Environment File.
+
+
+.. req::
+    :id: R-62590
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
+    parameter associated with an external network, i.e.,
+
+    - {vm-type}_{network-role}\_ip\_{index}
+    - {vm-type}_{network-role}\_ip\_v6\_{index}
+    - {vm-type}_{network-role}_ips
+    - {vm-type}_{network-role}_v6_ips
+
+    **MUST NOT** be enumerated in the Heat Orchestration Template's Environment File.
+    ONAP provides the IP address assignments at orchestration time.
+
+.. req::
+    :id: R-93496
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property 'ip_address'
+    parameter associated with an internal network, i.e.,
+
+    - {vm-type}\_int\_{network-role}\_ip\_{index}
+    - {vm-type}\_int\_{network-role}\_ip\_v6\_{index}
+    - {vm-type}\_int\_{network-role}_ips
+    - {vm-type}\_int\_{network-role}_v6_ips
+
+    **MUST** be enumerated in the Heat Orchestration Template's Environment
+    File and IP addresses **MUST** be assigned.
+
+Summary Table
+~~~~~~~~~~~~~~~~~
+
+.. csv-table:: **Table # OS::Neutron::Port Property fixed_ips map property ip_address Parameter Naming Convention**
+   :header: Resource,Property,Map Property,Network Type,IP Address,Parameter Type,Parameter Name, Environment File
+   :align: center
+   :widths: auto
+
+   OS::Neutron::Port, fixed_ips, ip_address, external, IPv4, string, {vm-type}\_{network-role}\_ip\_{index}, NO
+   OS::Neutron::Port, fixed_ips, ip_address, external, IPv4, comma\_delimited\_list, {vm-type}\_{network-role}\_ips, NO
+   OS::Neutron::Port, fixed_ips, ip_address, external, IPv6, string, {vm-type}\_{network-role}\_v6\_ip\_{index}, NO
+   OS::Neutron::Port, fixed_ips, ip_address, external, IPv6, comma\_delimited\_list, {vm-type}\_{network-role}\_v6\_ips, NO
+   OS::Neutron::Port, fixed_ips, ip_address, internal, IPv4, string, {vm-type}\_int\_{network-role}\_ip\_{index}, YES
+   OS::Neutron::Port, fixed_ips, ip_address, internal, IPv4, comma\_delimited\_list, {vm-type}\_int\_{network-role}\_ips, YES
+   OS::Neutron::Port, fixed_ips, ip_address, internal, IPv6, string, {vm-type}\_int\_{network-role}\_v6\_ip\_{index}, YES
+   OS::Neutron::Port, fixed_ips, ip_address, internal, IPv6, comma\_delimited\_list, {vm-type}\_int\_{network-role}\_v6\_ips, YES
+
+
+Examples
+~~~~~~~~~~~~~~
+
+*Example: comma_delimited_list parameters for IPv4 and IPv6 Address
+Assignments to an external network*
+
+In this example, the '{network-role}' has been defined as 'oam' to represent
+an oam network and the '{vm-type}' has been defined as 'db' for database.
+
+.. code-block:: yaml
+
+  parameters:
+    oam_net_id:
+      type: string
+      description: Neutron UUID for a oam network
+    db_oam_ips:
+      type: comma_delimited_list
+      description: Fixed IPv4 assignments for db VMs on the oam network
+    db_oam_v6_ips:
+      type: comma_delimited_list
+      description: Fixed IPv6 assignments for db VMs on the oam network
+  resources:
+    db_0_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips: [ { "ip_address": {get_param: [ db_oam_ips, 0 ]}}, {
+        "ip_address": {get_param: [ db_oam_v6_ips, 0 ]}}]
+    db_1_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips:
+          - "ip_address": {get_param: [ db_oam_ips, 1 ]}
+          - "ip_address": {get_param: [ db_oam_v6_ips, 1 ]}
+
+*Example: string parameters for IPv4 and IPv6 Address Assignments to an
+external network*
+
+In this example, the '{network-role}' has been defined as 'oam' to
+represent an oam network and the '{vm-type}' has been defined as 'db' for
+database.
+
+.. code-block:: yaml
+
+  parameters:
+    oam_net_id:
+      type: string
+      description: Neutron UUID for an OAM network
+    db_oam_ip_0:
+      type: string
+      description: Fixed IPv4 assignment for db VM 0 on the OAM network
+    db_oam_ip_1:
+      type: string
+      description: Fixed IPv4 assignment for db VM 1 on the OAM network
+    db_oam_v6_ip_0:
+      type: string
+      description: Fixed IPv6 assignment for db VM 0 on the OAM network
+    db_oam_v6_ip_1:
+      type: string
+      description: Fixed IPv6 assignment for db VM 1 on the OAM network
+  resources:
+    db_0_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips: [ { "ip_address": {get_param: db_oam_ip_0}}, { "ip_address": {get_param: db_oam_v6_ip_0 }}]
+    db_1_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips:
+          - "ip_address": {get_param: db_oam_ip_1}
+          - "ip_address": {get_param: db_oam_v6_ip_1}
+
+
+*Example: comma_delimited_list parameters for IPv4 and IPv6 Address
+Assignments to an internal network*
+
+In this example, the '{network-role}' has been defined as 'ctrl' to
+represent an ctrl network internal to the vnf.
+The '{vm-type}' has been defined as 'db' for
+database.
+
+.. code-block:: yaml
+
+  parameters:
+    int_ctrl_net_id:
+      type: string
+      description: Neutron UUID for the ctrl internal network
+    db_int_ctrl_ips:
+      type: comma_delimited_list
+      description: Fixed IPv4 assignments for db VMs on the ctrl internal
+      network
+    db_int_ctrl_v6_ips:
+      type: comma_delimited_list
+      description: Fixed IPv6 assignments for db VMs on the ctrl internal
+      network
+  resources:
+    db_0_int_ctrl_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: int_ctrl_net_id }
+        fixed_ips: [ { "ip_address": {get_param: [ db_int_ctrl_ips, 0 ]}}, {
+        "ip_address": {get_param: [ db_int_ctrl_v6_ips, 0 ]}}]
+    db_1_int_ctrl_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: int_ctrl_net_id }
+        fixed_ips:
+        - "ip_address": {get_param: [ db_int_ctrl_ips, 1 ]}
+        - "ip_address": {get_param: [ db_int_ctrl_v6_ips, 1 ]}
+
+
+*Example: string parameters for IPv4 and IPv6 Address Assignments to an
+internal network*
+
+In this example, the int_{network-role} has been defined as
+int_ctrl to represent a control network internal to the vnf.
+The {vm-type} has been defined as db for database.
+
+.. code-block:: yaml
+
+  parameters:
+    int_ctrl_net_id:
+      type: string
+      description: Neutron UUID for an OAM internal network
+    db_int_ctrl_ip_0:
+      type: string
+      description: Fixed IPv4 assignment for db VM on the oam_int network
+    db_int_ctrl_ip_1:
+      type: string
+      description: Fixed IPv4 assignment for db VM 1 on the oam_int network
+    db_int_ctrl_v6_ip_0:
+      type: string
+      description: Fixed IPv6 assignment for db VM 0 on the oam_int network
+    db_int_ctrl_v6_ip_1:
+      type: string
+      description: Fixed IPv6 assignment for db VM 1 on the oam_int network
+  resources:
+    db_0_int_ctrl_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: int_oam_int_net_id }
+        fixed_ips: [ { "ip_address": {get_param: db_oam_int_ip_0}}, {
+        "ip_address": {get_param: db_oam_int_v6_ip_0 }}]
+    db_1_int_ctrl_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: int_oam_int_net_id }
+        fixed_ips:
+          - "ip_address": {get_param: db_oam_int_ip_1}
+          - "ip_address": {get_param: db_oam_int_v6_ip_1}
+
+
+Property: fixed_ips, Map Property: subnet_id
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+The resource 'OS::Neutron::Port' property 'fixed_ips' map
+property 'subnet'/'subnet_id' is used when a
+port is requesting an IP assignment via
+OpenStack's DHCP Service (i.e., Cloud Assigned).
+
+The IP address assignment will be made from the specified subnet.
+
+Specifying the subnet is not required; it is optional.
+
+If the network (external or internal) that the port is attaching
+to only contains one subnet, specifying the subnet is
+superfluous.  The IP address will be assigned from the one existing
+subnet.
+
+If the network (external or internal) that the port is attaching
+to contains two or more subnets, specifying the subnet in the
+'fixed_ips' map property 'subnet'/'subnet_id' determines which
+subnet the IP address will be assigned from.
+
+If the network (external or internal) that the port is attaching
+to contains two or more subnets, and the subnet is not is not
+specified, OpenStack will randomly(?) determine which subnet
+the IP address will be assigned from.
+
+The property fixed_ips is used to assign IPs to a port. The Map Property
+subnet_id specifies the subnet the IP is assigned from.
+
+
+.. req::
+    :id: R-38236
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's resource
+    'OS::Neutron::Port' property 'fixed_ips' map property
+    'subnet'/'subnet_id' parameter **MUST** be declared type 'string'.
+
+.. req::
+    :id: R-62802
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's resource
+    'OS::Neutron::Port' is attaching to an external network, and an IPv4
+    address is being Cloud Assigned by OpenStack's DHCP Service and the
+    external network IPv4 subnet is to be specified using the property
+    'fixed_ips' map property 'subnet'/'subnet_id', the parameter **MUST**
+    follow the naming convention
+
+       * '{network-role}_subnet_id'
+
+    where
+
+       * '{network-role}' is the network role of the network.
+
+.. req::
+    :id: R-83677
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property
+    subnet'/'subnet_id' parameter '{network-role}_subnet_id'
+    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
+    Environment File.
+
+ONAP's SDN-Controller provides the network's subnet's UUID
+value at orchestration to the Heat Orchestration Template.
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {network-role}_subnet_id:
+      type: string
+      description: Neutron IPv4 subnet UUID for the {network-role} network
+
+
+.. req::
+    :id: R-15287
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's resource
+    'OS::Neutron::Port' is attaching to an external network, and an IPv6
+    address is being Cloud Assigned by OpenStack's DHCP Service and the
+    external network IPv6 subnet is to be specified using the property
+    'fixed_ips' map property 'subnet'/'subnet_id', the parameter **MUST**
+    follow the naming convention
+
+       * '{network-role}_subnet_v6_id'
+
+    where
+
+       * '{network-role}' is the network role of the network.
+
+.. req::
+    :id: R-80829
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property
+    subnet'/'subnet_id' parameter '{network-role}_subnet_v6_id'
+    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
+    Environment File.
+
+ONAP's SDN-Controller provides the network's subnet's UUID
+value at orchestration to the Heat Orchestration Template.
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {network-role}_v6_subnet_id:
+      type: string
+      description: Neutron IPv6 subnet UUID for the {network-role} network
+
+
+*Example: One Cloud Assigned IPv4 Address (DHCP) assigned to a network
+that has two or more IPv4 subnets*
+
+In this example, 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. The Cloud Assigned IP Address uses the OpenStack DHCP service
+to assign IP addresses.
+
+.. code-block:: yaml
+
+  parameters:
+    oam_net_id:
+      type: string
+      description: Neutron UUID for the oam network
+    oam_subnet_id:
+      type: string
+      description: Neutron IPv4 subnet UUID for the oam network
+  resources:
+    lb_0_oam_port_0:
+      type: OS::Neutron::Port
+        parameters:
+          network: { get_param: oam_net_id }
+          fixed_ips:
+            - subnet_id: { get_param: oam_subnet_id }
+
+*Example: One Cloud Assigned IPv4 address and one Cloud Assigned IPv6
+address assigned to a network that has at least one IPv4 subnet and one
+IPv6 subnet*
+
+In this example, 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.
+
+.. code-block:: yaml
+
+  parameters:
+    oam_net_id:
+      type: string
+      description: Neutron UUID for the oam network
+    oam_subnet_id:
+      type: string
+      description: Neutron IPv4 subnet UUID for the oam network
+    oam_v6_subnet_id:
+      type: string
+      description: Neutron IPv6 subnet UUID for the oam network
+  resources:
+    lb_0_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips:
+          - subnet_id: { get_param: oam_subnet_id }
+          - subnet_id: { get_param: oam_v6_subnet_id }
+
+
+.. req::
+    :id: R-84123
+    :target: VNF
+    :keyword: MUST
+
+    When
+
+    - the VNF's Heat Orchestration Template's resource 'OS::Neutron::Port'
+      in an Incremental Module is attaching to an internal network
+      that is created in the Base Module, AND
+    - an IPv4 address is being Cloud Assigned by OpenStack's DHCP Service AND
+    - the internal network IPv4 subnet is to be specified using the
+      property 'fixed_ips' map property 'subnet'/'subnet_id',
+
+    the parameter **MUST** follow the naming convention
+       * 'int\_{network-role}_subnet_id'
+    where
+       * '{network-role}' is the network role of the internal network
+
+    - Note that the parameter **MUST** be defined as an 'output' parameter in
+      the base module.
+
+.. req::
+    :id: R-69634
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property
+    subnet'/'subnet_id' parameter 'int\_{network-role}_subnet_id'
+    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
+    Environment File.
+
+The assumption is that internal networks are created in the base module.
+The Neutron subnet network ID will be passed as an output parameter
+(e.g., ONAP Base Module Output Parameter) to the incremental modules.
+In the incremental modules, the output parameter name will be defined as
+input parameter.
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    int_{network-role}_subnet_id:
+      type: string
+      description: Neutron IPv4 subnet UUID for the int_{network-role} network
+
+
+.. req::
+    :id: R-76160
+    :target: VNF
+    :keyword: MUST
+
+    When
+
+    - the VNF's Heat Orchestration Template's resource
+      'OS::Neutron::Port' in an Incremental Module is attaching to an
+      internal network that is created in the Base Module, AND
+    - an IPv6 address is being Cloud Assigned by OpenStack's DHCP Service AND
+    - the internal network IPv6 subnet is to be specified using the property
+      'fixed_ips' map property 'subnet'/'subnet_id',
+
+    the parameter **MUST** follow the naming convention
+       * 'int\_{network-role}_v6_subnet_id'
+    where
+       * '{network-role}' is the network role of the internal network
+
+    - Note that the parameter **MUST** be defined as an 'output' parameter in
+      the base module.
+
+.. req::
+    :id: R-22288
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'fixed_ips' map property
+    'subnet'/'subnet_id' parameter 'int\_{network-role}_v6_subnet_id'
+    **MUST NOT** be enumerated in the VNF's Heat Orchestration Template's
+    Environment File.
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    int_{network-role}_v6_subnet_id:
+      type: string
+      description: Neutron subnet UUID for the int_{network-role} network
+
+
+Property: allowed\_address\_pairs, Map Property: ip\_address
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+The property 'allowed_address_pairs' in the resource 'OS::Neutron::Port'
+allows the user to specify a mac_address and/or ip_address that will
+pass through a port regardless of subnet. This enables the use of
+protocols, such as VRRP, which allow for a Virtual IP (VIP) address
+to be shared among two or more ports, with one designated as the master
+and the others as backups. In case the master fails,
+the Virtual IP address is mapped to a backup's IP address and
+the backup becomes the master.
+
+Note that the management of the VIP IP addresses (i.e. transferring
+ownership between active and standby VMs) is the responsibility of
+the VNF application.
+
+
+.. req::
+    :id: R-62300
+    :target: VNF
+    :keyword: MUST
+
+    If a VNF has two or more ports that require a Virtual IP Address (VIP),
+    a VNF's Heat Orchestration Template's Resource 'OS::Neutron::Port' property
+    'allowed_address_pairs' map property 'ip_address' parameter **MUST** be used.
+
+The 'allowed_address_pairs' is an optional property. It is not required.
+
+ONAP automation supports the assignment of VIP addresses
+for external networks. ONAP support the assignment of one IPv4 VIP address
+and/or one IPv6 VIP address to a set of ports associated with a
+'{vm-type}' and '{network-role}'.
+
+If a VNF requires more than one IPv4 VIP address
+and/or more than one IPv6 VIP address to a set of ports associated with a
+'{vm-type}' and '{network-role}', there are "manual" work-around
+procedures that can be utilized.
+
+VIP Assignment, External Networks, Supported by Automation
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-91810
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF requires ONAP to assign a Virtual IP (VIP) Address to
+    ports connected an external network, the port
+    **MUST NOT** have more than one IPv4 VIP address.
+
+.. req::
+    :id: R-41956
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF requires ONAP to assign a Virtual IP (VIP) Address to
+    ports connected an external network, the port
+    **MUST NOT** have more than one IPv6 VIP address.
+
+.. req::
+    :id: R-10754
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF has two or more ports that
+    attach to an external network that require a Virtual IP Address (VIP),
+    and the VNF requires ONAP automation to assign the IP address,
+    all the Virtual Machines using the VIP address **MUST**
+    be instantiated in the same Base Module Heat Orchestration Template
+    or in the same Incremental Module Heat Orchestration Template.
+
+.. req::
+    :id: R-98748
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'allowed_address_pairs'
+    map property 'ip_address' parameter
+    **MUST** be declared as type 'string'.
+
+.. req::
+    :id: R-41492
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' is attaching to an external network,
+    and an IPv4 Virtual IP (VIP) address is assigned via ONAP automation
+    using the property 'allowed_address_pairs' map property 'ip_address' and
+    the parameter name **MUST** follow the naming convention
+
+       * '{vm-type}_{network-role}_floating_ip'
+
+    where
+
+       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
+       * '{network-role}' is the {network-role} of the external network
+
+    And the parameter **MUST** be declared as type 'string'.
+
+.. req::
+    :id: R-83412
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'allowed_address_pairs'
+    map property 'ip_address' parameter
+    '{vm-type}_{network-role}_floating_ip'
+    **MUST NOT** be enumerated in the
+    VNF's Heat Orchestration Template's Environment File.
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {vm-type}_{network-role}_floating_ip:
+      type: string
+      description: IPv4 VIP for {vm-type} VMs on the {network-role} network
+
+.. req::
+    :id: R-35735
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' is attaching to an external network,
+    and an IPv6 Virtual IP (VIP) address is assigned via ONAP automation
+    using the property 'allowed_address_pairs' map property 'ip_address',
+    the parameter name **MUST** follow the naming convention
+
+       * '{vm-type}_{network-role}_v6_floating_ip'
+
+    where
+
+       * '{vm-type}' is the {vm-type} associated with the OS::Nova::Server
+       * '{network-role}' is the {network-role} of the external network
+
+    And the parameter **MUST** be declared as type 'string'.
+
+.. req::
+    :id: R-83418
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Neutron::Port' property 'allowed_address_pairs'
+    map property 'ip_address' parameter
+    '{vm-type}_{network-role}_floating_v6_ip'
+    **MUST NOT** be enumerated in the
+    VNF's Heat Orchestration Template's Environment File.
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    {vm-type}_{network-role}_floating_v6_ip:
+      type: string
+      description: VIP for {vm-type} VMs on the {network-role} network
+
+Note that these parameters are **not** intended to represent an OpenStack
+"Floating IP", for which OpenStack manages a pool of public IP
+addresses that are mapped to specific VM ports. In that case, the
+individual VMs are not even aware of the public IPs, and all assignment
+of public IPs to VMs is via OpenStack commands. ONAP does not support
+Neutron-style Floating IPs.  That is, ONAP does not support the
+resources 'OS::Neutron::FloatingIP'
+and 'OS::Neutron::FloatingIPAssociation'.
+
+
+.. req::
+    :id: R-05257
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's **MUST NOT**
+    contain the Resource 'OS::Neutron::FloatingIP'.
+
+.. req::
+    :id: R-76449
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's **MUST NOT**
+    contain the Resource 'OS::Neutron::FloatingIPAssociation'.
+
+The Floating IP functions as a NAT.  They are allocated within
+Openstack, and always "terminate" within the Openstack infrastructure.
+When Openstack receives packets on a Floating IP, the packets will
+be forwarded to the
+Port that has been mapped to the Floating IP, using the private address of the
+port.  The VM never sees or knows about the Openstack Floating IP.
+The process to use is:
+
+  - User allocates a floating IP from the Openstack pool.
+  - User 'attaches' that floating IP to one of the VM ports.
+
+If there is a high-availability VNF that wants to "float" the IP to a
+different VM, it requires a Neutron command to request Openstack to 'attach'
+the floating IP to a different VM port.
+The pool of such addresses is managed by Openstack infrastructure.
+Users cannot create new ones, they can only choose from those in the pool.
+The pool is typically global (i.e. any user/tenant can grab them).
+
+Allowed address pairs are for more typical Linux-level "virtual IPs".
+They are additional IP addresses that are advertised by some port on the VM,
+in addition to the primary private IP address.  Typically in a
+high-availability VNF, an additional IP is assigned and will float between
+VMs (e.g., via some health-check app that will plumb the IP on one or other
+VM).  In order for this to work, the actual packets must be addressed to that
+IP address (and the allowed_ip_address list will let it pass through
+to the VM).  This generally requires provider network access
+(i.e. direct access to a data center network for the VMs), such that these
+IPs can pass through all of the virtual routers.
+Contrail also provides the enhanced networking that allows routing of such
+additional IPs.
+
+Floating IPs are not used in ONAP due to the NAT-ting nature of the IPs,
+the inability to reserve such IPs for specific use, the need to manage them
+via Openstack commands (i.e. a HA VNF would require direct access to
+Openstack to 'float' such an IP from one VM to another).
+
+*Example:*
+
+In this example, the {network-role} has been defined as oam to represent
+an oam network and the {vm-type} has been defined as db for database.
+
+.. code-block:: yaml
+
+  parameters:
+    oam_net_id:
+      type: string
+      description: Neutron UUID for the oam network
+    db_oam_ips:
+      type: comma_delimited_list
+      description: Fixed IPs for db VMs on the oam network
+    db_oam_floating_ip:
+      type: string
+      description: VIP IP for db VMs on the oam network
+  resources:
+    db_0_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips: [ { "ip_address": {get_param: [db_oam_ips,0] }}]
+        allowed_address_pairs: [ { "ip_address": {get_param:
+        db_oam_floating_ip}}]
+    db_1_oam_port_0:
+      type: OS::Neutron::Port
+        properties:
+          network: { get_param: oam_net_id }
+          fixed_ips: [ { "ip_address": {get_param: [db_oam_ips,1] }}]
+          allowed_address_pairs: [ { "ip_address": {get_param:
+          db_oam_floating_ip}}]
+
+
+VIP Assignment, External Networks, Additional Options
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+The parameter {'vm-type}_{network-role}_floating_ip' allows for only one
+allowed address pair IPv4 address per '{vm-type}' and '{network-role}'
+combination.
+
+The parameter '{vm-type}_{network-role}_floating_v6_ip' allows for only one
+allowed address pair IPv6 address per '{vm-type}' and '{network-role}'
+combination.
+
+If there is a need for multiple allowed address pair IPs for a given
+{vm-type} and {network-role} combination within a VNF, there are two
+options.
+
+**Option One**
+
+If there is a need for multiple allowed address pair IPs for a given
+'{vm-type}' and '{network-role}' combination within a VNF, then the
+parameter names defined for the Property 'fixed_ips' Map Property
+'ip_address' should be used or the Property 'allowed_address_pairs'
+Map Property 'ip_address'. The
+parameter names are provided in the table below.
+
+.. csv-table:: **Table 5 OS::Neutron::Port Property allowed_address_pairs map property ip_address Parameter Naming Convention**
+   :header: IP Address,Parameter Type,Parameter Name
+   :align: center
+   :widths: auto
+
+   IPv4, string, {vm-type}_{network-role}_ip_{index}
+   IPv4, comma_delimited_list, {vm-type}_{network-role}_ips
+   IPv6, string, {vm-type}_{network-role}_v6_ip_{index}
+   IPv6, comma_delimited_list, {vm-type}_{network-role}_v6_ips
+
+The examples below illustrate this concept.
+
+*Example: A VNF has four load balancers. Each pair has a unique VIP.*
+
+In this example, there are two administrative VM pairs. Each pair has
+one VIP. The {network-role} has been defined as oam to represent an oam
+network and the {vm-type} has been defined as admin for an
+administrative VM.
+
+Pair 1: Resources admin_0_port_0 and admin_1_port_0 share a unique VIP,
+[admin_oam_ips,2]
+
+Pair 2: Resources admin_2_port_0 and admin_3_port_0 share a unique VIP,
+[admin_oam_ips,5]
+
+.. code-block:: yaml
+
+  parameters:
+    oam_net_id:
+      type: string
+      description: Neutron UUID for the oam network
+    admin_oam_ips:
+      type: comma_delimited_list
+      description: Fixed IP assignments for admin VMs on the oam network
+
+  resources:
+    admin_0_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips: [ { "ip_address": {get_param: [admin_oam_ips,0] }}]
+        allowed_address_pairs: [{ "ip_address": {get_param: [admin_oam_ips,2]
+        }}]
+    admin_1_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips: [ { "ip_address": {get_param: [admin_oam_ips,1] }}]
+        allowed_address_pairs: [{ "ip_address": {get_param: [admin_oam_ips,2]
+      }}]
+    admin_2_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips: [ { "ip_address": {get_param: [admin_oam_ips,3] }}]
+        allowed_address_pairs: [{ "ip_address": {get_param: [admin_oam_ips,5]
+        }}]
+    admin_3_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips: [ { "ip_address": {get_param: [admin_oam_ips,4] }}]
+        allowed_address_pairs: [{ "ip_address": {get_param: [admin_oam_ips,5]
+        }}]
+
+*Example: A VNF has two load balancers. The pair of load balancers share
+two VIPs.*
+
+In this example, there is one load balancer pairs. The pair has two
+VIPs. The {network-role} has been defined as oam to represent an oam
+network and the {vm-type} has been defined as lb for a load balancer VM.
+
+.. code-block:: yaml
+
+  resources:
+    lb_0_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips: [ { "ip_address": {get_param: [lb_oam_ips,0] }}]
+        allowed_address_pairs: [{ "ip_address": {get_param: [lb_oam_ips,2] },
+        {get_param: [lb_oam_ips,3] }}]
+    lb_1_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        network: { get_param: oam_net_id }
+        fixed_ips: [ { "ip_address": {get_param: [lb_oam_ips,1] }}]
+        allowed_address_pairs: [{ "ip_address": {get_param: [lb_oam_ips,2] },
+        {get_param: [lb_oam_ips,3] }}]
+
+As a general rule, provide the fixed IPs for the VMs indexed first in
+the CDL and then the VIPs as shown in the examples above.
+
+**Option Two**
+
+If there is a need for multiple allowed address pair IPs for a given
+'{vm-type}' and '{network-role}' combination within a VNF, then the
+parameter names defined for the table below can be used.
+
+**Resource OS::Neutron::Port**
+
+Table 6: Multiple allowed_address_pairs Option 2A
+
+.. csv-table:: **Table 6 OS::Neutron::Port Property allowed_address_pairs map property ip_address Parameter Naming Convention**
+   :header: IP Address,Parameter Type,Parameter Name
+   :align: center
+   :widths: auto
+
+   IPv4, string, {vm-type}_{network-role}_vip_{index}
+   IPv4, comma_delimited_list, {vm-type}_{network-role}_vips
+   IPv6, string, {vm-type}_{network-role}_v6_vip_{index}
+   IPv6, comma_delimited_list, {vm-type}_{network-role}_v6_vips
+
+
+If there is a need for multiple allowed address pair IPs for a given
+'{vm-type}' and '{network-role}' combination within a VNF and the need to
+differentiate the VIPs for different traffic types (e.g., 911 VIP,
+fail-over VIP), then the parameter names defined for the table below can
+be used.
+
+**Resource OS::Neutron::Port**
+
+Table 7: Multiple allowed_address_pairs Option 2B
+
+.. csv-table:: **Table 7 OS::Neutron::Port Property allowed_address_pairs map property ip_address Parameter Naming Convention**
+   :header: IP Address,Parameter Type,Parameter Name
+   :align: center
+   :widths: auto
+
+   IPv4, string, {vm-type}_{network-role}_{vip_type}_vip
+   IPv4, comma_delimited_list, {vm-type}_{network-role}_{vip_type}_vips
+   IPv6, string, {vm-type}_{network-role}_{vip_type}_v6_vip
+   IPv6, comma_delimited_list, {vm-type}_{network-role}_{vip_type}_v6_vips
+
+Internal Networks
+~~~~~~~~~~~~~~~~~~~~~~~
+
+ONAP defines an internal network in relation to
+the VNF and not with regard to the Network Cloud site. Internal
+networks may also be referred to as "intra-VNF" networks or "private"
+networks. An internal network only connects VMs in a single VNF. It
+must not connect to other VNFs or an external (to the cloud) gateway or an
+external (to the cloud) router.
+
+ONAP internal networks should be created in the base module.
+
+As previously mentioned,
+ports that connect to an internal network are assigned IP addresses
+via one of two methods
+
+ * Method 1: Cloud assigned by OpenStack's DHCP Service
+ * Method 2: Statically assigned.  That is, predetermined by the VNF designer
+   and are specified in the VNF's Heat Orchestration Template's
+   Environment File
+
+If Cloud assigned IP addressing is being used, output statements
+are created in the base module.
+
+If static assigned IP addressing is being used, the  IP addresses
+are defined in the environment file.
+
+
+  * {vm-type}_int_{network-role}_floating_ip
+  * {vm-type}_int_{network-role}_floating_v6_ip
+
+  * {vm-type}_int_{network-role}_vip_{index}
+  * {vm-type}_int_{network-role}_vips
+  * {vm-type}_int_{network-role}_v6_vip_{index}
+  * {vm-type}_int_{network-role}_v6_vips
+
+  * {vm-type}_int_{network-role}_{vip_type}_vip
+  * {vm-type}_int_{network-role}_{vip_type}_vips
+  * {vm-type}_int_{network-role}_{vip_type}_v6_vip
+  * {vm-type}_int_{network-role}_{vip_type}_v6_vips
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+    {vm-type}_int_{network-role}_floating_ip:
+      type: string
+      description: VIP for {vm-type} VMs on the int_{network-role} network
+
+    {vm-type}_int_{network-role}_floating_v6_ip:
+      type: string
+      description: VIP for {vm-type} VMs on the int_{network-role} network
+
+allowed_address_pair IP Addresses Required in more than one module
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+If the IP address {vm-type}_{network-role}_floating_ip and/or
+{vm-type}_{network-role}_floating_v6_ip must be used in more than module in the
+VNF, the parameter values must be defined as output values in the base
+module with output names: {vm-type}_{network-role}_shared_vip or
+{vm-type}_{network-role}_v6_shared_vip
+
+.. code-block:: yaml
+
+  outputs:
+    {vm-type}_{network-role}_shared_vip:
+      description:
+      value: { get_param: {vm-type}_{network-role}_floating_ip }
+
+    {vm-type}_{network-role}_v6_shared_vip:
+      description:
+      value: { get_param: {vm-type}_{network-role}_v6_floating_ip }
+
+The output parameters must be defined as input parameter in the
+incremental modules that require the IP addresses. When defining the
+allowed_address_pairs: in the OS::Neutron::Port, it should be as
+follows:
+
+.. code-block:: yaml
+
+  allowed_address_pairs: [ { "ip_address": {get_param:
+  {vm-type}_{network-role}_shared_vip }}, { "ip_address": {get_param:
+  {vm-type}_{network-role}_v6_shared_vip }}]
+
+Reserve Port Concept
+~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+A "Reserve Port" is an OS::Neutron::Port that fixed_ips, ip_address
+property is assigned one or more IP addresses that are used as Virtual
+IP (VIP) Addresses (i.e., allowed_address_pairs) on other ports.
+
+A "Reserve Port" is never attached to a Virtual Machine
+(OS::Nova::Server). The reserve port ensures that the intended
+allowed_address_pair IP address is not inadvertently assigned as a
+fixed_ips to a OS::Neutron::Port that is attached OS::Nova::Server and
+thus causing routing issues.
+
+A VNF may have one or more "Reserve Ports". A reserve port maybe created
+in the base module or an incremental module. If created in the base
+module, parameters may be defined in the outputs: section of the base
+template so the IP Address assigned to the reserve port maybe assigned
+to the allowed_address_pair property of an OS::Neutron::Port in one or
+more incremental modules.
+
+The parameter name of the IP address used in the "Reserve Port" depends
+on the allowed_address_pair "option" utilized by the VNF.
+
+When creating a Reserve Port, if only one allowed_address_pair is configured
+on a port, then the parameter name depends upon the IP addresses type
+(IPv4 or IPv6) and network type (internal or external).
+The valid parameter names are:
+
+  * {vm-type}_{network-role}_floating_ip
+  * {vm-type}_{network-role}_floating_v6_ip
+  * {vm-type}_int_{network-role}_floating_ip
+  * {vm-type}_int_{network-role}_floating_v6_ip
+
+When creating a Reserve Port, if more than one (e.g., multiple)
+allowed_address_pair is configured on a port, then the parameter name depends
+upon the IP addresses type (IPv4 or IPv6) and network type
+(internal or external) and the option being used.  The valid parameter
+names are:
+
+  * {vm-type}_{network-role}_ip_{index}
+  * {vm-type}_{network-role}_ips
+  * {vm-type}_{network-role}_v6_ip_{index}
+  * {vm-type}_{network-role}_v6_ips
+  * {vm-type}_{network-role}_vip_{index}
+  * {vm-type}_{network-role}_vips
+  * {vm-type}_{network-role}_v6_vip_{index}
+  * {vm-type}_{network-role}_v6_vips
+  * {vm-type}_{network-role}_{vip-type}_vip
+  * {vm-type}_{network-role}_v6_{vip-type}_vip
+  * {vm-type}_{network-role}_{vip-type}_vips
+  * {vm-type}_{network-role}_v6_{vip-type}_vips
+
+*Example IPv4 Reserve Port Definition: one allowed_address_pair
+configured on a port*
+
+.. code-block:: yaml
+
+  Reserve_Port_{vm-type}_{network-role}_floating_ip_{index}:
+    type: OS::Neutron::Port
+    properties:
+      network: { get_param: {network-role}_net_id }
+      fixed_ips:
+        - ip_address : { get_param: {vm-type}_{network-role}_floating_ip }
+
+*Example IPv6 Reserve Port Definition: one allowed_address_pair
+configured on a port*
+
+.. code-block:: yaml
+
+  Reserve_Port_{vm-type}_{network-role}_floating_v6_ip_{index}:
+    type: OS::Neutron::Port
+    properties:
+      network: { get_param: {network-role}_net_id }
+      fixed_ips:
+        - ip_address : { get_param: {vm-type}_{network-role}_floating_v6_ip }
+
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Nova Metadata Parameters.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Nova Metadata Parameters.rst
new file mode 100644
index 0000000..adf3756
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Nova Metadata Parameters.rst
@@ -0,0 +1,746 @@
+.. 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.
+
+.. _Nova Server - Metadata Parameters:
+
+Resource: OS::Nova::Server - Metadata Parameters
+--------------------------------------------------------------------------------
+
+The OS::Nova::Server Resource property metadata is an optional
+OpenStack property.
+The table below summarizes the mandatory and optional metadata
+supported by ONAP.
+
+The sections that follow provides the requirements associated with each
+metadata parameter.
+
+.. csv-table:: **Table 5 OS::Nova::Server Mandatory and Optional Metadata**
+   :header: Metadata Parameter Name, Parameter Type, Required, Parameter Value Provided to Heat
+   :align: center
+   :widths: auto
+
+   vnf_id, string, **MUST**, ONAP
+   vf_module_id, string, **MUST**, ONAP
+   vnf_name, string, **MUST**, ONAP
+   vf_module_name, string, **SHOULD**, ONAP
+   vm_role, string, **MAY**, YAML or Environment File
+   vf_module_index, string, **MAY**, ONAP
+   workload_context, string, **SHOULD**, ONAP
+   environment_context, string, **SHOULD**, ONAP
+
+vnf_id
+^^^^^^^^^
+
+The OS::Nova::Server Resource metadata map value parameter 'vnf_id'
+is an ONAP generated UUID that identifies the VNF.  The value
+is provided by ONAP to the VNF's Heat Orchestration
+Template at orchestration time.
+
+
+.. req::
+    :id: R-37437
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource **MUST** contain the metadata map value parameter 'vnf_id'.
+
+.. req::
+    :id: R-07507
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vnf_id' **MUST** be declared
+    as type: 'string'.
+
+.. req::
+    :id: R-55218
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vnf_id' **MUST NOT** have
+    parameter contraints defined.
+
+.. req::
+    :id: R-20856
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vnf_id' **MUST NOT** be
+    enumerated in the Heat Orchestration Template's environment file.
+
+.. req::
+    :id: R-44491
+    :target: VNF
+    :keyword: MUST NOT
+
+    If a VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vnf_id' is passed into a
+    Nested YAML file, the parameter name 'vnf_id' **MUST NOT** change.
+
+*Example 'vnf_id' Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    vnf_id:
+      type: string
+      description: Unique ID for this VNF instance
+
+vf_module_id
+^^^^^^^^^^^^^^^^^^^^
+
+The OS::Nova::Server Resource metadata map value parameter 'vf_module_id'
+is an ONAP generated UUID that identifies the VF Module (e.g., Heat
+Orchestration Template).  The value
+is provided by ONAP to the VNF's Heat Orchestration
+Template at orchestration time.
+
+
+.. req::
+    :id: R-71493
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource **MUST** contain the metadata map value parameter
+    'vf_module_id'.
+
+.. req::
+    :id: R-82134
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_id' **MUST**
+    be declared as type: 'string'.
+
+.. req::
+    :id: R-98374
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_id' **MUST NOT**
+    have parameter contraints defined.
+
+.. req::
+    :id: R-72871
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_id' **MUST NOT**
+    be enumerated in the Heat Orchestration Template's environment file.
+
+.. req::
+    :id: R-86237
+    :target: VNF
+    :keyword: MUST NOT
+
+    If a VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_id' is passed
+    into a Nested YAML file, the parameter name 'vf_module_id'
+    **MUST NOT** change.
+
+*Example 'vf_module_id' Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    vnf_module_id:
+      type: string
+      description: Unique ID for this VNF module instance
+
+
+vnf_name
+^^^^^^^^^
+
+The OS::Nova::Server Resource metadata map value parameter 'vnf_name'
+is the ONAP generated alphanumeric name of the deployed VNF instance.
+The value
+is provided by ONAP to the VNF's Heat Orchestration
+Template at orchestration time.
+The parameter must be declared as type: string
+
+
+.. req::
+    :id: R-72483
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource **MUST** contain the metadata map value parameter
+    'vnf_name'.
+
+.. req::
+    :id: R-62428
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vnf_name' **MUST** be
+    declared as type: 'string'.
+
+.. req::
+    :id: R-44318
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vnf_name' **MUST NOT** have
+    parameter contraints defined.
+
+.. req::
+    :id: R-36542
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vnf_name' **MUST NOT** be
+    enumerated in the Heat Orchestration Template's environment file.
+
+.. req::
+    :id: R-16576
+    :target: VNF
+    :keyword: MUST NOT
+
+    If a VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vnf_name' is passed into a
+    Nested YAML file, the parameter name 'vnf_name' **MUST NOT** change.
+
+*Example 'vnf_name' Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    vnf_name:
+      type: string
+      description: Unique name for this VNF instance
+
+vf_module_name
+^^^^^^^^^^^^^^^^^^
+
+The OS::Nova::Server Resource metadata map value parameter 'vf_module_name'
+is the deployment name of the heat stack created (e.g., <STACK_NAME>) from the
+VNF's Heat Orchestration template
+in the command 'Heat stack-create'
+(e.g., 'Heat stack-create [-f <FILE>] [-e <FILE>] <STACK_NAME>').
+The 'vf_module_name' (e.g., <STACK_NAME> is specified as
+part of the orchestration process.
+
+
+.. req::
+    :id: R-68023
+    :target: VNF
+    :keyword: SHOULD
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource **SHOULD** contain the metadata map value parameter
+    'vf_module_name'.
+
+.. req::
+    :id: R-39067
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_name' **MUST**
+    be declared as type: 'string'.
+
+.. req::
+    :id: R-15480
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_name'
+    **MUST NOT** have parameter contraints defined.
+
+.. req::
+    :id: R-80374
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_name'
+    **MUST NOT** be enumerated in the Heat Orchestration Template's
+    environment file.
+
+.. req::
+    :id: R-49177
+    :target: VNF
+    :keyword: MUST
+
+    If a VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_name' is passed
+    into a Nested YAML file, the parameter name 'vf_module_name'
+    **MUST NOT** change.
+
+*Example 'vf_module_name' Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    vf_module_name:
+      type: string
+      description: Unique name for this VNF Module instance
+
+vm_role
+^^^^^^^^^
+
+The OS::Nova::Server Resource metadata map value parameter 'vm-role'
+is a metadata tag that describes the role of the Virtual Machine.
+The 'vm_role' is stored in ONAP's A&AI module and is
+available for use by other ONAP components and/or north bound systems.
+
+
+.. req::
+    :id: R-85328
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource **MAY** contain the metadata map value parameter 'vm_role'.
+
+.. req::
+    :id: R-95430
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vm_role' **MUST** be
+    declared as type: 'string'.
+
+.. req::
+    :id: R-67597
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vm_role' **MUST NOT** have
+    parameter contraints defined.
+
+
+.. req::
+    :id: R-46823
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vnf_name' **MUST** be
+    either
+
+     - enumerated in the VNF's Heat Orchestration
+       Template's environment file.
+
+     - hard coded in the VNF's Heat Orchestration
+       Template's OS::Nova::Resource metadata property.
+
+Defining the 'vm_role' as the '{vm-type}' is a recommended convention
+
+
+.. req::
+    :id: R-86476
+    :target: VNF
+    :keyword: MUST
+
+    If a VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vm_role' value **MUST** only
+    contain alphanumeric characters and underscores '_'.
+
+.. req::
+    :id: R-70757
+    :target: VNF
+    :keyword: MUST NOT
+
+    If a VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vm_role' is passed into a
+    Nested YAML file, the parameter name 'vm_role' **MUST NOT** change.
+
+*Example 'vm_role' Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+    vm_role:
+      type: string
+      description: Unique role for this VM
+
+*Example: 'vm-role' Definition: Hard Coded in
+OS::Nova::Resource metadata property*
+
+.. code-block:: yaml
+
+  resources:
+
+    dns_server_0
+      type: OS::Nova::Server
+      properties:
+        . . . .
+        metadata:
+          vm_role: dns
+
+*Example 'vm-role' Definition: Defined in Environment file
+and retrieved via 'get_param'*
+
+.. code-block:: yaml
+
+  resources:
+
+    dns_server_0:
+      type: OS::Nova::Server
+      properties:
+        . . . .
+        metadata:
+          vm_role: { get_param: vm_role }
+
+Example vnf_id, vf_module_id, vnf_name, vf_module_name, vm_role
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+The example below depicts part of a Heat Orchestration Template
+that uses the five of the OS::Nova::Server metadata parameter
+discussed in this section. The {vm-type} has been defined as lb
+for load balancer.
+
+.. code-block:: yaml
+
+  parameters:
+    lb_name_0
+      type: string
+      description: VM Name for lb VM 0
+    vnf_name:
+      type: string
+      description: Unique name for this VNF instance
+    vnf_id:
+      type: string
+      description: Unique ID for this VNF instance
+    vf_module_name:
+      type: string
+      description: Unique name for this VNF Module instance
+    vf_module_id:
+      type: string
+      description: Unique ID for this VNF Module instance
+    vm_role:
+      type: string
+      description: Unique role for this VM
+  resources:
+    lb_server_0:
+      type: OS::Nova::Server
+      properties:
+        name: { get_param: lb_name_0 }
+        ...
+        metadata:
+          vnf_name: { get_param: vnf_name }
+          vnf_id: { get_param: vnf_id }
+          vf_module_name: { get_param: vf_module_name }
+          vf_module_id: { get_param: vf_module_id }
+          vm_role: lb
+
+vf_module_index
+^^^^^^^^^^^^^^^^^^
+
+
+.. req::
+    :id: R-50816
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource **MAY** contain the metadata map value parameter
+    'vf_module_index'.
+
+.. req::
+    :id: R-54340
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_index' **MUST** be
+    declared as type: 'number'.
+
+.. req::
+    :id: R-09811
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_index' **MUST NOT**
+    have parameter contraints defined.
+
+.. req::
+    :id: R-37039
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_index' **MUST NOT**
+    be enumerated in the Heat Orchestration Template's environment file.
+
+.. req::
+    :id: R-22441
+    :target: VNF
+    :keyword: MUST NOT
+
+    If a VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf\_module\_index' is passed
+    into a Nested YAML file, the parameter name 'vf\_module\_index'
+    **MUST NOT** change.
+
+.. req::
+    :id: R-55306
+    :target: VNF
+    :keyword: MUST NOT
+
+    If a VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'vf_module_index' **MUST NOT** be
+    used in a VNF's Volume Template; it is not supported.
+
+The vf_module_index parameter indicates which instance of the module is being
+deployed into the VNF.
+This parameter may be used in cases where multiple instances of the same
+incremental module may be instantiated for scaling purposes. The index
+can be used in the Heat Orchestration Template for indexing into a
+pseudo-constant array parameter when unique values are required for each
+module instance, e.g., for fixed private IP addresses on VM types.
+
+The vf_module_index will start at 0 for the first instance of a module
+type. Subsequent instances of the same module type will receive the
+lowest unused index. This means that indexes will be reused if a module
+is deleted and re-added. As an example, if three copies of a module are
+deployed with vf_module_index values of 0, 1, and 2 then subsequently
+the second one is deleted (index 1), and then re-added, index 1 will be
+reused.
+
+*Example*
+
+In this example, the {vm-type} has been defined as oam_vm to represent
+an OAM VM. An incremental heat module is used to deploy the OAM VM. The
+OAM VM attaches to an internal control network which has a
+{network-role} of ctrl. A maximum of four OAM VMs can be deployed. The
+environment file contains the four IP addresses that each successive OAM
+VM will be assigned. The vf_module_index is used as the index to
+determine the IP assignment.
+
+Environment File
+
+.. code-block:: yaml
+
+  parameters:
+    oam_vm_int_ctrl_ips: 10.10.10.1,10.10.10.2,10.10.10.3,10.10.10.4
+
+YAML File
+
+.. code-block:: yaml
+
+ parameters:
+   vf_module_index:
+     type: number
+     description: Unique index for this VNF Module instance
+   oam_vm_name_0:
+     type: string
+     description: VM Name for lb VM 0
+   int_ctrl_net_id:
+     type: string
+     description: Neutron UUID for the internal control network
+   oam_vm_int_ctrl_ips:
+     type: comma_delimited_list
+     description: Fixed IP assignments for oam VMs on the internal control
+     network
+ resources:
+   oam_vm_server_0:
+     type: OS::Nova::Server
+     properties:
+       name: { get_param: oam_vm_name_0 }
+       networks:
+         port: { get_resource: oam_vm_0_int_ctrl_port_0 }
+
+       . . .
+
+       metadata:
+         vf_module_index: { get_param: vf_module_index }
+   oam_vm_0_int_ctrl_port_0:
+     type: OS::Neutron::Port
+     properties:
+       network: { get_param: int_ctrl_net_id }
+       fixed_ips: [ { "ip_address": {get_param: [ oam_vm_int_ctrl_ips, { get_param, vf_module_index}]}}]
+
+workload_context
+^^^^^^^^^^^^^^^^^^^^^
+
+.. req::
+    :id: R-47061
+    :target: VNF
+    :keyword: SHOULD
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource **SHOULD** contain the metadata map value parameter
+    'workload_context'.
+
+.. req::
+    :id: R-74978
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'workload_context' **MUST** be
+    declared as type: 'string'.
+
+.. req::
+    :id: R-34055
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'workload_context' **MUST NOT**
+    have parameter contraints defined.
+
+.. req::
+    :id: R-02691
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'workload_context' **MUST NOT**
+    be enumerated in the Heat Orchestration Template's environment file.
+
+.. req::
+    :id: R-75202
+    :target: VNF
+    :keyword: MUST NOT
+
+    If a VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'workload_context' is passed
+    into a Nested YAML file, the parameter name 'workload_context'
+    **MUST NOT** change.
+
+The 'workload\_context' parameter value will be chosen by the Service Model
+Distribution context client in VID and will be supplied to the
+Heat Orchestration Template by ONAP at orchestration time.
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+    workload_context:
+      type: string
+      description: Workload Context for this VNF instance
+
+
+*Example OS::Nova::Server with metadata*
+
+.. code-block:: yaml
+
+  resources:
+    . . .
+
+    {vm-type}_server_{index}:
+       type: OS::Nova::Server
+       properties:
+         name:
+         flavor:
+         image:
+        ...
+       metadata:
+          vnf_name: { get_param: vnf_name }
+          vnf_id: { get_param: vnf_id }
+          vf_module_name: { get_param: vf_module_name }
+          vf_module_id: { get_param: vf_module_id }
+          workload_context: {get_param: workload_context}
+
+environment_context
+^^^^^^^^^^^^^^^^^^^^^
+
+.. req::
+    :id: R-88536
+    :target: VNF
+    :keyword: SHOULD
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource **SHOULD** contain the metadata map value parameter
+    'environment_context'.
+
+.. req::
+    :id: R-20308
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'environment_context' **MUST**
+    be declared as type: 'string'.
+
+.. req::
+    :id: R-56183
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'environment_context' **MUST NOT**
+    have parameter contraints defined.
+
+.. req::
+    :id: R-13194
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'environment_context' **MUST NOT**
+    be enumerated in the Heat Orchestration Template's environment file.
+
+.. req::
+    :id: R-62954
+    :target: VNF
+    :keyword: MUST NOT
+
+    If a VNF's Heat Orchestration Template's OS::Nova::Server
+    Resource metadata map value parameter 'environment_context' is
+    passed into a Nested YAML file, the parameter name
+    'environment_context' **MUST NOT** change.
+
+The 'environment_context' parameter value will be defined by the
+service designer as part of the service model during the SDC
+on-boarding process and will be supplied to the Heat Orchestration
+Template by ONAP at orchestration time.
+
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+    environment_context:
+      type: string
+      description: Environment Context for this VNF instance
+
+
+*Example OS::Nova::Server with metadata*
+
+.. code-block:: yaml
+
+  resources:
+    . . .
+
+    {vm-type}_server_{index}:
+       type: OS::Nova::Server
+       properties:
+         name:
+         flavor:
+         image:
+        ...
+       metadata:
+          vnf_name: { get_param: vnf_name }
+          vnf_id: { get_param: vnf_id }
+          vf_module_name: { get_param: vf_module_name }
+          vf_module_id: { get_param: vf_module_id }
+          workload_context: {get_param: workload_context}
+          environment_context: {get_param: environment_context }
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Nova Parameters.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Nova Parameters.rst
new file mode 100644
index 0000000..31e66b8
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Nova Parameters.rst
@@ -0,0 +1,497 @@
+.. 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.
+
+
+Resource: OS::Nova::Server - Parameters
+-----------------------------------------------------------------------
+
+The resource OS::Nova::Server manages the running virtual machine (VM)
+instance within an OpenStack cloud.
+
+(See https://docs.openstack.org/heat/latest/template_guide/openstack.html#OS::Nova::Server.)
+
+The following four properties of the OS::Nova::Server must follow
+the ONAP parameter naming convention. The four properties are:
+
+1. image
+
+2. flavor
+
+3. name
+
+4. availability_zone
+
+Requirement :need:`R-01455` defines how the '{vm-type}' is defined.
+
+Requirement :need:`R-82481` defines how the '{vm-type}' is used.
+
+The table below provides a summary. The sections that follow provides
+the detailed requirements.
+
+.. csv-table:: **Table 4 OS::Nova::Server Resource Property Parameter Naming Convention**
+   :header: Property Name,Parameter Type,Parameter Name,Parameter Value Provided to Heat
+   :align: center
+   :widths: auto
+
+   OS::Nova::Server, image, string, {vm-type}_image_name, Environment File
+   OS::Nova::Server, flavor, string, {vm-type}_flavor_name, Environment File
+   OS::Nova::Server, name, string, {vm-type}_name_{index}, ONAP
+   OS::Nova::Server, name, CDL, {vm-type}_names, ONAP
+   OS::Nova::Server, availability_zone, string, availability_zone_{index}, ONAP
+
+.. _Property image:
+
+Property: image
+^^^^^^^^^^^^^^^
+
+
+.. req::
+    :id: R-71152
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'image' parameter **MUST** be declared as
+    type: 'string'.
+
+.. req::
+    :id: R-58670
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'image' parameter name **MUST** follow the
+    naming convention '{vm-type}_image_name'.
+
+.. req::
+    :id: R-91125
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'image' parameter **MUST** be enumerated in
+    the Heat Orchestration Template's Environment File and a value **MUST** be
+    assigned.
+
+.. req::
+    :id: R-57282
+    :target: VNF
+    :keyword: MUST
+
+    Each VNF's Heat Orchestration Template's '{vm-type}'
+    **MUST** have a unique parameter name for the 'OS::Nova::Server'
+    property 'image' even if more than one {vm-type} shares the same image.
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+ parameters:
+     {vm-type}_image_name:
+         type: string
+         description: {vm-type} server image
+
+.. _Property flavor:
+
+Property: flavor
+^^^^^^^^^^^^^^^^^^
+
+
+.. req::
+    :id: R-50436
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'flavor' parameter **MUST** be declared as
+    type: 'string'.
+
+.. req::
+    :id: R-45188
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'flavor' parameter name **MUST** follow the
+    naming convention '{vm-type}_flavor_name'.
+
+.. req::
+    :id: R-69431
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'flavor' parameter **MUST** be enumerated in the
+    Heat Orchestration Template's Environment File and a value **MUST** be
+    assigned.
+
+.. req::
+    :id: R-40499
+    :target: VNF
+    :keyword: MUST
+
+    Each VNF's Heat Orchestration Template's '{vm-type}' **MUST**
+    have a unique parameter name for the 'OS::Nova::Server' property
+    'flavor' even if more than one {vm-type} shares the same flavor.
+
+*Example Parameter Definition*
+
+.. code-block:: yaml
+
+ parameters:
+     {vm-type}_flavor_name:
+         type: string
+         description: {vm-type} flavor
+
+Property: Name
+^^^^^^^^^^^^^^^^^
+
+
+.. req::
+    :id: R-51430
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'name' parameter **MUST** be declared as
+    either type 'string' or type 'comma\_delimited\_list".
+
+.. req::
+    :id: R-54171
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'name' parameter is defined as a 'string',
+    the parameter name **MUST** follow the naming convention
+    '{vm-type}\_name\_{index}', where {index} is a numeric value that starts
+    at zero and increments by one.
+
+.. req::
+    :id: R-40899
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'name' parameter is defined as a 'string',
+    a parameter **MUST** be declared for each 'OS::Nova::Server' resource
+    associated with the '{vm-type}'.
+
+.. req::
+    :id: R-87817
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'name' parameter is defined as a
+    'comma_delimited_list', the parameter name **MUST** follow the naming
+    convention '{vm-type}_names'.
+
+.. req::
+    :id: R-85800
+    :target: VNF
+    :keyword: MUST
+
+    When the VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'name' parameter is defined as a
+    'comma_delimited_list', a parameter **MUST** be delcared once for all
+    'OS::Nova::Server' resources associated with the '{vm-type}'.
+
+.. req::
+    :id: R-22838
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'name' parameter **MUST NOT** be enumerated
+    in the Heat Orchestration Template's Environment File.
+
+If a VNF's Heat Orchestration Template's contains more than three
+OS::Nova::Server resources of a given {vm-type}, the comma\_delimited\_list
+form of the parameter name (i.e., '{vm-type}\_names') should be used to
+minimize the number of unique parameters defined in the template.
+
+
+*Example: Parameter Definition*
+
+.. code-block:: yaml
+
+  parameters:
+
+  {vm-type}_names:
+    type: comma_delimited_list
+    description: VM Names for {vm-type} VMs
+
+  {vm-type}_name_{index}:
+    type: string
+    description: VM Name for {vm-type} VM {index}
+
+*Example: comma\_delimited\_list*
+
+In this example, the {vm-type} has been defined as "lb" for load balancer.
+
+.. code-block:: yaml
+
+  parameters:
+
+    lb_names:
+      type: comma_delimited_list
+      description: VM Names for lb VMs
+
+  resources:
+    lb_server_0:
+      type: OS::Nova::Server
+      properties:
+        name: { get_param: [lb_names, 0] }
+        ...
+
+    lb_server_1:
+      type: OS::Nova::Server
+      properties:
+        name: { get_param: [lb_names, 1] }
+        ...
+
+*Example: fixed-index*
+
+In this example, the {vm-type} has been defined as "lb" for load balancer.
+
+.. code-block:: yaml
+
+  parameters:
+
+    lb_name_0:
+      type: string
+      description: VM Name for lb VM 0
+
+    lb_name_1:
+      type: string
+      description: VM Name for lb VM 1
+
+  resources:
+
+    lb_server_0:
+      type: OS::Nova::Server
+      properties:
+        name: { get_param: lb_name_0 }
+        ...
+
+    lb_server_1:
+      type: OS::Nova::Server
+      properties:
+        name: { get_param: lb_name_1 }
+        ...
+
+Contrail Issue with Values for OS::Nova::Server Property Name
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-44271
+    :target: VNF
+    :keyword: SHOULD NOT
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'name' parameter value **SHOULD NOT**
+    contain special characters since the Contrail GUI has a limitation
+    displaying special characters.
+
+However, if special characters must be used, the only special characters
+supported are:
+
+-- \" ! $ ' (\ \ ) = ~ ^ | @ ` { } [ ] > , . _
+
+
+Property: availability_zone
+^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+
+.. req::
+    :id: R-98450
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'availability\_zone' parameter name
+    **MUST** follow the naming convention 'availability\_zone\_{index}'
+    where the '{index}' **MUST** start at zero and increment by one.
+
+.. req::
+    :id: R-23311
+    :target: VNF
+    :keyword: MUST
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'availability_zone' parameter **MUST**
+    be declared as type: 'string'.
+
+The parameter must not be declared as type 'comma\_delimited\_list',
+ONAP does not support it.
+
+
+.. req::
+    :id: R-59568
+    :target: VNF
+    :keyword: MUST NOT
+
+    The VNF's Heat Orchestration Template's Resource
+    'OS::Nova::Server' property 'availability_zone' parameter **MUST NOT**
+    be enumerated in the Heat Orchestration Template's Environment File.
+
+Example Parameter Definition
+
+.. code-block:: yaml
+
+  parameters:
+    availability_zone_{index}:
+      type: string
+      description: availability zone {index} name
+
+Requirement :need:`R-90279` states that a VNF Heat Orchestration's template's
+parameter MUST be used in a resource with the exception of the parameters
+for the OS::Nova::Server resource property availability_zone.
+
+
+.. req::
+    :id: R-01359
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchstration Template that contains an
+    'OS::Nova:Server' Resource **MAY** define a parameter for the property
+    'availability_zone' that is not utilized in any 'OS::Nova::Server'
+    resources in the Heat Orchestration Template.
+
+Example
+^^^^^^^^^^^
+
+The example below depicts part of a Heat Orchestration Template that
+uses the four OS::Nova::Server properties discussed in this section.
+
+In the Heat Orchestration Template below, four Virtual
+Machines (OS::Nova::Server) are created: two dns servers with
+{vm-type} set to "dns" and two oam servers with {vm-type} set to "oam".
+Note that the parameter associated with the property name is a
+comma_delimited_list for dns and a string for oam.
+
+.. code-block:: yaml
+
+  parameters:
+
+    dns_image_name:
+      type: string
+      description: dns server image
+
+    dns_flavor_name:
+      type: string
+      description: dns server flavor
+
+    dns_names:
+      type: comma_delimited_list
+      description: dns server names
+
+    oam_image_name:
+      type: string
+      description: oam server image
+
+    oam_flavor_name:
+      type: string
+      description: oam server flavor
+
+    oam_name_0:
+      type: string
+      description: oam server name 0
+
+    oam_name_1:
+      type: string
+      description: oam server name 1
+
+    availability_zone_0:
+      type: string
+      description: availability zone ID or Name
+
+    availability_zone_1:
+      type: string
+      description: availability zone ID or Name
+
+  resources:
+
+    dns_server_0:
+      type: OS::Nova::Server
+      properties:
+        name: { get_param: [ dns_names, 0 ] }
+        image: { get_param: dns_image_name }
+        flavor: { get_param: dns_flavor_name }
+        availability_zone: { get_param: availability_zone_0 }
+
+  . . .
+
+      dns_server_1:
+        type: OS::Nova::Server
+        properties:
+          name: { get_param: [ dns_names, 1 ] }
+          image: { get_param: dns_image_name }
+          flavor: { get_param: dns_flavor_name }
+          availability_zone: { get_param: availability_zone_1 }
+
+  . . .
+
+      oam_server_0:
+        type: OS::Nova::Server
+        properties:
+          name: { get_param: oam_name_0 }
+          image: { get_param: oam_image_name }
+          flavor: { get_param: oam_flavor_name }
+          availability_zone: { get_param: availability_zone_0 }
+
+  . . .
+
+      oam_server_1:
+        type: OS::Nova::Server
+        properties:
+          name: { get_param: oam_name_1 }
+          image: { get_param: oam_image_name }
+          flavor: { get_param: oam_flavor_name }
+          availability_zone: { get_param: availability_zone_1 }
+
+  . . .
+
+Boot Options
+^^^^^^^^^^^^^^^
+
+
+.. req::
+    :id: R-99798
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template's Virtual Machine
+    (i.e., OS::Nova::Server Resource) **MAY** boot from an image or **MAY**
+    boot from a Cinder Volume.
+
+.. req::
+    :id: R-83706
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF's Heat Orchestration Template's Virtual Machine
+    (i.e., 'OS::Nova::Server' Resource) boots from an image, the
+    'OS::Nova::Server' resource property 'image' **MUST** be used.
+
+The requirements associated with
+the 'image' property are detailed in `Property: image`_
+
+
+.. req::
+    :id: R-69588
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF's Heat Orchestration Template's Virtual Machine
+    (i.e., 'OS::Nova::Server' Resource) boots from Cinder Volume, the
+    'OS::Nova::Server' resource property 'block_device_mapping' or
+    'block_device_mapping_v2' **MUST** be used.
+
+There are currently no heat guidelines
+associated with these two properties:
+'block_device_mapping' and 'block_device_mapping_v2'.
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/ONAP Output Parameter Names.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/ONAP Output Parameter Names.rst
new file mode 100644
index 0000000..d2330a6
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/ONAP Output Parameter Names.rst
@@ -0,0 +1,224 @@
+.. 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 Output Parameter Names:
+
+ONAP Output Parameter Names
+-------------------------------------------------------------
+
+ONAP defines three types of Output Parameters as detailed in
+:ref:`Output Parameters`.
+
+ONAP Base Module Output Parameters:
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+ONAP Base Module Output Parameters do not have an explicit naming
+convention.
+
+.. req::
+    :id: R-97726
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Base Module Output
+    Parameter names **MUST** contain {vm-type} and/or {network-role}
+    when appropriate.
+
+ONAP Volume Template Output Parameters:
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+.. req::
+    :id: R-88524
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Volume Template
+    Output Parameter names **MUST** contain {vm-type} when appropriate.
+
+Predefined Output Parameters
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+ONAP currently defines one predefined output parameter the OAM
+Management IP Addresses.
+
+.. _OAM Management IP Addresses:
+
+OAM Management IP Addresses
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+A VNF may have a management interface for application controllers to
+interact with and configure the VNF. Typically, this will be via a
+specific VM that performs a VNF administration function. The IP address
+of this interface must be captured and inventoried by ONAP. The IP
+address might be a VIP if the VNF contains an HA pair of management VMs,
+or may be a single IP address assigned to one VM.
+
+.. req::
+    :id: R-47874
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF **MAY** have
+
+     * Only an IPv4 OAM Management IP Address
+     * Only an IPv6 OAM Management IP Address
+     * Both a IPv4 and IPv6 OAM Management IP Addresses
+
+.. req::
+    :id: R-18683
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF has one IPv4 OAM Management IP Address and the
+    IP Address needs to be inventoried in ONAP's A&AI
+    database, an output parameter **MUST** be declared in only one of the
+    VNF's Heat Orchestration Templates and the parameter **MUST** be named
+    'oam_management_v4_address'.
+
+.. req::
+    :id: R-94669
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF has one IPv6 OAM Management IP Address and the
+    IP Address needs to be inventoried in ONAP's AAI
+    database, an output parameter **MUST** be declared in only one of the
+    VNF's Heat Orchestration Templates and the parameter **MUST** be named
+    'oam_management_v6_address'.
+
+The OAM Management IP Address maybe assigned either via
+  *  ONAP SDN-C
+  *  DHCP
+
+.. req::
+    :id: R-56287
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If the VNF's OAM Management IP Address is assigned by ONAP SDN-C and
+    assigned in the VNF's Heat Orchestration Template's via a heat resource
+    'OS::Neutron::Port' property 'fixed_ips' map property
+    'ip_adress' parameter (e.g., '{vm-type}_{network-role}_ip_{index}',
+    '{vm-type}_{network-role}_v6_ip_{index}')
+    and the OAM IP Address is required to be inventoried in ONAP AAI,
+    then the parameter **MUST** be echoed in an output statement.
+
+.. code-block:: yaml
+
+   outputs:
+       oam_management_v4_address:
+         value: {get_param: {vm-type}_{network-role}_ip_{index} }
+       oam_management_v6_address:
+         value: {get_param: {vm-type}_{network-role}_v6_ip_{index} }
+
+*Example: ONAP SDN-C Assigned IP Address echoed as
+oam_management_v4_address*
+
+.. code-block:: yaml
+
+  parameters:
+    admin_oam_ip_0:
+      type: string
+      description: Fixed IPv4 assignment for admin VM 0 on the OAM network
+  . . .
+  resources:
+    admin_0_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        name:
+          str_replace:
+            template: VNF_NAME_admin_oam_port_0
+            params:
+              VNF_NAME: {get_param: vnf_name}
+        network: { get_param: oam_net_id }
+        fixed_ips: [{ "ip_address": { get_param: admin_oam_ip_0 }}]
+        security_groups: [{ get_param: security_group }]
+    admin_server_0:
+      type: OS::Nova::Server
+      properties:
+        name: { get_param: admin_names }
+        image: { get_param: admin_image_name }
+        flavor: { get_param: admin_flavor_name }
+        availability_zone: { get_param: availability_zone_0 }
+      networks:
+        - port: { get_resource: admin_0_oam_net_port_0 }
+      metadata:
+        vnf_id: { get_param: vnf_id }
+        vf_module_id: { get_param: vf_module_id }
+        vnf_name: {get_param: vnf_name }
+  outputs:
+      oam_management_v4_address:
+        value: {get_param: admin_oam_ip_0 }
+
+
+.. req::
+    :id: R-48987
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If the VNF's OAM Management IP Address is Cloud assigned and
+    and the OAM IP Address is required to be inventoried in ONAP AAI,
+    then the parameter **MUST** be obtained by the resource 'OS::Neutron::Port'
+    attribute 'ip_address'.
+
+.. code-block:: yaml
+
+   outputs:
+       oam_management_v4_address:
+         value: {get_attr: [ {OS::Neutron Port Resource ID}, fixed_ips, 0, ip_address] }
+
+*Example: Cloud Assigned IP Address output as oam_management_v4_address*
+
+.. code-block:: yaml
+
+  parameters:
+  . . .
+  resources:
+    admin_0_oam_port_0:
+      type: OS::Neutron::Port
+      properties:
+        name:
+          str_replace:
+            template: VNF_NAME_admin_oam_0_port
+            params:
+              VNF_NAME: {get_param: vnf_name}
+        network: { get_param: oam_net_id }
+        security_groups: [{ get_param: security_group }]
+    admin_server_0:
+      type: OS::Nova::Server
+      properties:
+        name: { get_param: admin_name_0 }
+        image: { get_param: admin_image_name }
+        flavor: { get_param: admin_flavor_name }
+        availability_zone: { get_param: availability_zone_0 }
+        networks:
+          - port: { get_resource: admin_0_oam_port_0 }
+        metadata:
+          vnf_id: { get_param: vnf_id }
+          vf_module_id: { get_param: vf_module_id }
+          vnf_name: {get_param: vnf_name }
+  outputs:
+    oam_management_v4_address:
+      value: {get_attr: [admin_0_oam_port_0, fixed_ips, 0, ip_address] }
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Resource IDs.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Resource IDs.rst
new file mode 100644
index 0000000..e9635aa
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Resource IDs.rst
@@ -0,0 +1,1080 @@
+.. 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.
+
+Resource IDs
+-------------------------------
+
+Requirement R-75141 states a VNF's Heat Orchestration Template's
+resource name (i.e., <resource ID>) MUST only contain alphanumeric
+characters and underscores ('_').*
+
+Requirement R-16447 states a VNF's <resource ID> MUST be unique
+across all Heat Orchestration Templates and all HEAT Orchestration
+Template Nested YAML files that are used to create the VNF.
+
+As stated previously, OpenStack requires the <resource ID> to be unique
+to the Heat Orchestration Template and not unique across all Heat
+Orchestration Templates the compose the VNF.
+
+Heat Orchestration Template resources are described in :ref:`resources`.
+
+.. req::
+    :id: R-54517
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF's Heat Orchestration Template's resource is associated
+    with a single '{vm-type}', the Resource ID **MUST** contain the '{vm-type}'.
+
+.. req::
+    :id: R-96482
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF's Heat Orchestration Template's resource is associated
+    with a single external network, the Resource ID **MUST** contain the text
+    '{network-role}'.
+
+.. req::
+    :id: R-98138
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF's Heat Orchestration Template's resource is associated
+    with a single internal network, the Resource ID **MUST** contain the text
+    'int\_{network-role}'.
+
+.. req::
+    :id: R-82115
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF's Heat Orchestration Template's resource is associated
+    with a single '{vm-type}' and a single external network, the Resource
+    ID text **MUST** contain both the '{vm-type}' and the '{network-role}'
+
+      - the '{vm-type}' **MUST** appear before the '{network-role}' and **MUST**
+        be separated by an underscore '_'
+
+          - e.g.,'{vm-type}\_{network-role}', '{vm-type}\_{index}\_{network-role}'
+
+      - note that an '{index}' value **MAY** separate the '{vm-type}' and the
+        '{network-role}' and when this occurs underscores **MUST** separate the
+        three values.
+
+.. req::
+    :id: R-82551
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF's Heat Orchestration Template's resource is associated
+    with a single '{vm-type}' and a single internal network, the Resource ID
+    **MUST** contain both the '{vm-type}' and the 'int\_{network-role}' and
+
+      - the '{vm-type}' **MUST** appear before the 'int\_{network-role}' and
+      **MUST** be separated by an underscore '_'
+
+        - e.g.,'{vm-type}\_int\_{network-role}', '{vm-type}_{index}\_int\_{network-role}'
+
+      - note that an '{index}' value **MAY** separate the '{vm-type}' and the
+        'int\_{network-role}' and when this occurs underscores **MUST** separate
+        the three values.
+
+.. req::
+    :id: R-67793
+    :target: VNF
+    :keyword: MUST NOT
+
+    When a VNF's Heat Orchestration Template's resource is associated
+    with more than one '{vm-type}' and/or more than one internal and/or
+    external network, the Resource ID **MUST NOT** contain the '{vm-type}'
+    and/or '{network-role}'/'int\_{network-role}'. It also should contain the
+    term 'shared' and/or contain text that identifies the VNF.
+
+.. req::
+    :id: R-27970
+    :target: VNF
+    :keyword: MAY
+
+    When a VNF's Heat Orchestration Template's resource is associated
+    with more than one '{vm-type}' and/or more than one internal and/or
+    external network, the Resource ID **MAY** contain the term 'shared'
+    and/or **MAY** contain text that identifies the VNF.
+
+.. req::
+    :id: R-11690
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF's Heat Orchestration Template's Resource ID contains
+    an {index} value (e.g. multiple VMs of same {vm-type}), the '{index}'
+    **MUST** start at zero and increment by one.
+
+OpenStack Heat Resources Resource ID Naming Convention
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+Some OpenStack Heat Resources Resource IDs
+have mandatory or suggested naming conventions.  They are provided
+in the following sections.
+
+OS::Cinder::Volume
+~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-87004
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Cinder::Volume Resource ID **SHOULD** use the naming convention
+
+       * {vm-type}_volume_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {index} starts at zero and increments by one
+
+OS::Cinder::VolumeAttachment
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-86497
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Cinder::VolumeAttachment Resource ID **SHOULD** use the naming convention
+
+       * {vm-type}_volume_attachment_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {index} starts at zero and increments by one
+
+OS::Heat::CloudConfig
+~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-04747
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::Heat::CloudConfig' Resource ID **MUST** contain the '{vm-type}'.
+
+.. req::
+    :id: R-20319
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource 'OS::Heat::CloudConfig'
+    Resource ID **MAY** use the naming convention
+
+       * {vm-type}_RCC
+
+    where
+
+       * {vm-type} is the vm-type
+       * 'RCC' signifies that it is the Resource Cloud Config
+
+OS::Heat::MultipartMime
+~~~~~~~~~~~~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-30804
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::Heat::MultipartMime' Resource ID **MUST** contain the '{vm-type}'.
+
+.. req::
+    :id: R-18202
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::Heat::MultipartMime' Resource ID **MAY** use the naming convention
+
+       * {vm-type}_RMM
+
+    where
+
+       * {vm-type} is the vm-type
+       * 'RMM' signifies that it is the Resource Multipart Mime
+
+OS::Heat::ResourceGroup
+~~~~~~~~~~~~~~~~~~~~~~~~
+
+There is only a mandatory naming convention for a 'OS::Heat::ResourceGroup'
+that is is creating sub-interfaces.
+
+.. req::
+    :id: R-64197
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Heat::ResourceGroup Resource ID that creates sub-interfaces **MUST**
+    use the naming convention
+
+       * {vm-type}_{vm-type_index}_subint_{network-role}_port_{port-index}_subinterfaces
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the networks
+         that the sub-interfaces attach to
+       * {port-index} is the instance of the the port on the vm-type
+         attached to the network of {network-role}
+
+OS::Heat::SoftwareConfig
+~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-08975
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::Heat::SoftwareConfig' Resource ID **MUST** contain the '{vm-type}'.
+
+.. req::
+    :id: R-03656
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::Heat::SoftwareConfig' Resource ID **MAY** use the naming convention
+
+       * {vm-type}_RSC
+
+    where
+
+       * {vm-type} is the vm-type
+       * 'RSC' signifies that it is the Resource Software Config
+
+OS::Neutron::Net
+~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-25720
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::Net Resource ID **MUST** use the naming convention
+
+       * int_{network-role}_network
+
+VNF Heat Orchestration Templates can only create internal networks.
+There is no {index} after {network-role} because {network-role}
+**MUST** be unique in the scope of the VNF's
+Heat Orchestration Template.
+
+OS::Neutron::Port
+~~~~~~~~~~~~~~~~~~
+
+
+.. req::
+    :id: R-20453
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::Port that is attaching to an external network Resource ID
+    **MUST** use the naming convention
+
+       * {vm-type}_{vm-type_index}_{network-role}_port_{port-index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port is attached to
+       * {port-index} is the instance of the the port on the vm-type
+         attached to the network of {network-role}
+
+.. req::
+    :id: R-26351
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::Port that is attaching to an internal network Resource ID
+    **MUST** use the naming convention
+
+       * {vm-type}_{vm-type_index}_int_{network-role}_port_{port-index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port is attached to
+       * {port-index} is the instance of the the port on the vm-type
+         attached to the network of {network-role}
+
+.. req::
+    :id: R-27469
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::Port that is creating a *Reserve Port* with an IPv4 address
+    Resource ID **MUST** use the naming convention
+
+       * reserve_port_{vm-type}_{network-role}_floating_ip_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {network-role} is the network-role of the network
+         that the port is attached to
+       * {index} is the instance of the IPv4 *Reserve Port*
+         for the vm-type attached to the network of {network-role}
+
+.. req::
+    :id: R-68520
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource OS::Neutron::Port
+    that is creating a *Reserve Port* with an IPv6 address Resource ID
+    **MUST** use the naming convention
+
+       * reserve_port_{vm-type}_{network-role}_floating_v6_ip_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {network-role} is the network-role of the network
+         that the port is attached to
+       * {index} is the instance of the IPv6 *Reserve Port*
+         for the vm-type attached to the network of {network-role}
+
+OS::Neutron::SecurityGroup
+~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-08775
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::SecurityGroup that is applicable to one {vm-type} and
+    more than one network (internal and/or external) Resource ID
+    **SHOULD** use the naming convention
+
+       * {vm-type}_security_group
+
+    where
+
+       * {vm-type} is the vm-type
+
+.. req::
+    :id: R-03595
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::SecurityGroup that is applicable to more than
+    one {vm-type} and one external network Resource ID **SHOULD**
+    use the naming convention
+
+       * {network-role}_security_group
+
+    where
+
+       * {network-role} is the network-role
+
+.. req::
+    :id: R-73213
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::SecurityGroup that is applicable to more than
+    one {vm-type} and one internal network Resource ID **SHOULD**
+    use the naming convention
+
+       * int_{network-role}_security_group
+
+    where
+
+       * {network-role} is the network-role
+
+.. req::
+    :id: R-17334
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::SecurityGroup that is applicable to one {vm-type}
+    and one external network Resource ID **SHOULD** use the naming convention
+
+       * {vm-type}_{network-role}_security_group
+
+    where
+
+       * {vm-type} is the vm-type
+       * {network-role} is the network-role
+
+.. req::
+    :id: R-14198
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::SecurityGroup that is applicable to one {vm-type}
+    and one internal network Resource ID **SHOULD** use the naming convention
+
+       * {vm-type}_int_{network-role}_security_group
+
+    where
+
+       * {vm-type} is the vm-type
+       * {network-role} is the network-role
+
+.. req::
+    :id: R-30005
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::SecurityGroup that is applicable to more than one
+    {vm-type} and more than one network (internal and/or external)
+    Resource ID **MAY** use the naming convention
+
+       * shared_security_group
+
+    or
+
+       * {vnf-type}_security_group
+
+    where
+
+       * {vnf-type} describes the VNF
+
+OS::Neutron::Subnet
+~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-59434
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Neutron::Subnet Resource ID **SHOULD** use the naming convention
+
+       * int_{network-role}_subnet_{index}
+
+    where
+
+       * {network-role} is the network-role
+       * {index} is the {index} of the subnet of the network
+
+OS::Nova::Keypair
+~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-24997
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::Nova::Keypair applies to one {vm-type} Resource ID **SHOULD**
+    use the naming convention
+
+       * {vm-type}_keypair_{index}
+
+    where
+
+       * {network-role} is the network-role
+       * {index} is the {index} of the keypair
+
+.. req::
+    :id: R-65516
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource OS::Nova::Keypair
+    applies to all Virtual Machines in the the VNF, the Resource ID **SHOULD**
+    use the naming convention
+
+       * {vnf-type}_keypair
+
+    where
+
+       * {vnf-type} describes the VNF
+
+OS::Nova::Server
+~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-29751
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource OS::Nova::Server
+    Resource ID **MUST** use the naming convention
+
+       * {vm-type}_server_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {index} is the index
+
+OS::Nova::ServerGroup
+~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-15189
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource OS::Nova::ServerGroup
+    Resource ID **MAY** use the naming convention
+
+       * {vm-type}_RSG
+
+    or
+
+       * {vm-type}_Server_Grp
+
+    or
+
+       * {vm-type}_ServerGroup
+
+    or
+
+       * {vm-type}_servergroup
+
+Contrail Heat Resources Resource ID Naming Convention
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+Some Contrail Heat Resources Resource IDs
+have mandatory or suggested naming conventions. They are provided
+in the following sections.
+
+
+OS::ContrailV2::InstanceIp
+~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-53310
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::InstanceIp' that is configuring an IPv4 Address
+    on a port attached to an external network Resource ID **MUST**
+    use the naming convention
+
+       *  {vm-type}_{vm-type_index}_{network-role}_vmi_{vmi_index}_IP_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port is attached to
+       * {vmi_index} is the instance of the the virtual machine interface
+         (e.g., port)  on the vm-type
+         attached to the network of {network-role}
+       * 'IP' signifies that an IPv4 address is being configured
+       * {index} is the index of the IPv4 address
+
+.. req::
+    :id: R-46128
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::InstanceIp' that is configuring an
+    IPv6 Address on a port attached to an external network
+    Resource ID **MUST** use the naming convention
+
+       *  {vm-type}_{vm-type_index}_{network-role}_vmi_{vmi_index}_v6_IP_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port is attached to
+       * {vmi_index} is the instance of the the virtual machine interface
+         (e.g., port)  on the vm-type
+         attached to the network of {network-role}
+       * 'v6_IP' signifies that an IPv6 address is being configured
+       * {index} is the index of the IPv6 address
+
+.. req::
+    :id: R-62187
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::InstanceIp' that is configuring an
+    IPv4 Address on a port attached to an internal network
+    Resource ID **MUST** use the naming convention
+
+       *  {vm-type}_{vm-type_index}_int_{network-role}_vmi_{vmi_index}_IP_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port is attached to
+       * {vmi_index} is the instance of the the virtual machine interface
+         (e.g., port)  on the vm-type
+         attached to the network of {network-role}
+       * 'IP' signifies that an IPv4 address is being configured
+       * {index} is the index of the IPv4 address
+
+.. req::
+    :id: R-87563
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::InstanceIp' that is configuring an
+    IPv6 Address on a port attached to an internal network
+    Resource ID **MUST** use the naming convention
+
+       *  {vm-type}_{vm-type_index}_int_{network-role}_vmi_{vmi_index}_v6_IP_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port is attached to
+       * {vmi_index} is the instance of the the virtual machine interface
+         (e.g., port)  on the vm-type
+         attached to the network of {network-role}
+       * 'v6_IP' signifies that an IPv6 address is being configured
+       * {index} is the index of the IPv6 address
+
+.. req::
+    :id: R-20947
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::InstanceIp' that is configuring an IPv4 Address
+    on a sub-interface port attached to a sub-interface network
+    Resource ID **MUST** use the naming convention
+
+       *  {vm-type}_{vm-type_index}_subint_{network-role}_vmi_{vmi_index}_IP_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port is attached to
+       * {vmi_index} is the instance of the the virtual machine interface
+         (e.g., port)  on the vm-type
+         attached to the network of {network-role}
+       * 'IP' signifies that an IPv4 address is being configured
+       * {index} is the index of the IPv4 address
+
+.. req::
+    :id: R-88540
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::InstanceIp' that is configuring an IPv6 Address
+    on a sub-interface port attached to a sub-interface network
+    Resource ID **MUST** use the naming convention
+
+       *  {vm-type}_{vm-type_index}_subint_{network-role}_vmi_{vmi_index}_v6_IP_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port is attached to
+       * {vmi_index} is the instance of the the virtual machine interface
+         (e.g., port)  on the vm-type
+         attached to the network of {network-role}
+       * 'v6_IP' signifies that an IPv6 address is being configured
+       * {index} is the index of the IPv6 address
+
+OS::ContrailV2::InterfaceRouteTable
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-81214
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::InterfaceRouteTable' Resource ID **MUST**
+    contain the '{network-role}'.
+
+.. req::
+    :id: R-28189
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::InterfaceRouteTable' Resource ID **MAY**
+    use the naming convention
+
+       * {network-role}_RIRT
+
+    where
+
+       * {network-role} is the network-role
+       * 'RIRT' signifies that it is the Resource Interface Route Table
+
+OS::ContrailV2::NetworkIpam
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-30753
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::NetworkIpam' Resource ID **MUST**
+    contain the '{network-role}'.
+
+.. req::
+    :id: R-81979
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::NetworkIpam' Resource ID **MAY**
+    use the naming convention
+
+       * {network-role}_RNI
+
+    where
+
+       * {network-role} is the network-role
+       * 'RNI' signifies that it is the Resource Network IPAM
+
+OS::ContrailV2::PortTuple
+~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-20065
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::PortTuple' Resource ID **MUST**
+    contain the '{vm-type}'.
+
+.. req::
+    :id: R-84457
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::PortTuple' Resource ID **MAY**
+    use the naming convention
+
+       * {vm-type}_RPT
+
+    where
+
+       * {vm-type} is the vm-type
+       * 'RPT' signifies that it is the Resource Port Tuple
+
+OS::ContrailV2::ServiceHealthCheck
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-76014
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::ServiceHealthCheck' Resource ID **MUST**
+    contain the '{vm-type}'.
+
+.. req::
+    :id: R-65618
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::ServiceHealthCheck' Resource ID
+    **MAY** use the naming convention
+
+       * {vm-type}_RSHC_{LEFT|RIGHT}
+
+    where
+
+       * {vm-type} is the vm-type
+       * 'RSHC' signifies that it is the Resource Service Health Check
+       * 'LEFT' is used if the Service Health Check is on the left interface
+       * 'RIGHT' is used if the Service Health Check is on the right interface
+
+OS::ContrailV2::ServiceTemplate
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-16437
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::ServiceTemplate' Resource ID **MUST**
+    contain the '{vm-type}'.
+
+.. req::
+    :id: R-14447
+    :target: VNF
+    :keyword: MAY
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    'OS::ContrailV2::ServiceTemplate' Resource ID **MAY**
+    use the naming convention
+
+       * {vm-type}_RST_{index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * 'RST' signifies that it is the Resource Service Template
+       * '{index}' is is the index
+
+OS::ContrailV2::VirtualMachineInterface
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-96253
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::ContrailV2::VirtualMachineInterface that is attaching
+    to an external network Resource ID **MUST**
+    use the naming convention
+
+       * {vm-type}_{vm-type_index}_{network-role}_vmi_{vmi_index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port (i.e. virtual machine interface) is attached to
+       * {vmi_index} is the instance of the the vmi on the vm-type
+         attached to the network of {network-role}
+
+.. req::
+    :id: R-50468
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::ContrailV2::VirtualMachineInterface that is attaching
+    to an internal network Resource ID **MUST** use the naming convention
+
+       * {vm-type}_{vm-type_index}_int_{network-role}_vmi_{vmi_index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port (i.e. virtual machine interface) is attached to
+       * {vmi_index} is the instance of the the vmi on the vm-type
+         attached to the network of {network-role}
+
+.. req::
+    :id: R-54458
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::ContrailV2::VirtualMachineInterface that is attaching to
+    a sub-interface network Resource ID **MUST** use the naming convention
+
+       * {vm-type}_{vm-type_index}_subint_{network-role}_vmi_{vmi_index}
+
+    where
+
+       * {vm-type} is the vm-type
+       * {vm-type_index} is the instance of the {vm-type}
+       * {network-role} is the network-role of the network
+         that the port (i.e. virtual machine interface) is attached to
+       * {vmi_index} is the instance of the the vmi on the vm-type
+         attached to the network of {network-role}
+
+OS::ContrailV2::VirtualNetwork
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+.. req::
+    :id: R-99110
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A VNF's Heat Orchestration Template's Resource
+    OS::ContrailV2::VirtualNetwork Resource ID **MUST**
+    use the naming convention
+
+       * 'int_{network-role}_network'
+
+    or
+
+       * 'int_{network-role}_RVN' where RVN represents Resource Virtual Network
+
+VNF Heat Orchestration Templates can only create internal networks.
+There is no {index} after {network-role} because {network-role}
+**MUST** be unique in the scope of the VNF's
+Heat Orchestration Template.
+
+Note that the first option is preferred.
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Resource Property.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Resource Property.rst
new file mode 100644
index 0000000..006175d
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Resource Property.rst
@@ -0,0 +1,147 @@
+.. 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.
+
+Resource Property "name"
+----------------------------
+
+The parameter naming convention of the property name for the
+resource OS::Nova::Server has been defined in
+:ref:`Nova Server - Metadata Parameters`.
+
+This section provides the requirements how the property name for non
+OS::Nova::Server resources must be defined when the property is used.
+Not all resources require the property name (e.g., it is optional) and
+some resources do not support the property.
+
+.. req::
+    :id: R-85734
+    :target: VNF
+    :keyword: MUST
+
+    If a VNF's Heat Orchestration Template contains the property 'name'
+    for a non 'OS::Nova::Server' resource, the intrinsic function
+    'str_replace' **MUST** be used in conjunction with the ONAP
+    supplied metadata parameter 'vnf_name' to generate a unique value.
+
+This prevents the enumeration of a
+unique value for the property name in a per instance environment file.
+
+.. req::
+    :id: R-99812
+    :target: VNF
+    :keyword: MUST NOT
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    A value for VNF's Heat Orchestration Template's property 'name'
+    for a non 'OS::Nova::Server' resource **MUST NOT** be declared
+    in the VNF's Heat Orchestration Template's Environment File.
+
+In most cases the use of the metadata value 'vnf_name' is required to create a
+unique property name.  If this will not provide a unique value,
+additional options include:
+
+ - Using the Heat Orchestration Template pseudo parameter
+   'OS::stack_name' in the str_replace construct
+ - Resources created in a nested heat file invoked by an
+   'OS::Heat::ResourceGroup' can use the 'index' to construct a unique name
+
+
+.. req::
+    :id: R-32408
+    :target: VNF
+    :keyword: MUST
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    If a VNF's Heat Orchestration Template property 'name'
+    for a non 'OS::Nova::Server' resource uses the intrinsic function
+    'str_replace' in conjunction with the ONAP
+    supplied metadata parameter 'vnf_name' and does not create
+    a unique value, additional data **MUST** be used in the
+    'str_replace' to create a unique value, such as 'OS::stack_name'
+    and/or the 'OS::Heat::ResourceGroup' 'index'.
+
+*Example: Property 'name' for resource 'OS::Neutron::SecurityGroup'*
+
+.. code-block:: yaml
+
+  resources:
+    DNS_SECURITY_GROUP:
+      type: OS::Neutron::SecurityGroup
+      properties:
+        description: vDNS security group
+        name:
+          str_replace:
+            template: VNF_NAME_sec_grp_DNS
+            params:
+              VNF_NAME: {get_param: vnf_name}
+        rules: [. . . . .]
+
+*Example: Property 'name' for resource 'OS::Cinder::Volume'*
+
+.. code-block:: yaml
+
+  resources:
+    dns_volume_0:
+      type: OS::Cinder::Volume
+      properties:
+        description: Cinder Volume
+        name:
+          str_replace:
+            template: VNF_NAME_STACK_NAME_dns_volume
+            params:
+              VNF_NAME: {get_param: vnf_name}
+              STACK_NAME: { get_param: 'OS::stack_name' }
+  . . . .
+
+*Example: Property 'name' for resource 'OS::Cinder::Volume' invoked by a
+'OS::Heat::ResourceGroup'*
+
+.. code-block:: yaml
+
+  resources:
+    dns_volume_0:
+      type: OS::Cinder::Volume
+      properties:
+        description: Cinder Volume
+        name:
+          str_replace:
+              template: VNF_NAME_STACK_NAME_dns_volume_INDEX
+              params:
+                  VNF_NAME: { get_param: vnf_name }
+                  STACK_NAME: { get_param: 'OS::stack_name' }
+                  INDEX: { get_param: index }
+  . . . .
+
+Contrail Issue with Values for the Property Name
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+
+.. req::
+    :id: R-84517
+    :target: VNF
+    :keyword: SHOULD
+    :test: no test found
+    :test_case: no test found
+    :test_file: no test found
+
+    The Contrail GUI has a limitation displaying special characters.
+    The issue is documented in
+    https://bugs.launchpad.net/juniperopenstack/+bug/1590710.
+    It is recommended that special **SHOULD** characters be avoided.
+    However, if special characters must be used, note that for
+    the following resources:
+
+       * Virtual Machine
+       * Virtual Network
+       * Port
+       * Security Group
+       * Policies
+       * IPAM Creation
+
+    the only special characters supported
+    are - \" ! $\ \ ' ( ) = ~ ^ | @ ` { } [ ] > , . _"
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Suggested Naming Convention for Common Parameters.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Suggested Naming Convention for Common Parameters.rst
new file mode 100644
index 0000000..416b1f0
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/Suggested Naming Convention for Common Parameters.rst
@@ -0,0 +1,95 @@
+.. 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.
+
+Suggested Naming Convention for Common Parameters
+----------------------------------------------------------------------------------------------------------
+
+Many VNFs use the parameters in the table below are used in user_data.
+The table below provides a suggested naming convention for these common
+parameters.
+
+Netmask
+^^^^^^^^^^^^^^^^^^
+
+.. csv-table:: **Table 8: Suggested Naming Convention for Common Parameters:  Netmask**
+   :header: Parameter Name,Parameter Type,Notes
+   :align: center
+   :widths: auto
+
+   {network-role}_subnet_<index>_netmask, string,
+   int_<network-role>_subnet_<index>_netmask, string,
+   {network-role}_v6_subnet_<index>_netmask , string,
+   int_{network-role}_v6_subnet_<index>_netmask, string,
+
+CIDR
+^^^^^^^^^^^^^^^^^^
+
+.. csv-table:: **Table 9: Suggested Naming Convention for Common Parameters:  CIDR**
+   :header: Parameter Name,Parameter Type,Notes
+   :align: center
+   :widths: auto
+
+   <network-role>_subnet_<index>_cidr, string,
+   int_<network-role>_subnet_<index>_cidr, string,
+   <network-role>_v6_subnet_<index>_cidr, string,
+   int_<network-role>_v6_subnet_<index>_cidr, string,
+
+Default Gateway
+^^^^^^^^^^^^^^^^^^
+
+.. csv-table:: **Table 10: Suggested Naming Convention for Common Parameters:  Default Gateway**
+   :header: Parameter Name,Parameter Type,Notes
+   :align: center
+   :widths: auto
+
+   {network-role}_subnet_<index>_default_gateway, string,
+   {network-role}_v6_subnet_<index>_default_gateway, string,
+
+DCAE Collector IP Address
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+.. csv-table:: **Table 11: Suggested Naming Convention for Common Parameters:  DCAE Collector Address**
+   :header: Parameter Name,Parameter Type,Notes
+   :align: center
+   :widths: auto
+
+   dcae_collector_ip_<index>, string,
+   dcae_collector_v6_ip_<index>, string,
+
+NTP Server IP Address
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+.. csv-table:: **Table 12: Suggested Naming Convention for Common Parameters:  NTP Server IP Address**
+   :header: Parameter Name,Parameter Type,Notes
+   :align: center
+   :widths: auto
+
+   ntp_ip_<index>, string,
+   ntp_v6_ip_<index>, string,
+
+DNS
+^^^^^^^^^^^^^^^^^^
+
+.. csv-table:: **Table 13: Suggested Naming Convention for Common Parameters:  DCAE Collector Address**
+   :header: Parameter Name,Parameter Type,Notes
+   :align: center
+   :widths: auto
+
+   dns_{network-role}_ip_<index>, string,
+   dns_{network-role}_v6_ip_<index>, string,
+
+Security Group
+^^^^^^^^^^^^^^^^^^
+
+.. csv-table:: **Table 14: Suggested Naming Convention for Common Parameters:  Security Group**
+   :header: Parameter Name,Parameter Type,Notes
+   :align: center
+   :widths: auto
+
+   {vm-type}_security_group, string, Security Group applicable to one {vm-type} and more than one network (internal and/or external)
+   {network-role}_security_group, string, Security Group applicable to more than one {vm-type} and one external network
+   int_{network-role}_security_group, string, Security Group applicable to more than one {vm-type} and one internal network
+   {vm-type}_{network-role}_security_group, string, Security Group applicable to one {vm-type} and one external network
+   {vm-type}_int_{network-role}_security_group, string, Security Group applicable to one {vm-type} and one internal network
+   shared_security_group, string, Security Group applicable to more than one {vm-type} and more than one network (internal and/or external)
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/index.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/index.rst
new file mode 100644
index 0000000..3306cbd
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/index.rst
@@ -0,0 +1,29 @@
+.. 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 Resource ID and Parameter Naming Convention:
+
+ONAP Heat Resource ID and Parameter Naming Convention
+=======================================================
+
+This section provides the ONAP naming requirements for:
+
+1. Resource IDs
+
+2. Resource Property Parameters
+
+.. toctree::
+    :maxdepth: 2
+
+    {vm-type}
+    {network-role}
+    Resource IDs
+    Nova Parameters
+    Nova Metadata Parameters
+    Neutron Parameters
+    Resource Property
+    ONAP Output Parameter Names
+    Contrail Resource Parameters
+    Suggested Naming Convention for Common Parameters
+
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/{network-role}.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/{network-role}.rst
new file mode 100644
index 0000000..ac0d603
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/{network-role}.rst
@@ -0,0 +1,94 @@
+.. 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.
+
+{network-role}
+-----------------------------
+
+The assignment of a {network-role} is discussed in
+:ref:`ONAP Heat Networking`.
+
+.. req::
+    :id: R-21330
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's Resource property
+    parameter that is associated with external network **MUST**
+    include the '{network-role}' as part of the parameter name.
+
+.. req::
+    :id: R-11168
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's Resource ID that is
+    associated with an external network **MUST** include the
+    '{network-role}' as part of the resource ID.
+
+.. req::
+    :id: R-84322
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's Resource property
+    parameter that is associated with an internal network
+    **MUST** include 'int\_{network-role}' as part of the parameter
+    name, where 'int\_' is a hard coded string.
+
+.. req::
+    :id: R-96983
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's Resource ID that is
+    associated with an internal network **MUST** include
+    'int\_{network-role}' as part of the Resource ID, where
+    'int\_' is a hard coded string.
+
+.. req::
+    :id: R-26506
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's '{network-role}'
+    **MUST** contain only alphanumeric characters and/or
+    underscores '_' and **MUST NOT** contain any of the following
+    strings: '_int' or 'int\_' or '\_int\_'.
+
+.. req::
+    :id: R-00977
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's '{network-role}'
+    **MUST NOT** be a substring of '{vm-type}'.
+
+For example, if a VNF has a '{vm-type}' of 'oam' and a
+'{network-role}' of 'oam\_protected' would be a violation of the requirement.
+
+
+.. req::
+    :id: R-58424
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's use of '{network-role}'
+    in all Resource property parameter names **MUST** be the same case.
+
+.. req::
+    :id: R-21511
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's use of '{network-role}'
+    in all Resource IDs **MUST** be the same case.
+
+.. req::
+    :id: R-86588
+    :target: VNF
+    :keyword: SHOULD
+
+    A VNF's Heat Orchestration Template's '{network-role}' case
+    in Resource property parameter names **SHOULD** match the case
+    of '{network-role}' in Resource IDs and vice versa.
diff --git a/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/{vm-type}.rst b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/{vm-type}.rst
new file mode 100644
index 0000000..2a947a7
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Resource ID and Parameter Naming Convention/{vm-type}.rst
@@ -0,0 +1,107 @@
+.. 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.
+
+
+{vm-type}
+-----------------
+
+
+.. req::
+    :id: R-01455
+    :target: VNF
+    :keyword: MUST
+
+    When a VNF's Heat Orchestration Template creates a
+    Virtual Machine  (i.e., 'OS::Nova::Server'), each 'class' of VMs
+    **MUST** be assigned a VNF unique '{vm-type}'; where 'class'
+    defines VMs that **MUST** have the following identical characteristics:
+
+      1.) OS::Nova::Server property flavor value
+
+      2.) OS::Nova::Server property image value
+
+      3.) Cinder Volume attachments
+
+          - Each VM in the 'class' **MUST** have the identical Cinder Volume
+            configuration
+
+      4.) Network attachments and IP address requirements
+
+          - Each VM in the 'class' **MUST** have the the identical number
+            of ports connecting to the identical networks and requiring the
+            identical IP address configuration.
+
+.. req::
+    :id: R-82481
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's Resource property
+    parameter that is associated with a unique Virtual Machine
+    type **MUST** include '{vm-type}'  as part of the parameter
+    name with two exceptions:
+
+      1.) The Resource OS::Nova::Server property availability_zone parameter
+      **MUST NOT** be prefixed with a common '{vm-type} identifier,
+
+      2.) The Resource OS::Nova::Server eight mandatory and optional metadata
+      parameters (vnf_name, vnf_id, vf_module_id, vf_module_name, vm_role,
+      vf_module_index, environment_context, workload_context) **MUST NOT**
+      be prefixed with a common '{vm-type}' identifier.
+
+.. req::
+    :id: R-66729
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's Resource that is
+    associated with a unique Virtual Machine type **MUST** include
+    '{vm-type}' as part of the resource ID.
+
+.. req::
+    :id: R-98407
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's '{vm-type}' **MUST** contain
+    only alphanumeric characters and/or underscores '_' and
+    **MUST NOT** contain any of the following strings: '_int' or 'int\_'
+    or '\_int\_'.
+
+.. req::
+    :id: R-48067
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template's {vm-type} **MUST NOT** be a
+    substring of {network-role}.
+
+It may cause the VNF Validation Program validation-scripts project
+to produce erroneous error messages.
+
+
+.. req::
+    :id: R-32394
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's use of '{vm-type}'
+    in all Resource property parameter names **MUST** be the same case.
+
+.. req::
+    :id: R-46839
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's use of
+    '{vm-type}' in all Resource IDs **MUST** be the same case.
+
+.. req::
+    :id: R-36687
+    :target: VNF
+    :keyword: SHOULD
+
+    A VNF's Heat Orchestration Template's '{vm-type}' case in
+    Resource property parameter names **SHOULD** match the case of
+    '{vm-type}' in Resource IDs and vice versa.
diff --git a/docs/Chapter5/Heat/ONAP Heat Support of Environment Files.rst b/docs/Chapter5/Heat/ONAP Heat Support of Environment Files.rst
new file mode 100644
index 0000000..ba8cd68
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Support of Environment Files.rst
@@ -0,0 +1,85 @@
+.. 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 Support of Environment Files:
+
+ONAP Heat Support of Environment Files
+-----------------------------------------
+
+The use of an environment file in OpenStack is optional.  In ONAP, it is
+mandatory. A Heat Orchestration Template uploaded to ONAP must have a
+corresponding environment file, even if no parameters are required to
+be enumerated.
+
+(Note that ONAP does not programmatically enforce the use of
+an environment file.)
+
+.. req::
+    :id: R-67205
+    :target: VNF
+    :keyword: MUST
+
+    The VNF Heat Orchestration Template **MUST** have a corresponding
+    environment file for a Base Module.
+
+.. req::
+    :id: R-35727
+    :target: VNF
+    :keyword: MUST
+
+    The VNF Heat Orchestration Template **MUST** have a
+    corresponding environment file for an Incremental module.
+
+.. req::
+    :id: R-22656
+    :target: VNF
+    :keyword: MUST
+
+    The VNF Heat Orchestration Template **MUST** have a
+    corresponding environment file for a Cinder Volume Module.
+
+A nested heat template must not have an environment file; OpenStack does
+not support it.
+
+The environment file must contain parameter values for the ONAP
+Orchestration Constants and VNF Orchestration Constants. These
+parameters are identical across all instances of a VNF type, and
+expected to change infrequently. The ONAP Orchestration Constants are
+associated with OS::Nova::Server image and flavor properties (See
+:ref:`Property image` and :ref:`Property flavor`). Examples of VNF
+Orchestration Constants are the networking parameters associated
+with an internal network (e.g., private IP ranges) and Cinder
+volume sizes.
+
+The environment file must not contain parameter values for parameters
+that are instance specific (ONAP Orchestration Parameters, VNF
+Orchestration Parameters). These parameters are supplied to the Heat by
+ONAP at orchestration time.
+
+SDC Treatment of Environment Files
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+Parameter values enumerated in the environment file are used by SDC as
+the default value. However, the SDC user may use the SDC GUI to
+overwrite the default values in the environment file.
+
+SDC generates a new environment file for distribution to SO based on
+the uploaded environment file and the user provided GUI updates. The
+user uploaded environment file is discarded when the new file is
+created. Note that if the user did not change any values via GUI
+updates, the SDC generated environment file will contain the same values
+as the uploaded file.
+
+Use of Environment Files when using OpenStack "heat stack-create" CLI
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+When ONAP is instantiating the Heat Orchestration Template, certain
+parameter must not be enumerated in the environment file. This document
+provides the details of what parameters should not be enumerated.
+
+If the Heat Orchestration Template is to be instantiated from the
+OpenStack Command Line Interface (CLI) using the command "heat
+stack-create", all parameters must be enumerated in the environment
+file.
+
diff --git a/docs/Chapter5/Heat/ONAP Heat Template Constructs.rst b/docs/Chapter5/Heat/ONAP Heat Template Constructs.rst
new file mode 100644
index 0000000..f24d2f4
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat Template Constructs.rst
@@ -0,0 +1,876 @@
+.. 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 Heat Template Constructs:
+
+ONAP Heat Heat Template Constructs
+--------------------------------------
+
+.. _Nested Heat Templates:
+
+Nested Heat Templates
+^^^^^^^^^^^^^^^^^^^^^^^^^
+
+ONAP supports nested Heat templates per the OpenStack specifications.
+Nested templates may be suitable for larger VNFs that contain many
+repeated instances of the same VM type(s). A common usage pattern is to
+create a nested template for each {vm-type} along with its supporting
+resources. The VNF module may then reference these component templates
+either statically by repeated definition or dynamically by using the
+resource OS::Heat::ResourceGroup.
+
+Nested Heat Template Requirements
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+ONAP supports nested Heat Orchestration Templates. A Base Module,
+Incremental Module, and Cinder Volume Module may use nested heat.
+
+
+.. req::
+    :id: R-00228
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template **MAY**
+    reference the nested heat statically by repeated definition.
+
+.. req::
+    :id: R-01101
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Template **MAY**
+    reference the nested heat dynamically using the resource
+    'OS::Heat::ResourceGroup'.
+
+.. req::
+    :id: R-60011
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template **MUST** have no more than
+    two levels of nesting.
+
+As stated in :need:`R-67231` a VNF's Heat Orchestration template's
+Environment File's **MUST NOT** contain the "resource_registry:" section.
+
+Two levels of nesting is defined as follows:  A base module, incremental
+module, or cinder volume module references a nested heat file either
+statically or by using the resource 'OS::Heat::ResourceGroup'.
+This file is the first level of nesting.
+If first level file then references a nested file, that file is
+the second level of nesting.
+
+
+.. req::
+    :id: R-89868
+    :target: VNF
+    :keyword: MUST
+
+    The VNF Heat Orchestration Template **MUST** have unique
+    file names within the scope of the VNF for a nested heat yaml file.
+
+.. req::
+    :id: R-52530
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's Nested YAML file
+    **MUST** be in the same directory hierarchy as the VNF's Heat
+    Orchestration Templates.
+
+.. req::
+    :id: R-90022
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Nested YAML file **MAY** be invoked more than
+    once by a VNF's Heat Orchestration Template.
+
+.. req::
+    :id: R-04344
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Nested YAML file **MAY** be invoked by more than one of
+    a VNF's Heat Orchestration Templates (when the VNF is composed of two
+    or more Heat Orchestration Templates).
+
+.. req::
+    :id: R-11041
+    :target: VNF
+    :keyword: MUST
+
+    All parameters defined in a VNFs Nested YAML file
+    **MUST** be passed in as properties of the resource calling
+    the nested yaml file.
+
+Note that:
+
+-  As stated in requirement :need:`R-00011`, a VNF's Heat Orchestration
+   Template's Nested YAML file's parameter's **MUST NOT** have
+   a parameter constraint defined.
+
+-  As stated in Requirement :need:`R-44491`, if a VNF's Heat Orchestration
+   Template's OS::Nova::Server Resource metadata map value parameter
+   'vnf\_id' is passed into a Nested YAML
+   file, the parameter name 'vnf\_id' **MUST NOT** change.
+
+-  As stated in Requirement :need:`R-86237`, if a VNF's Heat Orchestration
+   Template's OS::Nova::Server Resource metadata map value parameter
+   'vf\_module\_id' is passed into a Nested YAML
+   file, the parameter name 'vf\_module\_id' **MUST NOT** change.
+
+-  As stated in Requirement :need:`R-16576`, if a VNF's Heat Orchestration
+   Template's OS::Nova::Server Resource metadata map value parameter
+   'vnf\_name' is passed into a Nested YAML
+   file, the parameter name 'vnf\_name' **MUST NOT** change.
+
+-  As stated in Requirement :need:`R-49177`, if a VNF's Heat Orchestration
+   Template's OS::Nova::Server Resource metadata map value parameter
+   'vf\_module\_name' is passed into a Nested YAML
+   file, the parameter name 'vf\_module\_name' **MUST NOT** change.
+
+-  As stated in Requirement :need:`R-70757`, if a VNF's Heat Orchestration
+   Template's OS::Nova::Server Resource metadata map value parameter
+   'vm\_role' is passed into a Nested YAML
+   file, the parameter name 'vm\_role' **MUST NOT** change.
+
+-  As stated in Requirement :need:`R-22441`, if a VNF's Heat Orchestration
+   Template's OS::Nova::Server Resource metadata map value parameter
+   'vf\_module\_index' is passed into a Nested YAML
+   file, the parameter name 'vf\_module\_index' **MUST NOT** change.
+
+-  As stated in Requirement :need:`R-75202`, if a VNF's Heat Orchestration
+   Template's OS::Nova::Server Resource metadata map value parameter
+   'workload\_context' is passed into a Nested YAML
+   file, the parameter name 'workload\_context' **MUST NOT** change.
+
+-  As stated in Requirement :need:`R-62954`, if a VNF's Heat Orchestration
+   Template's OS::Nova::Server Resource metadata map value parameter
+   'environment\_context' is passed into a Nested YAML
+   file, the parameter name 'environment\_context' **MUST NOT** change.
+
+-  With nested templates, outputs are required to expose any resource
+   properties of the child templates to the parent template. Those would
+   not explicitly be declared as parameters but simply referenced as
+   get\_attribute targets against the "parent" resource.
+
+-  A parameter declared in the outputs: section of a nested template can
+   be accessed from the parent template as an attribute (i.e., via
+   get\_attr) of the "pseudo resource" whose type is in the nested
+   template. In the case of a OS::Heat::ResourceGroup, an output will be
+   an attribute of the OS::Heat::ResourceGroup itself, and will be an
+   array from the perspective of the parent template.
+
+.. req::
+    :id: R-17528
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's first level Nested YAML file
+    **MUST NOT** contain more than one ``OS::Nova::Server`` resource.
+    A VNF's Heat Orchestration Template's second level Nested YAML file
+    **MUST NOT** contain an ``OS::Nova::Server`` resource.
+
+Nested Heat Template Example: Static
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+incremental.yaml
+
+.. code-block:: yaml
+
+ Resources:
+   dns_server_0:
+     type: nested.yaml
+     properties:
+       dns_image_name: { get_param: dns_image_name }
+       dns_flavor_name: { get_param: dns_flavor_name }
+       availability_zone: { get_param: availability_zone_0 }
+       security_group: { get_param: DNS_shared_sec_grp_id }
+       oam_net_id: { get_param: oam_protected_net_id }
+       dns_oam_ip: { get_param: dns_oam_ip_0 }
+       dns_name: { get_param: dns_name_0 }
+       vnf_name: { get_param: vnf_name }
+       vnf_id: { get_param: vnf_id }
+       vf_module_id: {get_param: vf_module_id}
+
+ dns_server_1:
+   type: nested.yaml
+   properties:
+     dns_image_name: { get_param: dns_image_name }
+     dns_flavor_name: { get_param: dns_flavor_name }
+     availability_zone: { get_param: availability_zone_1 }
+     security_group: { get_param: DNS_shared_sec_grp_id }
+     oam_net_id: { get_param: oam_protected_net_id }
+     dns_oam_ip: { get_param: dns_oam_ip_1 }
+     dns_name: { get_param: dns_name_1 }
+     vnf_name: { get_param: vnf_name }
+     vnf_id: { get_param: vnf_id }
+     vf_module_id: {get_param: vf_module_id}
+
+nested.yaml
+
+.. code-block:: yaml
+
+ dns_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_id }
+     fixed_ips: [{ "ip_address": { get_param: dns_oam_ip }}]
+     security_groups: [{ get_param: security_group }]
+
+ dns_servers:
+   type: OS::Nova::Server
+   properties:
+     name: { get_param: dns_names }
+     image: { get_param: dns_image_name }
+     flavor: { get_param: dns_flavor_name }
+     availability_zone: { get_param: availability_zone }
+     networks:
+       - port: { get_resource: dns_oam_0_port }
+     metadata:
+       vnf_id: { get_param: vnf_id }
+       vf_module_id: { get_param: vf_module_id }
+       vnf_name {get_param: vnf_name }
+
+Use of Heat ResourceGroup
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+The OS::Heat::ResourceGroup is a useful Heat element for creating
+multiple instances of a given resource or collection of resources.
+Typically, it is used with a nested Heat template, to create, for
+example, a set of identical OS::Nova::Server resources plus their
+related OS::Neutron::Port resources via a single resource in a master
+template.
+
+OS::Heat::ResourceGroup may be used to simplify the structure of a Heat
+template that creates multiple instances of the same VM type.
+
+However, there are important caveats to be aware of:
+
+OS::Heat::ResourceGroup does not deal with structured parameters
+(comma-delimited-list and json) as one might typically expect. In
+particular, when using a list-based parameter, where each list element
+corresponds to one instance of the ResourceGroup, it is not possible to
+use the intrinsic "loop variable" %index% in the OS::Heat::ResourceGroup
+definition.
+
+For instance, the following is **not** valid Heat for
+OS::Heat::ResourceGroup:
+
+.. code-block:: yaml
+
+ type: OS::Heat::ResourceGroup
+   resource_def:
+     type: my_nested_vm_template.yaml
+     properties:
+       name: {get_param: [vm_name_list, "%index%"]}
+
+Although this appears to use the nth entry of the vm_name_list list for
+the nth element of the OS::Heat::ResourceGroup, it will in fact result
+in a Heat exception. When parameters are provided as a list (one for
+each element of a OS::Heat::ResourceGroup), you must pass the complete
+parameter to the nested template along with the current index as
+separate parameters.
+
+Below is an example of an **acceptable** Heat Syntax for a
+ResourceGroup:
+
+.. code-block:: yaml
+
+ type: OS::Heat::ResourceGroup
+   resource_def:
+     type: my_nested_vm_template.yaml
+     properties:
+       names: {get_param: vm_name_list}
+       index: "%index%"
+
+You can then reference within the nested template as:
+
+{ get\_param: [names, {get\_param: index} ] }
+
+OS::Heat::ResourceGroup Property count
+++++++++++++++++++++++++++++++++++++++++
+
+
+.. req::
+    :id: R-50011
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's 'OS::Heat::ResourceGroup'
+    property 'count' **MUST** be enumerated in the VNF's
+    Heat Orchestration Template's Environment File and **MUST** be
+    assigned a value.
+
+This is required for ONAP to build the TOSCA model for the VNF.
+
+.. code-block:: yaml
+
+ type: OS::Heat::ResourceGroup
+ properties:
+   count: { get_param: count }
+   index_var: index
+   resource_def:
+     type: my_nested_vm_template.yaml
+     properties:
+       names: {get_param: vm_name_list}
+       index: index
+
+Availability Zone and ResourceGroups
+++++++++++++++++++++++++++++++++++++++++
+
+The resource OS::Heat::ResourceGroup and the property availability\_zone
+has been an "issue" with a few VNFs since ONAP only supports
+availability\_zone as a string parameter and not a
+comma\_delimited\_list. This makes it difficult to use a
+OS::Heat::ResourceGroup to create Virtual Machines in more
+than one availability zone.
+
+There are numerous solutions to this issue. Below are two suggested
+usage patterns.
+
+**Option 1:** create a CDL in the OS::Heat::ResourceGroup. In the
+resource type: OS::Heat::ResourceGroup, create a comma\_delimited\_list
+availability\_zones by using the intrinsic function list\_join.
+
+.. code-block:: yaml
+
+ <resource name>:
+  type: OS::Heat::ResourceGroup
+  properties:
+    count: { get_param: node_count }
+    index_var: index
+    resource_def:
+      type: nested.yaml
+      properties:
+        index: index
+        avaialability_zones: { list_join: [',', [ { get_param: availability_zone_0 }, { get_param: availability_zone_1 } ] ] }
+
+In the nested heat
+
+.. code-block:: yaml
+
+ parameters:
+   avaialability_zones:
+     type: comma_delimited_list
+     description:
+
+ resources:
+   servers:
+     type: OS::Nova::Server
+     properties:
+       name: { get_param: [ dns_names, get_param: index ] }
+       image: { get_param: dns_image_name }
+       flavor: { get_param: dns_flavor_name }
+       availability_zone: { get_param: [ avaialability_zones, get_param: index ] }
+
+**Option 2:** Create a CDL by passing the availability zone parameter
+into a nested heat template. An example is provided below.
+
+base.yaml
+
+.. code-block:: yaml
+
+  availability_zone_list:
+     type: az_list_generate.yaml
+     properties:
+       availability_zone_0: { get_param: availability_zone_0 }
+       availability_zone_1: { get_param: availability_zone_1 }
+
+    create_virtual_machines:
+      type: OS::Heat::ResourceGroup
+      properties:
+        count: { get_param: count }
+        index_var: $INDEX
+        resource_def:
+          type: nest_file.yaml
+          properties:
+            index: $INDEX
+            availability_zone_0 : { get_attr: [availability_zone_list, general_zones ] }
+            . . .
+
+az_list_generate.yaml
+
+.. code-block:: yaml
+
+  parameters:
+    availability_zone_0:
+      type: string
+      description: availability zone 0
+
+    availability_zone_1:
+      type: string
+      description: availability zone 1
+
+  outputs:
+
+    general_zones:
+      value: [
+        { get_param: availability_zone_0 },
+        { get_param: availability_zone_1 },
+        { get_param: availability_zone_0 },
+        { get_param: availability_zone_1 },
+        { get_param: availability_zone_0 },
+        { get_param: availability_zone_1 },
+  ]
+
+
+Nested Heat Template Example: OS::Heat::ResourceGroup
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++
+
+In this example, ocgapp\_volume.yml creates volumes using a
+OS::Heat::ResourceGroup that uses nested heat by calling
+ocgapp_nested_volume.yml. ocgapp\_volume.yml has an outputs: parameter
+ocgapp\_volume\_ids which is declared a input parameter of type: json in
+ocgapp\_volume.yml.
+
+
+This is an example of requirement :need:`R-07443`, where
+a VNF's Heat Orchestration Templates' Cinder Volume Module Output
+Parameter's name and type **MUST** match the input parameter name and type
+in the corresponding Base Module or Incremental Module unless the Output
+Parameter is of the type 'comma\_delimited\_list', then the corresponding
+input parameter **MUST** be declared as type 'json'.
+
+ocgapp\_volume.yml
+
+.. code-block:: yaml
+
+  heat_template_version: 2014-10-16
+
+  description: Template for the volumes
+
+  parameters:
+    vnf_name:
+      type: string
+      label: OCG VNF Name
+      description: OCG VNF Name
+    ocgapp_volume_size_0:
+      type: number
+      label: Cinder volume 1 size
+      description: the size of the Cinder volume
+      constraints:
+      - range: { min: 100, max: 400 }
+    ocgapp_volume_type_0:
+      type: string
+      label: app vm 1 volume type
+      description: the name of the target volume backend for the first OCG APP
+    volume_count:
+      type: number
+      label: volume count
+      description: number of volumes needed
+
+  resources:
+    ocgapp_volume_resource_group:
+      type: OS::Heat::ResourceGroup
+      properties:
+        count: {get_param: volume_count}
+        index_var: index
+        resource_def:
+          type: ocgapp_nested_volume.yml
+          properties:
+            index: index
+            size: {get_param: ocgapp_volume_size_0}
+            volume_type: {get_param: ocgapp_volume_type_0}
+            vnf_name: {get_param: vnf_name}
+
+  outputs:
+    ocgapp_volume_ids:
+    description: ocgapp volume ids
+    value: {get_attr: [ocgapp_volume_resource_group, ocgapp_volume_id_0]}
+
+ocgapp_nested_volume.yml
+
+.. code-block:: yaml
+
+ heat_template_version: 2014-10-16
+
+ description: nested heat
+
+ parameters:
+   index:
+     type: number
+     label: Volume Index
+     description: number of volumes to spin up
+   size:
+     type: number
+     label: Volume Size
+     description: size of the cinder volumes
+   volume_type:
+     type: string
+     label: Volume Type
+     description: type of cinder volumes
+   vnf_name:
+     type: string
+     label: VNF Name
+     description: vnf name
+
+ resources:
+   ocgapp_volume_0:
+     type: OS::Cinder::Volume
+     properties:
+       size: {get_param: size}
+       volume_type: {get_param: volume_type}
+       name:
+         str_replace:
+           template: VF_NAME_STACK_NAME_INDEX
+           params:
+             VF_NAME: { get_param: vnf_name }
+             STACK_NAME: { get_param: 'OS::stack_name' }
+             INDEX: {get_param: index}
+
+ outputs:
+   ocgapp_volume_id_0:
+   description: the ocgapp volume uuid
+   value: {get_resource: ocgapp_volume_0}
+
+The heat template below is a partial heat template,
+
+ocgapp.yml
+
+.. code-block:: yaml
+
+  heat_template_version: 2014-10-16
+
+  #file version 1.0
+  description: OCG Apps template
+
+  parameters:
+    ocgapp_volume_ids:
+      type: json
+      description: Unique IDs for volumes
+
+  resources:
+    ocgapp_server_0:
+      type: OS::Nova::Server
+      properties:
+    . . . .
+    ocgapp_server_1:
+      type: OS::Nova::Server
+      properties:
+    . . . .
+    ocgapp_volume_attachment_0:
+      type: OS::Cinder::VolumeAttachment
+      properties:
+        volume_id: {get_param: [ocgapp_volume_ids, 0]}
+        instance_uuid: {get_resource: ocgapp_server_0}
+    ocgapp_volume_attachment_1:
+      type: OS::Cinder::VolumeAttachment
+      properties:
+        volume_id: {get_param: [ocgapp_volume_ids, 1]}
+        instance_uuid: {get_resource: ocgapp_server_1}
+
+External References
+^^^^^^^^^^^^^^^^^^^^^^
+
+Heat templates *should not* reference any HTTP-based resource
+definitions, any HTTP-based nested configurations, or any HTTP-based
+environment files.
+
+-  During orchestration, ONAP *should not* retrieve any such resources
+   from external/untrusted/unknown sources.
+
+-  VNF images should not contain such references in user-data or other
+   configuration/operational scripts that are specified via Heat or
+   encoded into the VNF image itself.
+
+*Note:* HTTP-based references are acceptable if the HTTP-based reference
+is accessing information with the VM private/internal network.
+
+Note that Namespaces in XML (defined at
+http://www.w3.org/TR/2009/REC-xml-names-20091208/) are allowed if the
+Heat Orchestration Template is describing and storing software
+configuration information. An XML namespace is identified by a URI
+reference. A Uniform Resource Identifier (URI) is a string of characters
+which identifies an Internet Resource. The most common URI is the
+Uniform Resource Locator (URL) which identifies an Internet domain
+address. Another, not so common type of URI is the Universal Resource
+Name (URN). The namespace URI is not used by XML the parser to look up
+information. The purpose of using an URI is to give the namespace a
+unique name.
+
+Heat Files Support (get\_file)
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+Heat Templates may contain the inclusion of text files into Heat
+templates via the Heat get\_file directive. This may be used, for
+example, to define a common "user-data" script, or to inject files into
+a VM on startup via the "personality" property.
+
+Support for Heat Files is subject to the following limitations:
+
+
+.. req::
+    :id: R-76718
+    :target: VNF
+    :keyword: MUST
+
+    If a VNF's Heat Orchestration Template uses the intrinsic function
+    'get\_file', the 'get\_file' target **MUST** be referenced in
+    the Heat Orchestration Template by file name.
+
+The 'get\_file' target files are on-boarded to SDC in the same package
+that contains the VNF's complete Heat Orchestration Template.
+
+
+.. req::
+    :id: R-41888
+    :target: VNF
+    :keyword: MUST NOT
+
+    A VNF's Heat Orchestration Template intrinsic function
+    'get\_file' **MUST NOT** utilize URL-based file retrieval.
+
+.. req::
+    :id: R-62177
+    :target: VNF
+    :keyword: MUST
+
+    When using the intrinsic function get_file, the included files
+    **MUST** have unique file names within the scope of the VNF.
+
+.. req::
+    :id: R-87848
+    :target: VNF
+    :keyword: MUST
+
+    A VNF's Heat Orchestration Template's 'get\_file' target files
+    **MUST** be in the same directory hierarchy as the VNF's Heat
+    Orchestration Templates.
+
+ONAP does not support a hierarchical structure.  A VNF's YAML files
+must be in a single, flat directory.
+
+
+.. req::
+    :id: R-05050
+    :target: VNF
+    :keyword: MAY
+
+    A VNF's Heat Orchestration Templates intrinsic function
+    'get\_file' <content key> **MAY** be used:
+
+        * more than once in a VNF's Heat Orchestration Template
+        * in two or more of a VNF's Heat Orchestration Templates
+        * in a VNF's Heat Orchestration Templates nested YAML file
+
+Key Pairs
+^^^^^^^^^^
+
+When Nova Servers are created via Heat templates, they may be passed a
+"keypair" which provides an ssh key to the 'root' login on the newly
+created VM. This is often done so that an initial root key/password does
+not need to be hard-coded into the image.
+
+Key pairs are unusual in OpenStack, because they are the one resource
+that is owned by an OpenStack User as opposed to being owned by an
+OpenStack Tenant. As a result, they are usable only by the User that
+created the keypair. This causes a problem when a Heat template attempts
+to reference a keypair by name, because it assumes that the keypair was
+previously created by a specific ONAP user ID.
+
+When a keypair is assigned to a server, the SSH public-key is
+provisioned on the VMs at instantiation time. They keypair itself is not
+referenced further by the VM (i.e. if the keypair is updated with a new
+public key, it would only apply to subsequent VMs created with that
+keypair).
+
+Due to this behavior, the recommended usage of keypairs is in a more
+generic manner which does not require the pre-requisite creation of a
+keypair. The Heat should be structured in such a way as to:
+
+-  Pass a public key as a parameter value instead of a keypair name
+
+-  Create a new keypair within The VNF Heat Orchestration Template (in the
+   base module) based on an existing public key for use within that VNF
+
+By following this approach, the end result is the same as pre-creating
+the keypair using the public key – i.e., that public key will be
+provisioned in the new VM. However, this recommended approach also makes
+sure that a known public key is supplied (instead of having OpenStack
+generate a public/private pair to be saved and tracked outside of ONAP).
+It also removes any access/ownership issues over the created keypair.
+
+The public keys may be enumerated as a VNF Orchestration Constant in the
+environment file (since it is public, it is not a secret key), or passed
+at run-time as instance-specific parameters. ONAP will never
+automatically assign a public/private key pair.
+
+*Example (create keypair with an existing ssh public-key for {vm-type}
+of lb (for load balancer)):*
+
+.. code-block:: yaml
+
+ parameters:
+    vnf_name:
+       type: string
+    lb_ssh_public_key:
+       type: string
+
+ resources:
+    my_keypair:
+       type: OS::Nova::Keypair
+       properties:
+          name:
+             str_replace:
+                template: VNF_NAME_key_pair
+                params:
+                VNF_NAME: { get_param: vnf_name }
+          public_key: {get_param: lb_ssh_public_key}
+          save_private_key: false
+
+Security Groups
+^^^^^^^^^^^^^^^^^
+
+OpenStack allows a tenant to create Security groups and define rules
+within the security groups.
+
+Security groups, with their rules, may either be created in the Heat
+Orchestration Template or they can be pre-created in OpenStack and
+referenced within the Heat template via parameter(s). There can be a
+different approach for security groups assigned to ports on internal
+(intra-VNF) networks or external networks (inter-VNF). Furthermore,
+there can be a common security group across all VMs for a specific
+network or it can vary by VM (i.e., {vm-type}) and network type (i.e.,
+{network-role}).
+
+Anti-Affinity and Affinity Rules
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+Anti-affinity or affinity rules are supported using normal OpenStack
+OS::Nova::ServerGroup resources. Separate ServerGroups are typically
+created for each VM type to prevent them from residing on the same host,
+but they can be applied to multiple VM types to extend the
+affinity/anti-affinity across related VM types as well.
+
+*Example:*
+
+In this example, the {network-role} has been defined as oam to represent
+an oam network and the {vm-type} have been defined as lb for load
+balancer and db for database.
+
+.. code-block:: yaml
+
+ resources:
+ db_server_group:
+    type: OS::Nova::ServerGroup
+    properties:
+       name:
+          str_replace:
+             params:
+                $vnf_name: {get_param: vnf_name}
+             template: $vnf_name-server_group1
+       policies:
+          - anti-affinity
+
+ lb_server_group:
+    type: OS::Nova::ServerGroup
+    properties:
+       name:
+          str_replace:
+             params:
+                $vnf_name: {get_param: vnf_name}
+             template: $vnf_name-server_group2
+       policies:
+          - affinity
+
+ db_0:
+    type: OS::Nova::Server
+    properties:
+    ...
+    scheduler_hints:
+       group: {get_resource: db_server_group}
+
+ db_1:
+    type: OS::Nova::Server
+    properties:
+    ...
+    scheduler_hints:
+       group: {get_resource: db_server_group}
+
+ lb_0:
+    type: OS::Nova::Server
+    properties:
+    ...
+    scheduler_hints:
+       group: {get_resource: lb_server_group} 
+
+Resource Data Synchronization
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+For cases where synchronization is required in the orchestration of Heat
+resources, two approaches are recommended:
+
+-  Standard Heat depends\_on property for resources
+
+   -  Assures that one resource completes before the dependent resource
+      is orchestrated.
+
+   -  Definition of completeness to OpenStack may not be sufficient
+      (e.g., a VM is considered complete by OpenStack when it is ready
+      to be booted, not when the application is up and running).
+
+-  Use of Heat Notifications
+
+   -  Create OS::Heat::WaitCondition and OS::Heat::WaitConditionHandle
+      resources.
+
+   -  Pre-requisite resources issue *wc\_notify* commands in user\_data.
+
+   -  Dependent resource define depends\_on in the
+      OS::Heat::WaitCondition resource.
+
+*Example: "depends\_on" case*
+
+In this example, the {network-role} has been defined as oam to represent
+an oam network and the {vm-type} has been defined as oam to represent an
+oam server.
+
+.. code-block:: yaml
+
+ resources:
+   oam_server_01:
+     type: OS::Nova::Server
+     properties:
+       name: {get_param: [oam_ names, 0]}
+       image: {get_param: oam_image_name}
+       flavor: {get_param: oam_flavor_name}
+       availability_zone: {get_param: availability_zone_0}
+       networks:
+         - port: {get_resource: oam01_port_0}
+         - port: {get_resource: oam01_port_1}
+       user_data:
+       scheduler_hints: {group: {get_resource: oam_servergroup}}
+       user_data_format: RAW
+
+ oam_01_port_0:
+   type: OS::Neutron::Port
+   properties:
+     network: {get_resource: oam_net_name}
+     fixed_ips: [{"ip_address": {get_param: [oam_oam_net_ips, 1]}}]
+     security_groups: [{get_resource: oam_security_group}]
+
+ oam_01_port_1:
+   type: OS::Neutron::Port
+   properties:
+     network: {get_param: oam_net_name}
+     fixed_ips: [{"ip_address": {get_param: [oam_oam_net_ips, 2]}}]
+     security_groups: [{get_resource: oam_security_group}]
+
+ oam_01_vol_attachment:
+   type: OS::Cinder::VolumeAttachment
+   depends_on: oam_server_01
+   properties:
+     volume_id: {get_param: oam_vol_1}
+     mountpoint: /dev/vdb
+     instance_uuid: {get_resource: oam_server_01}
+
+
diff --git a/docs/Chapter5/Heat/ONAP Heat VNF Modularity.rst b/docs/Chapter5/Heat/ONAP Heat VNF Modularity.rst
new file mode 100644
index 0000000..70ba197
--- /dev/null
+++ b/docs/Chapter5/Heat/ONAP Heat VNF Modularity.rst
@@ -0,0 +1,311 @@
+.. 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 }
+  ...
+
diff --git a/docs/Chapter5/Heat/index.rst b/docs/Chapter5/Heat/index.rst
new file mode 100644
index 0000000..361764b
--- /dev/null
+++ b/docs/Chapter5/Heat/index.rst
@@ -0,0 +1,23 @@
+.. 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.
+
+
+Heat
+=======
+
+.. toctree::
+    :maxdepth: 3
+
+    General Guidelines for Heat
+    ONAP Heat Orchestration Template Format
+    ONAP Heat Orchestration Templates: Overview
+    ONAP Heat Networking
+    ONAP Heat Resource ID and Parameter Naming Convention/index
+    ONAP Heat VNF Modularity
+    ONAP Heat Cinder Volumes
+    ONAP Heat Support of Environment Files
+    ONAP Heat Template Constructs
+    ONAP Heat High Availability
+    ONAP Heat Post Orchestration & VNF Configuration
+
diff --git a/docs/Chapter5/index.rst b/docs/Chapter5/index.rst
index 0969316..8cdc423 100644
--- a/docs/Chapter5/index.rst
+++ b/docs/Chapter5/index.rst
@@ -20,6 +20,6 @@ VNF Modeling Requirements
     :maxdepth: 2
 
     Tosca
-    Heat
+    Heat/index.rst
     VNFM-Driver-Development-Steps
     Creating-Vendor-Specific-VNFM-Adaptor-Microservices